/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63091.58 Mb (on task=14), Smallest =   62876.70 Mb (on task=0), Average =   63039.05 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=11), Smallest =   64531.71 Mb (on task=14), Average =   64532.01 Mb
Committed_AS:	 Largest =    1655.29 Mb (on task=0), Smallest =    1440.12 Mb (on task=14), Average =    1492.97 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=2), Smallest =   16265.98 Mb (on task=6), Average =   16310.73 Mb
AllocMem:	 Largest =    1655.29 Mb (on task=0), Smallest =    1440.12 Mb (on task=14), Average =    1492.97 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 45 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N1':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         56000
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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

reading file `data//snapshot_029_z000p000/snap_029_z000p000.11.hdf5' on task=33 (contains 35884187 particles.)
distributing this file to tasks 33-35
Type 0 (gas):   16794623  (tot=     0270235548) masstab=0
Type 1 (halo):  17820010  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14780  (tot=     0000254233) masstab=0
Type 3 (bulge):   146779  (tot=     0002602064) masstab=0
Type 4 (stars):  1105845  (tot=     0016382561) masstab=0
Type 5 (bndry):     2150  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.15.hdf5' on task=43 (contains 36004477 particles.)
distributing this file to tasks 43-44
Type 0 (gas):   16887972  (tot=     0270235548) masstab=0
Type 1 (halo):  17808490  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11850  (tot=     0000254233) masstab=0
Type 3 (bulge):   237019  (tot=     0002602064) masstab=0
Type 4 (stars):  1057030  (tot=     0016382561) masstab=0
Type 5 (bndry):     2116  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.14.hdf5' on task=42 (contains 36184106 particles.)
distributing this file to tasks 42-42
Type 0 (gas):   16967694  (tot=     0270235548) masstab=0
Type 1 (halo):  18110060  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13076  (tot=     0000254233) masstab=0
Type 3 (bulge):   113359  (tot=     0002602064) masstab=0
Type 4 (stars):   977826  (tot=     0016382561) masstab=0
Type 5 (bndry):     2091  (tot=     0000035210) masstab=0


Allocated 16264.6 MByte for particle storage.

Allocated 11545.7 MByte for storage of SPH data.

Allocated 2732.47 MByte for storage of MET data.

Allocated 293.224 MByte for storage of BH data.


reading file `data//snapshot_029_z000p000/snap_029_z000p000.0.hdf5' on task=0 (contains 35985373 particles.)
distributing this file to tasks 0-4
Type 0 (gas):   16805939  (tot=     0270235548) masstab=0
Type 1 (halo):  17773354  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18892  (tot=     0000254233) masstab=0
Type 3 (bulge):   174577  (tot=     0002602064) masstab=0
Type 4 (stars):  1210408  (tot=     0016382561) masstab=0
Type 5 (bndry):     2203  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.12.hdf5' on task=36 (contains 35900299 particles.)
distributing this file to tasks 36-38
Type 0 (gas):   16962916  (tot=     0270235548) masstab=0
Type 1 (halo):  17876568  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     23563  (tot=     0000254233) masstab=0
Type 3 (bulge):   123459  (tot=     0002602064) masstab=0
Type 4 (stars):   911666  (tot=     0016382561) masstab=0
Type 5 (bndry):     2127  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.6.hdf5' on task=20 (contains 36221662 particles.)
distributing this file to tasks 20-21
Type 0 (gas):   16884755  (tot=     0270235548) masstab=0
Type 1 (halo):  18131783  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19430  (tot=     0000254233) masstab=0
Type 3 (bulge):   216126  (tot=     0002602064) masstab=0
Type 4 (stars):   967394  (tot=     0016382561) masstab=0
Type 5 (bndry):     2174  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.13.hdf5' on task=39 (contains 35952044 particles.)
distributing this file to tasks 39-41
Type 0 (gas):   16874565  (tot=     0270235548) masstab=0
Type 1 (halo):  17822558  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17297  (tot=     0000254233) masstab=0
Type 3 (bulge):   189413  (tot=     0002602064) masstab=0
Type 4 (stars):  1046074  (tot=     0016382561) masstab=0
Type 5 (bndry):     2137  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.1.hdf5' on task=5 (contains 36092966 particles.)
distributing this file to tasks 5-7
Type 0 (gas):   16855345  (tot=     0270235548) masstab=0
Type 1 (halo):  17892911  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13986  (tot=     0000254233) masstab=0
Type 3 (bulge):   335505  (tot=     0002602064) masstab=0
Type 4 (stars):   993111  (tot=     0016382561) masstab=0
Type 5 (bndry):     2108  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.10.hdf5' on task=31 (contains 35949924 particles.)
distributing this file to tasks 31-32
Type 0 (gas):   16883015  (tot=     0270235548) masstab=0
Type 1 (halo):  17930118  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11046  (tot=     0000254233) masstab=0
Type 3 (bulge):   109389  (tot=     0002602064) masstab=0
Type 4 (stars):  1014063  (tot=     0016382561) masstab=0
Type 5 (bndry):     2293  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.3.hdf5' on task=11 (contains 35847242 particles.)
distributing this file to tasks 11-15
Type 0 (gas):   17006466  (tot=     0270235548) masstab=0
Type 1 (halo):  17823253  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19330  (tot=     0000254233) masstab=0
Type 3 (bulge):    86845  (tot=     0002602064) masstab=0
Type 4 (stars):   909048  (tot=     0016382561) masstab=0
Type 5 (bndry):     2300  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.5.hdf5' on task=19 (contains 36049651 particles.)
distributing this file to tasks 19-19
Type 0 (gas):   16987158  (tot=     0270235548) masstab=0
Type 1 (halo):  17866982  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16813  (tot=     0000254233) masstab=0
Type 3 (bulge):   157853  (tot=     0002602064) masstab=0
Type 4 (stars):  1018609  (tot=     0016382561) masstab=0
Type 5 (bndry):     2236  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.7.hdf5' on task=22 (contains 36208773 particles.)
distributing this file to tasks 22-26
Type 0 (gas):   16880557  (tot=     0270235548) masstab=0
Type 1 (halo):  18195081  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11902  (tot=     0000254233) masstab=0
Type 3 (bulge):   107120  (tot=     0002602064) masstab=0
Type 4 (stars):  1011789  (tot=     0016382561) masstab=0
Type 5 (bndry):     2324  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.2.hdf5' on task=8 (contains 35979538 particles.)
distributing this file to tasks 8-10
Type 0 (gas):   16922683  (tot=     0270235548) masstab=0
Type 1 (halo):  17673950  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10206  (tot=     0000254233) masstab=0
Type 3 (bulge):   169297  (tot=     0002602064) masstab=0
Type 4 (stars):  1201203  (tot=     0016382561) masstab=0
Type 5 (bndry):     2199  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.8.hdf5' on task=27 (contains 35824825 particles.)
distributing this file to tasks 27-29
Type 0 (gas):   16875572  (tot=     0270235548) masstab=0
Type 1 (halo):  17708963  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     22649  (tot=     0000254233) masstab=0
Type 3 (bulge):   198598  (tot=     0002602064) masstab=0
Type 4 (stars):  1016825  (tot=     0016382561) masstab=0
Type 5 (bndry):     2218  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.9.hdf5' on task=30 (contains 35915310 particles.)
distributing this file to tasks 30-30
Type 0 (gas):   16772074  (tot=     0270235548) masstab=0
Type 1 (halo):  18052456  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20318  (tot=     0000254233) masstab=0
Type 3 (bulge):   129460  (tot=     0002602064) masstab=0
Type 4 (stars):   938755  (tot=     0016382561) masstab=0
Type 5 (bndry):     2247  (tot=     0000035210) masstab=0


reading file `data//snapshot_029_z000p000/snap_029_z000p000.4.hdf5' on task=16 (contains 36169969 particles.)
distributing this file to tasks 16-18
Type 0 (gas):   16874214  (tot=     0270235548) masstab=0
Type 1 (halo):  18174193  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9095  (tot=     0000254233) masstab=0
Type 3 (bulge):   107265  (tot=     0002602064) masstab=0
Type 4 (stars):  1002915  (tot=     0016382561) masstab=0
Type 5 (bndry):     2287  (tot=     0000035210) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576170346


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=15.5525 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30837.9 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31280.2 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 31280.2 Mbyte (on task=1), Smallest = 31280.2 Mbyte, Average = 31280.2 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    195.3703     246.1126  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    195.3703     441.4829  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    195.3703     636.8531  allocate_memory()/allocate.c/61
   1 2969 0                 P  15629.6204   16266.4735  allocate_memory()/allocate.c/67
   1 2970 0              SphP  11545.7075   27812.1810  allocate_memory()/allocate.c/85
   1 2971 0              MetP   2732.4675   30544.6485  allocate_memory()/allocate.c/105
   1 2972 0               BHP    293.2241   30837.8726  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes     20.3186   30858.2131  domain_allocate()/domain.c/570
   1 2976 0        domain_key    390.7405   31248.9537  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      1.5630   31250.5187  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      1.5630   31252.0817  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      1.5630   31253.6446  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      1.5630   31255.2076  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      1.5630   31256.7713  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      1.5630   31258.3349  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes     21.8815   31280.2165  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=32785
After=34857
NTopleaves= 30500  NTopnodes=34857 (space for 409722)
gravity work-load balance=1.01037   memory-balance=1.01038   SPH work-load balance=1.01299
iter=0 exchange of 0563237188 particles (ret=0)
domain decomposition done. (took 61.7777 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.16 MByte in top-level domain structure

Allocated 6414.13 MByte for BH-tree, and 0.116348 Mbyte for top-leaves.  (presently allocted 37253.9 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 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...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 37964.1 Mbyte (on task=43), Smallest = 37819.5 Mbyte, Average = 37898.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  43 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
  43 2966 0  NextActiveParticle    195.3703     246.1126  allocate_memory()/allocate.c/55
  43 2967 0     NextInTimeBin    195.3703     441.4829  allocate_memory()/allocate.c/58
  43 2968 0     PrevInTimeBin    195.3703     636.8531  allocate_memory()/allocate.c/61
  43 2969 0                 P  15629.6204   16266.4735  allocate_memory()/allocate.c/67
  43 2970 0              SphP  11545.7075   27812.1810  allocate_memory()/allocate.c/85
  43 2971 0              MetP   2732.4675   30544.6485  allocate_memory()/allocate.c/105
  43 2972 0               BHP    293.2241   30837.8726  allocate_memory()/allocate.c/126
  43 2975 0          TopNodes      1.7286   30839.6232  domain_allocate()/domain.c/570
  43 2976 0   DomainNodeIndex      0.1163   30839.7395  force_treeallocate()/forcetree.c/4800
  43 2977 0        Nodes_base   3285.4116   34125.1512  force_treeallocate()/forcetree.c/4803
  43 2978 0     Extnodes_base   2737.8430   36862.9942  force_treeallocate()/forcetree.c/4811
  43 2979 0          Nextnode    195.5032   37058.4974  force_treeallocate()/forcetree.c/4820
  43 2980 0            Father    195.3703   37253.8677  force_treeallocate()/forcetree.c/4827
  43 2981 0           Ngblist     49.0134   37302.8811  density()/density.c/690
  43 2982 0              Left     98.0268   37400.9079  density()/density.c/692
  43 2983 0             Right     98.0268   37498.9348  density()/density.c/693
  43 2984 0    DataIndexTable      7.0175   37505.9523  density()/density.c/738
  43 2985 0      DataNodeList     18.7134   37524.6657  density()/density.c/740
  43 2986 0       DensDataGet    131.0503   37655.7161  density()/density.c/893
  43 2987 0    DensDataResult    172.7482   37828.4642  density()/density.c/931
  43 2988 0       DensDataOut    135.6724   37964.1367  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0003713758 particles.
ngb iteration 2: need to repeat for 0000002963 particles.
ngb iteration 3: need to repeat for 0000001083 particles.
ngb iteration 4: need to repeat for 0000000837 particles.
ngb iteration 5: need to repeat for 0000000360 particles.
ngb iteration 6: need to repeat for 0000000268 particles.
ngb iteration 7: need to repeat for 0000000119 particles.
ngb iteration 8: need to repeat for 0000000017 particles.
ngb iteration 9: need to repeat for 0000000011 particles.
ngb iteration 10: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.000.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.049.hdf5

Begin to compute FoF group catalogues...  (presently allocated=37253.9 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30837.9 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31280.2 MB)
Before=33353
After=36529
NTopleaves= 31963  NTopnodes=36529 (space for 409722)
gravity work-load balance=1.00875   memory-balance=1.00877   SPH work-load balance=1.00657
iter=0 exchange of 0563064892 particles (ret=0)
domain decomposition done. (took 25.4162 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0834 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=30839.7 MB)
Tree construction.

Start linking particles (presently allocated=37840.9 MB)
links on local processor done (took 56.6493 sec).
Marked=0032018460 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=38110.5 MB) 
have done 0000461172 cross links (processed 0032018460, took 10.2054 sec)
have done 0000189879 cross links (processed 0024853241, took 9.47933 sec)
have done 0000131369 cross links (processed 0020438889, took 13.1954 sec)
have done 0000078382 cross links (processed 0011776475, took 7.40669 sec)
have done 0000045874 cross links (processed 0007678034, took 5.54385 sec)
have done 0000027080 cross links (processed 0005992352, took 6.81992 sec)
have done 0000015826 cross links (processed 0001854580, took 4.73488 sec)
have done 0000007244 cross links (processed 0000478776, took 0.860968 sec)
have done 0000003943 cross links (processed 0000282266, took 0.841829 sec)
have done 0000001886 cross links (processed 0000184479, took 0.756879 sec)
have done 0000000670 cross links (processed 0000010317, took 0.169049 sec)
have done 0000000258 cross links (processed 0000003725, took 0.167126 sec)
have done 0000000090 cross links (processed 0000001069, took 0.166535 sec)
have done 0000000024 cross links (processed 0000000334, took 0.166364 sec)
have done 0000000004 cross links (processed 0000000088, took 0.165898 sec)
have done 0000000001 cross links (processed 0000000017, took 0.16623 sec)
have done 0000000000 cross links (processed 0000000002, took 0.165858 sec)
Local groups found.

group finding took = 118.144 sec
Start finding nearest dm-particle (presently allocated=37840.9 MB)
still finding nearest... (presently allocated=38075.3 MB)
fof-nearest iteration 1: need to repeat for 258223854 particles.
still finding nearest... (presently allocated=38081.4 MB)
fof-nearest iteration 2: need to repeat for 245928688 particles.
still finding nearest... (presently allocated=38093.8 MB)
fof-nearest iteration 3: need to repeat for 220604835 particles.
still finding nearest... (presently allocated=38109.6 MB)
fof-nearest iteration 4: need to repeat for 178476110 particles.
still finding nearest... (presently allocated=38119.2 MB)
fof-nearest iteration 5: need to repeat for 121976224 particles.
still finding nearest... (presently allocated=38118.8 MB)
fof-nearest iteration 6: need to repeat for 58952362 particles.
still finding nearest... (presently allocated=38106.6 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 48.5941 sec
compiling local group data and catalogue took = 6.10297 sec

Total number of groups with at least 32 particles: 159930
Largest group has 49680047 particles.
Total number of particles in groups: 0219986041

group properties are now allocated.. (presently allocated=31626.1 MB)
computation of group properties took = 0.998124 sec
start global sorting of group catalogues number 29
LargestGroup = 20605.878967; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.302184 sec
Group catalogues globally sorted. took = 4.61581 sec
starting saving of group catalogue number 29
data//groups_029_z000p000
Group catalogues number 29 saved. took = 3.32979 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (270235548).
tree build for species 0 took 3.22263 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0160805945 particles. (took 85.2877 sec)
ngb iteration 2: need to repeat for 0096763263 particles. (took 53.7261 sec)
ngb iteration 3: need to repeat for 0081957993 particles. (took 26.9417 sec)
ngb iteration 4: need to repeat for 0074424483 particles. (took 20.8932 sec)
ngb iteration 5: need to repeat for 0066146345 particles. (took 18.5961 sec)
ngb iteration 6: need to repeat for 0053997500 particles. (took 16.2302 sec)
ngb iteration 7: need to repeat for 0039020169 particles. (took 13.2986 sec)
ngb iteration 8: need to repeat for 0025122346 particles. (took 9.76608 sec)
ngb iteration 9: need to repeat for 0014822731 particles. (took 6.5143 sec)
ngb iteration 10: need to repeat for 0008253180 particles. (took 4.17271 sec)
ngb iteration 11: need to repeat for 0004432452 particles. (took 2.61135 sec)
ngb iteration 12: need to repeat for 0002332098 particles. (took 1.67799 sec)
ngb iteration 13: need to repeat for 0001213720 particles. (took 1.11897 sec)
ngb iteration 14: need to repeat for 0000558018 particles. (took 0.743452 sec)
ngb iteration 15: need to repeat for 0000152422 particles. (took 0.51002 sec)
ngb iteration 16: need to repeat for 0000048582 particles. (took 0.320735 sec)
ngb iteration 17: need to repeat for 0000019634 particles. (took 0.264483 sec)
ngb iteration 18: need to repeat for 0000010023 particles. (took 0.247544 sec)
ngb iteration 19: need to repeat for 0000005863 particles. (took 0.24236 sec)
ngb iteration 20: need to repeat for 0000003820 particles. (took 0.239649 sec)
ngb iteration 21: need to repeat for 0000002540 particles. (took 0.239011 sec)
ngb iteration 22: need to repeat for 0000001752 particles. (took 0.238224 sec)
ngb iteration 23: need to repeat for 0000001305 particles. (took 0.238167 sec)
ngb iteration 24: need to repeat for 0000001049 particles. (took 0.23776 sec)
ngb iteration 25: need to repeat for 0000000832 particles. (took 0.237568 sec)
ngb iteration 26: need to repeat for 0000000679 particles. (took 0.23797 sec)
ngb iteration 27: need to repeat for 0000000514 particles. (took 0.237437 sec)
ngb iteration 28: need to repeat for 0000000351 particles. (took 0.237801 sec)
ngb iteration 29: need to repeat for 0000000225 particles. (took 0.237207 sec)
ngb iteration 30: need to repeat for 0000000135 particles. (took 0.237159 sec)
ngb iteration 31: need to repeat for 0000000068 particles. (took 0.237332 sec)
ngb iteration 32: need to repeat for 0000000033 particles. (took 0.237421 sec)
ngb iteration 33: need to repeat for 0000000017 particles. (took 0.237237 sec)
ngb iteration 34: need to repeat for 0000000010 particles. (took 0.23715 sec)
ngb iteration 35: need to repeat for 0000000003 particles. (took 0.237163 sec)
ngb iteration 36: need to repeat for 0000000002 particles. (took 0.237617 sec)
final operations ... 
density and smoothing length for species 0 took 269.322 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.59172 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0167216604 particles. (took 128.348 sec)
ngb iteration 2: need to repeat for 0102087168 particles. (took 54.7201 sec)
ngb iteration 3: need to repeat for 0079212262 particles. (took 29.2496 sec)
ngb iteration 4: need to repeat for 0068321113 particles. (took 20.8593 sec)
ngb iteration 5: need to repeat for 0059874549 particles. (took 17.0687 sec)
ngb iteration 6: need to repeat for 0049541287 particles. (took 14.6477 sec)
ngb iteration 7: need to repeat for 0037204121 particles. (took 12.2233 sec)
ngb iteration 8: need to repeat for 0025379962 particles. (took 9.23101 sec)
ngb iteration 9: need to repeat for 0016067928 particles. (took 6.53993 sec)
ngb iteration 10: need to repeat for 0009665745 particles. (took 4.30081 sec)
ngb iteration 11: need to repeat for 0005636487 particles. (took 2.80281 sec)
ngb iteration 12: need to repeat for 0003236462 particles. (took 1.847 sec)
ngb iteration 13: need to repeat for 0001850813 particles. (took 1.25052 sec)
ngb iteration 14: need to repeat for 0001005917 particles. (took 0.883499 sec)
ngb iteration 15: need to repeat for 0000473092 particles. (took 0.627721 sec)
ngb iteration 16: need to repeat for 0000248490 particles. (took 0.409481 sec)
ngb iteration 17: need to repeat for 0000140500 particles. (took 0.322726 sec)
ngb iteration 18: need to repeat for 0000081884 particles. (took 0.286269 sec)
ngb iteration 19: need to repeat for 0000047648 particles. (took 0.268653 sec)
ngb iteration 20: need to repeat for 0000027023 particles. (took 0.259692 sec)
ngb iteration 21: need to repeat for 0000014777 particles. (took 0.254279 sec)
ngb iteration 22: need to repeat for 0000007863 particles. (took 0.252206 sec)
ngb iteration 23: need to repeat for 0000004081 particles. (took 0.24984 sec)
ngb iteration 24: need to repeat for 0000002054 particles. (took 0.248786 sec)
ngb iteration 25: need to repeat for 0000000937 particles. (took 0.248118 sec)
ngb iteration 26: need to repeat for 0000000408 particles. (took 0.24809 sec)
ngb iteration 27: need to repeat for 0000000179 particles. (took 0.282697 sec)
ngb iteration 28: need to repeat for 0000000064 particles. (took 0.351434 sec)
ngb iteration 29: need to repeat for 0000000022 particles. (took 0.351662 sec)
ngb iteration 30: need to repeat for 0000000009 particles. (took 0.351738 sec)
ngb iteration 31: need to repeat for 0000000004 particles. (took 0.351346 sec)
ngb iteration 32: need to repeat for 0000000002 particles. (took 0.351625 sec)
final operations ... 
density and smoothing length for species 1 took 311.943 sec
Tree construction for species 4 (16382561).
tree build for species 4 took 0.558343 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0009378754 particles. (took 22.5064 sec)
ngb iteration 2: need to repeat for 0006444396 particles. (took 9.34829 sec)
ngb iteration 3: need to repeat for 0004635539 particles. (took 5.98844 sec)
ngb iteration 4: need to repeat for 0003685091 particles. (took 4.01573 sec)
ngb iteration 5: need to repeat for 0003093872 particles. (took 2.61282 sec)
ngb iteration 6: need to repeat for 0002598467 particles. (took 1.83567 sec)
ngb iteration 7: need to repeat for 0002106641 particles. (took 1.55033 sec)
ngb iteration 8: need to repeat for 0001634557 particles. (took 1.24831 sec)
ngb iteration 9: need to repeat for 0001224464 particles. (took 1.02543 sec)
ngb iteration 10: need to repeat for 0000895072 particles. (took 0.845978 sec)
ngb iteration 11: need to repeat for 0000647569 particles. (took 0.690814 sec)
ngb iteration 12: need to repeat for 0000466282 particles. (took 0.579707 sec)
ngb iteration 13: need to repeat for 0000334729 particles. (took 0.523555 sec)
ngb iteration 14: need to repeat for 0000234542 particles. (took 0.466779 sec)
ngb iteration 15: need to repeat for 0000161661 particles. (took 0.43373 sec)
ngb iteration 16: need to repeat for 0000111518 particles. (took 0.399262 sec)
ngb iteration 17: need to repeat for 0000078055 particles. (took 0.357277 sec)
ngb iteration 18: need to repeat for 0000054972 particles. (took 0.346831 sec)
ngb iteration 19: need to repeat for 0000038857 particles. (took 0.337365 sec)
ngb iteration 20: need to repeat for 0000027782 particles. (took 0.331431 sec)
ngb iteration 21: need to repeat for 0000019777 particles. (took 0.327872 sec)
ngb iteration 22: need to repeat for 0000014360 particles. (took 0.326392 sec)
ngb iteration 23: need to repeat for 0000010468 particles. (took 0.324662 sec)
ngb iteration 24: need to repeat for 0000007599 particles. (took 0.323466 sec)
ngb iteration 25: need to repeat for 0000005588 particles. (took 0.323009 sec)
ngb iteration 26: need to repeat for 0000004086 particles. (took 0.32211 sec)
ngb iteration 27: need to repeat for 0000002931 particles. (took 0.321896 sec)
ngb iteration 28: need to repeat for 0000002093 particles. (took 0.32189 sec)
ngb iteration 29: need to repeat for 0000001411 particles. (took 0.32148 sec)
ngb iteration 30: need to repeat for 0000000913 particles. (took 0.321361 sec)
ngb iteration 31: need to repeat for 0000000563 particles. (took 0.321085 sec)
ngb iteration 32: need to repeat for 0000000327 particles. (took 0.322172 sec)
ngb iteration 33: need to repeat for 0000000193 particles. (took 0.324135 sec)
ngb iteration 34: need to repeat for 0000000119 particles. (took 0.320615 sec)
ngb iteration 35: need to repeat for 0000000059 particles. (took 0.32461 sec)
ngb iteration 36: need to repeat for 0000000027 particles. (took 0.32043 sec)
ngb iteration 37: need to repeat for 0000000011 particles. (took 0.320525 sec)
ngb iteration 38: need to repeat for 0000000005 particles. (took 0.320916 sec)
ngb iteration 39: need to repeat for 0000000004 particles. (took 0.320459 sec)
ngb iteration 40: need to repeat for 0000000002 particles. (took 0.32058 sec)
ngb iteration 41: need to repeat for 0000000001 particles. (took 0.320887 sec)
final operations ... 
density and smoothing length for species 4 took 64.0183 sec
Tree construction.
tree build took 7.34274 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000028526 particles. (took 0.475197 sec)
ngb iteration 2: need to repeat for 0000025319 particles. (took 0.358173 sec)
ngb iteration 3: need to repeat for 0000014762 particles. (took 0.35661 sec)
ngb iteration 4: need to repeat for 0000009133 particles. (took 0.348232 sec)
ngb iteration 5: need to repeat for 0000007523 particles. (took 0.342668 sec)
ngb iteration 6: need to repeat for 0000006398 particles. (took 0.338856 sec)
ngb iteration 7: need to repeat for 0000005189 particles. (took 0.335053 sec)
ngb iteration 8: need to repeat for 0000003932 particles. (took 0.331837 sec)
ngb iteration 9: need to repeat for 0000002867 particles. (took 0.328376 sec)
ngb iteration 10: need to repeat for 0000001975 particles. (took 0.328547 sec)
ngb iteration 11: need to repeat for 0000001299 particles. (took 0.32313 sec)
ngb iteration 12: need to repeat for 0000000884 particles. (took 0.327842 sec)
ngb iteration 13: need to repeat for 0000000596 particles. (took 0.320978 sec)
ngb iteration 14: need to repeat for 0000000386 particles. (took 0.320864 sec)
ngb iteration 15: need to repeat for 0000000251 particles. (took 0.320035 sec)
ngb iteration 16: need to repeat for 0000000161 particles. (took 0.319707 sec)
ngb iteration 17: need to repeat for 0000000096 particles. (took 0.320034 sec)
ngb iteration 18: need to repeat for 0000000059 particles. (took 0.319269 sec)
ngb iteration 19: need to repeat for 0000000036 particles. (took 0.319169 sec)
ngb iteration 20: need to repeat for 0000000025 particles. (took 0.319631 sec)
ngb iteration 21: need to repeat for 0000000016 particles. (took 0.319247 sec)
ngb iteration 22: need to repeat for 0000000007 particles. (took 0.31935 sec)
ngb iteration 23: need to repeat for 0000000006 particles. (took 0.319758 sec)
ngb iteration 24: need to repeat for 0000000005 particles. (took 0.31908 sec)
ngb iteration 25: need to repeat for 0000000003 particles. (took 0.319343 sec)
ngb iteration 26: need to repeat for 0000000002 particles. (took 0.319308 sec)
ngb iteration 27: need to repeat for 0000000001 particles. (took 0.319037 sec)
ngb iteration 28: need to repeat for 0000000001 particles. (took 0.319581 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.319503 sec)
final operations ... 
density and smoothing length for species 5 took 11.3964 sec
Tree construction for species 0 (270235548).
tree build for species 0 took 3.20431 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 186.269 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.54684 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 97.6464 sec
Tree construction for species 4 (16382561).
tree build for species 4 took 0.356885 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 28.8044 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.079839 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 18.4728 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.93638 sec
saving densities took 11.1709 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 35850598 particles.)
the other 159929 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 108756 - 141994189 

subfind_exchange()() took 4.52484 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=37284.1 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=37726.4 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 37726.4 Mbyte (on task=0), Smallest = 32323.2 Mbyte, Average = 32599.3 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7413  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3703     246.1116  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3703     441.4818  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3703     636.8521  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6204   16266.4725  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11545.7075   27812.1799  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2732.4675   30544.6475  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.2241   30837.8716  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8115   30839.7051  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    293.3091   31133.0142  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    488.8485   31621.8627  fof_fof()/fof.c/337
   0 2978 0             Group      4.2427   31626.1054  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5657.9997   37284.1051  subfind()/subfind.c/376
   0 2982 0          TopNodes     20.3186   37304.4456  domain_allocate()/domain.c/570
   0 2983 0        domain_key    390.7405   37695.1861  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.5630   37696.7512  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.5630   37698.3142  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.5630   37699.8771  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.5630   37701.4401  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.5630   37703.0038  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.5630   37704.5674  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     21.8815   37726.4490  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=22985
After=30537
NTopleaves= 26720  NTopnodes=30537 (space for 409722)
gravity work-load balance=1.01229   memory-balance=1.01229   SPH work-load balance=1.00588
iter=0 exchange of 0048681638 particles (ret=0)
domain decomposition done. (took 5.02937 sec)
Freed 17.3577 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 43699.1 Mbyte (on task=0), Smallest = 38295.9 Mbyte, Average = 38572 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7413  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3703     246.1116  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3703     441.4818  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3703     636.8521  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6204   16266.4725  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11545.7075   27812.1799  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2732.4675   30544.6475  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.2241   30837.8716  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8115   30839.7051  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    293.3091   31133.0142  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    488.8485   31621.8627  fof_fof()/fof.c/337
   0 2978 0             Group      4.2427   31626.1054  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5657.9997   37284.1051  subfind()/subfind.c/376
   0 2982 0          TopNodes      1.5144   37285.6415  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.1019   37285.7434  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base   3285.0161   40570.7595  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base   2737.5134   43308.2729  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode    195.4867   43503.7597  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father    195.3703   43699.1299  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 6.70576 sec  (presently allocated=43699.1 MB)
force_treebuild() took 7.86591 sec (presently allocated=43699.1 MB)
Start find_linkngb (1108017 particles on task=0)
find linkngb iteration 1: need to repeat for 0029339609 particles. (took 48.9199 sec)
find linkngb iteration 2: need to repeat for 0024587007 particles. (took 20.1825 sec)
find linkngb iteration 3: need to repeat for 0020228952 particles. (took 11.8503 sec)
find linkngb iteration 4: need to repeat for 0018574150 particles. (took 7.47892 sec)
find linkngb iteration 5: need to repeat for 0016284375 particles. (took 6.77245 sec)
find linkngb iteration 6: need to repeat for 0013273022 particles. (took 5.78408 sec)
find linkngb iteration 7: need to repeat for 0009607575 particles. (took 4.66579 sec)
find linkngb iteration 8: need to repeat for 0006178564 particles. (took 3.37099 sec)
find linkngb iteration 9: need to repeat for 0003644232 particles. (took 2.21165 sec)
find linkngb iteration 10: need to repeat for 0002037792 particles. (took 1.33157 sec)
find linkngb iteration 11: need to repeat for 0001108890 particles. (took 0.774957 sec)
find linkngb iteration 12: need to repeat for 0000581170 particles. (took 0.451667 sec)
find linkngb iteration 13: need to repeat for 0000193079 particles. (took 0.255325 sec)
find linkngb iteration 14: need to repeat for 0000052093 particles. (took 0.091949 sec)
find linkngb iteration 15: need to repeat for 0000024470 particles. (took 0.0271189 sec)
find linkngb iteration 16: need to repeat for 0000012426 particles. (took 0.0148499 sec)
find linkngb iteration 17: need to repeat for 0000006009 particles. (took 0.0086 sec)
find linkngb iteration 18: need to repeat for 0000002821 particles. (took 0.00566101 sec)
find linkngb iteration 19: need to repeat for 0000001373 particles. (took 0.00488305 sec)
find linkngb iteration 20: need to repeat for 0000000700 particles. (took 0.00447011 sec)
find linkngb iteration 21: need to repeat for 0000000396 particles. (took 0.00425887 sec)
find linkngb iteration 22: need to repeat for 0000000236 particles. (took 0.00414395 sec)
find linkngb iteration 23: need to repeat for 0000000142 particles. (took 0.00403309 sec)
find linkngb iteration 24: need to repeat for 0000000089 particles. (took 0.00403023 sec)
find linkngb iteration 25: need to repeat for 0000000048 particles. (took 0.00397992 sec)
find linkngb iteration 26: need to repeat for 0000000027 particles. (took 0.00444889 sec)
find linkngb iteration 27: need to repeat for 0000000016 particles. (took 0.00429797 sec)
find linkngb iteration 28: need to repeat for 0000000006 particles. (took 0.0044198 sec)
find linkngb iteration 29: need to repeat for 0000000004 particles. (took 0.00444293 sec)
find linkngb iteration 30: need to repeat for 0000000002 particles. (took 0.00441003 sec)
find linkngb iteration 31: need to repeat for 0000000001 particles. (took 0.004776 sec)
find linkngb iteration 32: need to repeat for 0000000001 particles. (took 0.00443006 sec)
find_linkngb() took 114.271 sec
Start finding nearest two (1108017 particles on task=0)
find_nearesttwo() took 16.1619 sec (presently allocated=43783.7 MB)
parallel sort of densities done. took 0.670895 sec
building distributed linked list. (presently allocated 43772.7 MB)
identification of primary candidates took 602.119 sec
adding background as candidate took 0.0610099 sec
establishing of rank order took 188.147 sec  (p=49680047, grouplen=49680047) presently allocated 43772.7 MB

total number of subhalo candidates=183483

number of subhalo candidates that can be done independently=157065.
(Largest size is 5275, finding them took 0.059571 sec)
particles are marked (took 71.002)
independent subhalos are assembled on individual CPUs for unbinding (0.493962 sec, (presently allocated=43772.7 MB)
unbinding of independent ones took 0.520786 sec
particles have returned to their original processor (0.579834 sec, presently allocated 43772.7 MB)

number of subhalo candidates that can be done independently=23905.
(Largest size is 34428, finding them took 3.928 sec)
particles are marked (took 52.3575)
independent subhalos are assembled on individual CPUs for unbinding (0.455634 sec, (presently allocated=43772.7 MB)
unbinding of independent ones took 1.99864 sec
particles have returned to their original processor (0.561059 sec, presently allocated 43772.7 MB)

number of subhalo candidates that can be done independently=2365.
(Largest size is 174510, finding them took 3.8214 sec)
particles are marked (took 43.8528)
independent subhalos are assembled on individual CPUs for unbinding (0.447266 sec, (presently allocated=43772.7 MB)
unbinding of independent ones took 7.95879 sec
particles have returned to their original processor (0.549313 sec, presently allocated 43772.7 MB)

number of subhalo candidates that can be done independently=140.
(Largest size is 1638117, finding them took 2.50109 sec)
particles are marked (took 57.2332)
independent subhalos are assembled on individual CPUs for unbinding (0.527546 sec, (presently allocated=43772.7 MB)
unbinding of independent ones took 90.0628 sec
particles have returned to their original processor (0.685373 sec, presently allocated 43772.7 MB)

number of subhalo candidates that can be done independently=7.
(Largest size is 1223429, finding them took 4.71199 sec)
particles are marked (took 33.1035)
independent subhalos are assembled on individual CPUs for unbinding (0.423744 sec, (presently allocated=43772.7 MB)
unbinding of independent ones took 46.8899 sec
particles have returned to their original processor (0.591322 sec, presently allocated 43772.7 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 49680047, finding them took 3.49385 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=49680047 ... maximum alloacted 43776.9 MB
took 393.809 sec

the collective unbinding of remaining halos took 417.273 sec

found 9390 bound substructures in FoF group of length 49680047
determination of parent subhalo took 0.0525141 sec (presently allocated 43776.9 MB)
determining substructure properties took 414.733 sec (presently allocated 43776.9 MB)
processing of collective halos took 2265.48 sec
sort of local particles()() took 6.22518 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 2131.34 sec

Task 22: testing particles ...
Task 44: testing particles ...
Task 36: testing particles ...
Task 32: testing particles ...
Task 39: testing particles ...
unsorting of local particles()() took 5.69749 sec
Task 0: testing particles ...
Task 35: testing particles ...
Task 38: testing particles ...
Task 41: testing particles ...
Task 40: testing particles ...
Task 34: testing particles ...
Task 43: testing particles ...
Task 31: testing particles ...
Task 28: testing particles ...
Task 27: testing particles ...
Task 23: testing particles ...
Task 37: testing particles ...
Task 26: testing particles ...
Task 13: testing particles ...
Task 33: testing particles ...
Task 24: testing particles ...
Task 20: testing particles ...
Task 29: testing particles ...
Task 14: testing particles ...
Task 12: testing particles ...
Task 21: testing particles ...
Task 18: testing particles ...
Task 16: testing particles ...
Task 9: testing particles ...
Task 17: testing particles ...
Task 15: testing particles ...
Task 10: testing particles ...
Task 42: testing particles ...
Task 30: testing particles ...
Task 8: testing particles ...
Task 7: testing particles ...
Task 11: testing particles ...
Task 19: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
Task 4: testing particles ...
Task 3: testing particles ...
Task 25: testing particles ...
Task 2: testing particles ...
Task 1: testing particles ...
subfind_exchange() (for return to original CPU)  took 10.4238 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=37284.1 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=37726.4 MB)
Before=33873
After=36849
NTopleaves= 32243  NTopnodes=36849 (space for 409722)
gravity work-load balance=1.01142   memory-balance=1.0114   SPH work-load balance=1.01131
iter=0 exchange of 0562318340 particles (ret=0)
domain decomposition done. (took 26.3972 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0688 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000126259 particles. (took 0.101858 sec)
SO iteration 2: need to repeat for 0000126259 particles. (took 0.10375 sec)
SO iteration 3: need to repeat for 0000126259 particles. (took 0.102633 sec)
SO iteration 4: need to repeat for 0000126259 particles. (took 0.101291 sec)
SO iteration 5: need to repeat for 0000126259 particles. (took 0.101275 sec)
SO iteration 6: need to repeat for 0000126259 particles. (took 0.101264 sec)
SO iteration 7: need to repeat for 0000126259 particles. (took 0.101355 sec)
SO iteration 8: need to repeat for 0000126259 particles. (took 0.101526 sec)
SO iteration 9: need to repeat for 0000126259 particles. (took 0.101513 sec)
SO iteration 10: need to repeat for 0000126259 particles. (took 0.101638 sec)
SO iteration 11: need to repeat for 0000126259 particles. (took 0.102524 sec)
SO iteration 12: need to repeat for 0000126259 particles. (took 0.101462 sec)
SO iteration 13: need to repeat for 0000126259 particles. (took 0.101553 sec)
SO iteration 14: need to repeat for 0000126259 particles. (took 0.101427 sec)
SO iteration 15: need to repeat for 0000124042 particles. (took 0.101536 sec)
SO iteration 16: need to repeat for 0000000414 particles. (took 0.09396 sec)
SO iteration 17: need to repeat for 0000000038 particles. (took 0.000830889 sec)
SO iteration 1: need to repeat for 0000126259 particles. (took 0.100281 sec)
SO iteration 2: need to repeat for 0000126259 particles. (took 0.076298 sec)
SO iteration 3: need to repeat for 0000126259 particles. (took 0.0844791 sec)
SO iteration 4: need to repeat for 0000126259 particles. (took 0.079428 sec)
SO iteration 5: need to repeat for 0000126259 particles. (took 0.0811782 sec)
SO iteration 6: need to repeat for 0000126259 particles. (took 0.0810251 sec)
SO iteration 7: need to repeat for 0000126259 particles. (took 0.0809779 sec)
SO iteration 8: need to repeat for 0000126259 particles. (took 0.0809941 sec)
SO iteration 9: need to repeat for 0000126259 particles. (took 0.0809891 sec)
SO iteration 10: need to repeat for 0000126259 particles. (took 0.0810232 sec)
SO iteration 11: need to repeat for 0000126259 particles. (took 0.0809619 sec)
SO iteration 12: need to repeat for 0000126259 particles. (took 0.0809469 sec)
SO iteration 13: need to repeat for 0000126259 particles. (took 0.0809059 sec)
SO iteration 14: need to repeat for 0000126259 particles. (took 0.0809219 sec)
SO iteration 15: need to repeat for 0000125359 particles. (took 0.080898 sec)
SO iteration 16: need to repeat for 0000012470 particles. (took 0.080622 sec)
SO iteration 17: need to repeat for 0000000238 particles. (took 0.0074048 sec)
SO iteration 18: need to repeat for 0000000034 particles. (took 0.000591993 sec)
SO iteration 1: need to repeat for 0000126259 particles. (took 0.100277 sec)
SO iteration 2: need to repeat for 0000126259 particles. (took 0.0752699 sec)
SO iteration 3: need to repeat for 0000126259 particles. (took 0.06515 sec)
SO iteration 4: need to repeat for 0000126259 particles. (took 0.0734401 sec)
SO iteration 5: need to repeat for 0000126259 particles. (took 0.0703032 sec)
SO iteration 6: need to repeat for 0000126259 particles. (took 0.0691972 sec)
SO iteration 7: need to repeat for 0000126259 particles. (took 0.0697162 sec)
SO iteration 8: need to repeat for 0000126259 particles. (took 0.0700409 sec)
SO iteration 9: need to repeat for 0000126259 particles. (took 0.070353 sec)
SO iteration 10: need to repeat for 0000126259 particles. (took 0.070086 sec)
SO iteration 11: need to repeat for 0000126259 particles. (took 0.0702801 sec)
SO iteration 12: need to repeat for 0000126259 particles. (took 0.070209 sec)
SO iteration 13: need to repeat for 0000126259 particles. (took 0.0702238 sec)
SO iteration 14: need to repeat for 0000126259 particles. (took 0.070389 sec)
SO iteration 15: need to repeat for 0000126233 particles. (took 0.0702391 sec)
SO iteration 16: need to repeat for 0000124891 particles. (took 0.070215 sec)
SO iteration 17: need to repeat for 0000013552 particles. (took 0.06968 sec)
SO iteration 18: need to repeat for 0000000352 particles. (took 0.00666499 sec)
SO iteration 19: need to repeat for 0000000047 particles. (took 0.000793934 sec)
SO iteration 1: need to repeat for 0000126259 particles. (took 0.100116 sec)
SO iteration 2: need to repeat for 0000126259 particles. (took 0.0764041 sec)
SO iteration 3: need to repeat for 0000126259 particles. (took 0.085156 sec)
SO iteration 4: need to repeat for 0000126259 particles. (took 0.089077 sec)
SO iteration 5: need to repeat for 0000126259 particles. (took 0.088563 sec)
SO iteration 6: need to repeat for 0000126259 particles. (took 0.0880499 sec)
SO iteration 7: need to repeat for 0000126259 particles. (took 0.0877671 sec)
SO iteration 8: need to repeat for 0000126259 particles. (took 0.0877159 sec)
SO iteration 9: need to repeat for 0000126259 particles. (took 0.0885 sec)
SO iteration 10: need to repeat for 0000126259 particles. (took 0.088866 sec)
SO iteration 11: need to repeat for 0000126259 particles. (took 0.087945 sec)
SO iteration 12: need to repeat for 0000126259 particles. (took 0.0875509 sec)
SO iteration 13: need to repeat for 0000126259 particles. (took 0.0876629 sec)
SO iteration 14: need to repeat for 0000126259 particles. (took 0.0877261 sec)
SO iteration 15: need to repeat for 0000124589 particles. (took 0.0875521 sec)
SO iteration 16: need to repeat for 0000002627 particles. (took 0.0858648 sec)
SO iteration 17: need to repeat for 0000000111 particles. (took 0.00283718 sec)
SO iteration 18: need to repeat for 0000000011 particles. (took 0.000303984 sec)
SO iteration 1: need to repeat for 0000126259 particles. (took 0.100182 sec)
SO iteration 2: need to repeat for 0000126259 particles. (took 0.075038 sec)
SO iteration 3: need to repeat for 0000126259 particles. (took 0.082737 sec)
SO iteration 4: need to repeat for 0000126259 particles. (took 0.077702 sec)
SO iteration 5: need to repeat for 0000126259 particles. (took 0.0766549 sec)
SO iteration 6: need to repeat for 0000126259 particles. (took 0.0765839 sec)
SO iteration 7: need to repeat for 0000126259 particles. (took 0.076668 sec)
SO iteration 8: need to repeat for 0000126259 particles. (took 0.0768502 sec)
SO iteration 9: need to repeat for 0000126259 particles. (took 0.0768108 sec)
SO iteration 10: need to repeat for 0000126259 particles. (took 0.076766 sec)
SO iteration 11: need to repeat for 0000126259 particles. (took 0.0769141 sec)
SO iteration 12: need to repeat for 0000126259 particles. (took 0.0768268 sec)
SO iteration 13: need to repeat for 0000126259 particles. (took 0.076833 sec)
SO iteration 14: need to repeat for 0000126259 particles. (took 0.0767989 sec)
SO iteration 15: need to repeat for 0000125727 particles. (took 0.0768311 sec)
SO iteration 16: need to repeat for 0000043543 particles. (took 0.0764802 sec)
SO iteration 17: need to repeat for 0000000391 particles. (took 0.0249841 sec)
SO iteration 18: need to repeat for 0000000051 particles. (took 0.00104904 sec)
SO iteration 1: need to repeat for 0000126259 particles. (took 0.100391 sec)
SO iteration 2: need to repeat for 0000126259 particles. (took 0.0753281 sec)
SO iteration 3: need to repeat for 0000126259 particles. (took 0.0651379 sec)
SO iteration 4: need to repeat for 0000126259 particles. (took 0.0737519 sec)
SO iteration 5: need to repeat for 0000126259 particles. (took 0.0744579 sec)
SO iteration 6: need to repeat for 0000126259 particles. (took 0.0739629 sec)
SO iteration 7: need to repeat for 0000126259 particles. (took 0.0745509 sec)
SO iteration 8: need to repeat for 0000126259 particles. (took 0.0751312 sec)
SO iteration 9: need to repeat for 0000126259 particles. (took 0.0752971 sec)
SO iteration 10: need to repeat for 0000126259 particles. (took 0.075367 sec)
SO iteration 11: need to repeat for 0000126259 particles. (took 0.0753551 sec)
SO iteration 12: need to repeat for 0000126259 particles. (took 0.0753479 sec)
SO iteration 13: need to repeat for 0000126259 particles. (took 0.075335 sec)
SO iteration 14: need to repeat for 0000126259 particles. (took 0.0753188 sec)
SO iteration 15: need to repeat for 0000126187 particles. (took 0.0764542 sec)
SO iteration 16: need to repeat for 0000124510 particles. (took 0.0761781 sec)
SO iteration 17: need to repeat for 0000003539 particles. (took 0.0732608 sec)
SO iteration 18: need to repeat for 0000000214 particles. (took 0.00379705 sec)
SO iteration 19: need to repeat for 0000000021 particles. (took 0.000462055 sec)
SO iteration 1: need to repeat for 0000126259 particles. (took 0.100185 sec)
SO iteration 2: need to repeat for 0000126259 particles. (took 0.0753019 sec)
SO iteration 3: need to repeat for 0000126259 particles. (took 0.063791 sec)
SO iteration 4: need to repeat for 0000126259 particles. (took 0.054549 sec)
SO iteration 5: need to repeat for 0000126259 particles. (took 0.0592239 sec)
SO iteration 6: need to repeat for 0000126259 particles. (took 0.0595419 sec)
SO iteration 7: need to repeat for 0000126259 particles. (took 0.059767 sec)
SO iteration 8: need to repeat for 0000126259 particles. (took 0.0599089 sec)
SO iteration 9: need to repeat for 0000126259 particles. (took 0.0598221 sec)
SO iteration 10: need to repeat for 0000126259 particles. (took 0.0599291 sec)
SO iteration 11: need to repeat for 0000126259 particles. (took 0.0598712 sec)
SO iteration 12: need to repeat for 0000126259 particles. (took 0.0598428 sec)
SO iteration 13: need to repeat for 0000126259 particles. (took 0.060111 sec)
SO iteration 14: need to repeat for 0000126259 particles. (took 0.0598271 sec)
SO iteration 15: need to repeat for 0000126255 particles. (took 0.059891 sec)
SO iteration 16: need to repeat for 0000126153 particles. (took 0.0599539 sec)
SO iteration 17: need to repeat for 0000124565 particles. (took 0.0598431 sec)
SO iteration 18: need to repeat for 0000006229 particles. (took 0.059329 sec)
SO iteration 19: need to repeat for 0000000239 particles. (took 0.00352192 sec)
SO iteration 20: need to repeat for 0000000029 particles. (took 0.000431061 sec)
determining spherical overdensity masses took 9.29866 sec
finding spherical overdensity particles took 0.587822 sec
determining contamination of halos took 0.322477 sec
Global sort of Groups took 0.046144 sec
Global sort of SubGroups took 0.101874 sec
Global sort of IDs took 2.78952 sec
Writing block 0 (GLEN), n=3554, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14216d
Writing block 1 (GOFF), n=3554, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14216d
Writing block 2 (MTOT), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 3 (GPOS), n=3554, ptype=0, dtype=1, ndim=3, bpb=4 bytes=42648d
Writing block 4 (MMEA), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 5 (RMEA), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 6 (MCRI), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 7 (RCRI), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 8 (MTOP), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 9 (RTOP), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 17 (NCON), n=3554, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14216d
Writing block 18 (MCON), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 22 (NSUB), n=3554, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14216d
Writing block 23 (FSUB), n=3554, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14216d
Writing block 24 (SLEN), n=12855, ptype=1, dtype=0, ndim=1, bpb=4 bytes=51420d
Writing block 25 (SOFF), n=12855, ptype=1, dtype=0, ndim=1, bpb=4 bytes=51420d
Writing block 26 (SSUB), n=12855, ptype=1, dtype=0, ndim=1, bpb=4 bytes=51420d
Writing block 27 (MSUB), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 28 (SPOS), n=12855, ptype=1, dtype=1, ndim=3, bpb=4 bytes=154260d
Writing block 29 (SVEL), n=12855, ptype=1, dtype=1, ndim=3, bpb=4 bytes=154260d
Writing block 30 (SCM ), n=12855, ptype=1, dtype=1, ndim=3, bpb=4 bytes=154260d
Writing block 33 (VMAX), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 34 (RMAX), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 35 (RHMS), n=12855, ptype=1, dtype=1, ndim=6, bpb=4 bytes=308520d
Writing block 36 (MTRH), n=12855, ptype=1, dtype=1, ndim=6, bpb=4 bytes=308520d
Writing block 37 (MBID), n=12855, ptype=1, dtype=2, ndim=1, bpb=8 bytes=102840d
Writing block 38 (GRNR), n=12855, ptype=1, dtype=0, ndim=1, bpb=4 bytes=51420d
Writing block 39 (SUBN), n=12855, ptype=1, dtype=0, ndim=1, bpb=4 bytes=51420d
Writing block 40 (SMST), n=12855, ptype=1, dtype=1, ndim=6, bpb=4 bytes=308520d
Writing block 53 (PID ), n=4785075, ptype=2, dtype=2, ndim=1, bpb=8 bytes=38280600d
Writing block 54 (SLEN), n=12855, ptype=1, dtype=0, ndim=6, bpb=4 bytes=308520d
Writing block 55 (STEN), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 56 (SKEN), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 57 (SUEN), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 58 (SUIT), n=12855, ptype=1, dtype=1, ndim=9, bpb=4 bytes=462780d
Writing block 59 (BHMA), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 60 (BHMD), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 61 (SVD ), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 62 (SVDH), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 63 (HMPR), n=12855, ptype=1, dtype=1, ndim=6, bpb=4 bytes=308520d
Writing block 64 (SSFR), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 65 (SSA ), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 66 (SSBZ), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 67 (SSIM), n=12855, ptype=1, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 68 (SSPI), n=12855, ptype=4, dtype=1, ndim=3, bpb=4 bytes=154260d
Writing block 69 (GSPI), n=12855, ptype=1, dtype=1, ndim=3, bpb=4 bytes=154260d
Writing block 70 (FSPI), n=12855, ptype=5, dtype=1, ndim=3, bpb=4 bytes=154260d
Writing block 71 (SFM ), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 72 (SFMT), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 73 (SFME), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 74 (SFAE), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 75 (SFKE), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 76 (SFTE), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 77 (SMWP), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 78 (SMM ), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 79 (SMMS), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 80 (SFZ ), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 81 (SFZS), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 82 (SSIA), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 83 (SIAS), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 84 (SMET), n=12855, ptype=5, dtype=1, ndim=9, bpb=4 bytes=462780d
Writing block 85 (SMTS), n=12855, ptype=5, dtype=1, ndim=9, bpb=4 bytes=462780d
Writing block 86 (MF1 ), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 87 (MeF1), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 88 (MF  ), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 89 (MeF2), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 90 (MFA ), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 91 (MeFA), n=12855, ptype=5, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 92 (NSPI), n=12855, ptype=6, dtype=1, ndim=3, bpb=4 bytes=154260d
Writing block 93 (NFM ), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 94 (NFMT), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 95 (NFME), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 96 (NFAE), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 97 (NFKE), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 98 (NFTE), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 99 (SMWP), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 100 (SMM ), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 101 (SMMS), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 102 (SSIA), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 103 (SIAS), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 104 (SMET), n=12855, ptype=6, dtype=1, ndim=9, bpb=4 bytes=462780d
Writing block 105 (SMTS), n=12855, ptype=6, dtype=1, ndim=9, bpb=4 bytes=462780d
Writing block 106 (MF1 ), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 107 (MeF1), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 108 (MF2 ), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 109 (MeF2), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 110 (MFA ), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 111 (MeFA), n=12855, ptype=6, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 112 (SM  ), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 113 (SFKE), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 114 (SFAE), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 115 (SMWP), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 116 (SMM ), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 117 (SMMS), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 118 (SSIA), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 119 (SIAS), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 120 (SMET), n=12855, ptype=4, dtype=1, ndim=9, bpb=4 bytes=462780d
Writing block 121 (SMTS), n=12855, ptype=4, dtype=1, ndim=9, bpb=4 bytes=462780d
Writing block 122 (MF1 ), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 123 (MeF1), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 124 (MF2 ), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 125 (MeF2), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 126 (MFA ), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 127 (MeFA), n=12855, ptype=4, dtype=1, ndim=1, bpb=4 bytes=51420d
Writing block 128 (MMe5), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 129 (RMe5), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 130 (MCr5), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 131 (RCr5), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 132 (MMe2), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 133 (RMe2), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 134 (MCr2), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 135 (RCr2), n=3554, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14216d
Writing block 136 (MAPT), n=12855, ptype=7, dtype=1, ndim=60, bpb=4 bytes=3085200d
Writing block 137 (SAPT), n=12855, ptype=8, dtype=1, ndim=10, bpb=4 bytes=514200d
Writing block 138 (VAPT), n=12855, ptype=9, dtype=1, ndim=10, bpb=4 bytes=514200d
Writing block 139 (BEGY), n=4785075, ptype=2, dtype=1, ndim=1, bpb=4 bytes=19140300d
Subgroup catalogues saved. took = 10.0834 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 2.480422e+00
 eagle_ph_key_ort: type= 1 timed by volker 2.959927e+00
 eagle_ph_key_ort: type= 2 timed by volker 2.097149e-01
 eagle_ph_key_ort: type= 3 timed by volker 6.994891e-02
 eagle_ph_key_ort: type= 4 timed by volker 1.501620e-01
 eagle_ph_key_ort: type= 5 timed by volker 4.052210e-02
 eagle_ph_key_ort: timing parallel sort = 6.555154e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19315082752

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 37579.7 Mbyte (on task=0), Smallest = 32173.9 Mbyte, Average = 32450 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7413  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3703     246.1116  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3703     441.4818  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3703     636.8521  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6204   16266.4725  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11545.7075   27812.1799  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2732.4675   30544.6475  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.2241   30837.8716  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8115   30839.7051  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    293.3091   31133.0142  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    488.8485   31621.8627  fof_fof()/fof.c/337
   0 2978 0             Group      4.2427   31626.1054  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5657.9997   37284.1051  subfind()/subfind.c/376
   0 2980 0   sort_index_data    295.5965   37579.7017  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 160, max_elements= 227506 number of bytes = 36400960
 eagle_ph_key_ort: timing parallel P exchange = 2.701500e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19315082752
 eagle_fetch_elements: max_bytes= 248, max_elements= 1262471 number of bytes = 313092808
 eagle_ph_key_ort: timing parallel SphP exchange = 1.420612e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19315082752
 eagle_fetch_elements: max_bytes= 384, max_elements= 2498425 number of bytes = 959395200
 eagle_ph_key_ort: timing parallel MetP exchange = 6.560049e-01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19315082752
 eagle_fetch_elements: max_bytes= 256, max_elements= 4097800 number of bytes = 1049036800
 eagle_ph_key_ort: timing parallel BHP exchange = 1.764178e-02
Sorting particle-data by peano-hilbert key took = 51.0089 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 160, max_elements= 227506 number of bytes= 36400960
 eagle_ph_restore: timing parallel P exchange = 3.096043e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 252, max_elements= 1195819 number of bytes= 301346388
 eagle_ph_restore: timing parallel SphP exchange = 1.410811e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2498425 number of bytes= 959395200
 eagle_ph_restore: timing parallel MetP exchange = 6.357791e-01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4097800 number of bytes= 1049036800
 eagle_ph_restore: timing parallel BHP exchange = 2.199507e-02
Restoring original order after ph key sorting took = 45.858 sec

finished writing particle file...

Finished with SUBFIND.  (total time=5962.53 sec)

Finished computing FoF groups.  (presently allocated=30839.7 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30837.9 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31280.2 MB)
Before=33345
After=36561
NTopleaves= 31991  NTopnodes=36561 (space for 409722)
gravity work-load balance=1.00916   memory-balance=1.00918   SPH work-load balance=1.00928
iter=0 exchange of 0563489562 particles (ret=0)
domain decomposition done. (took 26.314 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.082 MByte in top-level domain structure
Tree construction.
task 5: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
task 8: endrun called with an error level of 124


task 5: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
task 8: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
Finished FOF, total time doing fof/subfind = 6219.27 s
task 36: endrun called with an error level of 124


task 11: endrun called with an error level of 124


task 39: endrun called with an error level of 124


task 30: endrun called with an error level of 124


task 31: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) task 42: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 20: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 43:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 27: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
task 33: endrun called with an error level of 124


task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
task 22: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
task 43: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 27:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) HDF5-DIAG: Error detected in HDF5 (1.8.12) task 36: endrun called with an error level of 124


task 11: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
task 30: endrun called with an error level of 124


task 31: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 43:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
task 27: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 19:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
MPI-process 0:
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
task 39: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
task 33: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 42: endrun called with an error level of 124


task 22: endrun called with an error level of 124


task 20: endrun called with an error level of 124


task 43: endrun called with an error level of 124


MPI-process 27:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
task 19: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
task 16: endrun called with an error level of 124


    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
task 0: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) task 0: endrun called with an error level of 124


task 19: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
MPI-process 19:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63091.82 Mb (on task=14), Smallest =   62880.15 Mb (on task=0), Average =   63038.54 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=11), Smallest =   64531.71 Mb (on task=14), Average =   64532.01 Mb
Committed_AS:	 Largest =    1651.84 Mb (on task=0), Smallest =    1439.88 Mb (on task=14), Average =    1493.48 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=2), Smallest =   16265.98 Mb (on task=6), Average =   16310.08 Mb
AllocMem:	 Largest =    1651.84 Mb (on task=0), Smallest =    1439.88 Mb (on task=14), Average =    1493.48 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 45 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N1':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         56000
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 16264.6 MByte for particle storage.

Allocated 11550.7 MByte for storage of SPH data.

Allocated 2729.64 MByte for storage of MET data.

Allocated 293.351 MByte for storage of BH data.


reading file `data//snapshot_028_z000p036/snap_028_z000p036.0.hdf5' on task=0 (contains 35887908 particles.)
distributing this file to tasks 0-4
Type 0 (gas):   16883694  (tot=     0270352550) masstab=0
Type 1 (halo):  17846030  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10695  (tot=     0000254233) masstab=0
Type 3 (bulge):    78526  (tot=     0002602064) masstab=0
Type 4 (stars):  1066760  (tot=     0016266513) masstab=0
Type 5 (bndry):     2203  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.13.hdf5' on task=39 (contains 36115820 particles.)
distributing this file to tasks 39-41
Type 0 (gas):   16915608  (tot=     0270352550) masstab=0
Type 1 (halo):  17978555  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17069  (tot=     0000254233) masstab=0
Type 3 (bulge):   159406  (tot=     0002602064) masstab=0
Type 4 (stars):  1043010  (tot=     0016266513) masstab=0
Type 5 (bndry):     2172  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.2.hdf5' on task=8 (contains 35963597 particles.)
distributing this file to tasks 8-10
Type 0 (gas):   17027045  (tot=     0270352550) masstab=0
Type 1 (halo):  17931706  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11554  (tot=     0000254233) masstab=0
Type 3 (bulge):    81271  (tot=     0002602064) masstab=0
Type 4 (stars):   909869  (tot=     0016266513) masstab=0
Type 5 (bndry):     2152  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.1.hdf5' on task=5 (contains 36153385 particles.)
distributing this file to tasks 5-7
Type 0 (gas):   16848750  (tot=     0270352550) masstab=0
Type 1 (halo):  18196980  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11257  (tot=     0000254233) masstab=0
Type 3 (bulge):   141947  (tot=     0002602064) masstab=0
Type 4 (stars):   952244  (tot=     0016266513) masstab=0
Type 5 (bndry):     2207  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.14.hdf5' on task=42 (contains 36042884 particles.)
distributing this file to tasks 42-42
Type 0 (gas):   17074772  (tot=     0270352550) masstab=0
Type 1 (halo):  17887035  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14402  (tot=     0000254233) masstab=0
Type 3 (bulge):   153164  (tot=     0002602064) masstab=0
Type 4 (stars):   911374  (tot=     0016266513) masstab=0
Type 5 (bndry):     2137  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.3.hdf5' on task=11 (contains 36086582 particles.)
distributing this file to tasks 11-15
Type 0 (gas):   16911289  (tot=     0270352550) masstab=0
Type 1 (halo):  17879807  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12684  (tot=     0000254233) masstab=0
Type 3 (bulge):   138787  (tot=     0002602064) masstab=0
Type 4 (stars):  1141797  (tot=     0016266513) masstab=0
Type 5 (bndry):     2218  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.8.hdf5' on task=27 (contains 35838246 particles.)
distributing this file to tasks 27-29
Type 0 (gas):   16930631  (tot=     0270352550) masstab=0
Type 1 (halo):  17803796  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14090  (tot=     0000254233) masstab=0
Type 3 (bulge):    66006  (tot=     0002602064) masstab=0
Type 4 (stars):  1021535  (tot=     0016266513) masstab=0
Type 5 (bndry):     2188  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.7.hdf5' on task=22 (contains 35908005 particles.)
distributing this file to tasks 22-26
Type 0 (gas):   16827705  (tot=     0270352550) masstab=0
Type 1 (halo):  17950379  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13469  (tot=     0000254233) masstab=0
Type 3 (bulge):    60307  (tot=     0002602064) masstab=0
Type 4 (stars):  1054073  (tot=     0016266513) masstab=0
Type 5 (bndry):     2072  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.15.hdf5' on task=43 (contains 36179164 particles.)
distributing this file to tasks 43-44
Type 0 (gas):   16781712  (tot=     0270352550) masstab=0
Type 1 (halo):  17983323  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9828  (tot=     0000254233) masstab=0
Type 3 (bulge):   251264  (tot=     0002602064) masstab=0
Type 4 (stars):  1150869  (tot=     0016266513) masstab=0
Type 5 (bndry):     2168  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.6.hdf5' on task=20 (contains 35932954 particles.)
distributing this file to tasks 20-21
Type 0 (gas):   16891913  (tot=     0270352550) masstab=0
Type 1 (halo):  17903682  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17798  (tot=     0000254233) masstab=0
Type 3 (bulge):   179206  (tot=     0002602064) masstab=0
Type 4 (stars):   938201  (tot=     0016266513) masstab=0
Type 5 (bndry):     2154  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.4.hdf5' on task=16 (contains 36231481 particles.)
distributing this file to tasks 16-18
Type 0 (gas):   16822264  (tot=     0270352550) masstab=0
Type 1 (halo):  17847395  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     29172  (tot=     0000254233) masstab=0
Type 3 (bulge):   394453  (tot=     0002602064) masstab=0
Type 4 (stars):  1136016  (tot=     0016266513) masstab=0
Type 5 (bndry):     2181  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.10.hdf5' on task=31 (contains 36188528 particles.)
distributing this file to tasks 31-32
Type 0 (gas):   16803914  (tot=     0270352550) masstab=0
Type 1 (halo):  18036526  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18034  (tot=     0000254233) masstab=0
Type 3 (bulge):   208475  (tot=     0002602064) masstab=0
Type 4 (stars):  1119562  (tot=     0016266513) masstab=0
Type 5 (bndry):     2017  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.12.hdf5' on task=36 (contains 36043735 particles.)
distributing this file to tasks 36-38
Type 0 (gas):   16877591  (tot=     0270352550) masstab=0
Type 1 (halo):  17878309  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18543  (tot=     0000254233) masstab=0
Type 3 (bulge):   305150  (tot=     0002602064) masstab=0
Type 4 (stars):   962010  (tot=     0016266513) masstab=0
Type 5 (bndry):     2132  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.5.hdf5' on task=19 (contains 35900387 particles.)
distributing this file to tasks 19-19
Type 0 (gas):   16802391  (tot=     0270352550) masstab=0
Type 1 (halo):  17916027  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17570  (tot=     0000254233) masstab=0
Type 3 (bulge):   167431  (tot=     0002602064) masstab=0
Type 4 (stars):   994831  (tot=     0016266513) masstab=0
Type 5 (bndry):     2137  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.9.hdf5' on task=30 (contains 35657081 particles.)
distributing this file to tasks 30-30
Type 0 (gas):   16970733  (tot=     0270352550) masstab=0
Type 1 (halo):  17671360  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11640  (tot=     0000254233) masstab=0
Type 3 (bulge):      532  (tot=     0002602064) masstab=0
Type 4 (stars):  1000723  (tot=     0016266513) masstab=0
Type 5 (bndry):     2093  (tot=     0000034389) masstab=0


reading file `data//snapshot_028_z000p036/snap_028_z000p036.11.hdf5' on task=33 (contains 36040722 particles.)
distributing this file to tasks 33-35
Type 0 (gas):   16982538  (tot=     0270352550) masstab=0
Type 1 (halo):  17949820  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     26428  (tot=     0000254233) masstab=0
Type 3 (bulge):   216139  (tot=     0002602064) masstab=0
Type 4 (stars):   863639  (tot=     0016266513) masstab=0
Type 5 (bndry):     2158  (tot=     0000034389) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576170479


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= 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=15.7016 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30840.2 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31282.5 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 31282.5 Mbyte (on task=1), Smallest = 31282.5 Mbyte, Average = 31282.5 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    195.3703     246.1127  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    195.3703     441.4830  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    195.3703     636.8533  allocate_memory()/allocate.c/61
   1 2969 0                 P  15629.6240   16266.4773  allocate_memory()/allocate.c/67
   1 2970 0              SphP  11550.7062   27817.1836  allocate_memory()/allocate.c/85
   1 2971 0              MetP   2729.6433   30546.8269  allocate_memory()/allocate.c/105
   1 2972 0               BHP    293.3511   30840.1779  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes     20.3186   30860.5185  domain_allocate()/domain.c/570
   1 2976 0        domain_key    390.7406   31251.2591  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      1.5630   31252.8241  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      1.5630   31254.3871  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      1.5630   31255.9501  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      1.5630   31257.5130  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      1.5630   31259.0767  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      1.5630   31260.6404  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes     21.8815   31282.5219  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=32873
After=35185
NTopleaves= 30787  NTopnodes=35185 (space for 409722)
gravity work-load balance=1.01126   memory-balance=1.01124   SPH work-load balance=1.00973
iter=0 exchange of 0561914082 particles (ret=0)
domain decomposition done. (took 61.8545 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.1449 MByte in top-level domain structure

Allocated 6414.19 MByte for BH-tree, and 0.117443 Mbyte for top-leaves.  (presently allocted 37256.2 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 38005.2 Mbyte (on task=9), Smallest = 37804.2 Mbyte, Average = 37900.5 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   9 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
   9 2966 0  NextActiveParticle    195.3703     246.1127  allocate_memory()/allocate.c/55
   9 2967 0     NextInTimeBin    195.3703     441.4830  allocate_memory()/allocate.c/58
   9 2968 0     PrevInTimeBin    195.3703     636.8533  allocate_memory()/allocate.c/61
   9 2969 0                 P  15629.6240   16266.4773  allocate_memory()/allocate.c/67
   9 2970 0              SphP  11550.7062   27817.1836  allocate_memory()/allocate.c/85
   9 2971 0              MetP   2729.6433   30546.8269  allocate_memory()/allocate.c/105
   9 2972 0               BHP    293.3511   30840.1779  allocate_memory()/allocate.c/126
   9 2975 0          TopNodes      1.7449   30841.9448  domain_allocate()/domain.c/570
   9 2976 0   DomainNodeIndex      0.1174   30842.0622  force_treeallocate()/forcetree.c/4800
   9 2977 0        Nodes_base   3285.4424   34127.5046  force_treeallocate()/forcetree.c/4803
   9 2978 0     Extnodes_base   2737.8687   36865.3733  force_treeallocate()/forcetree.c/4811
   9 2979 0          Nextnode    195.5045   37060.8778  force_treeallocate()/forcetree.c/4820
   9 2980 0            Father    195.3703   37256.2481  force_treeallocate()/forcetree.c/4827
   9 2981 0           Ngblist     49.0718   37305.3199  density()/density.c/690
   9 2982 0              Left     98.1435   37403.4634  density()/density.c/692
   9 2983 0             Right     98.1435   37501.6069  density()/density.c/693
   9 2984 0    DataIndexTable      7.0175   37508.6245  density()/density.c/738
   9 2985 0      DataNodeList     18.7134   37527.3379  density()/density.c/740
   9 2986 0       DensDataGet    147.6037   37674.9416  density()/density.c/893
   9 2987 0    DensDataResult    194.5685   37869.5101  density()/density.c/931
   9 2988 0       DensDataOut    135.6722   38005.1823  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0001099325 particles.
ngb iteration 2: need to repeat for 0000000051 particles.
ngb iteration 3: need to repeat for 0000000034 particles.
ngb iteration 4: need to repeat for 0000000030 particles.
ngb iteration 5: need to repeat for 0000000007 particles.
ngb iteration 6: need to repeat for 0000000003 particles.
ngb iteration 7: need to repeat for 0000000003 particles.
ngb iteration 8: need to repeat for 0000000001 particles.
ngb iteration 9: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.000.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.049.hdf5

Begin to compute FoF group catalogues...  (presently allocated=37256.2 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30840.2 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31282.5 MB)
Before=33385
After=36601
NTopleaves= 32026  NTopnodes=36601 (space for 409722)
gravity work-load balance=1.01455   memory-balance=1.01451   SPH work-load balance=1.01218
iter=0 exchange of 0566964056 particles (ret=0)
domain decomposition done. (took 25.2025 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0801 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=30842 MB)
Tree construction.

Start linking particles (presently allocated=37849.2 MB)
links on local processor done (took 55.7888 sec).
Marked=0030903111 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=38120.7 MB) 
have done 0000462790 cross links (processed 0030903111, took 10.8731 sec)
have done 0000193441 cross links (processed 0023600713, took 10.4937 sec)
have done 0000135348 cross links (processed 0020439433, took 10.3774 sec)
have done 0000080646 cross links (processed 0012666509, took 8.47344 sec)
have done 0000045135 cross links (processed 0007438019, took 8.0524 sec)
have done 0000027217 cross links (processed 0003746735, took 6.84265 sec)
have done 0000013642 cross links (processed 0000895865, took 1.25479 sec)
have done 0000005339 cross links (processed 0000211746, took 0.992903 sec)
have done 0000002035 cross links (processed 0000034891, took 0.168941 sec)
have done 0000000950 cross links (processed 0000015394, took 0.166881 sec)
have done 0000000335 cross links (processed 0000004964, took 0.164356 sec)
have done 0000000119 cross links (processed 0000001458, took 0.161503 sec)
have done 0000000033 cross links (processed 0000000450, took 0.160159 sec)
have done 0000000022 cross links (processed 0000000201, took 0.16108 sec)
have done 0000000005 cross links (processed 0000000077, took 0.161089 sec)
have done 0000000003 cross links (processed 0000000032, took 0.161773 sec)
have done 0000000001 cross links (processed 0000000015, took 0.16124 sec)
have done 0000000000 cross links (processed 0000000004, took 0.161162 sec)
Local groups found.

group finding took = 115.272 sec
Start finding nearest dm-particle (presently allocated=37849.2 MB)
still finding nearest... (presently allocated=38081.9 MB)
fof-nearest iteration 1: need to repeat for 258267959 particles.
still finding nearest... (presently allocated=38085.5 MB)
fof-nearest iteration 2: need to repeat for 246429865 particles.
still finding nearest... (presently allocated=38094 MB)
fof-nearest iteration 3: need to repeat for 221859642 particles.
still finding nearest... (presently allocated=38106.7 MB)
fof-nearest iteration 4: need to repeat for 179664258 particles.
still finding nearest... (presently allocated=38123.7 MB)
fof-nearest iteration 5: need to repeat for 122883504 particles.
still finding nearest... (presently allocated=38134.1 MB)
fof-nearest iteration 6: need to repeat for 59342592 particles.
still finding nearest... (presently allocated=38123.2 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 47.8528 sec
compiling local group data and catalogue took = 5.94331 sec

Total number of groups with at least 32 particles: 162167
Largest group has 46866206 particles.
Total number of particles in groups: 0216772738

group properties are now allocated.. (presently allocated=31636.9 MB)
computation of group properties took = 0.998817 sec
start global sorting of group catalogues number 28
LargestGroup = 19387.783084; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.229689 sec
Group catalogues globally sorted. took = 4.01366 sec
starting saving of group catalogue number 28
data//groups_028_z000p036
Group catalogues number 28 saved. took = 3.63137 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (270352550).
tree build for species 0 took 3.17044 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0160061053 particles. (took 90.7233 sec)
ngb iteration 2: need to repeat for 0096076350 particles. (took 54.4201 sec)
ngb iteration 3: need to repeat for 0081130578 particles. (took 26.709 sec)
ngb iteration 4: need to repeat for 0073622316 particles. (took 20.617 sec)
ngb iteration 5: need to repeat for 0065436975 particles. (took 18.1459 sec)
ngb iteration 6: need to repeat for 0053456305 particles. (took 15.4603 sec)
ngb iteration 7: need to repeat for 0038662217 particles. (took 12.6907 sec)
ngb iteration 8: need to repeat for 0024912286 particles. (took 9.31267 sec)
ngb iteration 9: need to repeat for 0014712884 particles. (took 6.21443 sec)
ngb iteration 10: need to repeat for 0008199676 particles. (took 3.91903 sec)
ngb iteration 11: need to repeat for 0004404691 particles. (took 2.41441 sec)
ngb iteration 12: need to repeat for 0002316508 particles. (took 1.52915 sec)
ngb iteration 13: need to repeat for 0001202380 particles. (took 1.10301 sec)
ngb iteration 14: need to repeat for 0000552117 particles. (took 0.84434 sec)
ngb iteration 15: need to repeat for 0000151163 particles. (took 0.618801 sec)
ngb iteration 16: need to repeat for 0000047761 particles. (took 0.416403 sec)
ngb iteration 17: need to repeat for 0000018823 particles. (took 0.357659 sec)
ngb iteration 18: need to repeat for 0000009473 particles. (took 0.343187 sec)
ngb iteration 19: need to repeat for 0000005576 particles. (took 0.33942 sec)
ngb iteration 20: need to repeat for 0000003781 particles. (took 0.338255 sec)
ngb iteration 21: need to repeat for 0000002736 particles. (took 0.33749 sec)
ngb iteration 22: need to repeat for 0000002105 particles. (took 0.337388 sec)
ngb iteration 23: need to repeat for 0000001655 particles. (took 0.33682 sec)
ngb iteration 24: need to repeat for 0000001299 particles. (took 0.336741 sec)
ngb iteration 25: need to repeat for 0000000996 particles. (took 0.336583 sec)
ngb iteration 26: need to repeat for 0000000716 particles. (took 0.338397 sec)
ngb iteration 27: need to repeat for 0000000479 particles. (took 0.337244 sec)
ngb iteration 28: need to repeat for 0000000298 particles. (took 0.336314 sec)
ngb iteration 29: need to repeat for 0000000189 particles. (took 0.336431 sec)
ngb iteration 30: need to repeat for 0000000114 particles. (took 0.336345 sec)
ngb iteration 31: need to repeat for 0000000063 particles. (took 0.336161 sec)
ngb iteration 32: need to repeat for 0000000039 particles. (took 0.336286 sec)
ngb iteration 33: need to repeat for 0000000023 particles. (took 0.335059 sec)
ngb iteration 34: need to repeat for 0000000013 particles. (took 0.336343 sec)
ngb iteration 35: need to repeat for 0000000009 particles. (took 0.336363 sec)
ngb iteration 36: need to repeat for 0000000004 particles. (took 0.336308 sec)
final operations ... 
density and smoothing length for species 0 took 274.128 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.48924 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0166526186 particles. (took 131.118 sec)
ngb iteration 2: need to repeat for 0101511254 particles. (took 52.8877 sec)
ngb iteration 3: need to repeat for 0078470359 particles. (took 29.4634 sec)
ngb iteration 4: need to repeat for 0067563214 particles. (took 19.9324 sec)
ngb iteration 5: need to repeat for 0059217961 particles. (took 15.8985 sec)
ngb iteration 6: need to repeat for 0049036045 particles. (took 13.519 sec)
ngb iteration 7: need to repeat for 0036851371 particles. (took 11.1589 sec)
ngb iteration 8: need to repeat for 0025164349 particles. (took 8.52764 sec)
ngb iteration 9: need to repeat for 0015947524 particles. (took 6.10424 sec)
ngb iteration 10: need to repeat for 0009604989 particles. (took 4.0309 sec)
ngb iteration 11: need to repeat for 0005607640 particles. (took 2.62046 sec)
ngb iteration 12: need to repeat for 0003223984 particles. (took 1.73404 sec)
ngb iteration 13: need to repeat for 0001846456 particles. (took 1.18097 sec)
ngb iteration 14: need to repeat for 0001003180 particles. (took 0.829777 sec)
ngb iteration 15: need to repeat for 0000472430 particles. (took 0.589751 sec)
ngb iteration 16: need to repeat for 0000247317 particles. (took 0.397731 sec)
ngb iteration 17: need to repeat for 0000138433 particles. (took 0.313182 sec)
ngb iteration 18: need to repeat for 0000079903 particles. (took 0.276055 sec)
ngb iteration 19: need to repeat for 0000046383 particles. (took 0.260781 sec)
ngb iteration 20: need to repeat for 0000026307 particles. (took 0.25282 sec)
ngb iteration 21: need to repeat for 0000014535 particles. (took 0.248815 sec)
ngb iteration 22: need to repeat for 0000007812 particles. (took 0.246494 sec)
ngb iteration 23: need to repeat for 0000004020 particles. (took 0.244979 sec)
ngb iteration 24: need to repeat for 0000001901 particles. (took 0.244134 sec)
ngb iteration 25: need to repeat for 0000000883 particles. (took 0.243986 sec)
ngb iteration 26: need to repeat for 0000000379 particles. (took 0.243168 sec)
ngb iteration 27: need to repeat for 0000000178 particles. (took 0.243072 sec)
ngb iteration 28: need to repeat for 0000000072 particles. (took 0.242836 sec)
ngb iteration 29: need to repeat for 0000000027 particles. (took 0.24301 sec)
ngb iteration 30: need to repeat for 0000000009 particles. (took 0.242834 sec)
ngb iteration 31: need to repeat for 0000000005 particles. (took 0.242539 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.316128 sec)
final operations ... 
density and smoothing length for species 1 took 306.377 sec
Tree construction for species 4 (16266513).
tree build for species 4 took 0.518742 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0009327953 particles. (took 23.0841 sec)
ngb iteration 2: need to repeat for 0006457883 particles. (took 7.98231 sec)
ngb iteration 3: need to repeat for 0004679606 particles. (took 4.75193 sec)
ngb iteration 4: need to repeat for 0003723227 particles. (took 3.34222 sec)
ngb iteration 5: need to repeat for 0003120456 particles. (took 2.16236 sec)
ngb iteration 6: need to repeat for 0002622323 particles. (took 1.72936 sec)
ngb iteration 7: need to repeat for 0002126934 particles. (took 1.50175 sec)
ngb iteration 8: need to repeat for 0001652347 particles. (took 1.28128 sec)
ngb iteration 9: need to repeat for 0001241030 particles. (took 1.07397 sec)
ngb iteration 10: need to repeat for 0000909988 particles. (took 0.871601 sec)
ngb iteration 11: need to repeat for 0000658167 particles. (took 0.732555 sec)
ngb iteration 12: need to repeat for 0000473574 particles. (took 0.613571 sec)
ngb iteration 13: need to repeat for 0000338486 particles. (took 0.518083 sec)
ngb iteration 14: need to repeat for 0000238148 particles. (took 0.444125 sec)
ngb iteration 15: need to repeat for 0000164356 particles. (took 0.406114 sec)
ngb iteration 16: need to repeat for 0000113328 particles. (took 0.380267 sec)
ngb iteration 17: need to repeat for 0000078547 particles. (took 0.366926 sec)
ngb iteration 18: need to repeat for 0000054961 particles. (took 0.352707 sec)
ngb iteration 19: need to repeat for 0000038423 particles. (took 0.34289 sec)
ngb iteration 20: need to repeat for 0000026919 particles. (took 0.336609 sec)
ngb iteration 21: need to repeat for 0000019566 particles. (took 0.332579 sec)
ngb iteration 22: need to repeat for 0000014369 particles. (took 0.328003 sec)
ngb iteration 23: need to repeat for 0000010523 particles. (took 0.32501 sec)
ngb iteration 24: need to repeat for 0000007890 particles. (took 0.321821 sec)
ngb iteration 25: need to repeat for 0000006042 particles. (took 0.320277 sec)
ngb iteration 26: need to repeat for 0000004655 particles. (took 0.318951 sec)
ngb iteration 27: need to repeat for 0000003556 particles. (took 0.318892 sec)
ngb iteration 28: need to repeat for 0000002689 particles. (took 0.317789 sec)
ngb iteration 29: need to repeat for 0000001968 particles. (took 0.317435 sec)
ngb iteration 30: need to repeat for 0000001412 particles. (took 0.318054 sec)
ngb iteration 31: need to repeat for 0000000998 particles. (took 0.317278 sec)
ngb iteration 32: need to repeat for 0000000679 particles. (took 0.317371 sec)
ngb iteration 33: need to repeat for 0000000430 particles. (took 0.316815 sec)
ngb iteration 34: need to repeat for 0000000256 particles. (took 0.317226 sec)
ngb iteration 35: need to repeat for 0000000125 particles. (took 0.316519 sec)
ngb iteration 36: need to repeat for 0000000074 particles. (took 0.317084 sec)
ngb iteration 37: need to repeat for 0000000038 particles. (took 0.317282 sec)
ngb iteration 38: need to repeat for 0000000018 particles. (took 0.316719 sec)
ngb iteration 39: need to repeat for 0000000005 particles. (took 0.316966 sec)
ngb iteration 40: need to repeat for 0000000003 particles. (took 0.31757 sec)
ngb iteration 41: need to repeat for 0000000002 particles. (took 0.317125 sec)
ngb iteration 42: need to repeat for 0000000001 particles. (took 0.316976 sec)
final operations ... 
density and smoothing length for species 4 took 61.1127 sec
Tree construction.
tree build took 7.11231 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000027624 particles. (took 0.434789 sec)
ngb iteration 2: need to repeat for 0000024485 particles. (took 0.366677 sec)
ngb iteration 3: need to repeat for 0000014199 particles. (took 0.365553 sec)
ngb iteration 4: need to repeat for 0000008772 particles. (took 0.356638 sec)
ngb iteration 5: need to repeat for 0000007168 particles. (took 0.353668 sec)
ngb iteration 6: need to repeat for 0000006137 particles. (took 0.340743 sec)
ngb iteration 7: need to repeat for 0000005028 particles. (took 0.337666 sec)
ngb iteration 8: need to repeat for 0000003870 particles. (took 0.335155 sec)
ngb iteration 9: need to repeat for 0000002759 particles. (took 0.33032 sec)
ngb iteration 10: need to repeat for 0000001860 particles. (took 0.325813 sec)
ngb iteration 11: need to repeat for 0000001268 particles. (took 0.321984 sec)
ngb iteration 12: need to repeat for 0000000871 particles. (took 0.327889 sec)
ngb iteration 13: need to repeat for 0000000606 particles. (took 0.317493 sec)
ngb iteration 14: need to repeat for 0000000381 particles. (took 0.316529 sec)
ngb iteration 15: need to repeat for 0000000260 particles. (took 0.316447 sec)
ngb iteration 16: need to repeat for 0000000174 particles. (took 0.31661 sec)
ngb iteration 17: need to repeat for 0000000100 particles. (took 0.316306 sec)
ngb iteration 18: need to repeat for 0000000062 particles. (took 0.316262 sec)
ngb iteration 19: need to repeat for 0000000041 particles. (took 0.312839 sec)
ngb iteration 20: need to repeat for 0000000025 particles. (took 0.316225 sec)
ngb iteration 21: need to repeat for 0000000019 particles. (took 0.316184 sec)
ngb iteration 22: need to repeat for 0000000012 particles. (took 0.316531 sec)
ngb iteration 23: need to repeat for 0000000008 particles. (took 0.31641 sec)
ngb iteration 24: need to repeat for 0000000006 particles. (took 0.316103 sec)
ngb iteration 25: need to repeat for 0000000005 particles. (took 0.316602 sec)
ngb iteration 26: need to repeat for 0000000004 particles. (took 0.316146 sec)
ngb iteration 27: need to repeat for 0000000002 particles. (took 0.315952 sec)
ngb iteration 28: need to repeat for 0000000001 particles. (took 0.316528 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.316179 sec)
ngb iteration 30: need to repeat for 0000000001 particles. (took 0.316186 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.316436 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.316177 sec)
final operations ... 
density and smoothing length for species 5 took 12.4395 sec
Tree construction for species 0 (270352550).
tree build for species 0 took 3.24927 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 197.446 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.37841 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 93.5365 sec
Tree construction for species 4 (16266513).
tree build for species 4 took 0.357246 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 27.8932 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.0814569 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 18.2895 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.82028 sec
saving densities took 9.73277 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 35850606 particles.)
the other 162166 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 115679 - 142246528 

subfind_exchange()() took 4.94292 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=36991.4 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=37433.7 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 37433.7 Mbyte (on task=0), Smallest = 32325.6 Mbyte, Average = 32593.9 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7413  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3703     246.1116  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3703     441.4819  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3703     636.8522  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6240   16266.4763  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11550.7062   27817.1825  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2729.6433   30546.8258  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.3511   30840.1769  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8151   30842.0140  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    296.3318   31138.3458  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    493.8864   31632.2322  fof_fof()/fof.c/337
   0 2978 0             Group      4.6889   31636.9211  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5354.4501   36991.3712  subfind()/subfind.c/376
   0 2982 0          TopNodes     20.3186   37011.7117  domain_allocate()/domain.c/570
   0 2983 0        domain_key    390.7406   37402.4523  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.5630   37404.0173  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.5630   37405.5803  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.5630   37407.1433  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.5630   37408.7062  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.5630   37410.2699  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.5630   37411.8336  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     21.8815   37433.7151  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=24041
After=30609
NTopleaves= 26783  NTopnodes=30609 (space for 409722)
gravity work-load balance=1.00801   memory-balance=1.00801   SPH work-load balance=1.00956
iter=0 exchange of 0045836240 particles (ret=0)
domain decomposition done. (took 4.7014 sec)
Freed 17.3544 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 43406.4 Mbyte (on task=0), Smallest = 38298.3 Mbyte, Average = 38566.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7413  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3703     246.1116  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3703     441.4819  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3703     636.8522  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6240   16266.4763  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11550.7062   27817.1825  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2729.6433   30546.8258  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.3511   30840.1769  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8151   30842.0140  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    296.3318   31138.3458  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    493.8864   31632.2322  fof_fof()/fof.c/337
   0 2978 0             Group      4.6889   31636.9211  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5354.4501   36991.3712  subfind()/subfind.c/376
   0 2982 0          TopNodes      1.5179   36992.9111  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.1022   36993.0133  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base   3285.0234   40278.0367  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base   2737.5195   43015.5562  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode    195.4871   43211.0433  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father    195.3703   43406.4136  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 6.38168 sec  (presently allocated=43406.4 MB)
force_treebuild() took 7.14529 sec (presently allocated=43406.4 MB)
Start find_linkngb (1043044 particles on task=0)
find linkngb iteration 1: need to repeat for 0028127121 particles. (took 51.7507 sec)
find linkngb iteration 2: need to repeat for 0023598331 particles. (took 17.674 sec)
find linkngb iteration 3: need to repeat for 0019446674 particles. (took 10.3231 sec)
find linkngb iteration 4: need to repeat for 0017873816 particles. (took 6.58042 sec)
find linkngb iteration 5: need to repeat for 0015655343 particles. (took 5.89063 sec)
find linkngb iteration 6: need to repeat for 0012762744 particles. (took 4.99868 sec)
find linkngb iteration 7: need to repeat for 0009238283 particles. (took 4.02938 sec)
find linkngb iteration 8: need to repeat for 0005937059 particles. (took 2.93769 sec)
find linkngb iteration 9: need to repeat for 0003497668 particles. (took 1.92873 sec)
find linkngb iteration 10: need to repeat for 0001953534 particles. (took 1.17739 sec)
find linkngb iteration 11: need to repeat for 0001062252 particles. (took 0.68738 sec)
find linkngb iteration 12: need to repeat for 0000556193 particles. (took 0.401083 sec)
find linkngb iteration 13: need to repeat for 0000183783 particles. (took 0.225513 sec)
find linkngb iteration 14: need to repeat for 0000049719 particles. (took 0.0783279 sec)
find linkngb iteration 15: need to repeat for 0000023253 particles. (took 0.0249822 sec)
find linkngb iteration 16: need to repeat for 0000011699 particles. (took 0.01492 sec)
find linkngb iteration 17: need to repeat for 0000005803 particles. (took 0.0092361 sec)
find linkngb iteration 18: need to repeat for 0000002763 particles. (took 0.00585294 sec)
find linkngb iteration 19: need to repeat for 0000001296 particles. (took 0.00489497 sec)
find linkngb iteration 20: need to repeat for 0000000654 particles. (took 0.00448513 sec)
find linkngb iteration 21: need to repeat for 0000000373 particles. (took 0.0041399 sec)
find linkngb iteration 22: need to repeat for 0000000224 particles. (took 0.00393701 sec)
find linkngb iteration 23: need to repeat for 0000000143 particles. (took 0.00385809 sec)
find linkngb iteration 24: need to repeat for 0000000084 particles. (took 0.00381088 sec)
find linkngb iteration 25: need to repeat for 0000000046 particles. (took 0.0037539 sec)
find linkngb iteration 26: need to repeat for 0000000021 particles. (took 0.00387907 sec)
find linkngb iteration 27: need to repeat for 0000000009 particles. (took 0.00409508 sec)
find linkngb iteration 28: need to repeat for 0000000004 particles. (took 0.00451398 sec)
find linkngb iteration 29: need to repeat for 0000000001 particles. (took 0.00418282 sec)
find linkngb iteration 30: need to repeat for 0000000001 particles. (took 0.00418019 sec)
find linkngb iteration 31: need to repeat for 0000000001 particles. (took 0.00451684 sec)
find_linkngb() took 108.803 sec
Start finding nearest two (1043044 particles on task=0)
find_nearesttwo() took 15.2333 sec (presently allocated=43486 MB)
parallel sort of densities done. took 0.622195 sec
building distributed linked list. (presently allocated 43475.6 MB)
identification of primary candidates took 567.737 sec
adding background as candidate took 0.057914 sec
establishing of rank order took 178.21 sec  (p=46866206, grouplen=46866206) presently allocated 43475.6 MB

total number of subhalo candidates=173008

number of subhalo candidates that can be done independently=148280.
(Largest size is 7674, finding them took 0.0522239 sec)
particles are marked (took 67.1691)
independent subhalos are assembled on individual CPUs for unbinding (0.492718 sec, (presently allocated=43475.6 MB)
unbinding of independent ones took 0.591404 sec
particles have returned to their original processor (0.809523 sec, presently allocated 43475.6 MB)

number of subhalo candidates that can be done independently=22370.
(Largest size is 40323, finding them took 3.57482 sec)
particles are marked (took 50.2219)
independent subhalos are assembled on individual CPUs for unbinding (0.466263 sec, (presently allocated=43475.6 MB)
unbinding of independent ones took 1.88544 sec
particles have returned to their original processor (0.56572 sec, presently allocated 43475.6 MB)

number of subhalo candidates that can be done independently=2181.
(Largest size is 289180, finding them took 3.51855 sec)
particles are marked (took 39.0915)
independent subhalos are assembled on individual CPUs for unbinding (0.461126 sec, (presently allocated=43475.6 MB)
unbinding of independent ones took 10.5898 sec
particles have returned to their original processor (0.781096 sec, presently allocated 43475.6 MB)

number of subhalo candidates that can be done independently=164.
(Largest size is 1247019, finding them took 2.97406 sec)
particles are marked (took 46.787)
independent subhalos are assembled on individual CPUs for unbinding (0.626925 sec, (presently allocated=43475.6 MB)
unbinding of independent ones took 66.1654 sec
particles have returned to their original processor (0.820078 sec, presently allocated 43475.6 MB)

number of subhalo candidates that can be done independently=11.
(Largest size is 1543104, finding them took 2.34022 sec)
particles are marked (took 37.2977)
independent subhalos are assembled on individual CPUs for unbinding (0.593743 sec, (presently allocated=43475.6 MB)
unbinding of independent ones took 92.3822 sec
particles have returned to their original processor (0.819413 sec, presently allocated 43475.6 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 87815, finding them took 3.14244 sec)
particles are marked (took 24.333)
independent subhalos are assembled on individual CPUs for unbinding (0.540113 sec, (presently allocated=43475.6 MB)
unbinding of independent ones took 1.80725 sec
particles have returned to their original processor (0.746451 sec, presently allocated 43475.6 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 46866206, finding them took 2.22429 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=46866206 ... maximum alloacted 43479.6 MB
took 377.218 sec

the collective unbinding of remaining halos took 399.214 sec

found 8760 bound substructures in FoF group of length 46866206
determination of parent subhalo took 0.0494051 sec (presently allocated 43479.6 MB)
determining substructure properties took 389.097 sec (presently allocated 43479.6 MB)
processing of collective halos took 2218.24 sec
sort of local particles()() took 7.10717 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 2010.49 sec

Task 43: testing particles ...
Task 39: testing particles ...
Task 41: testing particles ...
Task 36: testing particles ...
Task 31: testing particles ...
Task 37: testing particles ...
Task 40: testing particles ...
Task 38: testing particles ...
Task 44: testing particles ...
Task 21: testing particles ...
Task 33: testing particles ...
Task 32: testing particles ...
Task 35: testing particles ...
Task 29: testing particles ...
Task 26: testing particles ...
Task 34: testing particles ...
Task 28: testing particles ...
unsorting of local particles()() took 6.23405 sec
Task 0: testing particles ...
Task 16: testing particles ...
Task 22: testing particles ...
Task 24: testing particles ...
Task 27: testing particles ...
Task 18: testing particles ...
Task 15: testing particles ...
Task 12: testing particles ...
Task 23: testing particles ...
Task 14: testing particles ...
Task 20: testing particles ...
Task 17: testing particles ...
Task 10: testing particles ...
Task 25: testing particles ...
Task 13: testing particles ...
Task 30: testing particles ...
Task 9: testing particles ...
Task 42: testing particles ...
Task 7: testing particles ...
Task 8: testing particles ...
Task 11: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
Task 4: testing particles ...
Task 19: testing particles ...
Task 3: testing particles ...
Task 1: testing particles ...
Task 2: testing particles ...
subfind_exchange() (for return to original CPU)  took 11.531 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=36991.4 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=37433.7 MB)
Before=34041
After=37025
NTopleaves= 32397  NTopnodes=37025 (space for 409722)
gravity work-load balance=1.00818   memory-balance=1.00815   SPH work-load balance=1.00761
iter=0 exchange of 0566253852 particles (ret=0)
domain decomposition done. (took 26.5667 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0607 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000127832 particles. (took 0.0775602 sec)
SO iteration 2: need to repeat for 0000127832 particles. (took 0.0786941 sec)
SO iteration 3: need to repeat for 0000127832 particles. (took 0.0780962 sec)
SO iteration 4: need to repeat for 0000127832 particles. (took 0.0781498 sec)
SO iteration 5: need to repeat for 0000127832 particles. (took 0.0773251 sec)
SO iteration 6: need to repeat for 0000127832 particles. (took 0.0767629 sec)
SO iteration 7: need to repeat for 0000127832 particles. (took 0.0769351 sec)
SO iteration 8: need to repeat for 0000127832 particles. (took 0.0768919 sec)
SO iteration 9: need to repeat for 0000127832 particles. (took 0.076896 sec)
SO iteration 10: need to repeat for 0000127832 particles. (took 0.0769091 sec)
SO iteration 11: need to repeat for 0000127832 particles. (took 0.077049 sec)
SO iteration 12: need to repeat for 0000127832 particles. (took 0.0770221 sec)
SO iteration 13: need to repeat for 0000127832 particles. (took 0.076952 sec)
SO iteration 14: need to repeat for 0000127832 particles. (took 0.0769658 sec)
SO iteration 15: need to repeat for 0000125630 particles. (took 0.077131 sec)
SO iteration 16: need to repeat for 0000000441 particles. (took 0.070035 sec)
SO iteration 17: need to repeat for 0000000048 particles. (took 0.00171804 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000180006 sec)
SO iteration 1: need to repeat for 0000127832 particles. (took 0.0771031 sec)
SO iteration 2: need to repeat for 0000127832 particles. (took 0.060725 sec)
SO iteration 3: need to repeat for 0000127832 particles. (took 0.0705929 sec)
SO iteration 4: need to repeat for 0000127832 particles. (took 0.0671341 sec)
SO iteration 5: need to repeat for 0000127832 particles. (took 0.0666921 sec)
SO iteration 6: need to repeat for 0000127832 particles. (took 0.0667059 sec)
SO iteration 7: need to repeat for 0000127832 particles. (took 0.0663669 sec)
SO iteration 8: need to repeat for 0000127832 particles. (took 0.0667229 sec)
SO iteration 9: need to repeat for 0000127832 particles. (took 0.066617 sec)
SO iteration 10: need to repeat for 0000127832 particles. (took 0.066576 sec)
SO iteration 11: need to repeat for 0000127832 particles. (took 0.0665529 sec)
SO iteration 12: need to repeat for 0000127832 particles. (took 0.0666928 sec)
SO iteration 13: need to repeat for 0000127832 particles. (took 0.0665309 sec)
SO iteration 14: need to repeat for 0000127832 particles. (took 0.06654 sec)
SO iteration 15: need to repeat for 0000126954 particles. (took 0.0664899 sec)
SO iteration 16: need to repeat for 0000013186 particles. (took 0.0659211 sec)
SO iteration 17: need to repeat for 0000000259 particles. (took 0.00808787 sec)
SO iteration 18: need to repeat for 0000000029 particles. (took 0.000626087 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000124931 sec)
SO iteration 1: need to repeat for 0000127832 particles. (took 0.077116 sec)
SO iteration 2: need to repeat for 0000127832 particles. (took 0.05919 sec)
SO iteration 3: need to repeat for 0000127832 particles. (took 0.047308 sec)
SO iteration 4: need to repeat for 0000127832 particles. (took 0.053031 sec)
SO iteration 5: need to repeat for 0000127832 particles. (took 0.0492601 sec)
SO iteration 6: need to repeat for 0000127832 particles. (took 0.0501621 sec)
SO iteration 7: need to repeat for 0000127832 particles. (took 0.0501492 sec)
SO iteration 8: need to repeat for 0000127832 particles. (took 0.0503571 sec)
SO iteration 9: need to repeat for 0000127832 particles. (took 0.05035 sec)
SO iteration 10: need to repeat for 0000127832 particles. (took 0.0504482 sec)
SO iteration 11: need to repeat for 0000127832 particles. (took 0.0503321 sec)
SO iteration 12: need to repeat for 0000127832 particles. (took 0.0513251 sec)
SO iteration 13: need to repeat for 0000127832 particles. (took 0.0511448 sec)
SO iteration 14: need to repeat for 0000127832 particles. (took 0.0503888 sec)
SO iteration 15: need to repeat for 0000127806 particles. (took 0.050339 sec)
SO iteration 16: need to repeat for 0000126455 particles. (took 0.050421 sec)
SO iteration 17: need to repeat for 0000014726 particles. (took 0.049778 sec)
SO iteration 18: need to repeat for 0000000384 particles. (took 0.00824404 sec)
SO iteration 19: need to repeat for 0000000044 particles. (took 0.000840902 sec)
SO iteration 1: need to repeat for 0000127832 particles. (took 0.077147 sec)
SO iteration 2: need to repeat for 0000127832 particles. (took 0.061188 sec)
SO iteration 3: need to repeat for 0000127832 particles. (took 0.0715749 sec)
SO iteration 4: need to repeat for 0000127832 particles. (took 0.0719042 sec)
SO iteration 5: need to repeat for 0000127832 particles. (took 0.0715129 sec)
SO iteration 6: need to repeat for 0000127832 particles. (took 0.0714252 sec)
SO iteration 7: need to repeat for 0000127832 particles. (took 0.072124 sec)
SO iteration 8: need to repeat for 0000127832 particles. (took 0.077198 sec)
SO iteration 9: need to repeat for 0000127832 particles. (took 0.071671 sec)
SO iteration 10: need to repeat for 0000127832 particles. (took 0.076782 sec)
SO iteration 11: need to repeat for 0000127832 particles. (took 0.0716529 sec)
SO iteration 12: need to repeat for 0000127832 particles. (took 0.071589 sec)
SO iteration 13: need to repeat for 0000127832 particles. (took 0.071651 sec)
SO iteration 14: need to repeat for 0000127832 particles. (took 0.0714819 sec)
SO iteration 15: need to repeat for 0000126108 particles. (took 0.071605 sec)
SO iteration 16: need to repeat for 0000002363 particles. (took 0.067354 sec)
SO iteration 17: need to repeat for 0000000117 particles. (took 0.00294399 sec)
SO iteration 18: need to repeat for 0000000008 particles. (took 0.000257969 sec)
SO iteration 1: need to repeat for 0000127832 particles. (took 0.0769889 sec)
SO iteration 2: need to repeat for 0000127832 particles. (took 0.05954 sec)
SO iteration 3: need to repeat for 0000127832 particles. (took 0.066946 sec)
SO iteration 4: need to repeat for 0000127832 particles. (took 0.0639989 sec)
SO iteration 5: need to repeat for 0000127832 particles. (took 0.064522 sec)
SO iteration 6: need to repeat for 0000127832 particles. (took 0.064656 sec)
SO iteration 7: need to repeat for 0000127832 particles. (took 0.064692 sec)
SO iteration 8: need to repeat for 0000127832 particles. (took 0.0647931 sec)
SO iteration 9: need to repeat for 0000127832 particles. (took 0.0647421 sec)
SO iteration 10: need to repeat for 0000127832 particles. (took 0.0647669 sec)
SO iteration 11: need to repeat for 0000127832 particles. (took 0.0646851 sec)
SO iteration 12: need to repeat for 0000127832 particles. (took 0.064796 sec)
SO iteration 13: need to repeat for 0000127832 particles. (took 0.064698 sec)
SO iteration 14: need to repeat for 0000127832 particles. (took 0.064754 sec)
SO iteration 15: need to repeat for 0000127215 particles. (took 0.064682 sec)
SO iteration 16: need to repeat for 0000031080 particles. (took 0.064199 sec)
SO iteration 17: need to repeat for 0000000370 particles. (took 0.0174649 sec)
SO iteration 18: need to repeat for 0000000048 particles. (took 0.00156593 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000150204 sec)
SO iteration 1: need to repeat for 0000127832 particles. (took 0.0773971 sec)
SO iteration 2: need to repeat for 0000127832 particles. (took 0.059268 sec)
SO iteration 3: need to repeat for 0000127832 particles. (took 0.047689 sec)
SO iteration 4: need to repeat for 0000127832 particles. (took 0.0537591 sec)
SO iteration 5: need to repeat for 0000127832 particles. (took 0.0563719 sec)
SO iteration 6: need to repeat for 0000127832 particles. (took 0.0563421 sec)
SO iteration 7: need to repeat for 0000127832 particles. (took 0.0560918 sec)
SO iteration 8: need to repeat for 0000127832 particles. (took 0.0561771 sec)
SO iteration 9: need to repeat for 0000127832 particles. (took 0.0574498 sec)
SO iteration 10: need to repeat for 0000127832 particles. (took 0.056145 sec)
SO iteration 11: need to repeat for 0000127832 particles. (took 0.056231 sec)
SO iteration 12: need to repeat for 0000127832 particles. (took 0.0561409 sec)
SO iteration 13: need to repeat for 0000127832 particles. (took 0.0562301 sec)
SO iteration 14: need to repeat for 0000127832 particles. (took 0.058738 sec)
SO iteration 15: need to repeat for 0000127748 particles. (took 0.0572672 sec)
SO iteration 16: need to repeat for 0000126060 particles. (took 0.056669 sec)
SO iteration 17: need to repeat for 0000003150 particles. (took 0.0554581 sec)
SO iteration 18: need to repeat for 0000000216 particles. (took 0.00252295 sec)
SO iteration 19: need to repeat for 0000000013 particles. (took 0.000467777 sec)
SO iteration 1: need to repeat for 0000127832 particles. (took 0.077208 sec)
SO iteration 2: need to repeat for 0000127832 particles. (took 0.0591478 sec)
SO iteration 3: need to repeat for 0000127832 particles. (took 0.0469642 sec)
SO iteration 4: need to repeat for 0000127832 particles. (took 0.04158 sec)
SO iteration 5: need to repeat for 0000127832 particles. (took 0.0442462 sec)
SO iteration 6: need to repeat for 0000127832 particles. (took 0.0452201 sec)
SO iteration 7: need to repeat for 0000127832 particles. (took 0.0450311 sec)
SO iteration 8: need to repeat for 0000127832 particles. (took 0.0449269 sec)
SO iteration 9: need to repeat for 0000127832 particles. (took 0.045074 sec)
SO iteration 10: need to repeat for 0000127832 particles. (took 0.0449672 sec)
SO iteration 11: need to repeat for 0000127832 particles. (took 0.044863 sec)
SO iteration 12: need to repeat for 0000127832 particles. (took 0.0449321 sec)
SO iteration 13: need to repeat for 0000127832 particles. (took 0.0450099 sec)
SO iteration 14: need to repeat for 0000127832 particles. (took 0.044939 sec)
SO iteration 15: need to repeat for 0000127827 particles. (took 0.0449278 sec)
SO iteration 16: need to repeat for 0000127703 particles. (took 0.0450759 sec)
SO iteration 17: need to repeat for 0000126139 particles. (took 0.0448639 sec)
SO iteration 18: need to repeat for 0000005535 particles. (took 0.0439031 sec)
SO iteration 19: need to repeat for 0000000257 particles. (took 0.00250292 sec)
SO iteration 20: need to repeat for 0000000018 particles. (took 0.000566006 sec)
determining spherical overdensity masses took 7.26517 sec
finding spherical overdensity particles took 0.611674 sec
determining contamination of halos took 0.350318 sec
Global sort of Groups took 0.037673 sec
Global sort of SubGroups took 0.0984831 sec
Global sort of IDs took 2.79923 sec
Writing block 0 (GLEN), n=3604, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14416d
Writing block 1 (GOFF), n=3604, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14416d
Writing block 2 (MTOT), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 3 (GPOS), n=3604, ptype=0, dtype=1, ndim=3, bpb=4 bytes=43248d
Writing block 4 (MMEA), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 5 (RMEA), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 6 (MCRI), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 7 (RCRI), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 8 (MTOP), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 9 (RTOP), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 17 (NCON), n=3604, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14416d
Writing block 18 (MCON), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 22 (NSUB), n=3604, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14416d
Writing block 23 (FSUB), n=3604, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14416d
Writing block 24 (SLEN), n=12207, ptype=1, dtype=0, ndim=1, bpb=4 bytes=48828d
Writing block 25 (SOFF), n=12207, ptype=1, dtype=0, ndim=1, bpb=4 bytes=48828d
Writing block 26 (SSUB), n=12207, ptype=1, dtype=0, ndim=1, bpb=4 bytes=48828d
Writing block 27 (MSUB), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 28 (SPOS), n=12207, ptype=1, dtype=1, ndim=3, bpb=4 bytes=146484d
Writing block 29 (SVEL), n=12207, ptype=1, dtype=1, ndim=3, bpb=4 bytes=146484d
Writing block 30 (SCM ), n=12207, ptype=1, dtype=1, ndim=3, bpb=4 bytes=146484d
Writing block 33 (VMAX), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 34 (RMAX), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 35 (RHMS), n=12207, ptype=1, dtype=1, ndim=6, bpb=4 bytes=292968d
Writing block 36 (MTRH), n=12207, ptype=1, dtype=1, ndim=6, bpb=4 bytes=292968d
Writing block 37 (MBID), n=12207, ptype=1, dtype=2, ndim=1, bpb=8 bytes=97656d
Writing block 38 (GRNR), n=12207, ptype=1, dtype=0, ndim=1, bpb=4 bytes=48828d
Writing block 39 (SUBN), n=12207, ptype=1, dtype=0, ndim=1, bpb=4 bytes=48828d
Writing block 40 (SMST), n=12207, ptype=1, dtype=1, ndim=6, bpb=4 bytes=292968d
Writing block 53 (PID ), n=5363430, ptype=2, dtype=2, ndim=1, bpb=8 bytes=42907440d
Writing block 54 (SLEN), n=12207, ptype=1, dtype=0, ndim=6, bpb=4 bytes=292968d
Writing block 55 (STEN), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 56 (SKEN), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 57 (SUEN), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 58 (SUIT), n=12207, ptype=1, dtype=1, ndim=9, bpb=4 bytes=439452d
Writing block 59 (BHMA), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 60 (BHMD), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 61 (SVD ), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 62 (SVDH), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 63 (HMPR), n=12207, ptype=1, dtype=1, ndim=6, bpb=4 bytes=292968d
Writing block 64 (SSFR), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 65 (SSA ), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 66 (SSBZ), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 67 (SSIM), n=12207, ptype=1, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 68 (SSPI), n=12207, ptype=4, dtype=1, ndim=3, bpb=4 bytes=146484d
Writing block 69 (GSPI), n=12207, ptype=1, dtype=1, ndim=3, bpb=4 bytes=146484d
Writing block 70 (FSPI), n=12207, ptype=5, dtype=1, ndim=3, bpb=4 bytes=146484d
Writing block 71 (SFM ), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 72 (SFMT), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 73 (SFME), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 74 (SFAE), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 75 (SFKE), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 76 (SFTE), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 77 (SMWP), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 78 (SMM ), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 79 (SMMS), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 80 (SFZ ), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 81 (SFZS), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 82 (SSIA), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 83 (SIAS), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 84 (SMET), n=12207, ptype=5, dtype=1, ndim=9, bpb=4 bytes=439452d
Writing block 85 (SMTS), n=12207, ptype=5, dtype=1, ndim=9, bpb=4 bytes=439452d
Writing block 86 (MF1 ), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 87 (MeF1), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 88 (MF  ), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 89 (MeF2), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 90 (MFA ), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 91 (MeFA), n=12207, ptype=5, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 92 (NSPI), n=12207, ptype=6, dtype=1, ndim=3, bpb=4 bytes=146484d
Writing block 93 (NFM ), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 94 (NFMT), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 95 (NFME), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 96 (NFAE), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 97 (NFKE), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 98 (NFTE), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 99 (SMWP), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 100 (SMM ), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 101 (SMMS), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 102 (SSIA), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 103 (SIAS), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 104 (SMET), n=12207, ptype=6, dtype=1, ndim=9, bpb=4 bytes=439452d
Writing block 105 (SMTS), n=12207, ptype=6, dtype=1, ndim=9, bpb=4 bytes=439452d
Writing block 106 (MF1 ), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 107 (MeF1), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 108 (MF2 ), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 109 (MeF2), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 110 (MFA ), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 111 (MeFA), n=12207, ptype=6, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 112 (SM  ), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 113 (SFKE), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 114 (SFAE), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 115 (SMWP), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 116 (SMM ), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 117 (SMMS), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 118 (SSIA), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 119 (SIAS), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 120 (SMET), n=12207, ptype=4, dtype=1, ndim=9, bpb=4 bytes=439452d
Writing block 121 (SMTS), n=12207, ptype=4, dtype=1, ndim=9, bpb=4 bytes=439452d
Writing block 122 (MF1 ), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 123 (MeF1), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 124 (MF2 ), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 125 (MeF2), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 126 (MFA ), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 127 (MeFA), n=12207, ptype=4, dtype=1, ndim=1, bpb=4 bytes=48828d
Writing block 128 (MMe5), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 129 (RMe5), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 130 (MCr5), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 131 (RCr5), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 132 (MMe2), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 133 (RMe2), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 134 (MCr2), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 135 (RCr2), n=3604, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14416d
Writing block 136 (MAPT), n=12207, ptype=7, dtype=1, ndim=60, bpb=4 bytes=2929680d
Writing block 137 (SAPT), n=12207, ptype=8, dtype=1, ndim=10, bpb=4 bytes=488280d
Writing block 138 (VAPT), n=12207, ptype=9, dtype=1, ndim=10, bpb=4 bytes=488280d
Writing block 139 (BEGY), n=5363430, ptype=2, dtype=1, ndim=1, bpb=4 bytes=21453720d
Subgroup catalogues saved. took = 10.2614 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 2.567559e+00
 eagle_ph_key_ort: type= 1 timed by volker 2.925937e+00
 eagle_ph_key_ort: type= 2 timed by volker 2.159109e-01
 eagle_ph_key_ort: type= 3 timed by volker 7.414794e-02
 eagle_ph_key_ort: type= 4 timed by volker 1.673961e-01
 eagle_ph_key_ort: type= 5 timed by volker 4.941010e-02
 eagle_ph_key_ort: timing parallel sort = 6.661902e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19624002000

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 37285.1 Mbyte (on task=0), Smallest = 32177.2 Mbyte, Average = 32444.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7413  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3703     246.1116  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3703     441.4819  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3703     636.8522  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6240   16266.4763  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11550.7062   27817.1825  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2729.6433   30546.8258  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.3511   30840.1769  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8151   30842.0140  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    296.3318   31138.3458  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    493.8864   31632.2322  fof_fof()/fof.c/337
   0 2978 0             Group      4.6889   31636.9211  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5354.4501   36991.3712  subfind()/subfind.c/376
   0 2980 0   sort_index_data    293.7221   37285.0933  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 160, max_elements= 247556 number of bytes = 39608960
 eagle_ph_key_ort: timing parallel P exchange = 2.659269e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19624002000
 eagle_fetch_elements: max_bytes= 248, max_elements= 1272048 number of bytes = 315467904
 eagle_ph_key_ort: timing parallel SphP exchange = 1.479861e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19624002000
 eagle_fetch_elements: max_bytes= 384, max_elements= 2435078 number of bytes = 935069952
 eagle_ph_key_ort: timing parallel MetP exchange = 9.571500e-01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19624002000
 eagle_fetch_elements: max_bytes= 256, max_elements= 4097797 number of bytes = 1049036032
 eagle_ph_key_ort: timing parallel BHP exchange = 2.838588e-02
Sorting particle-data by peano-hilbert key took = 51.6485 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 160, max_elements= 247556 number of bytes= 39608960
 eagle_ph_restore: timing parallel P exchange = 3.013909e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 252, max_elements= 1205400 number of bytes= 303760800
 eagle_ph_restore: timing parallel SphP exchange = 1.464217e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2435078 number of bytes= 935069952
 eagle_ph_restore: timing parallel MetP exchange = 8.568959e-01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4097797 number of bytes= 1049036032
 eagle_ph_restore: timing parallel BHP exchange = 2.768612e-02
Restoring original order after ph key sorting took = 45.8015 sec

finished writing particle file...

Finished with SUBFIND.  (total time=5776.37 sec)

Finished computing FoF groups.  (presently allocated=30842 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30840.2 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31282.5 MB)
Before=33385
After=36625
NTopleaves= 32047  NTopnodes=36625 (space for 409722)
gravity work-load balance=1.01624   memory-balance=1.01626   SPH work-load balance=1.01615
iter=0 exchange of 0567621436 particles (ret=0)
domain decomposition done. (took 25.4952 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.079 MByte in top-level domain structure
Tree construction.
task 8: endrun called with an error level of 124


task 5: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
task 5: endrun called with an error level of 124


    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
task 8: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 19: endrun called with an error level of 124


task 27: endrun called with an error level of 124


task 20: endrun called with an error level of 124


task 36: endrun called with an error level of 124


task 11: endrun called with an error level of 124


task 31: endrun called with an error level of 124


task 22: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 19:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 27:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 27:
task 30: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22task 16: endrun called with an error level of 124


task 39: endrun called with an error level of 124


task 19: endrun called with an error level of 124


task 27: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
task 33: endrun called with an error level of 124


task 20: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
task 11: endrun called with an error level of 124


task 31: endrun called with an error level of 124


task 22: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 19:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
task 30: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) :
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
task 36: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
task 39: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
task 33: endrun called with an error level of 124


    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
Finished FOF, total time doing fof/subfind = 6028.15 s
task 0: endrun called with an error level of 124


task 42: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 43:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
task 43: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
task 42: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12)  An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
task 43: endrun called with an error level of 124


:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
MPI-process 43:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63091.65 Mb (on task=14), Smallest =   62881.54 Mb (on task=0), Average =   63038.51 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=11), Smallest =   64531.71 Mb (on task=14), Average =   64532.01 Mb
Committed_AS:	 Largest =    1650.45 Mb (on task=0), Smallest =    1440.06 Mb (on task=14), Average =    1493.50 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=2), Smallest =   16265.99 Mb (on task=6), Average =   16309.89 Mb
AllocMem:	 Largest =    1650.45 Mb (on task=0), Smallest =    1440.06 Mb (on task=14), Average =    1493.50 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 45 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N1':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         56000
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 16264.6 MByte for particle storage.

Allocated 11555.8 MByte for storage of SPH data.

Allocated 2726.74 MByte for storage of MET data.

Allocated 293.481 MByte for storage of BH data.


reading file `data//snapshot_027_z000p073/snap_027_z000p073.0.hdf5' on task=0 (contains 36766223 particles.)
distributing this file to tasks 0-4
Type 0 (gas):   16660522  (tot=     0270472698) masstab=0
Type 1 (halo):  18040320  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18044  (tot=     0000254233) masstab=0
Type 3 (bulge):   418712  (tot=     0002602064) masstab=0
Type 4 (stars):  1626593  (tot=     0016147294) masstab=0
Type 5 (bndry):     2032  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.10.hdf5' on task=31 (contains 35934561 particles.)
distributing this file to tasks 31-32
Type 0 (gas):   16973973  (tot=     0270472698) masstab=0
Type 1 (halo):  17864379  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14537  (tot=     0000254233) masstab=0
Type 3 (bulge):   183342  (tot=     0002602064) masstab=0
Type 4 (stars):   896215  (tot=     0016147294) masstab=0
Type 5 (bndry):     2115  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.8.hdf5' on task=27 (contains 35721573 particles.)
distributing this file to tasks 27-29
Type 0 (gas):   17074385  (tot=     0270472698) masstab=0
Type 1 (halo):  17601408  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11045  (tot=     0000254233) masstab=0
Type 3 (bulge):   108454  (tot=     0002602064) masstab=0
Type 4 (stars):   924179  (tot=     0016147294) masstab=0
Type 5 (bndry):     2102  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.7.hdf5' on task=22 (contains 36230768 particles.)
distributing this file to tasks 22-26
Type 0 (gas):   16919881  (tot=     0270472698) masstab=0
Type 1 (halo):  18081589  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     32016  (tot=     0000254233) masstab=0
Type 3 (bulge):   349497  (tot=     0002602064) masstab=0
Type 4 (stars):   845612  (tot=     0016147294) masstab=0
Type 5 (bndry):     2173  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.13.hdf5' on task=39 (contains 36039778 particles.)
distributing this file to tasks 39-41
Type 0 (gas):   16919022  (tot=     0270472698) masstab=0
Type 1 (halo):  18177663  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10221  (tot=     0000254233) masstab=0
Type 3 (bulge):   106572  (tot=     0002602064) masstab=0
Type 4 (stars):   824025  (tot=     0016147294) masstab=0
Type 5 (bndry):     2275  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.12.hdf5' on task=36 (contains 36147786 particles.)
distributing this file to tasks 36-38
Type 0 (gas):   16819608  (tot=     0270472698) masstab=0
Type 1 (halo):  18125456  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17316  (tot=     0000254233) masstab=0
Type 3 (bulge):   240017  (tot=     0002602064) masstab=0
Type 4 (stars):   943214  (tot=     0016147294) masstab=0
Type 5 (bndry):     2175  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.5.hdf5' on task=19 (contains 35669342 particles.)
distributing this file to tasks 19-19
Type 0 (gas):   16953113  (tot=     0270472698) masstab=0
Type 1 (halo):  17644632  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19703  (tot=     0000254233) masstab=0
Type 3 (bulge):    62857  (tot=     0002602064) masstab=0
Type 4 (stars):   986848  (tot=     0016147294) masstab=0
Type 5 (bndry):     2189  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.14.hdf5' on task=42 (contains 36050949 particles.)
distributing this file to tasks 42-42
Type 0 (gas):   16927744  (tot=     0270472698) masstab=0
Type 1 (halo):  18060467  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10842  (tot=     0000254233) masstab=0
Type 3 (bulge):   107954  (tot=     0002602064) masstab=0
Type 4 (stars):   941808  (tot=     0016147294) masstab=0
Type 5 (bndry):     2134  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.11.hdf5' on task=33 (contains 35864019 particles.)
distributing this file to tasks 33-35
Type 0 (gas):   16917410  (tot=     0270472698) masstab=0
Type 1 (halo):  17932543  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19064  (tot=     0000254233) masstab=0
Type 3 (bulge):   156140  (tot=     0002602064) masstab=0
Type 4 (stars):   836814  (tot=     0016147294) masstab=0
Type 5 (bndry):     2048  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.3.hdf5' on task=11 (contains 35993904 particles.)
distributing this file to tasks 11-15
Type 0 (gas):   16883289  (tot=     0270472698) masstab=0
Type 1 (halo):  17982968  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12669  (tot=     0000254233) masstab=0
Type 3 (bulge):   133843  (tot=     0002602064) masstab=0
Type 4 (stars):   979075  (tot=     0016147294) masstab=0
Type 5 (bndry):     2060  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.6.hdf5' on task=20 (contains 35886481 particles.)
distributing this file to tasks 20-21
Type 0 (gas):   16849751  (tot=     0270472698) masstab=0
Type 1 (halo):  18022256  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11687  (tot=     0000254233) masstab=0
Type 3 (bulge):   105588  (tot=     0002602064) masstab=0
Type 4 (stars):   895249  (tot=     0016147294) masstab=0
Type 5 (bndry):     1950  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.2.hdf5' on task=8 (contains 35956602 particles.)
distributing this file to tasks 8-10
Type 0 (gas):   16892767  (tot=     0270472698) masstab=0
Type 1 (halo):  17688682  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10489  (tot=     0000254233) masstab=0
Type 3 (bulge):   138456  (tot=     0002602064) masstab=0
Type 4 (stars):  1224199  (tot=     0016147294) masstab=0
Type 5 (bndry):     2009  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.9.hdf5' on task=30 (contains 36169847 particles.)
distributing this file to tasks 30-30
Type 0 (gas):   16846488  (tot=     0270472698) masstab=0
Type 1 (halo):  18113936  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11910  (tot=     0000254233) masstab=0
Type 3 (bulge):   181648  (tot=     0002602064) masstab=0
Type 4 (stars):  1013686  (tot=     0016147294) masstab=0
Type 5 (bndry):     2179  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.1.hdf5' on task=5 (contains 36103246 particles.)
distributing this file to tasks 5-7
Type 0 (gas):   16906748  (tot=     0270472698) masstab=0
Type 1 (halo):  17728845  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21359  (tot=     0000254233) masstab=0
Type 3 (bulge):    98769  (tot=     0002602064) masstab=0
Type 4 (stars):  1345476  (tot=     0016147294) masstab=0
Type 5 (bndry):     2049  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.4.hdf5' on task=16 (contains 35853192 particles.)
distributing this file to tasks 16-18
Type 0 (gas):   16951847  (tot=     0270472698) masstab=0
Type 1 (halo):  17753589  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19140  (tot=     0000254233) masstab=0
Type 3 (bulge):   139250  (tot=     0002602064) masstab=0
Type 4 (stars):   987352  (tot=     0016147294) masstab=0
Type 5 (bndry):     2014  (tot=     0000033609) masstab=0


reading file `data//snapshot_027_z000p073/snap_027_z000p073.15.hdf5' on task=43 (contains 35782357 particles.)
distributing this file to tasks 43-44
Type 0 (gas):   16976150  (tot=     0270472698) masstab=0
Type 1 (halo):  17841997  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14191  (tot=     0000254233) masstab=0
Type 3 (bulge):    70965  (tot=     0002602064) masstab=0
Type 4 (stars):   876949  (tot=     0016147294) masstab=0
Type 5 (bndry):     2105  (tot=     0000033609) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576170628


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= 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=14.9183 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30842.5 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31284.9 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 31284.9 Mbyte (on task=1), Smallest = 31284.9 Mbyte, Average = 31284.9 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    195.3703     246.1128  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    195.3703     441.4831  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    195.3703     636.8534  allocate_memory()/allocate.c/61
   1 2969 0                 P  15629.6277   16266.4811  allocate_memory()/allocate.c/67
   1 2970 0              SphP  11555.8396   27822.3207  allocate_memory()/allocate.c/85
   1 2971 0              MetP   2726.7393   30549.0600  allocate_memory()/allocate.c/105
   1 2972 0               BHP    293.4814   30842.5414  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes     20.3186   30862.8820  domain_allocate()/domain.c/570
   1 2976 0        domain_key    390.7407   31253.6227  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      1.5630   31255.1877  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      1.5630   31256.7507  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      1.5630   31258.3136  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      1.5630   31259.8766  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      1.5630   31261.4403  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      1.5630   31263.0039  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes     21.8815   31284.8855  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=33249
After=35257
NTopleaves= 30850  NTopnodes=35257 (space for 409722)
gravity work-load balance=1.01065   memory-balance=1.01069   SPH work-load balance=1.01076
iter=0 exchange of 0562242204 particles (ret=0)
domain decomposition done. (took 61.4729 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.1416 MByte in top-level domain structure

Allocated 6414.2 MByte for BH-tree, and 0.117683 Mbyte for top-leaves.  (presently allocted 37258.6 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 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 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 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 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 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 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 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 predicted entropy from the internal energies read in the file...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 37991.9 Mbyte (on task=20), Smallest = 37792.3 Mbyte, Average = 37902.8 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  20 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
  20 2966 0  NextActiveParticle    195.3703     246.1128  allocate_memory()/allocate.c/55
  20 2967 0     NextInTimeBin    195.3703     441.4831  allocate_memory()/allocate.c/58
  20 2968 0     PrevInTimeBin    195.3703     636.8534  allocate_memory()/allocate.c/61
  20 2969 0                 P  15629.6277   16266.4811  allocate_memory()/allocate.c/67
  20 2970 0              SphP  11555.8396   27822.3207  allocate_memory()/allocate.c/85
  20 2971 0              MetP   2726.7393   30549.0600  allocate_memory()/allocate.c/105
  20 2972 0               BHP    293.4814   30842.5414  allocate_memory()/allocate.c/126
  20 2975 0          TopNodes      1.7484   30844.3118  domain_allocate()/domain.c/570
  20 2976 0   DomainNodeIndex      0.1177   30844.4295  force_treeallocate()/forcetree.c/4800
  20 2977 0        Nodes_base   3285.4497   34129.8792  force_treeallocate()/forcetree.c/4803
  20 2978 0     Extnodes_base   2737.8748   36867.7540  force_treeallocate()/forcetree.c/4811
  20 2979 0          Nextnode    195.5048   37063.2588  force_treeallocate()/forcetree.c/4820
  20 2980 0            Father    195.3703   37258.6292  force_treeallocate()/forcetree.c/4827
  20 2981 0           Ngblist     48.6214   37307.2505  density()/density.c/690
  20 2982 0              Left     97.2427   37404.4933  density()/density.c/692
  20 2983 0             Right     97.2427   37501.7360  density()/density.c/693
  20 2984 0    DataIndexTable      7.0175   37508.7535  density()/density.c/738
  20 2985 0      DataNodeList     18.7134   37527.4670  density()/density.c/740
  20 2986 0       DensDataGet    141.8061   37669.2731  density()/density.c/893
  20 2987 0    DensDataResult    186.9262   37856.1993  density()/density.c/931
  20 2988 0       DensDataOut    135.6724   37991.8717  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0002627163 particles.
ngb iteration 2: need to repeat for 0000002042 particles.
ngb iteration 3: need to repeat for 0000000793 particles.
ngb iteration 4: need to repeat for 0000000598 particles.
ngb iteration 5: need to repeat for 0000000254 particles.
ngb iteration 6: need to repeat for 0000000199 particles.
ngb iteration 7: need to repeat for 0000000102 particles.
ngb iteration 8: need to repeat for 0000000018 particles.
ngb iteration 9: need to repeat for 0000000013 particles.
ngb iteration 10: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.049.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.101.hdf5

Begin to compute FoF group catalogues...  (presently allocated=37258.6 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30842.5 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31284.9 MB)
Before=33385
After=36697
NTopleaves= 32110  NTopnodes=36697 (space for 409722)
gravity work-load balance=1.00627   memory-balance=1.00626   SPH work-load balance=1.00581
iter=0 exchange of 0562597308 particles (ret=0)
domain decomposition done. (took 25.6629 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0757 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=30844.4 MB)
Tree construction.

Start linking particles (presently allocated=37846.6 MB)
links on local processor done (took 52.2789 sec).
Marked=0030213442 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=38116.5 MB) 
have done 0000470621 cross links (processed 0030213442, took 8.73353 sec)
have done 0000195574 cross links (processed 0023151888, took 8.26506 sec)
have done 0000136395 cross links (processed 0018468935, took 5.34394 sec)
have done 0000081918 cross links (processed 0008916375, took 5.0688 sec)
have done 0000046725 cross links (processed 0006210714, took 2.95505 sec)
have done 0000025553 cross links (processed 0002341736, took 3.73106 sec)
have done 0000009627 cross links (processed 0000656963, took 1.35803 sec)
have done 0000003249 cross links (processed 0000090330, took 0.258737 sec)
have done 0000001067 cross links (processed 0000015074, took 0.199578 sec)
have done 0000000358 cross links (processed 0000004432, took 0.198038 sec)
have done 0000000146 cross links (processed 0000001669, took 0.197717 sec)
have done 0000000078 cross links (processed 0000000736, took 0.197223 sec)
have done 0000000036 cross links (processed 0000000407, took 0.197156 sec)
have done 0000000018 cross links (processed 0000000178, took 0.197036 sec)
have done 0000000005 cross links (processed 0000000075, took 0.196963 sec)
have done 0000000003 cross links (processed 0000000028, took 0.197252 sec)
have done 0000000000 cross links (processed 0000000011, took 0.197087 sec)
Local groups found.

group finding took = 90.2485 sec
Start finding nearest dm-particle (presently allocated=37846.6 MB)
still finding nearest... (presently allocated=38081.7 MB)
fof-nearest iteration 1: need to repeat for 258319500 particles.
still finding nearest... (presently allocated=38086.9 MB)
fof-nearest iteration 2: need to repeat for 246613709 particles.
still finding nearest... (presently allocated=38098.9 MB)
fof-nearest iteration 3: need to repeat for 222719110 particles.
still finding nearest... (presently allocated=38113.1 MB)
fof-nearest iteration 4: need to repeat for 180710767 particles.
still finding nearest... (presently allocated=38122.3 MB)
fof-nearest iteration 5: need to repeat for 123712899 particles.
still finding nearest... (presently allocated=38122.3 MB)
fof-nearest iteration 6: need to repeat for 59710581 particles.
still finding nearest... (presently allocated=38109.6 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 47.5438 sec
compiling local group data and catalogue took = 5.99463 sec

Total number of groups with at least 32 particles: 164838
Largest group has 46075731 particles.
Total number of particles in groups: 0213855357

group properties are now allocated.. (presently allocated=31632.4 MB)
computation of group properties took = 0.874715 sec
start global sorting of group catalogues number 27
LargestGroup = 19104.133597; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.314457 sec
Group catalogues globally sorted. took = 4.90182 sec
starting saving of group catalogue number 27
data//groups_027_z000p073
Group catalogues number 27 saved. took = 3.22331 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (270472698).
tree build for species 0 took 3.2635 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0160390133 particles. (took 91.7558 sec)
ngb iteration 2: need to repeat for 0096791191 particles. (took 52.8745 sec)
ngb iteration 3: need to repeat for 0081741711 particles. (took 27.1669 sec)
ngb iteration 4: need to repeat for 0074163624 particles. (took 20.6661 sec)
ngb iteration 5: need to repeat for 0065928666 particles. (took 17.9133 sec)
ngb iteration 6: need to repeat for 0053888810 particles. (took 15.2159 sec)
ngb iteration 7: need to repeat for 0039018272 particles. (took 12.5587 sec)
ngb iteration 8: need to repeat for 0025170590 particles. (took 9.30536 sec)
ngb iteration 9: need to repeat for 0014879785 particles. (took 6.26398 sec)
ngb iteration 10: need to repeat for 0008293197 particles. (took 3.97822 sec)
ngb iteration 11: need to repeat for 0004458197 particles. (took 2.48898 sec)
ngb iteration 12: need to repeat for 0002344858 particles. (took 1.59233 sec)
ngb iteration 13: need to repeat for 0001219898 particles. (took 1.0622 sec)
ngb iteration 14: need to repeat for 0000561479 particles. (took 0.767064 sec)
ngb iteration 15: need to repeat for 0000156239 particles. (took 0.538121 sec)
ngb iteration 16: need to repeat for 0000049306 particles. (took 0.356581 sec)
ngb iteration 17: need to repeat for 0000019891 particles. (took 0.305714 sec)
ngb iteration 18: need to repeat for 0000010601 particles. (took 0.290847 sec)
ngb iteration 19: need to repeat for 0000006631 particles. (took 0.286368 sec)
ngb iteration 20: need to repeat for 0000004681 particles. (took 0.284284 sec)
ngb iteration 21: need to repeat for 0000003595 particles. (took 0.283372 sec)
ngb iteration 22: need to repeat for 0000002802 particles. (took 0.283171 sec)
ngb iteration 23: need to repeat for 0000002240 particles. (took 0.282727 sec)
ngb iteration 24: need to repeat for 0000001810 particles. (took 0.282385 sec)
ngb iteration 25: need to repeat for 0000001440 particles. (took 0.282291 sec)
ngb iteration 26: need to repeat for 0000001130 particles. (took 0.282456 sec)
ngb iteration 27: need to repeat for 0000000832 particles. (took 0.282165 sec)
ngb iteration 28: need to repeat for 0000000543 particles. (took 0.282229 sec)
ngb iteration 29: need to repeat for 0000000329 particles. (took 0.282258 sec)
ngb iteration 30: need to repeat for 0000000201 particles. (took 0.282067 sec)
ngb iteration 31: need to repeat for 0000000118 particles. (took 0.28189 sec)
ngb iteration 32: need to repeat for 0000000066 particles. (took 0.281774 sec)
ngb iteration 33: need to repeat for 0000000036 particles. (took 0.282056 sec)
ngb iteration 34: need to repeat for 0000000018 particles. (took 0.281769 sec)
ngb iteration 35: need to repeat for 0000000008 particles. (took 0.281807 sec)
ngb iteration 36: need to repeat for 0000000004 particles. (took 0.282243 sec)
ngb iteration 37: need to repeat for 0000000001 particles. (took 0.282152 sec)
ngb iteration 38: need to repeat for 0000000001 particles. (took 0.281795 sec)
final operations ... 
density and smoothing length for species 0 took 272.987 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.63675 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0166473849 particles. (took 142.429 sec)
ngb iteration 2: need to repeat for 0102045720 particles. (took 53.9018 sec)
ngb iteration 3: need to repeat for 0078861462 particles. (took 30.0694 sec)
ngb iteration 4: need to repeat for 0067923815 particles. (took 20.4826 sec)
ngb iteration 5: need to repeat for 0059573307 particles. (took 16.3314 sec)
ngb iteration 6: need to repeat for 0049364590 particles. (took 13.793 sec)
ngb iteration 7: need to repeat for 0037144681 particles. (took 11.4135 sec)
ngb iteration 8: need to repeat for 0025401064 particles. (took 8.77478 sec)
ngb iteration 9: need to repeat for 0016120766 particles. (took 6.22232 sec)
ngb iteration 10: need to repeat for 0009716445 particles. (took 4.1983 sec)
ngb iteration 11: need to repeat for 0005670032 particles. (took 2.78013 sec)
ngb iteration 12: need to repeat for 0003256779 particles. (took 1.86139 sec)
ngb iteration 13: need to repeat for 0001860925 particles. (took 1.2746 sec)
ngb iteration 14: need to repeat for 0001011043 particles. (took 0.911686 sec)
ngb iteration 15: need to repeat for 0000476233 particles. (took 0.670316 sec)
ngb iteration 16: need to repeat for 0000248158 particles. (took 0.476811 sec)
ngb iteration 17: need to repeat for 0000138475 particles. (took 0.391897 sec)
ngb iteration 18: need to repeat for 0000079852 particles. (took 0.356507 sec)
ngb iteration 19: need to repeat for 0000046339 particles. (took 0.339231 sec)
ngb iteration 20: need to repeat for 0000026483 particles. (took 0.330793 sec)
ngb iteration 21: need to repeat for 0000014891 particles. (took 0.326014 sec)
ngb iteration 22: need to repeat for 0000008223 particles. (took 0.323012 sec)
ngb iteration 23: need to repeat for 0000004371 particles. (took 0.320618 sec)
ngb iteration 24: need to repeat for 0000002261 particles. (took 0.319595 sec)
ngb iteration 25: need to repeat for 0000001188 particles. (took 0.318928 sec)
ngb iteration 26: need to repeat for 0000000653 particles. (took 0.318485 sec)
ngb iteration 27: need to repeat for 0000000382 particles. (took 0.318248 sec)
ngb iteration 28: need to repeat for 0000000231 particles. (took 0.318086 sec)
ngb iteration 29: need to repeat for 0000000144 particles. (took 0.317984 sec)
ngb iteration 30: need to repeat for 0000000080 particles. (took 0.317816 sec)
ngb iteration 31: need to repeat for 0000000042 particles. (took 0.31767 sec)
ngb iteration 32: need to repeat for 0000000026 particles. (took 0.318291 sec)
ngb iteration 33: need to repeat for 0000000014 particles. (took 0.317688 sec)
ngb iteration 34: need to repeat for 0000000008 particles. (took 0.317743 sec)
ngb iteration 35: need to repeat for 0000000003 particles. (took 0.317814 sec)
final operations ... 
density and smoothing length for species 1 took 324.101 sec
Tree construction for species 4 (16147294).
tree build for species 4 took 0.386206 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0009163392 particles. (took 19.7081 sec)
ngb iteration 2: need to repeat for 0006321496 particles. (took 7.03824 sec)
ngb iteration 3: need to repeat for 0004563529 particles. (took 4.83 sec)
ngb iteration 4: need to repeat for 0003613410 particles. (took 3.77079 sec)
ngb iteration 5: need to repeat for 0003022469 particles. (took 3.16631 sec)
ngb iteration 6: need to repeat for 0002538051 particles. (took 2.58195 sec)
ngb iteration 7: need to repeat for 0002063460 particles. (took 2.16302 sec)
ngb iteration 8: need to repeat for 0001609108 particles. (took 1.81961 sec)
ngb iteration 9: need to repeat for 0001215934 particles. (took 1.52839 sec)
ngb iteration 10: need to repeat for 0000895665 particles. (took 1.244 sec)
ngb iteration 11: need to repeat for 0000651470 particles. (took 0.994597 sec)
ngb iteration 12: need to repeat for 0000468065 particles. (took 0.771652 sec)
ngb iteration 13: need to repeat for 0000335277 particles. (took 0.611489 sec)
ngb iteration 14: need to repeat for 0000237651 particles. (took 0.534446 sec)
ngb iteration 15: need to repeat for 0000164506 particles. (took 0.493785 sec)
ngb iteration 16: need to repeat for 0000115357 particles. (took 0.457559 sec)
ngb iteration 17: need to repeat for 0000081713 particles. (took 0.43529 sec)
ngb iteration 18: need to repeat for 0000058733 particles. (took 0.423615 sec)
ngb iteration 19: need to repeat for 0000042623 particles. (took 0.415902 sec)
ngb iteration 20: need to repeat for 0000030854 particles. (took 0.410963 sec)
ngb iteration 21: need to repeat for 0000022624 particles. (took 0.410389 sec)
ngb iteration 22: need to repeat for 0000016769 particles. (took 0.408045 sec)
ngb iteration 23: need to repeat for 0000012467 particles. (took 0.403886 sec)
ngb iteration 24: need to repeat for 0000009542 particles. (took 0.401793 sec)
ngb iteration 25: need to repeat for 0000007420 particles. (took 0.400559 sec)
ngb iteration 26: need to repeat for 0000005733 particles. (took 0.399348 sec)
ngb iteration 27: need to repeat for 0000004332 particles. (took 0.399246 sec)
ngb iteration 28: need to repeat for 0000003257 particles. (took 0.399004 sec)
ngb iteration 29: need to repeat for 0000002397 particles. (took 0.398751 sec)
ngb iteration 30: need to repeat for 0000001683 particles. (took 0.400563 sec)
ngb iteration 31: need to repeat for 0000001201 particles. (took 0.398496 sec)
ngb iteration 32: need to repeat for 0000000816 particles. (took 0.398377 sec)
ngb iteration 33: need to repeat for 0000000526 particles. (took 0.398516 sec)
ngb iteration 34: need to repeat for 0000000323 particles. (took 0.398263 sec)
ngb iteration 35: need to repeat for 0000000178 particles. (took 0.397976 sec)
ngb iteration 36: need to repeat for 0000000099 particles. (took 0.397948 sec)
ngb iteration 37: need to repeat for 0000000052 particles. (took 0.398015 sec)
ngb iteration 38: need to repeat for 0000000020 particles. (took 0.398056 sec)
ngb iteration 39: need to repeat for 0000000010 particles. (took 0.397967 sec)
ngb iteration 40: need to repeat for 0000000004 particles. (took 0.397879 sec)
ngb iteration 41: need to repeat for 0000000002 particles. (took 0.398114 sec)
final operations ... 
density and smoothing length for species 4 took 63.6953 sec
Tree construction.
tree build took 7.51757 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000026699 particles. (took 0.958733 sec)
ngb iteration 2: need to repeat for 0000023686 particles. (took 0.432551 sec)
ngb iteration 3: need to repeat for 0000013974 particles. (took 0.433011 sec)
ngb iteration 4: need to repeat for 0000008565 particles. (took 0.425098 sec)
ngb iteration 5: need to repeat for 0000007014 particles. (took 0.418212 sec)
ngb iteration 6: need to repeat for 0000006013 particles. (took 0.415388 sec)
ngb iteration 7: need to repeat for 0000004940 particles. (took 0.412969 sec)
ngb iteration 8: need to repeat for 0000003799 particles. (took 0.41614 sec)
ngb iteration 9: need to repeat for 0000002712 particles. (took 0.405355 sec)
ngb iteration 10: need to repeat for 0000001850 particles. (took 0.403458 sec)
ngb iteration 11: need to repeat for 0000001217 particles. (took 0.402599 sec)
ngb iteration 12: need to repeat for 0000000822 particles. (took 0.401343 sec)
ngb iteration 13: need to repeat for 0000000557 particles. (took 0.400529 sec)
ngb iteration 14: need to repeat for 0000000359 particles. (took 0.399834 sec)
ngb iteration 15: need to repeat for 0000000242 particles. (took 0.40334 sec)
ngb iteration 16: need to repeat for 0000000149 particles. (took 0.398603 sec)
ngb iteration 17: need to repeat for 0000000091 particles. (took 0.398093 sec)
ngb iteration 18: need to repeat for 0000000052 particles. (took 0.397778 sec)
ngb iteration 19: need to repeat for 0000000031 particles. (took 0.397843 sec)
ngb iteration 20: need to repeat for 0000000023 particles. (took 0.397828 sec)
ngb iteration 21: need to repeat for 0000000012 particles. (took 0.397867 sec)
ngb iteration 22: need to repeat for 0000000007 particles. (took 0.397793 sec)
ngb iteration 23: need to repeat for 0000000006 particles. (took 0.397589 sec)
ngb iteration 24: need to repeat for 0000000005 particles. (took 0.397667 sec)
ngb iteration 25: need to repeat for 0000000003 particles. (took 0.397749 sec)
ngb iteration 26: need to repeat for 0000000001 particles. (took 0.398077 sec)
ngb iteration 27: need to repeat for 0000000001 particles. (took 0.397914 sec)
ngb iteration 28: need to repeat for 0000000001 particles. (took 0.397714 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.397942 sec)
ngb iteration 30: need to repeat for 0000000001 particles. (took 0.397624 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.397752 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.397768 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.397686 sec)
ngb iteration 34: need to repeat for 0000000001 particles. (took 0.397937 sec)
ngb iteration 35: need to repeat for 0000000001 particles. (took 0.397673 sec)
final operations ... 
density and smoothing length for species 5 took 16.5355 sec
Tree construction for species 0 (270472698).
tree build for species 0 took 3.28449 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 181.856 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.60555 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 97.3056 sec
Tree construction for species 4 (16147294).
tree build for species 4 took 0.418619 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 26.8004 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.18986 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 18.6925 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.86225 sec
saving densities took 9.93433 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 35850614 particles.)
the other 164837 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 122130 - 138995937 

subfind_exchange()() took 4.57833 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=36901 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=37343.3 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 37343.3 Mbyte (on task=0), Smallest = 32335.2 Mbyte, Average = 32589.3 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3703     246.1117  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3703     441.4821  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3703     636.8524  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6277   16266.4801  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11555.8396   27822.3197  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2726.7393   30549.0589  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.4814   30842.5404  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8198   30844.3822  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    293.8271   31138.2093  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    489.7118   31627.9210  fof_fof()/fof.c/337
   0 2978 0             Group      4.4503   31632.3713  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5268.6035   36900.9748  subfind()/subfind.c/376
   0 2982 0          TopNodes     20.3186   36921.3153  domain_allocate()/domain.c/570
   0 2983 0        domain_key    390.7407   37312.0560  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.5630   37313.6211  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.5630   37315.1840  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.5630   37316.7470  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.5630   37318.3100  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.5630   37319.8736  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.5630   37321.4373  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     21.8815   37343.3188  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=25121
After=31425
NTopleaves= 27497  NTopnodes=31425 (space for 409722)
gravity work-load balance=1.01233   memory-balance=1.01233   SPH work-load balance=1.01215
iter=0 exchange of 0045010499 particles (ret=0)
domain decomposition done. (took 4.54384 sec)
Freed 17.3171 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 43316.2 Mbyte (on task=0), Smallest = 38308.1 Mbyte, Average = 38562.2 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3703     246.1117  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3703     441.4821  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3703     636.8524  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6277   16266.4801  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11555.8396   27822.3197  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2726.7393   30549.0589  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.4814   30842.5404  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8198   30844.3822  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    293.8271   31138.2093  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    489.7118   31627.9210  fof_fof()/fof.c/337
   0 2978 0             Group      4.4503   31632.3713  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5268.6035   36900.9748  subfind()/subfind.c/376
   0 2982 0          TopNodes      1.5584   36902.5552  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.1049   36902.6601  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base   3285.0989   40187.7589  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base   2737.5824   42925.3413  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode    195.4902   43120.8316  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father    195.3703   43316.2019  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 6.18846 sec  (presently allocated=43316.2 MB)
force_treebuild() took 7.45577 sec (presently allocated=43316.2 MB)
Start find_linkngb (1026004 particles on task=0)
find linkngb iteration 1: need to repeat for 0027616822 particles. (took 41.5465 sec)
find linkngb iteration 2: need to repeat for 0023175022 particles. (took 17.1121 sec)
find linkngb iteration 3: need to repeat for 0019104136 particles. (took 9.93922 sec)
find linkngb iteration 4: need to repeat for 0017549372 particles. (took 6.27549 sec)
find linkngb iteration 5: need to repeat for 0015375415 particles. (took 5.65531 sec)
find linkngb iteration 6: need to repeat for 0012526310 particles. (took 4.75824 sec)
find linkngb iteration 7: need to repeat for 0009063975 particles. (took 3.83124 sec)
find linkngb iteration 8: need to repeat for 0005823016 particles. (took 2.78819 sec)
find linkngb iteration 9: need to repeat for 0003431389 particles. (took 1.81963 sec)
find linkngb iteration 10: need to repeat for 0001918622 particles. (took 1.09507 sec)
find linkngb iteration 11: need to repeat for 0001042985 particles. (took 0.639373 sec)
find linkngb iteration 12: need to repeat for 0000546763 particles. (took 0.37311 sec)
find linkngb iteration 13: need to repeat for 0000180358 particles. (took 0.217453 sec)
find linkngb iteration 14: need to repeat for 0000048756 particles. (took 0.0746999 sec)
find linkngb iteration 15: need to repeat for 0000022547 particles. (took 0.0247471 sec)
find linkngb iteration 16: need to repeat for 0000011422 particles. (took 0.0140431 sec)
find linkngb iteration 17: need to repeat for 0000005481 particles. (took 0.00831389 sec)
find linkngb iteration 18: need to repeat for 0000002668 particles. (took 0.00590801 sec)
find linkngb iteration 19: need to repeat for 0000001288 particles. (took 0.00542712 sec)
find linkngb iteration 20: need to repeat for 0000000692 particles. (took 0.00464988 sec)
find linkngb iteration 21: need to repeat for 0000000413 particles. (took 0.00421906 sec)
find linkngb iteration 22: need to repeat for 0000000250 particles. (took 0.00396204 sec)
find linkngb iteration 23: need to repeat for 0000000153 particles. (took 0.00396109 sec)
find linkngb iteration 24: need to repeat for 0000000084 particles. (took 0.00375009 sec)
find linkngb iteration 25: need to repeat for 0000000052 particles. (took 0.00374007 sec)
find linkngb iteration 26: need to repeat for 0000000031 particles. (took 0.00412607 sec)
find linkngb iteration 27: need to repeat for 0000000013 particles. (took 0.00366783 sec)
find linkngb iteration 28: need to repeat for 0000000006 particles. (took 0.00411201 sec)
find linkngb iteration 29: need to repeat for 0000000003 particles. (took 0.00410199 sec)
find linkngb iteration 30: need to repeat for 0000000001 particles. (took 0.00414801 sec)
find_linkngb() took 96.2392 sec
Start finding nearest two (1026004 particles on task=0)
find_nearesttwo() took 13.6358 sec (presently allocated=43394.5 MB)
parallel sort of densities done. took 0.61617 sec
building distributed linked list. (presently allocated 43384.3 MB)
identification of primary candidates took 563.419 sec
adding background as candidate took 0.061667 sec
establishing of rank order took 174.788 sec  (p=46075731, grouplen=46075731) presently allocated 43384.3 MB

total number of subhalo candidates=169164

number of subhalo candidates that can be done independently=145048.
(Largest size is 6254, finding them took 0.0508542 sec)
particles are marked (took 65.5658)
independent subhalos are assembled on individual CPUs for unbinding (0.481162 sec, (presently allocated=43384.3 MB)
unbinding of independent ones took 0.586364 sec
particles have returned to their original processor (0.561148 sec, presently allocated 43384.3 MB)

number of subhalo candidates that can be done independently=21817.
(Largest size is 35715, finding them took 3.83754 sec)
particles are marked (took 48.9009)
independent subhalos are assembled on individual CPUs for unbinding (0.452766 sec, (presently allocated=43384.3 MB)
unbinding of independent ones took 2.31126 sec
particles have returned to their original processor (0.548164 sec, presently allocated 43384.3 MB)

number of subhalo candidates that can be done independently=2128.
(Largest size is 99841, finding them took 3.77778 sec)
particles are marked (took 39.4851)
independent subhalos are assembled on individual CPUs for unbinding (0.435408 sec, (presently allocated=43384.3 MB)
unbinding of independent ones took 5.19404 sec
particles have returned to their original processor (0.545002 sec, presently allocated 43384.3 MB)

number of subhalo candidates that can be done independently=158.
(Largest size is 1322149, finding them took 2.82466 sec)
particles are marked (took 47.6381)
independent subhalos are assembled on individual CPUs for unbinding (0.458387 sec, (presently allocated=43384.3 MB)
unbinding of independent ones took 46.1552 sec
particles have returned to their original processor (0.616908 sec, presently allocated 43384.3 MB)

number of subhalo candidates that can be done independently=11.
(Largest size is 2361008, finding them took 2.01979 sec)
particles are marked (took 27.325)
independent subhalos are assembled on individual CPUs for unbinding (0.404258 sec, (presently allocated=43384.3 MB)
unbinding of independent ones took 14.9393 sec
particles have returned to their original processor (0.522444 sec, presently allocated 43384.3 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 2361008, finding them took 3.46123 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=2361008 ... maximum alloacted 43388.2 MB
took 30.704 sec
collective unbinding of nr=1 (2) of length=46075731 ... maximum alloacted 43388.2 MB
took 373.75 sec

the collective unbinding of remaining halos took 425.975 sec

found 8710 bound substructures in FoF group of length 46075731
determination of parent subhalo took 0.0493379 sec (presently allocated 43388.2 MB)
determining substructure properties took 388.916 sec (presently allocated 43388.2 MB)
processing of collective halos took 2064.9 sec
sort of local particles()() took 6.2696 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 1826.53 sec

unsorting of local particles()() took 5.54129 sec
Task 0: testing particles ...
Task 39: testing particles ...
Task 28: testing particles ...
Task 35: testing particles ...
Task 44: testing particles ...
Task 36: testing particles ...
Task 37: testing particles ...
Task 43: testing particles ...
Task 31: testing particles ...
Task 32: testing particles ...
Task 22: testing particles ...
Task 26: testing particles ...
Task 38: testing particles ...
Task 41: testing particles ...
Task 34: testing particles ...
Task 33: testing particles ...
Task 40: testing particles ...
Task 24: testing particles ...
Task 27: testing particles ...
Task 25: testing particles ...
Task 18: testing particles ...
Task 29: testing particles ...
Task 15: testing particles ...
Task 16: testing particles ...
Task 21: testing particles ...
Task 23: testing particles ...
Task 42: testing particles ...
Task 17: testing particles ...
Task 14: testing particles ...
Task 13: testing particles ...
Task 7: testing particles ...
Task 6: testing particles ...
Task 10: testing particles ...
Task 9: testing particles ...
Task 8: testing particles ...
Task 12: testing particles ...
Task 5: testing particles ...
Task 30: testing particles ...
Task 19: testing particles ...
Task 20: testing particles ...
Task 11: testing particles ...
Task 3: testing particles ...
Task 4: testing particles ...
Task 2: testing particles ...
Task 1: testing particles ...
subfind_exchange() (for return to original CPU)  took 9.86529 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=36901 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=37343.3 MB)
Before=34065
After=37177
NTopleaves= 32530  NTopnodes=37177 (space for 409722)
gravity work-load balance=1.01356   memory-balance=1.01357   SPH work-load balance=1.01429
iter=0 exchange of 0563371858 particles (ret=0)
domain decomposition done. (took 27.2052 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0538 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000129327 particles. (took 0.0813372 sec)
SO iteration 2: need to repeat for 0000129327 particles. (took 0.0840671 sec)
SO iteration 3: need to repeat for 0000129327 particles. (took 0.0823679 sec)
SO iteration 4: need to repeat for 0000129327 particles. (took 0.0812271 sec)
SO iteration 5: need to repeat for 0000129327 particles. (took 0.0808911 sec)
SO iteration 6: need to repeat for 0000129327 particles. (took 0.0811009 sec)
SO iteration 7: need to repeat for 0000129327 particles. (took 0.0812089 sec)
SO iteration 8: need to repeat for 0000129327 particles. (took 0.081394 sec)
SO iteration 9: need to repeat for 0000129327 particles. (took 0.0812359 sec)
SO iteration 10: need to repeat for 0000129327 particles. (took 0.081284 sec)
SO iteration 11: need to repeat for 0000129327 particles. (took 0.0812442 sec)
SO iteration 12: need to repeat for 0000129327 particles. (took 0.0812788 sec)
SO iteration 13: need to repeat for 0000129327 particles. (took 0.0814102 sec)
SO iteration 14: need to repeat for 0000129327 particles. (took 0.081295 sec)
SO iteration 15: need to repeat for 0000127096 particles. (took 0.081336 sec)
SO iteration 16: need to repeat for 0000000451 particles. (took 0.0738511 sec)
SO iteration 17: need to repeat for 0000000035 particles. (took 0.000974894 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000164986 sec)
SO iteration 1: need to repeat for 0000129327 particles. (took 0.081629 sec)
SO iteration 2: need to repeat for 0000129327 particles. (took 0.0599668 sec)
SO iteration 3: need to repeat for 0000129327 particles. (took 0.0689502 sec)
SO iteration 4: need to repeat for 0000129327 particles. (took 0.0638781 sec)
SO iteration 5: need to repeat for 0000129327 particles. (took 0.065726 sec)
SO iteration 6: need to repeat for 0000129327 particles. (took 0.0656199 sec)
SO iteration 7: need to repeat for 0000129327 particles. (took 0.0655091 sec)
SO iteration 8: need to repeat for 0000129327 particles. (took 0.0655529 sec)
SO iteration 9: need to repeat for 0000129327 particles. (took 0.0655432 sec)
SO iteration 10: need to repeat for 0000129327 particles. (took 0.065552 sec)
SO iteration 11: need to repeat for 0000129327 particles. (took 0.0655658 sec)
SO iteration 12: need to repeat for 0000129327 particles. (took 0.0655551 sec)
SO iteration 13: need to repeat for 0000129327 particles. (took 0.0656409 sec)
SO iteration 14: need to repeat for 0000129327 particles. (took 0.065614 sec)
SO iteration 15: need to repeat for 0000128445 particles. (took 0.0655141 sec)
SO iteration 16: need to repeat for 0000014228 particles. (took 0.0642519 sec)
SO iteration 17: need to repeat for 0000000258 particles. (took 0.00767112 sec)
SO iteration 18: need to repeat for 0000000024 particles. (took 0.00123811 sec)
SO iteration 1: need to repeat for 0000129327 particles. (took 0.0816391 sec)
SO iteration 2: need to repeat for 0000129327 particles. (took 0.0583601 sec)
SO iteration 3: need to repeat for 0000129327 particles. (took 0.049772 sec)
SO iteration 4: need to repeat for 0000129327 particles. (took 0.054224 sec)
SO iteration 5: need to repeat for 0000129327 particles. (took 0.0526841 sec)
SO iteration 6: need to repeat for 0000129327 particles. (took 0.054152 sec)
SO iteration 7: need to repeat for 0000129327 particles. (took 0.0537961 sec)
SO iteration 8: need to repeat for 0000129327 particles. (took 0.053556 sec)
SO iteration 9: need to repeat for 0000129327 particles. (took 0.0535641 sec)
SO iteration 10: need to repeat for 0000129327 particles. (took 0.0534892 sec)
SO iteration 11: need to repeat for 0000129327 particles. (took 0.053622 sec)
SO iteration 12: need to repeat for 0000129327 particles. (took 0.053627 sec)
SO iteration 13: need to repeat for 0000129327 particles. (took 0.053643 sec)
SO iteration 14: need to repeat for 0000129327 particles. (took 0.0535338 sec)
SO iteration 15: need to repeat for 0000129290 particles. (took 0.0535572 sec)
SO iteration 16: need to repeat for 0000127936 particles. (took 0.05353 sec)
SO iteration 17: need to repeat for 0000016286 particles. (took 0.053334 sec)
SO iteration 18: need to repeat for 0000000382 particles. (took 0.0102301 sec)
SO iteration 19: need to repeat for 0000000041 particles. (took 0.00119114 sec)
SO iteration 1: need to repeat for 0000129327 particles. (took 0.081615 sec)
SO iteration 2: need to repeat for 0000129327 particles. (took 0.0612102 sec)
SO iteration 3: need to repeat for 0000129327 particles. (took 0.0702889 sec)
SO iteration 4: need to repeat for 0000129327 particles. (took 0.0726101 sec)
SO iteration 5: need to repeat for 0000129327 particles. (took 0.0716281 sec)
SO iteration 6: need to repeat for 0000129327 particles. (took 0.0720339 sec)
SO iteration 7: need to repeat for 0000129327 particles. (took 0.0721259 sec)
SO iteration 8: need to repeat for 0000129327 particles. (took 0.0721571 sec)
SO iteration 9: need to repeat for 0000129327 particles. (took 0.072058 sec)
SO iteration 10: need to repeat for 0000129327 particles. (took 0.072103 sec)
SO iteration 11: need to repeat for 0000129327 particles. (took 0.0720022 sec)
SO iteration 12: need to repeat for 0000129327 particles. (took 0.0720789 sec)
SO iteration 13: need to repeat for 0000129327 particles. (took 0.072057 sec)
SO iteration 14: need to repeat for 0000129327 particles. (took 0.0720479 sec)
SO iteration 15: need to repeat for 0000127542 particles. (took 0.072011 sec)
SO iteration 16: need to repeat for 0000002166 particles. (took 0.068912 sec)
SO iteration 17: need to repeat for 0000000106 particles. (took 0.00277495 sec)
SO iteration 18: need to repeat for 0000000007 particles. (took 0.000504971 sec)
SO iteration 1: need to repeat for 0000129327 particles. (took 0.082062 sec)
SO iteration 2: need to repeat for 0000129327 particles. (took 0.0599689 sec)
SO iteration 3: need to repeat for 0000129327 particles. (took 0.068357 sec)
SO iteration 4: need to repeat for 0000129327 particles. (took 0.063549 sec)
SO iteration 5: need to repeat for 0000129327 particles. (took 0.064563 sec)
SO iteration 6: need to repeat for 0000129327 particles. (took 0.0638869 sec)
SO iteration 7: need to repeat for 0000129327 particles. (took 0.064549 sec)
SO iteration 8: need to repeat for 0000129327 particles. (took 0.065073 sec)
SO iteration 9: need to repeat for 0000129327 particles. (took 0.065048 sec)
SO iteration 10: need to repeat for 0000129327 particles. (took 0.0640571 sec)
SO iteration 11: need to repeat for 0000129327 particles. (took 0.0638211 sec)
SO iteration 12: need to repeat for 0000129327 particles. (took 0.066479 sec)
SO iteration 13: need to repeat for 0000129327 particles. (took 0.0660059 sec)
SO iteration 14: need to repeat for 0000129327 particles. (took 0.065012 sec)
SO iteration 15: need to repeat for 0000128636 particles. (took 0.063885 sec)
SO iteration 16: need to repeat for 0000023767 particles. (took 0.063772 sec)
SO iteration 17: need to repeat for 0000000327 particles. (took 0.012706 sec)
SO iteration 18: need to repeat for 0000000037 particles. (took 0.00136781 sec)
SO iteration 1: need to repeat for 0000129327 particles. (took 0.0815301 sec)
SO iteration 2: need to repeat for 0000129327 particles. (took 0.0583291 sec)
SO iteration 3: need to repeat for 0000129327 particles. (took 0.052736 sec)
SO iteration 4: need to repeat for 0000129327 particles. (took 0.056864 sec)
SO iteration 5: need to repeat for 0000129327 particles. (took 0.0580568 sec)
SO iteration 6: need to repeat for 0000129327 particles. (took 0.0571241 sec)
SO iteration 7: need to repeat for 0000129327 particles. (took 0.05724 sec)
SO iteration 8: need to repeat for 0000129327 particles. (took 0.0571852 sec)
SO iteration 9: need to repeat for 0000129327 particles. (took 0.057214 sec)
SO iteration 10: need to repeat for 0000129327 particles. (took 0.057158 sec)
SO iteration 11: need to repeat for 0000129327 particles. (took 0.0571311 sec)
SO iteration 12: need to repeat for 0000129327 particles. (took 0.0571721 sec)
SO iteration 13: need to repeat for 0000129327 particles. (took 0.0571878 sec)
SO iteration 14: need to repeat for 0000129327 particles. (took 0.0571671 sec)
SO iteration 15: need to repeat for 0000129211 particles. (took 0.0571561 sec)
SO iteration 16: need to repeat for 0000127521 particles. (took 0.0571179 sec)
SO iteration 17: need to repeat for 0000002780 particles. (took 0.0559311 sec)
SO iteration 18: need to repeat for 0000000195 particles. (took 0.00195289 sec)
SO iteration 19: need to repeat for 0000000009 particles. (took 0.000515938 sec)
SO iteration 1: need to repeat for 0000129327 particles. (took 0.08149 sec)
SO iteration 2: need to repeat for 0000129327 particles. (took 0.058434 sec)
SO iteration 3: need to repeat for 0000129327 particles. (took 0.0499179 sec)
SO iteration 4: need to repeat for 0000129327 particles. (took 0.042042 sec)
SO iteration 5: need to repeat for 0000129327 particles. (took 0.0457339 sec)
SO iteration 6: need to repeat for 0000129327 particles. (took 0.0471661 sec)
SO iteration 7: need to repeat for 0000129327 particles. (took 0.0467782 sec)
SO iteration 8: need to repeat for 0000129327 particles. (took 0.0469859 sec)
SO iteration 9: need to repeat for 0000129327 particles. (took 0.0468781 sec)
SO iteration 10: need to repeat for 0000129327 particles. (took 0.0468869 sec)
SO iteration 11: need to repeat for 0000129327 particles. (took 0.0469041 sec)
SO iteration 12: need to repeat for 0000129327 particles. (took 0.046895 sec)
SO iteration 13: need to repeat for 0000129327 particles. (took 0.0467319 sec)
SO iteration 14: need to repeat for 0000129327 particles. (took 0.0467939 sec)
SO iteration 15: need to repeat for 0000129320 particles. (took 0.0467651 sec)
SO iteration 16: need to repeat for 0000129167 particles. (took 0.0467939 sec)
SO iteration 17: need to repeat for 0000127594 particles. (took 0.046675 sec)
SO iteration 18: need to repeat for 0000005251 particles. (took 0.0461202 sec)
SO iteration 19: need to repeat for 0000000238 particles. (took 0.00246382 sec)
SO iteration 20: need to repeat for 0000000010 particles. (took 0.000628948 sec)
determining spherical overdensity masses took 7.42143 sec
finding spherical overdensity particles took 0.612601 sec
determining contamination of halos took 0.289859 sec
Global sort of Groups took 0.0493999 sec
Global sort of SubGroups took 0.105155 sec
Global sort of IDs took 2.78777 sec
Writing block 0 (GLEN), n=3664, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14656d
Writing block 1 (GOFF), n=3664, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14656d
Writing block 2 (MTOT), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 3 (GPOS), n=3664, ptype=0, dtype=1, ndim=3, bpb=4 bytes=43968d
Writing block 4 (MMEA), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 5 (RMEA), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 6 (MCRI), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 7 (RCRI), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 8 (MTOP), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 9 (RTOP), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 17 (NCON), n=3664, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14656d
Writing block 18 (MCON), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 22 (NSUB), n=3664, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14656d
Writing block 23 (FSUB), n=3664, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14656d
Writing block 24 (SLEN), n=12368, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49472d
Writing block 25 (SOFF), n=12368, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49472d
Writing block 26 (SSUB), n=12368, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49472d
Writing block 27 (MSUB), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 28 (SPOS), n=12368, ptype=1, dtype=1, ndim=3, bpb=4 bytes=148416d
Writing block 29 (SVEL), n=12368, ptype=1, dtype=1, ndim=3, bpb=4 bytes=148416d
Writing block 30 (SCM ), n=12368, ptype=1, dtype=1, ndim=3, bpb=4 bytes=148416d
Writing block 33 (VMAX), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 34 (RMAX), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 35 (RHMS), n=12368, ptype=1, dtype=1, ndim=6, bpb=4 bytes=296832d
Writing block 36 (MTRH), n=12368, ptype=1, dtype=1, ndim=6, bpb=4 bytes=296832d
Writing block 37 (MBID), n=12368, ptype=1, dtype=2, ndim=1, bpb=8 bytes=98944d
Writing block 38 (GRNR), n=12368, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49472d
Writing block 39 (SUBN), n=12368, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49472d
Writing block 40 (SMST), n=12368, ptype=1, dtype=1, ndim=6, bpb=4 bytes=296832d
Writing block 53 (PID ), n=5672558, ptype=2, dtype=2, ndim=1, bpb=8 bytes=45380464d
Writing block 54 (SLEN), n=12368, ptype=1, dtype=0, ndim=6, bpb=4 bytes=296832d
Writing block 55 (STEN), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 56 (SKEN), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 57 (SUEN), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 58 (SUIT), n=12368, ptype=1, dtype=1, ndim=9, bpb=4 bytes=445248d
Writing block 59 (BHMA), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 60 (BHMD), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 61 (SVD ), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 62 (SVDH), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 63 (HMPR), n=12368, ptype=1, dtype=1, ndim=6, bpb=4 bytes=296832d
Writing block 64 (SSFR), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 65 (SSA ), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 66 (SSBZ), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 67 (SSIM), n=12368, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 68 (SSPI), n=12368, ptype=4, dtype=1, ndim=3, bpb=4 bytes=148416d
Writing block 69 (GSPI), n=12368, ptype=1, dtype=1, ndim=3, bpb=4 bytes=148416d
Writing block 70 (FSPI), n=12368, ptype=5, dtype=1, ndim=3, bpb=4 bytes=148416d
Writing block 71 (SFM ), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 72 (SFMT), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 73 (SFME), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 74 (SFAE), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 75 (SFKE), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 76 (SFTE), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 77 (SMWP), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 78 (SMM ), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 79 (SMMS), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 80 (SFZ ), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 81 (SFZS), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 82 (SSIA), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 83 (SIAS), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 84 (SMET), n=12368, ptype=5, dtype=1, ndim=9, bpb=4 bytes=445248d
Writing block 85 (SMTS), n=12368, ptype=5, dtype=1, ndim=9, bpb=4 bytes=445248d
Writing block 86 (MF1 ), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 87 (MeF1), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 88 (MF  ), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 89 (MeF2), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 90 (MFA ), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 91 (MeFA), n=12368, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 92 (NSPI), n=12368, ptype=6, dtype=1, ndim=3, bpb=4 bytes=148416d
Writing block 93 (NFM ), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 94 (NFMT), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 95 (NFME), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 96 (NFAE), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 97 (NFKE), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 98 (NFTE), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 99 (SMWP), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 100 (SMM ), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 101 (SMMS), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 102 (SSIA), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 103 (SIAS), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 104 (SMET), n=12368, ptype=6, dtype=1, ndim=9, bpb=4 bytes=445248d
Writing block 105 (SMTS), n=12368, ptype=6, dtype=1, ndim=9, bpb=4 bytes=445248d
Writing block 106 (MF1 ), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 107 (MeF1), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 108 (MF2 ), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 109 (MeF2), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 110 (MFA ), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 111 (MeFA), n=12368, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 112 (SM  ), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 113 (SFKE), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 114 (SFAE), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 115 (SMWP), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 116 (SMM ), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 117 (SMMS), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 118 (SSIA), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 119 (SIAS), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 120 (SMET), n=12368, ptype=4, dtype=1, ndim=9, bpb=4 bytes=445248d
Writing block 121 (SMTS), n=12368, ptype=4, dtype=1, ndim=9, bpb=4 bytes=445248d
Writing block 122 (MF1 ), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 123 (MeF1), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 124 (MF2 ), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 125 (MeF2), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 126 (MFA ), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 127 (MeFA), n=12368, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49472d
Writing block 128 (MMe5), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 129 (RMe5), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 130 (MCr5), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 131 (RCr5), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 132 (MMe2), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 133 (RMe2), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 134 (MCr2), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 135 (RCr2), n=3664, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14656d
Writing block 136 (MAPT), n=12368, ptype=7, dtype=1, ndim=60, bpb=4 bytes=2968320d
Writing block 137 (SAPT), n=12368, ptype=8, dtype=1, ndim=10, bpb=4 bytes=494720d
Writing block 138 (VAPT), n=12368, ptype=9, dtype=1, ndim=10, bpb=4 bytes=494720d
Writing block 139 (BEGY), n=5672558, ptype=2, dtype=1, ndim=1, bpb=4 bytes=22690232d
Subgroup catalogues saved. took = 10.3013 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 2.602854e+00
 eagle_ph_key_ort: type= 1 timed by volker 2.948664e+00
 eagle_ph_key_ort: type= 2 timed by volker 2.113249e-01
 eagle_ph_key_ort: type= 3 timed by volker 1.010160e-01
 eagle_ph_key_ort: type= 4 timed by volker 1.563621e-01
 eagle_ph_key_ort: type= 5 timed by volker 4.226804e-02
 eagle_ph_key_ort: timing parallel sort = 6.455735e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19718061568

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 37195.4 Mbyte (on task=0), Smallest = 32182.2 Mbyte, Average = 32440 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3703     246.1117  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3703     441.4821  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3703     636.8524  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6277   16266.4801  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11555.8396   27822.3197  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2726.7393   30549.0589  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.4814   30842.5404  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8198   30844.3822  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    293.8271   31138.2093  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    489.7118   31627.9210  fof_fof()/fof.c/337
   0 2978 0             Group      4.4503   31632.3713  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5268.6035   36900.9748  subfind()/subfind.c/376
   0 2980 0   sort_index_data    294.4163   37195.3911  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 160, max_elements= 214063 number of bytes = 34250080
 eagle_ph_key_ort: timing parallel P exchange = 2.702106e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19718061568
 eagle_fetch_elements: max_bytes= 248, max_elements= 1251147 number of bytes = 310284456
 eagle_ph_key_ort: timing parallel SphP exchange = 1.439287e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19718061568
 eagle_fetch_elements: max_bytes= 384, max_elements= 2463857 number of bytes = 946121088
 eagle_ph_key_ort: timing parallel MetP exchange = 6.258130e-01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19718061568
 eagle_fetch_elements: max_bytes= 256, max_elements= 4097791 number of bytes = 1049034496
 eagle_ph_key_ort: timing parallel BHP exchange = 1.998115e-02
Sorting particle-data by peano-hilbert key took = 51.0619 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 160, max_elements= 214063 number of bytes= 34250080
 eagle_ph_restore: timing parallel P exchange = 3.120626e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 252, max_elements= 1184491 number of bytes= 298491732
 eagle_ph_restore: timing parallel SphP exchange = 1.455121e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2463857 number of bytes= 946121088
 eagle_ph_restore: timing parallel MetP exchange = 6.729910e-01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4097791 number of bytes= 1049034496
 eagle_ph_restore: timing parallel BHP exchange = 1.837182e-02
Restoring original order after ph key sorting took = 46.5867 sec

finished writing particle file...

Finished with SUBFIND.  (total time=5440.11 sec)

Finished computing FoF groups.  (presently allocated=30844.4 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30842.5 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31284.9 MB)
Before=33401
After=36745
NTopleaves= 32152  NTopnodes=36745 (space for 409722)
gravity work-load balance=1.00787   memory-balance=1.00786   SPH work-load balance=1.0078
iter=0 exchange of 0563545060 particles (ret=0)
domain decomposition done. (took 26.1708 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0735 MByte in top-level domain structure
Tree construction.
task 5: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
task 8: endrun called with an error level of 124


task 5: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
task 8: endrun called with an error level of 124


:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 22: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 19:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 27:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
Finished FOF, total time doing fof/subfind = 5669.25 s
task 11: endrun called with an error level of 124


task 20: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
task 33: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 43:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 36: endrun called with an error level of 124


task 31: endrun called with an error level of 124


task 30: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 19: endrun called with an error level of 124


task 19: endrun called with an error level of 124


task 27: endrun called with an error level of 124


task 39: endrun called with an error level of 124


task 42: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20:
task 22: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 43: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
task 16: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 19:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 27:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
task 0: endrun called with an error level of 124


task 11: endrun called with an error level of 124


task 20: endrun called with an error level of 124


HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
task 33: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
 An HDF5 error was detected, we'd better stop.
task 36: endrun called with an error level of 124


task 31: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 27: endrun called with an error level of 124


task 39: endrun called with an error level of 124


task 42: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 43:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
task 30: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
task 43: endrun called with an error level of 124


    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63093.23 Mb (on task=14), Smallest =   62879.11 Mb (on task=0), Average =   63038.55 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=11), Smallest =   64531.71 Mb (on task=14), Average =   64532.01 Mb
Committed_AS:	 Largest =    1652.88 Mb (on task=0), Smallest =    1438.48 Mb (on task=14), Average =    1493.46 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=2), Smallest =   16266.02 Mb (on task=6), Average =   16309.90 Mb
AllocMem:	 Largest =    1652.88 Mb (on task=0), Smallest =    1438.48 Mb (on task=14), Average =    1493.46 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 45 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N1':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         56000
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 16264.6 MByte for particle storage.

Allocated 11559.8 MByte for storage of SPH data.

Allocated 2724.51 MByte for storage of MET data.

Allocated 293.582 MByte for storage of BH data.


reading file `data//snapshot_026_z000p101/snap_026_z000p101.0.hdf5' on task=0 (contains 36647166 particles.)
distributing this file to tasks 0-4
Type 0 (gas):   16838971  (tot=     0270564821) masstab=0
Type 1 (halo):  18007505  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10369  (tot=     0000254233) masstab=0
Type 3 (bulge):   273621  (tot=     0002602064) masstab=0
Type 4 (stars):  1514736  (tot=     0016055825) masstab=0
Type 5 (bndry):     1964  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.10.hdf5' on task=31 (contains 35944184 particles.)
distributing this file to tasks 31-32
Type 0 (gas):   16874635  (tot=     0270564821) masstab=0
Type 1 (halo):  18077794  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10129  (tot=     0000254233) masstab=0
Type 3 (bulge):   150652  (tot=     0002602064) masstab=0
Type 4 (stars):   829030  (tot=     0016055825) masstab=0
Type 5 (bndry):     1944  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.4.hdf5' on task=16 (contains 36052787 particles.)
distributing this file to tasks 16-18
Type 0 (gas):   16862481  (tot=     0270564821) masstab=0
Type 1 (halo):  18065512  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12895  (tot=     0000254233) masstab=0
Type 3 (bulge):   187012  (tot=     0002602064) masstab=0
Type 4 (stars):   922860  (tot=     0016055825) masstab=0
Type 5 (bndry):     2027  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.13.hdf5' on task=39 (contains 35983574 particles.)
distributing this file to tasks 39-41
Type 0 (gas):   16942574  (tot=     0270564821) masstab=0
Type 1 (halo):  17895303  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19719  (tot=     0000254233) masstab=0
Type 3 (bulge):   104238  (tot=     0002602064) masstab=0
Type 4 (stars):  1019668  (tot=     0016055825) masstab=0
Type 5 (bndry):     2072  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.3.hdf5' on task=11 (contains 35956302 particles.)
distributing this file to tasks 11-15
Type 0 (gas):   16920474  (tot=     0270564821) masstab=0
Type 1 (halo):  17874191  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14116  (tot=     0000254233) masstab=0
Type 3 (bulge):   106554  (tot=     0002602064) masstab=0
Type 4 (stars):  1038987  (tot=     0016055825) masstab=0
Type 5 (bndry):     1980  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.1.hdf5' on task=5 (contains 36047615 particles.)
distributing this file to tasks 5-7
Type 0 (gas):   16918091  (tot=     0270564821) masstab=0
Type 1 (halo):  17726747  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     23173  (tot=     0000254233) masstab=0
Type 3 (bulge):   222845  (tot=     0002602064) masstab=0
Type 4 (stars):  1154756  (tot=     0016055825) masstab=0
Type 5 (bndry):     2003  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.14.hdf5' on task=42 (contains 36153830 particles.)
distributing this file to tasks 42-42
Type 0 (gas):   16929879  (tot=     0270564821) masstab=0
Type 1 (halo):  17983469  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12405  (tot=     0000254233) masstab=0
Type 3 (bulge):   284641  (tot=     0002602064) masstab=0
Type 4 (stars):   941338  (tot=     0016055825) masstab=0
Type 5 (bndry):     2098  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.7.hdf5' on task=22 (contains 36104802 particles.)
distributing this file to tasks 22-26
Type 0 (gas):   16934443  (tot=     0270564821) masstab=0
Type 1 (halo):  17977737  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     26642  (tot=     0000254233) masstab=0
Type 3 (bulge):   162287  (tot=     0002602064) masstab=0
Type 4 (stars):  1001591  (tot=     0016055825) masstab=0
Type 5 (bndry):     2102  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.6.hdf5' on task=20 (contains 36074137 particles.)
distributing this file to tasks 20-21
Type 0 (gas):   16867031  (tot=     0270564821) masstab=0
Type 1 (halo):  18063569  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20773  (tot=     0000254233) masstab=0
Type 3 (bulge):   137171  (tot=     0002602064) masstab=0
Type 4 (stars):   983460  (tot=     0016055825) masstab=0
Type 5 (bndry):     2133  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.5.hdf5' on task=19 (contains 36009500 particles.)
distributing this file to tasks 19-19
Type 0 (gas):   16879088  (tot=     0270564821) masstab=0
Type 1 (halo):  17706786  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10265  (tot=     0000254233) masstab=0
Type 3 (bulge):   395785  (tot=     0002602064) masstab=0
Type 4 (stars):  1015449  (tot=     0016055825) masstab=0
Type 5 (bndry):     2127  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.12.hdf5' on task=36 (contains 35846367 particles.)
distributing this file to tasks 36-38
Type 0 (gas):   16922893  (tot=     0270564821) masstab=0
Type 1 (halo):  17936851  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17487  (tot=     0000254233) masstab=0
Type 3 (bulge):    75001  (tot=     0002602064) masstab=0
Type 4 (stars):   892011  (tot=     0016055825) masstab=0
Type 5 (bndry):     2124  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.11.hdf5' on task=33 (contains 35851591 particles.)
distributing this file to tasks 33-35
Type 0 (gas):   16893601  (tot=     0270564821) masstab=0
Type 1 (halo):  18008324  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14888  (tot=     0000254233) masstab=0
Type 3 (bulge):    19544  (tot=     0002602064) masstab=0
Type 4 (stars):   913046  (tot=     0016055825) masstab=0
Type 5 (bndry):     2188  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.2.hdf5' on task=8 (contains 36227674 particles.)
distributing this file to tasks 8-10
Type 0 (gas):   16880275  (tot=     0270564821) masstab=0
Type 1 (halo):  17893111  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18222  (tot=     0000254233) masstab=0
Type 3 (bulge):   273868  (tot=     0002602064) masstab=0
Type 4 (stars):  1160059  (tot=     0016055825) masstab=0
Type 5 (bndry):     2139  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.8.hdf5' on task=27 (contains 35652839 particles.)
distributing this file to tasks 27-29
Type 0 (gas):   16925541  (tot=     0270564821) masstab=0
Type 1 (halo):  17720773  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14184  (tot=     0000254233) masstab=0
Type 3 (bulge):     1404  (tot=     0002602064) masstab=0
Type 4 (stars):   988885  (tot=     0016055825) masstab=0
Type 5 (bndry):     2052  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.9.hdf5' on task=30 (contains 35846576 particles.)
distributing this file to tasks 30-30
Type 0 (gas):   16967914  (tot=     0270564821) masstab=0
Type 1 (halo):  17992042  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9672  (tot=     0000254233) masstab=0
Type 3 (bulge):    79118  (tot=     0002602064) masstab=0
Type 4 (stars):   795721  (tot=     0016055825) masstab=0
Type 5 (bndry):     2109  (tot=     0000033051) masstab=0


reading file `data//snapshot_026_z000p101/snap_026_z000p101.15.hdf5' on task=43 (contains 35771780 particles.)
distributing this file to tasks 43-44
Type 0 (gas):   17006930  (tot=     0270564821) masstab=0
Type 1 (halo):  17731016  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19294  (tot=     0000254233) masstab=0
Type 3 (bulge):   128323  (tot=     0002602064) masstab=0
Type 4 (stars):   884228  (tot=     0016055825) masstab=0
Type 5 (bndry):     1989  (tot=     0000033051) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576170724


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= 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=15.2597 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30844.4 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31286.7 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 31286.7 Mbyte (on task=1), Smallest = 31286.7 Mbyte, Average = 31286.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    195.3704     246.1128  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    195.3704     441.4832  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    195.3704     636.8535  allocate_memory()/allocate.c/61
   1 2969 0                 P  15629.6301   16266.4837  allocate_memory()/allocate.c/67
   1 2970 0              SphP  11559.7752   27826.2589  allocate_memory()/allocate.c/85
   1 2971 0              MetP   2724.5123   30550.7712  allocate_memory()/allocate.c/105
   1 2972 0               BHP    293.5815   30844.3527  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes     20.3186   30864.6932  domain_allocate()/domain.c/570
   1 2976 0        domain_key    390.7408   31255.4340  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      1.5630   31256.9991  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      1.5630   31258.5620  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      1.5630   31260.1250  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      1.5630   31261.6880  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      1.5630   31263.2516  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      1.5630   31264.8153  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes     21.8815   31286.6968  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=33553
After=35513
NTopleaves= 31074  NTopnodes=35513 (space for 409722)
gravity work-load balance=1.01479   memory-balance=1.01479   SPH work-load balance=1.01599
iter=0 exchange of 0566350535 particles (ret=0)
domain decomposition done. (took 67.7377 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.1299 MByte in top-level domain structure

Allocated 6414.24 MByte for BH-tree, and 0.118538 Mbyte for top-leaves.  (presently allocted 37260.5 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 37978.7 Mbyte (on task=6), Smallest = 37837.5 Mbyte, Average = 37904.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   6 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
   6 2966 0  NextActiveParticle    195.3704     246.1128  allocate_memory()/allocate.c/55
   6 2967 0     NextInTimeBin    195.3704     441.4832  allocate_memory()/allocate.c/58
   6 2968 0     PrevInTimeBin    195.3704     636.8535  allocate_memory()/allocate.c/61
   6 2969 0                 P  15629.6301   16266.4837  allocate_memory()/allocate.c/67
   6 2970 0              SphP  11559.7752   27826.2589  allocate_memory()/allocate.c/85
   6 2971 0              MetP   2724.5123   30550.7712  allocate_memory()/allocate.c/105
   6 2972 0               BHP    293.5815   30844.3527  allocate_memory()/allocate.c/126
   6 2975 0          TopNodes      1.7611   30846.1358  domain_allocate()/domain.c/570
   6 2976 0   DomainNodeIndex      0.1185   30846.2544  force_treeallocate()/forcetree.c/4800
   6 2977 0        Nodes_base   3285.4737   34131.7281  force_treeallocate()/forcetree.c/4803
   6 2978 0     Extnodes_base   2737.8947   36869.6228  force_treeallocate()/forcetree.c/4811
   6 2979 0          Nextnode    195.5059   37065.1287  force_treeallocate()/forcetree.c/4820
   6 2980 0            Father    195.3704   37260.4990  force_treeallocate()/forcetree.c/4827
   6 2981 0           Ngblist     48.5687   37309.0677  density()/density.c/690
   6 2982 0              Left     97.1374   37406.2051  density()/density.c/692
   6 2983 0             Right     97.1374   37503.3425  density()/density.c/693
   6 2984 0    DataIndexTable      7.0175   37510.3600  density()/density.c/738
   6 2985 0      DataNodeList     18.7134   37529.0734  density()/density.c/740
   6 2986 0       DensDataGet    135.4427   37664.5162  density()/density.c/893
   6 2987 0    DensDataResult    178.5381   37843.0543  density()/density.c/931
   6 2988 0       DensDataOut    135.6724   37978.7267  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0000495055 particles.
ngb iteration 2: need to repeat for 0000000868 particles.
ngb iteration 3: need to repeat for 0000000303 particles.
ngb iteration 4: need to repeat for 0000000280 particles.
ngb iteration 5: need to repeat for 0000000139 particles.
ngb iteration 6: need to repeat for 0000000096 particles.
ngb iteration 7: need to repeat for 0000000048 particles.
ngb iteration 8: need to repeat for 0000000003 particles.
ngb iteration 9: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.049.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.101.hdf5

Begin to compute FoF group catalogues...  (presently allocated=37260.5 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30844.4 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31286.7 MB)
Before=33577
After=36841
NTopleaves= 32236  NTopnodes=36841 (space for 409722)
gravity work-load balance=1.00647   memory-balance=1.00645   SPH work-load balance=1.00624
iter=0 exchange of 0563315432 particles (ret=0)
domain decomposition done. (took 26.4926 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0691 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=30846.2 MB)
Tree construction.

Start linking particles (presently allocated=37847.9 MB)
links on local processor done (took 46.7971 sec).
Marked=0029540779 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=38117.7 MB) 
have done 0000474016 cross links (processed 0029540779, took 10.2624 sec)
have done 0000198690 cross links (processed 0022484898, took 9.99109 sec)
have done 0000141445 cross links (processed 0018703880, took 9.53096 sec)
have done 0000084802 cross links (processed 0010343435, took 6.74572 sec)
have done 0000046578 cross links (processed 0003943846, took 2.57856 sec)
have done 0000021539 cross links (processed 0001324228, took 1.61995 sec)
have done 0000009261 cross links (processed 0000489106, took 1.26817 sec)
have done 0000003972 cross links (processed 0000177321, took 0.271026 sec)
have done 0000001391 cross links (processed 0000022549, took 0.228796 sec)
have done 0000000556 cross links (processed 0000006906, took 0.223083 sec)
have done 0000000299 cross links (processed 0000003998, took 0.222784 sec)
have done 0000000293 cross links (processed 0000006261, took 0.225456 sec)
have done 0000000160 cross links (processed 0000004582, took 0.226276 sec)
have done 0000000108 cross links (processed 0000001280, took 0.22214 sec)
have done 0000000212 cross links (processed 0000005269, took 0.225557 sec)
have done 0000000118 cross links (processed 0000004183, took 0.226228 sec)
have done 0000000046 cross links (processed 0000000543, took 0.222036 sec)
have done 0000000016 cross links (processed 0000000163, took 0.221879 sec)
have done 0000000002 cross links (processed 0000000050, took 0.221964 sec)
have done 0000000002 cross links (processed 0000000020, took 0.221755 sec)
have done 0000000001 cross links (processed 0000000006, took 0.222044 sec)
have done 0000000000 cross links (processed 0000000002, took 0.221754 sec)
Local groups found.

group finding took = 92.7667 sec
Start finding nearest dm-particle (presently allocated=37847.9 MB)
still finding nearest... (presently allocated=38092.3 MB)
fof-nearest iteration 1: need to repeat for 258353819 particles.
still finding nearest... (presently allocated=38085.8 MB)
fof-nearest iteration 2: need to repeat for 246569069 particles.
still finding nearest... (presently allocated=38097.1 MB)
fof-nearest iteration 3: need to repeat for 223052378 particles.
still finding nearest... (presently allocated=38112.2 MB)
fof-nearest iteration 4: need to repeat for 181260024 particles.
still finding nearest... (presently allocated=38124 MB)
fof-nearest iteration 5: need to repeat for 124233730 particles.
still finding nearest... (presently allocated=38127.2 MB)
fof-nearest iteration 6: need to repeat for 59992219 particles.
still finding nearest... (presently allocated=38111.9 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 47.4091 sec
compiling local group data and catalogue took = 5.95535 sec

Total number of groups with at least 32 particles: 166078
Largest group has 45685972 particles.
Total number of particles in groups: 0212040517

group properties are now allocated.. (presently allocated=31633.7 MB)
computation of group properties took = 0.79945 sec
start global sorting of group catalogues number 26
LargestGroup = 18930.610495; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.278753 sec
Group catalogues globally sorted. took = 4.6837 sec
starting saving of group catalogue number 26
data//groups_026_z000p101
Group catalogues number 26 saved. took = 3.38332 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (270564821).
tree build for species 0 took 3.13742 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0160143539 particles. (took 91.5557 sec)
ngb iteration 2: need to repeat for 0096791034 particles. (took 53.4404 sec)
ngb iteration 3: need to repeat for 0081635942 particles. (took 27.6837 sec)
ngb iteration 4: need to repeat for 0074053423 particles. (took 20.9494 sec)
ngb iteration 5: need to repeat for 0065857300 particles. (took 18.1789 sec)
ngb iteration 6: need to repeat for 0053856877 particles. (took 15.5494 sec)
ngb iteration 7: need to repeat for 0039020586 particles. (took 12.8435 sec)
ngb iteration 8: need to repeat for 0025192678 particles. (took 9.54234 sec)
ngb iteration 9: need to repeat for 0014901478 particles. (took 6.44275 sec)
ngb iteration 10: need to repeat for 0008309493 particles. (took 4.0924 sec)
ngb iteration 11: need to repeat for 0004465805 particles. (took 2.56018 sec)
ngb iteration 12: need to repeat for 0002348788 particles. (took 1.64297 sec)
ngb iteration 13: need to repeat for 0001220480 particles. (took 1.11679 sec)
ngb iteration 14: need to repeat for 0000562098 particles. (took 0.819917 sec)
ngb iteration 15: need to repeat for 0000156539 particles. (took 0.605592 sec)
ngb iteration 16: need to repeat for 0000049482 particles. (took 0.421323 sec)
ngb iteration 17: need to repeat for 0000019770 particles. (took 0.3647 sec)
ngb iteration 18: need to repeat for 0000010485 particles. (took 0.349874 sec)
ngb iteration 19: need to repeat for 0000006711 particles. (took 0.344626 sec)
ngb iteration 20: need to repeat for 0000004578 particles. (took 0.342603 sec)
ngb iteration 21: need to repeat for 0000003260 particles. (took 0.341805 sec)
ngb iteration 22: need to repeat for 0000002255 particles. (took 0.341257 sec)
ngb iteration 23: need to repeat for 0000001558 particles. (took 0.34086 sec)
ngb iteration 24: need to repeat for 0000001137 particles. (took 0.340668 sec)
ngb iteration 25: need to repeat for 0000000814 particles. (took 0.341177 sec)
ngb iteration 26: need to repeat for 0000000557 particles. (took 0.340696 sec)
ngb iteration 27: need to repeat for 0000000330 particles. (took 0.340622 sec)
ngb iteration 28: need to repeat for 0000000203 particles. (took 0.340797 sec)
ngb iteration 29: need to repeat for 0000000117 particles. (took 0.340457 sec)
ngb iteration 30: need to repeat for 0000000057 particles. (took 0.340633 sec)
ngb iteration 31: need to repeat for 0000000027 particles. (took 0.340669 sec)
ngb iteration 32: need to repeat for 0000000011 particles. (took 0.340594 sec)
ngb iteration 33: need to repeat for 0000000005 particles. (took 0.34077 sec)
ngb iteration 34: need to repeat for 0000000002 particles. (took 0.340486 sec)
ngb iteration 35: need to repeat for 0000000001 particles. (took 0.340511 sec)
final operations ... 
density and smoothing length for species 0 took 276.17 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.54605 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0166208590 particles. (took 141.009 sec)
ngb iteration 2: need to repeat for 0101923102 particles. (took 55.3603 sec)
ngb iteration 3: need to repeat for 0078663576 particles. (took 30.4489 sec)
ngb iteration 4: need to repeat for 0067726292 particles. (took 20.6004 sec)
ngb iteration 5: need to repeat for 0059409976 particles. (took 16.168 sec)
ngb iteration 6: need to repeat for 0049245186 particles. (took 13.7992 sec)
ngb iteration 7: need to repeat for 0037064821 particles. (took 11.464 sec)
ngb iteration 8: need to repeat for 0025341021 particles. (took 8.79047 sec)
ngb iteration 9: need to repeat for 0016071599 particles. (took 6.24972 sec)
ngb iteration 10: need to repeat for 0009675384 particles. (took 4.22775 sec)
ngb iteration 11: need to repeat for 0005638419 particles. (took 2.80493 sec)
ngb iteration 12: need to repeat for 0003232285 particles. (took 1.88783 sec)
ngb iteration 13: need to repeat for 0001843094 particles. (took 1.30651 sec)
ngb iteration 14: need to repeat for 0000997828 particles. (took 0.963969 sec)
ngb iteration 15: need to repeat for 0000467755 particles. (took 0.720397 sec)
ngb iteration 16: need to repeat for 0000242103 particles. (took 0.516547 sec)
ngb iteration 17: need to repeat for 0000134105 particles. (took 0.427252 sec)
ngb iteration 18: need to repeat for 0000076559 particles. (took 0.388712 sec)
ngb iteration 19: need to repeat for 0000044324 particles. (took 0.370893 sec)
ngb iteration 20: need to repeat for 0000025137 particles. (took 0.362838 sec)
ngb iteration 21: need to repeat for 0000013985 particles. (took 0.357875 sec)
ngb iteration 22: need to repeat for 0000007452 particles. (took 0.355306 sec)
ngb iteration 23: need to repeat for 0000003827 particles. (took 0.35375 sec)
ngb iteration 24: need to repeat for 0000001881 particles. (took 0.352717 sec)
ngb iteration 25: need to repeat for 0000000958 particles. (took 0.352201 sec)
ngb iteration 26: need to repeat for 0000000496 particles. (took 0.351714 sec)
ngb iteration 27: need to repeat for 0000000253 particles. (took 0.351451 sec)
ngb iteration 28: need to repeat for 0000000132 particles. (took 0.351334 sec)
ngb iteration 29: need to repeat for 0000000074 particles. (took 0.35095 sec)
ngb iteration 30: need to repeat for 0000000032 particles. (took 0.351238 sec)
ngb iteration 31: need to repeat for 0000000021 particles. (took 0.350916 sec)
ngb iteration 32: need to repeat for 0000000009 particles. (took 0.35057 sec)
ngb iteration 33: need to repeat for 0000000006 particles. (took 0.351022 sec)
ngb iteration 34: need to repeat for 0000000002 particles. (took 0.350949 sec)
final operations ... 
density and smoothing length for species 1 took 325.043 sec
Tree construction for species 4 (16055825).
tree build for species 4 took 0.630657 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0009083386 particles. (took 19.4051 sec)
ngb iteration 2: need to repeat for 0006293837 particles. (took 6.7389 sec)
ngb iteration 3: need to repeat for 0004554925 particles. (took 4.99566 sec)
ngb iteration 4: need to repeat for 0003609967 particles. (took 3.52023 sec)
ngb iteration 5: need to repeat for 0003015727 particles. (took 2.5803 sec)
ngb iteration 6: need to repeat for 0002525376 particles. (took 1.94466 sec)
ngb iteration 7: need to repeat for 0002046882 particles. (took 1.51575 sec)
ngb iteration 8: need to repeat for 0001591293 particles. (took 1.19471 sec)
ngb iteration 9: need to repeat for 0001198533 particles. (took 1.02248 sec)
ngb iteration 10: need to repeat for 0000882654 particles. (took 0.911702 sec)
ngb iteration 11: need to repeat for 0000640644 particles. (took 0.840532 sec)
ngb iteration 12: need to repeat for 0000462360 particles. (took 0.75952 sec)
ngb iteration 13: need to repeat for 0000331361 particles. (took 0.704152 sec)
ngb iteration 14: need to repeat for 0000234166 particles. (took 0.629825 sec)
ngb iteration 15: need to repeat for 0000161321 particles. (took 0.580429 sec)
ngb iteration 16: need to repeat for 0000112936 particles. (took 0.536817 sec)
ngb iteration 17: need to repeat for 0000079419 particles. (took 0.503808 sec)
ngb iteration 18: need to repeat for 0000055431 particles. (took 0.485952 sec)
ngb iteration 19: need to repeat for 0000038988 particles. (took 0.479445 sec)
ngb iteration 20: need to repeat for 0000028029 particles. (took 0.473712 sec)
ngb iteration 21: need to repeat for 0000020006 particles. (took 0.470467 sec)
ngb iteration 22: need to repeat for 0000014495 particles. (took 0.466218 sec)
ngb iteration 23: need to repeat for 0000010630 particles. (took 0.463697 sec)
ngb iteration 24: need to repeat for 0000007855 particles. (took 0.460785 sec)
ngb iteration 25: need to repeat for 0000005917 particles. (took 0.459579 sec)
ngb iteration 26: need to repeat for 0000004468 particles. (took 0.458526 sec)
ngb iteration 27: need to repeat for 0000003355 particles. (took 0.457901 sec)
ngb iteration 28: need to repeat for 0000002473 particles. (took 0.457588 sec)
ngb iteration 29: need to repeat for 0000001745 particles. (took 0.457444 sec)
ngb iteration 30: need to repeat for 0000001233 particles. (took 0.45715 sec)
ngb iteration 31: need to repeat for 0000000852 particles. (took 0.456847 sec)
ngb iteration 32: need to repeat for 0000000592 particles. (took 0.457227 sec)
ngb iteration 33: need to repeat for 0000000367 particles. (took 0.456834 sec)
ngb iteration 34: need to repeat for 0000000227 particles. (took 0.456521 sec)
ngb iteration 35: need to repeat for 0000000139 particles. (took 0.456513 sec)
ngb iteration 36: need to repeat for 0000000065 particles. (took 0.456417 sec)
ngb iteration 37: need to repeat for 0000000032 particles. (took 0.456137 sec)
ngb iteration 38: need to repeat for 0000000018 particles. (took 0.456264 sec)
ngb iteration 39: need to repeat for 0000000007 particles. (took 0.45594 sec)
final operations ... 
density and smoothing length for species 4 took 60.4971 sec
Tree construction.
tree build took 7.3032 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000026049 particles. (took 1.28052 sec)
ngb iteration 2: need to repeat for 0000023128 particles. (took 0.490507 sec)
ngb iteration 3: need to repeat for 0000013600 particles. (took 0.490614 sec)
ngb iteration 4: need to repeat for 0000008367 particles. (took 0.483028 sec)
ngb iteration 5: need to repeat for 0000006799 particles. (took 0.477566 sec)
ngb iteration 6: need to repeat for 0000005823 particles. (took 0.474691 sec)
ngb iteration 7: need to repeat for 0000004776 particles. (took 0.472746 sec)
ngb iteration 8: need to repeat for 0000003608 particles. (took 0.470184 sec)
ngb iteration 9: need to repeat for 0000002619 particles. (took 0.468084 sec)
ngb iteration 10: need to repeat for 0000001820 particles. (took 0.466507 sec)
ngb iteration 11: need to repeat for 0000001213 particles. (took 0.464942 sec)
ngb iteration 12: need to repeat for 0000000837 particles. (took 0.467127 sec)
ngb iteration 13: need to repeat for 0000000552 particles. (took 0.459532 sec)
ngb iteration 14: need to repeat for 0000000337 particles. (took 0.459118 sec)
ngb iteration 15: need to repeat for 0000000217 particles. (took 0.457481 sec)
ngb iteration 16: need to repeat for 0000000146 particles. (took 0.45764 sec)
ngb iteration 17: need to repeat for 0000000090 particles. (took 0.45741 sec)
ngb iteration 18: need to repeat for 0000000064 particles. (took 0.457196 sec)
ngb iteration 19: need to repeat for 0000000051 particles. (took 0.45736 sec)
ngb iteration 20: need to repeat for 0000000030 particles. (took 0.457367 sec)
ngb iteration 21: need to repeat for 0000000019 particles. (took 0.457131 sec)
ngb iteration 22: need to repeat for 0000000014 particles. (took 0.457353 sec)
ngb iteration 23: need to repeat for 0000000011 particles. (took 0.457676 sec)
ngb iteration 24: need to repeat for 0000000008 particles. (took 0.457158 sec)
ngb iteration 25: need to repeat for 0000000005 particles. (took 0.458728 sec)
ngb iteration 26: need to repeat for 0000000002 particles. (took 0.457213 sec)
ngb iteration 27: need to repeat for 0000000002 particles. (took 0.457277 sec)
ngb iteration 28: need to repeat for 0000000002 particles. (took 0.457217 sec)
ngb iteration 29: need to repeat for 0000000002 particles. (took 0.457485 sec)
ngb iteration 30: need to repeat for 0000000002 particles. (took 0.457338 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.457017 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.45736 sec)
final operations ... 
density and smoothing length for species 5 took 17.5658 sec
Tree construction for species 0 (270564821).
tree build for species 0 took 3.16322 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 194.084 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.50385 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 96.204 sec
Tree construction for species 4 (16055825).
tree build for species 4 took 0.571513 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 27.0165 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.342328 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 19.3797 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.83061 sec
saving densities took 10.2969 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 35850620 particles.)
the other 166077 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 121507 - 137843728 

subfind_exchange()() took 4.27376 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=36862.9 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=37305.3 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 37305.3 Mbyte (on task=0), Smallest = 32339.8 Mbyte, Average = 32586.8 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3704     246.1117  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3704     441.4821  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3704     636.8525  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6301   16266.4826  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11559.7752   27826.2578  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2724.5123   30550.7701  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.5815   30844.3517  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8270   30846.2006  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    293.5719   31139.7725  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    489.2865   31629.0590  fof_fof()/fof.c/337
   0 2978 0             Group      4.6308   31633.6898  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5229.2386   36862.9284  subfind()/subfind.c/376
   0 2982 0          TopNodes     20.3186   36883.2689  domain_allocate()/domain.c/570
   0 2983 0        domain_key    390.7408   37274.0096  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.5630   37275.5747  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.5630   37277.1377  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.5630   37278.7006  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.5630   37280.2636  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.5630   37281.8273  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.5630   37283.3909  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     21.8815   37305.2724  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=23633
After=30425
NTopleaves= 26622  NTopnodes=30425 (space for 409722)
gravity work-load balance=1.01036   memory-balance=1.01035   SPH work-load balance=1.0069
iter=0 exchange of 0044690239 particles (ret=0)
domain decomposition done. (took 4.64959 sec)
Freed 17.3628 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 43277.9 Mbyte (on task=0), Smallest = 38312.5 Mbyte, Average = 38559.4 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3704     246.1117  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3704     441.4821  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3704     636.8525  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6301   16266.4826  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11559.7752   27826.2578  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2724.5123   30550.7701  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.5815   30844.3517  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8270   30846.2006  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    293.5719   31139.7725  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    489.2865   31629.0590  fof_fof()/fof.c/337
   0 2978 0             Group      4.6308   31633.6898  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5229.2386   36862.9284  subfind()/subfind.c/376
   0 2982 0          TopNodes      1.5088   36864.4591  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.1016   36864.5607  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base   3285.0079   40149.5686  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base   2737.5066   42887.0751  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode    195.4864   43082.5616  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father    195.3704   43277.9320  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 6.26739 sec  (presently allocated=43277.9 MB)
force_treebuild() took 6.4297 sec (presently allocated=43277.9 MB)
Start find_linkngb (1018142 particles on task=0)
find linkngb iteration 1: need to repeat for 0027439814 particles. (took 45.4538 sec)
find linkngb iteration 2: need to repeat for 0023036244 particles. (took 18.9027 sec)
find linkngb iteration 3: need to repeat for 0018993831 particles. (took 11.0573 sec)
find linkngb iteration 4: need to repeat for 0017445140 particles. (took 7.06766 sec)
find linkngb iteration 5: need to repeat for 0015295711 particles. (took 6.32627 sec)
find linkngb iteration 6: need to repeat for 0012453247 particles. (took 5.35686 sec)
find linkngb iteration 7: need to repeat for 0009007951 particles. (took 4.31874 sec)
find linkngb iteration 8: need to repeat for 0005789657 particles. (took 3.14263 sec)
find linkngb iteration 9: need to repeat for 0003412974 particles. (took 2.05202 sec)
find linkngb iteration 10: need to repeat for 0001910798 particles. (took 1.24469 sec)
find linkngb iteration 11: need to repeat for 0001039299 particles. (took 0.7296 sec)
find linkngb iteration 12: need to repeat for 0000545108 particles. (took 0.418736 sec)
find linkngb iteration 13: need to repeat for 0000180095 particles. (took 0.233391 sec)
find linkngb iteration 14: need to repeat for 0000048718 particles. (took 0.083566 sec)
find linkngb iteration 15: need to repeat for 0000022676 particles. (took 0.026278 sec)
find linkngb iteration 16: need to repeat for 0000011403 particles. (took 0.013685 sec)
find linkngb iteration 17: need to repeat for 0000005646 particles. (took 0.00797391 sec)
find linkngb iteration 18: need to repeat for 0000002731 particles. (took 0.005409 sec)
find linkngb iteration 19: need to repeat for 0000001320 particles. (took 0.00482702 sec)
find linkngb iteration 20: need to repeat for 0000000676 particles. (took 0.00444007 sec)
find linkngb iteration 21: need to repeat for 0000000402 particles. (took 0.00413895 sec)
find linkngb iteration 22: need to repeat for 0000000270 particles. (took 0.00393295 sec)
find linkngb iteration 23: need to repeat for 0000000165 particles. (took 0.00378609 sec)
find linkngb iteration 24: need to repeat for 0000000090 particles. (took 0.00373101 sec)
find linkngb iteration 25: need to repeat for 0000000043 particles. (took 0.00369 sec)
find linkngb iteration 26: need to repeat for 0000000022 particles. (took 0.00368404 sec)
find linkngb iteration 27: need to repeat for 0000000010 particles. (took 0.00385284 sec)
find linkngb iteration 28: need to repeat for 0000000005 particles. (took 0.00363088 sec)
find linkngb iteration 29: need to repeat for 0000000002 particles. (took 0.00410914 sec)
find linkngb iteration 30: need to repeat for 0000000001 particles. (took 0.00397301 sec)
find linkngb iteration 31: need to repeat for 0000000001 particles. (took 0.00409603 sec)
find linkngb iteration 32: need to repeat for 0000000001 particles. (took 0.00433493 sec)
find linkngb iteration 33: need to repeat for 0000000001 particles. (took 0.00418186 sec)
find linkngb iteration 34: need to repeat for 0000000001 particles. (took 0.00409412 sec)
find_linkngb() took 106.516 sec
Start finding nearest two (1018142 particles on task=0)
find_nearesttwo() took 15.223 sec (presently allocated=43355.6 MB)
parallel sort of densities done. took 0.61511 sec
building distributed linked list. (presently allocated 43345.5 MB)
identification of primary candidates took 551.261 sec
adding background as candidate took 0.0558219 sec
establishing of rank order took 170.933 sec  (p=45685972, grouplen=45685972) presently allocated 43345.5 MB

total number of subhalo candidates=167613

number of subhalo candidates that can be done independently=143712.
(Largest size is 6122, finding them took 0.0506458 sec)
particles are marked (took 63.3314)
independent subhalos are assembled on individual CPUs for unbinding (0.478481 sec, (presently allocated=43345.5 MB)
unbinding of independent ones took 0.498613 sec
particles have returned to their original processor (0.576565 sec, presently allocated 43345.5 MB)

number of subhalo candidates that can be done independently=21540.
(Largest size is 21149, finding them took 3.16812 sec)
particles are marked (took 47.2117)
independent subhalos are assembled on individual CPUs for unbinding (0.453094 sec, (presently allocated=43345.5 MB)
unbinding of independent ones took 1.33948 sec
particles have returned to their original processor (0.562538 sec, presently allocated 43345.5 MB)

number of subhalo candidates that can be done independently=2204.
(Largest size is 152474, finding them took 3.08493 sec)
particles are marked (took 40.638)
independent subhalos are assembled on individual CPUs for unbinding (0.454816 sec, (presently allocated=43345.5 MB)
unbinding of independent ones took 7.3224 sec
particles have returned to their original processor (0.55931 sec, presently allocated 43345.5 MB)

number of subhalo candidates that can be done independently=149.
(Largest size is 1369732, finding them took 2.40197 sec)
particles are marked (took 47.6689)
independent subhalos are assembled on individual CPUs for unbinding (0.454137 sec, (presently allocated=43345.5 MB)
unbinding of independent ones took 48.1103 sec
particles have returned to their original processor (0.607851 sec, presently allocated 43345.5 MB)

number of subhalo candidates that can be done independently=6.
(Largest size is 2817124, finding them took 4.39671 sec)
particles are marked (took 23.115)
independent subhalos are assembled on individual CPUs for unbinding (0.402211 sec, (presently allocated=43345.5 MB)
unbinding of independent ones took 2.24442 sec
particles have returned to their original processor (0.527427 sec, presently allocated 43345.5 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 2817124, finding them took 3.38392 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=2817124 ... maximum alloacted 43349.4 MB
took 32.0101 sec
collective unbinding of nr=1 (2) of length=45685972 ... maximum alloacted 43349.4 MB
took 362.74 sec

the collective unbinding of remaining halos took 415.496 sec

found 8822 bound substructures in FoF group of length 45685972
determination of parent subhalo took 0.0494311 sec (presently allocated 43349.4 MB)
determining substructure properties took 382.836 sec (presently allocated 43349.4 MB)
processing of collective halos took 2026.59 sec
sort of local particles()() took 6.62309 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 2322.68 sec

Task 43: testing particles ...
Task 41: testing particles ...
Task 44: testing particles ...
Task 24: testing particles ...
unsorting of local particles()() took 5.86356 sec
Task 0: testing particles ...
Task 36: testing particles ...
Task 38: testing particles ...
Task 31: testing particles ...
Task 35: testing particles ...
Task 26: testing particles ...
Task 22: testing particles ...
Task 37: testing particles ...
Task 40: testing particles ...
Task 34: testing particles ...
Task 32: testing particles ...
Task 23: testing particles ...
Task 39: testing particles ...
Task 25: testing particles ...
Task 14: testing particles ...
Task 21: testing particles ...
Task 33: testing particles ...
Task 27: testing particles ...
Task 12: testing particles ...
Task 28: testing particles ...
Task 29: testing particles ...
Task 15: testing particles ...
Task 17: testing particles ...
Task 18: testing particles ...
Task 16: testing particles ...
Task 10: testing particles ...
Task 13: testing particles ...
Task 20: testing particles ...
Task 42: testing particles ...
Task 8: testing particles ...
Task 7: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
Task 19: testing particles ...
Task 9: testing particles ...
Task 11: testing particles ...
Task 4: testing particles ...
Task 30: testing particles ...
Task 3: testing particles ...
Task 2: testing particles ...
Task 1: testing particles ...
subfind_exchange() (for return to original CPU)  took 9.19559 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=36862.9 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=37305.3 MB)
Before=34073
After=36985
NTopleaves= 32362  NTopnodes=36985 (space for 409722)
gravity work-load balance=1.01177   memory-balance=1.01178   SPH work-load balance=1.01071
iter=0 exchange of 0565162193 particles (ret=0)
domain decomposition done. (took 27.3813 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0625 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000130441 particles. (took 0.083199 sec)
SO iteration 2: need to repeat for 0000130441 particles. (took 0.0794041 sec)
SO iteration 3: need to repeat for 0000130441 particles. (took 0.079628 sec)
SO iteration 4: need to repeat for 0000130441 particles. (took 0.079165 sec)
SO iteration 5: need to repeat for 0000130441 particles. (took 0.078932 sec)
SO iteration 6: need to repeat for 0000130441 particles. (took 0.0788169 sec)
SO iteration 7: need to repeat for 0000130441 particles. (took 0.078717 sec)
SO iteration 8: need to repeat for 0000130441 particles. (took 0.0788171 sec)
SO iteration 9: need to repeat for 0000130441 particles. (took 0.078748 sec)
SO iteration 10: need to repeat for 0000130441 particles. (took 0.0786669 sec)
SO iteration 11: need to repeat for 0000130441 particles. (took 0.0788679 sec)
SO iteration 12: need to repeat for 0000130441 particles. (took 0.078733 sec)
SO iteration 13: need to repeat for 0000130441 particles. (took 0.0787652 sec)
SO iteration 14: need to repeat for 0000130441 particles. (took 0.0786569 sec)
SO iteration 15: need to repeat for 0000128243 particles. (took 0.078748 sec)
SO iteration 16: need to repeat for 0000000434 particles. (took 0.0768988 sec)
SO iteration 17: need to repeat for 0000000038 particles. (took 0.00136995 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000294924 sec)
SO iteration 1: need to repeat for 0000130441 particles. (took 0.0828021 sec)
SO iteration 2: need to repeat for 0000130441 particles. (took 0.0616069 sec)
SO iteration 3: need to repeat for 0000130441 particles. (took 0.0678561 sec)
SO iteration 4: need to repeat for 0000130441 particles. (took 0.0642531 sec)
SO iteration 5: need to repeat for 0000130441 particles. (took 0.0650139 sec)
SO iteration 6: need to repeat for 0000130441 particles. (took 0.0652831 sec)
SO iteration 7: need to repeat for 0000130441 particles. (took 0.0652421 sec)
SO iteration 8: need to repeat for 0000130441 particles. (took 0.0650449 sec)
SO iteration 9: need to repeat for 0000130441 particles. (took 0.0653951 sec)
SO iteration 10: need to repeat for 0000130441 particles. (took 0.0651 sec)
SO iteration 11: need to repeat for 0000130441 particles. (took 0.0651159 sec)
SO iteration 12: need to repeat for 0000130441 particles. (took 0.065115 sec)
SO iteration 13: need to repeat for 0000130441 particles. (took 0.0650618 sec)
SO iteration 14: need to repeat for 0000130441 particles. (took 0.0651371 sec)
SO iteration 15: need to repeat for 0000129580 particles. (took 0.0650499 sec)
SO iteration 16: need to repeat for 0000014772 particles. (took 0.0642171 sec)
SO iteration 17: need to repeat for 0000000243 particles. (took 0.00785708 sec)
SO iteration 18: need to repeat for 0000000034 particles. (took 0.000706911 sec)
SO iteration 19: need to repeat for 0000000002 particles. (took 0.000127077 sec)
SO iteration 1: need to repeat for 0000130441 particles. (took 0.082885 sec)
SO iteration 2: need to repeat for 0000130441 particles. (took 0.060096 sec)
SO iteration 3: need to repeat for 0000130441 particles. (took 0.0503058 sec)
SO iteration 4: need to repeat for 0000130441 particles. (took 0.0545621 sec)
SO iteration 5: need to repeat for 0000130441 particles. (took 0.0522692 sec)
SO iteration 6: need to repeat for 0000130441 particles. (took 0.0520258 sec)
SO iteration 7: need to repeat for 0000130441 particles. (took 0.0525849 sec)
SO iteration 8: need to repeat for 0000130441 particles. (took 0.0528979 sec)
SO iteration 9: need to repeat for 0000130441 particles. (took 0.0527661 sec)
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SO iteration 14: need to repeat for 0000130441 particles. (took 0.052731 sec)
SO iteration 15: need to repeat for 0000130412 particles. (took 0.0526619 sec)
SO iteration 16: need to repeat for 0000129070 particles. (took 0.052608 sec)
SO iteration 17: need to repeat for 0000017388 particles. (took 0.0521069 sec)
SO iteration 18: need to repeat for 0000000379 particles. (took 0.0109408 sec)
SO iteration 19: need to repeat for 0000000043 particles. (took 0.000633001 sec)
SO iteration 20: need to repeat for 0000000002 particles. (took 0.000223875 sec)
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SO iteration 2: need to repeat for 0000130441 particles. (took 0.062932 sec)
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SO iteration 14: need to repeat for 0000130441 particles. (took 0.071101 sec)
SO iteration 15: need to repeat for 0000128624 particles. (took 0.071147 sec)
SO iteration 16: need to repeat for 0000001994 particles. (took 0.0701759 sec)
SO iteration 17: need to repeat for 0000000094 particles. (took 0.00300694 sec)
SO iteration 18: need to repeat for 0000000004 particles. (took 0.000445127 sec)
SO iteration 1: need to repeat for 0000130441 particles. (took 0.0829239 sec)
SO iteration 2: need to repeat for 0000130441 particles. (took 0.0613439 sec)
SO iteration 3: need to repeat for 0000130441 particles. (took 0.067564 sec)
SO iteration 4: need to repeat for 0000130441 particles. (took 0.064193 sec)
SO iteration 5: need to repeat for 0000130441 particles. (took 0.0645249 sec)
SO iteration 6: need to repeat for 0000130441 particles. (took 0.0641091 sec)
SO iteration 7: need to repeat for 0000130441 particles. (took 0.0642049 sec)
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SO iteration 14: need to repeat for 0000130441 particles. (took 0.0641992 sec)
SO iteration 15: need to repeat for 0000129679 particles. (took 0.0642042 sec)
SO iteration 16: need to repeat for 0000020054 particles. (took 0.063555 sec)
SO iteration 17: need to repeat for 0000000282 particles. (took 0.0100272 sec)
SO iteration 18: need to repeat for 0000000039 particles. (took 0.000878096 sec)
SO iteration 19: need to repeat for 0000000002 particles. (took 0.00026989 sec)
SO iteration 1: need to repeat for 0000130441 particles. (took 0.0828052 sec)
SO iteration 2: need to repeat for 0000130441 particles. (took 0.0602231 sec)
SO iteration 3: need to repeat for 0000130441 particles. (took 0.0501709 sec)
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SO iteration 16: need to repeat for 0000128632 particles. (took 0.056422 sec)
SO iteration 17: need to repeat for 0000002544 particles. (took 0.0555849 sec)
SO iteration 18: need to repeat for 0000000167 particles. (took 0.00202918 sec)
SO iteration 19: need to repeat for 0000000006 particles. (took 0.00039196 sec)
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SO iteration 2: need to repeat for 0000130441 particles. (took 0.0601091 sec)
SO iteration 3: need to repeat for 0000130441 particles. (took 0.0500941 sec)
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SO iteration 13: need to repeat for 0000130441 particles. (took 0.050143 sec)
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SO iteration 15: need to repeat for 0000130437 particles. (took 0.050195 sec)
SO iteration 16: need to repeat for 0000130266 particles. (took 0.050221 sec)
SO iteration 17: need to repeat for 0000128721 particles. (took 0.0501959 sec)
SO iteration 18: need to repeat for 0000004886 particles. (took 0.0497079 sec)
SO iteration 19: need to repeat for 0000000188 particles. (took 0.00240207 sec)
SO iteration 20: need to repeat for 0000000007 particles. (took 0.000378847 sec)
determining spherical overdensity masses took 7.40795 sec
finding spherical overdensity particles took 0.55071 sec
determining contamination of halos took 0.444468 sec
Global sort of Groups took 0.0469711 sec
Global sort of SubGroups took 0.096472 sec
Global sort of IDs took 2.8237 sec
Writing block 0 (GLEN), n=3691, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14764d
Writing block 1 (GOFF), n=3691, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14764d
Writing block 2 (MTOT), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 3 (GPOS), n=3691, ptype=0, dtype=1, ndim=3, bpb=4 bytes=44292d
Writing block 4 (MMEA), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 5 (RMEA), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 6 (MCRI), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 7 (RCRI), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 8 (MTOP), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 9 (RTOP), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 17 (NCON), n=3691, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14764d
Writing block 18 (MCON), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 22 (NSUB), n=3691, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14764d
Writing block 23 (FSUB), n=3691, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14764d
Writing block 24 (SLEN), n=12398, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49592d
Writing block 25 (SOFF), n=12398, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49592d
Writing block 26 (SSUB), n=12398, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49592d
Writing block 27 (MSUB), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 28 (SPOS), n=12398, ptype=1, dtype=1, ndim=3, bpb=4 bytes=148776d
Writing block 29 (SVEL), n=12398, ptype=1, dtype=1, ndim=3, bpb=4 bytes=148776d
Writing block 30 (SCM ), n=12398, ptype=1, dtype=1, ndim=3, bpb=4 bytes=148776d
Writing block 33 (VMAX), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 34 (RMAX), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 35 (RHMS), n=12398, ptype=1, dtype=1, ndim=6, bpb=4 bytes=297552d
Writing block 36 (MTRH), n=12398, ptype=1, dtype=1, ndim=6, bpb=4 bytes=297552d
Writing block 37 (MBID), n=12398, ptype=1, dtype=2, ndim=1, bpb=8 bytes=99184d
Writing block 38 (GRNR), n=12398, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49592d
Writing block 39 (SUBN), n=12398, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49592d
Writing block 40 (SMST), n=12398, ptype=1, dtype=1, ndim=6, bpb=4 bytes=297552d
Writing block 53 (PID ), n=4695775, ptype=2, dtype=2, ndim=1, bpb=8 bytes=37566200d
Writing block 54 (SLEN), n=12398, ptype=1, dtype=0, ndim=6, bpb=4 bytes=297552d
Writing block 55 (STEN), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 56 (SKEN), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 57 (SUEN), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 58 (SUIT), n=12398, ptype=1, dtype=1, ndim=9, bpb=4 bytes=446328d
Writing block 59 (BHMA), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 60 (BHMD), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 61 (SVD ), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 62 (SVDH), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 63 (HMPR), n=12398, ptype=1, dtype=1, ndim=6, bpb=4 bytes=297552d
Writing block 64 (SSFR), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 65 (SSA ), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 66 (SSBZ), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 67 (SSIM), n=12398, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 68 (SSPI), n=12398, ptype=4, dtype=1, ndim=3, bpb=4 bytes=148776d
Writing block 69 (GSPI), n=12398, ptype=1, dtype=1, ndim=3, bpb=4 bytes=148776d
Writing block 70 (FSPI), n=12398, ptype=5, dtype=1, ndim=3, bpb=4 bytes=148776d
Writing block 71 (SFM ), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 72 (SFMT), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 73 (SFME), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 74 (SFAE), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 75 (SFKE), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 76 (SFTE), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 77 (SMWP), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 78 (SMM ), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 79 (SMMS), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 80 (SFZ ), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 81 (SFZS), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 82 (SSIA), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 83 (SIAS), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 84 (SMET), n=12398, ptype=5, dtype=1, ndim=9, bpb=4 bytes=446328d
Writing block 85 (SMTS), n=12398, ptype=5, dtype=1, ndim=9, bpb=4 bytes=446328d
Writing block 86 (MF1 ), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 87 (MeF1), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 88 (MF  ), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 89 (MeF2), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 90 (MFA ), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 91 (MeFA), n=12398, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 92 (NSPI), n=12398, ptype=6, dtype=1, ndim=3, bpb=4 bytes=148776d
Writing block 93 (NFM ), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 94 (NFMT), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 95 (NFME), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 96 (NFAE), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 97 (NFKE), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 98 (NFTE), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 99 (SMWP), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 100 (SMM ), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 101 (SMMS), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 102 (SSIA), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 103 (SIAS), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 104 (SMET), n=12398, ptype=6, dtype=1, ndim=9, bpb=4 bytes=446328d
Writing block 105 (SMTS), n=12398, ptype=6, dtype=1, ndim=9, bpb=4 bytes=446328d
Writing block 106 (MF1 ), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 107 (MeF1), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 108 (MF2 ), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 109 (MeF2), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 110 (MFA ), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 111 (MeFA), n=12398, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 112 (SM  ), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 113 (SFKE), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 114 (SFAE), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 115 (SMWP), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 116 (SMM ), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 117 (SMMS), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 118 (SSIA), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 119 (SIAS), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 120 (SMET), n=12398, ptype=4, dtype=1, ndim=9, bpb=4 bytes=446328d
Writing block 121 (SMTS), n=12398, ptype=4, dtype=1, ndim=9, bpb=4 bytes=446328d
Writing block 122 (MF1 ), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 123 (MeF1), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 124 (MF2 ), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 125 (MeF2), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 126 (MFA ), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 127 (MeFA), n=12398, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49592d
Writing block 128 (MMe5), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 129 (RMe5), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 130 (MCr5), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 131 (RCr5), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 132 (MMe2), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 133 (RMe2), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 134 (MCr2), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 135 (RCr2), n=3691, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14764d
Writing block 136 (MAPT), n=12398, ptype=7, dtype=1, ndim=60, bpb=4 bytes=2975520d
Writing block 137 (SAPT), n=12398, ptype=8, dtype=1, ndim=10, bpb=4 bytes=495920d
Writing block 138 (VAPT), n=12398, ptype=9, dtype=1, ndim=10, bpb=4 bytes=495920d
Writing block 139 (BEGY), n=4695775, ptype=2, dtype=1, ndim=1, bpb=4 bytes=18783100d
Subgroup catalogues saved. took = 9.92616 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 2.455208e+00
 eagle_ph_key_ort: type= 1 timed by volker 2.919939e+00
 eagle_ph_key_ort: type= 2 timed by volker 3.399570e-01
 eagle_ph_key_ort: type= 3 timed by volker 6.236601e-02
 eagle_ph_key_ort: type= 4 timed by volker 1.474998e-01
 eagle_ph_key_ort: type= 5 timed by volker 2.687788e-02
 eagle_ph_key_ort: timing parallel sort = 6.656731e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19763151144

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 37152.4 Mbyte (on task=0), Smallest = 32189.5 Mbyte, Average = 32437.5 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3704     246.1117  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3704     441.4821  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3704     636.8525  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6301   16266.4826  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11559.7752   27826.2578  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2724.5123   30550.7701  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.5815   30844.3517  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8270   30846.2006  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    293.5719   31139.7725  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    489.2865   31629.0590  fof_fof()/fof.c/337
   0 2978 0             Group      4.6308   31633.6898  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5229.2386   36862.9284  subfind()/subfind.c/376
   0 2980 0   sort_index_data    289.4620   37152.3903  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 160, max_elements= 225146 number of bytes = 36023360
 eagle_ph_key_ort: timing parallel P exchange = 2.704895e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19763151144
 eagle_fetch_elements: max_bytes= 248, max_elements= 1260638 number of bytes = 312638224
 eagle_ph_key_ort: timing parallel SphP exchange = 1.501248e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19763151144
 eagle_fetch_elements: max_bytes= 384, max_elements= 2497758 number of bytes = 959139072
 eagle_ph_key_ort: timing parallel MetP exchange = 1.011989e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19763151144
 eagle_fetch_elements: max_bytes= 256, max_elements= 4097833 number of bytes = 1049045248
 eagle_ph_key_ort: timing parallel BHP exchange = 1.847315e-02
Sorting particle-data by peano-hilbert key took = 52.3229 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 160, max_elements= 225146 number of bytes= 36023360
 eagle_ph_restore: timing parallel P exchange = 3.137412e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 252, max_elements= 1193986 number of bytes= 300884472
 eagle_ph_restore: timing parallel SphP exchange = 1.483594e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2497758 number of bytes= 959139072
 eagle_ph_restore: timing parallel MetP exchange = 9.109039e-01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4097833 number of bytes= 1049045248
 eagle_ph_restore: timing parallel BHP exchange = 2.270293e-02
Restoring original order after ph key sorting took = 47.2825 sec

finished writing particle file...

Finished with SUBFIND.  (total time=5910.45 sec)

Finished computing FoF groups.  (presently allocated=30846.2 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30844.4 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.003 MB of temporary storage for domain decomposition... (presently allocated=31286.7 MB)
Before=33561
After=36793
NTopleaves= 32194  NTopnodes=36793 (space for 409722)
gravity work-load balance=1.01193   memory-balance=1.01193   SPH work-load balance=1.01191
iter=0 exchange of 0563990752 particles (ret=0)
domain decomposition done. (took 28.0103 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0713 MByte in top-level domain structure
Tree construction.
task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
task 36: endrun called with an error level of 124


task 27: endrun called with an error level of 124


task 19: endrun called with an error level of 124


task 30: endrun called with an error level of 124


task 31: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 22: endrun called with an error level of 124


task 5: endrun called with an error level of 124


task 8: endrun called with an error level of 124


task 11: endrun called with an error level of 124


Finished FOF, total time doing fof/subfind = 6145.62 s
task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
 An HDF5 error was detected, we'd better stop.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 27:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 43:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 19:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
 An HDF5 error was detected, we'd better stop.
task 42: endrun called with an error level of 124


task 20: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
task 39: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
 An HDF5 error was detected, we'd better stop.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
task 36: endrun called with an error level of 124


task 27: endrun called with an error level of 124


task 43: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 19:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 30: endrun called with an error level of 124


task 31: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20:
task 22: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
task 5: endrun called with an error level of 124


task 8: endrun called with an error level of 124


task 33: endrun called with an error level of 124


task 11: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 27:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 43task 19: endrun called with an error level of 124


    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
task 20: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
task 39: endrun called with an error level of 124


HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
task 0: endrun called with an error level of 124


task 43: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
task 42: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
task 33: endrun called with an error level of 124


    minor: Can't get value
:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
task 0: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63091.73 Mb (on task=14), Smallest =   62881.53 Mb (on task=0), Average =   63038.48 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=11), Smallest =   64531.71 Mb (on task=14), Average =   64532.01 Mb
Committed_AS:	 Largest =    1650.46 Mb (on task=0), Smallest =    1439.97 Mb (on task=14), Average =    1493.53 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=2), Smallest =   16266.02 Mb (on task=6), Average =   16310.01 Mb
AllocMem:	 Largest =    1650.46 Mb (on task=0), Smallest =    1439.97 Mb (on task=14), Average =    1493.53 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 45 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N1':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         56000
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 16264.6 MByte for particle storage.

Allocated 11561.4 MByte for storage of SPH data.

Allocated 2723.6 MByte for storage of MET data.

Allocated 293.622 MByte for storage of BH data.


reading file `data//snapshot_025_z000p113/snap_025_z000p113.0.hdf5' on task=0 (contains 36143400 particles.)
distributing this file to tasks 0-4
Type 0 (gas):   16958726  (tot=     0270602465) masstab=0
Type 1 (halo):  17934765  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19609  (tot=     0000254233) masstab=0
Type 3 (bulge):   233351  (tot=     0002602064) masstab=0
Type 4 (stars):   994669  (tot=     0016018448) masstab=0
Type 5 (bndry):     2280  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.8.hdf5' on task=27 (contains 36017715 particles.)
distributing this file to tasks 27-29
Type 0 (gas):   16868729  (tot=     0270602465) masstab=0
Type 1 (halo):  18030709  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13389  (tot=     0000254233) masstab=0
Type 3 (bulge):   109850  (tot=     0002602064) masstab=0
Type 4 (stars):   993018  (tot=     0016018448) masstab=0
Type 5 (bndry):     2020  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.7.hdf5' on task=22 (contains 35968223 particles.)
distributing this file to tasks 22-26
Type 0 (gas):   16915786  (tot=     0270602465) masstab=0
Type 1 (halo):  17987155  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12082  (tot=     0000254233) masstab=0
Type 3 (bulge):   104418  (tot=     0002602064) masstab=0
Type 4 (stars):   946779  (tot=     0016018448) masstab=0
Type 5 (bndry):     2003  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.14.hdf5' on task=42 (contains 35995323 particles.)
distributing this file to tasks 42-42
Type 0 (gas):   16902468  (tot=     0270602465) masstab=0
Type 1 (halo):  18007595  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9924  (tot=     0000254233) masstab=0
Type 3 (bulge):    65817  (tot=     0002602064) masstab=0
Type 4 (stars):  1007437  (tot=     0016018448) masstab=0
Type 5 (bndry):     2082  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.3.hdf5' on task=11 (contains 36290433 particles.)
distributing this file to tasks 11-15
Type 0 (gas):   16918711  (tot=     0270602465) masstab=0
Type 1 (halo):  17934242  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9937  (tot=     0000254233) masstab=0
Type 3 (bulge):   270124  (tot=     0002602064) masstab=0
Type 4 (stars):  1155411  (tot=     0016018448) masstab=0
Type 5 (bndry):     2008  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.10.hdf5' on task=31 (contains 36004830 particles.)
distributing this file to tasks 31-32
Type 0 (gas):   16875292  (tot=     0270602465) masstab=0
Type 1 (halo):  17653035  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18821  (tot=     0000254233) masstab=0
Type 3 (bulge):   332784  (tot=     0002602064) masstab=0
Type 4 (stars):  1122906  (tot=     0016018448) masstab=0
Type 5 (bndry):     1992  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.1.hdf5' on task=5 (contains 35797645 particles.)
distributing this file to tasks 5-7
Type 0 (gas):   17059420  (tot=     0270602465) masstab=0
Type 1 (halo):  17728519  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14657  (tot=     0000254233) masstab=0
Type 3 (bulge):   187813  (tot=     0002602064) masstab=0
Type 4 (stars):   805132  (tot=     0016018448) masstab=0
Type 5 (bndry):     2104  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.15.hdf5' on task=43 (contains 35905296 particles.)
distributing this file to tasks 43-44
Type 0 (gas):   16998450  (tot=     0270602465) masstab=0
Type 1 (halo):  17804489  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11192  (tot=     0000254233) masstab=0
Type 3 (bulge):   198151  (tot=     0002602064) masstab=0
Type 4 (stars):   890974  (tot=     0016018448) masstab=0
Type 5 (bndry):     2040  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.5.hdf5' on task=19 (contains 36218960 particles.)
distributing this file to tasks 19-19
Type 0 (gas):   16808031  (tot=     0270602465) masstab=0
Type 1 (halo):  18106422  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12981  (tot=     0000254233) masstab=0
Type 3 (bulge):   246987  (tot=     0002602064) masstab=0
Type 4 (stars):  1042420  (tot=     0016018448) masstab=0
Type 5 (bndry):     2119  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.4.hdf5' on task=16 (contains 35921474 particles.)
distributing this file to tasks 16-18
Type 0 (gas):   16910158  (tot=     0270602465) masstab=0
Type 1 (halo):  18003178  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     22339  (tot=     0000254233) masstab=0
Type 3 (bulge):    36654  (tot=     0002602064) masstab=0
Type 4 (stars):   947143  (tot=     0016018448) masstab=0
Type 5 (bndry):     2002  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.13.hdf5' on task=39 (contains 36217203 particles.)
distributing this file to tasks 39-41
Type 0 (gas):   16847646  (tot=     0270602465) masstab=0
Type 1 (halo):  18194330  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11930  (tot=     0000254233) masstab=0
Type 3 (bulge):   104555  (tot=     0002602064) masstab=0
Type 4 (stars):  1056646  (tot=     0016018448) masstab=0
Type 5 (bndry):     2096  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.6.hdf5' on task=20 (contains 35983271 particles.)
distributing this file to tasks 20-21
Type 0 (gas):   16952121  (tot=     0270602465) masstab=0
Type 1 (halo):  17797892  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17563  (tot=     0000254233) masstab=0
Type 3 (bulge):   156561  (tot=     0002602064) masstab=0
Type 4 (stars):  1057217  (tot=     0016018448) masstab=0
Type 5 (bndry):     1917  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.12.hdf5' on task=36 (contains 35877288 particles.)
distributing this file to tasks 36-38
Type 0 (gas):   16937560  (tot=     0270602465) masstab=0
Type 1 (halo):  17847914  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     22183  (tot=     0000254233) masstab=0
Type 3 (bulge):    41225  (tot=     0002602064) masstab=0
Type 4 (stars):  1026327  (tot=     0016018448) masstab=0
Type 5 (bndry):     2079  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.9.hdf5' on task=30 (contains 35709868 particles.)
distributing this file to tasks 30-30
Type 0 (gas):   16824281  (tot=     0270602465) masstab=0
Type 1 (halo):  17666577  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     30203  (tot=     0000254233) masstab=0
Type 3 (bulge):   132485  (tot=     0002602064) masstab=0
Type 4 (stars):  1054342  (tot=     0016018448) masstab=0
Type 5 (bndry):     1980  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.2.hdf5' on task=8 (contains 36020193 particles.)
distributing this file to tasks 8-10
Type 0 (gas):   16918330  (tot=     0270602465) masstab=0
Type 1 (halo):  17952756  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18290  (tot=     0000254233) masstab=0
Type 3 (bulge):   192855  (tot=     0002602064) masstab=0
Type 4 (stars):   935888  (tot=     0016018448) masstab=0
Type 5 (bndry):     2074  (tot=     0000032826) masstab=0


reading file `data//snapshot_025_z000p113/snap_025_z000p113.11.hdf5' on task=33 (contains 36099644 particles.)
distributing this file to tasks 33-35
Type 0 (gas):   16906756  (tot=     0270602465) masstab=0
Type 1 (halo):  18011152  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9133  (tot=     0000254233) masstab=0
Type 3 (bulge):   188434  (tot=     0002602064) masstab=0
Type 4 (stars):   982139  (tot=     0016018448) masstab=0
Type 5 (bndry):     2030  (tot=     0000032826) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576170766


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= 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=15.6607 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30845.1 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.004 MB of temporary storage for domain decomposition... (presently allocated=31287.4 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 31287.4 Mbyte (on task=1), Smallest = 31287.4 Mbyte, Average = 31287.4 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    195.3704     246.1128  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    195.3704     441.4832  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    195.3704     636.8536  allocate_memory()/allocate.c/61
   1 2969 0                 P  15629.6313   16266.4849  allocate_memory()/allocate.c/67
   1 2970 0              SphP  11561.3844   27827.8693  allocate_memory()/allocate.c/85
   1 2971 0              MetP   2723.6016   30551.4709  allocate_memory()/allocate.c/105
   1 2972 0               BHP    293.6223   30845.0932  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes     20.3186   30865.4337  domain_allocate()/domain.c/570
   1 2976 0        domain_key    390.7408   31256.1745  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      1.5630   31257.7396  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      1.5630   31259.3025  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      1.5630   31260.8655  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      1.5630   31262.4285  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      1.5630   31263.9921  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      1.5630   31265.5558  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes     21.8815   31287.4373  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=34041
After=35529
NTopleaves= 31088  NTopnodes=35529 (space for 409722)
gravity work-load balance=1.01115   memory-balance=1.01113   SPH work-load balance=1.01117
iter=0 exchange of 0563528578 particles (ret=0)
domain decomposition done. (took 62.6822 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.1292 MByte in top-level domain structure

Allocated 6414.25 MByte for BH-tree, and 0.118591 Mbyte for top-leaves.  (presently allocted 37261.2 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 38007.5 Mbyte (on task=30), Smallest = 37829.2 Mbyte, Average = 37905.5 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  30 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
  30 2966 0  NextActiveParticle    195.3704     246.1128  allocate_memory()/allocate.c/55
  30 2967 0     NextInTimeBin    195.3704     441.4832  allocate_memory()/allocate.c/58
  30 2968 0     PrevInTimeBin    195.3704     636.8536  allocate_memory()/allocate.c/61
  30 2969 0                 P  15629.6313   16266.4849  allocate_memory()/allocate.c/67
  30 2970 0              SphP  11561.3844   27827.8693  allocate_memory()/allocate.c/85
  30 2971 0              MetP   2723.6016   30551.4709  allocate_memory()/allocate.c/105
  30 2972 0               BHP    293.6223   30845.0932  allocate_memory()/allocate.c/126
  30 2975 0          TopNodes      1.7619   30846.8771  domain_allocate()/domain.c/570
  30 2976 0   DomainNodeIndex      0.1186   30846.9957  force_treeallocate()/forcetree.c/4800
  30 2977 0        Nodes_base   3285.4754   34132.4711  force_treeallocate()/forcetree.c/4803
  30 2978 0     Extnodes_base   2737.8962   36870.3673  force_treeallocate()/forcetree.c/4811
  30 2979 0          Nextnode    195.5059   37065.8733  force_treeallocate()/forcetree.c/4820
  30 2980 0            Father    195.3704   37261.2437  force_treeallocate()/forcetree.c/4827
  30 2981 0           Ngblist     49.3100   37310.5537  density()/density.c/690
  30 2982 0              Left     98.6200   37409.1737  density()/density.c/692
  30 2983 0             Right     98.6200   37507.7938  density()/density.c/693
  30 2984 0    DataIndexTable      7.0175   37514.8113  density()/density.c/738
  30 2985 0      DataNodeList     18.7134   37533.5247  density()/density.c/740
  30 2986 0       DensDataGet    145.9192   37679.4439  density()/density.c/893
  30 2987 0    DensDataResult    192.3480   37871.7919  density()/density.c/931
  30 2988 0       DensDataOut    135.6724   38007.4644  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0003004292 particles.
ngb iteration 2: need to repeat for 0000000482 particles.
ngb iteration 3: need to repeat for 0000000173 particles.
ngb iteration 4: need to repeat for 0000000114 particles.
ngb iteration 5: need to repeat for 0000000037 particles.
ngb iteration 6: need to repeat for 0000000031 particles.
ngb iteration 7: need to repeat for 0000000019 particles.
ngb iteration 8: need to repeat for 0000000008 particles.
ngb iteration 9: need to repeat for 0000000003 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.101.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.155.hdf5

Begin to compute FoF group catalogues...  (presently allocated=37261.2 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30845.1 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.004 MB of temporary storage for domain decomposition... (presently allocated=31287.4 MB)
Before=33185
After=36353
NTopleaves= 31809  NTopnodes=36353 (space for 409722)
gravity work-load balance=1.0063   memory-balance=1.00628   SPH work-load balance=1.00526
iter=0 exchange of 0563146930 particles (ret=0)
domain decomposition done. (took 25.6641 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0915 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=30846.9 MB)
Tree construction.

Start linking particles (presently allocated=37849.8 MB)
links on local processor done (took 46.416 sec).
Marked=0029385117 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=38119.9 MB) 
have done 0000474136 cross links (processed 0029385117, took 9.46146 sec)
have done 0000198545 cross links (processed 0022044579, took 9.03785 sec)
have done 0000137486 cross links (processed 0017340542, took 5.33848 sec)
have done 0000086237 cross links (processed 0011367840, took 6.2504 sec)
have done 0000052559 cross links (processed 0006443684, took 5.02713 sec)
have done 0000028806 cross links (processed 0002123902, took 2.22618 sec)
have done 0000014498 cross links (processed 0000725019, took 2.03255 sec)
have done 0000007079 cross links (processed 0000684302, took 1.73426 sec)
have done 0000002705 cross links (processed 0000163720, took 0.827156 sec)
have done 0000001437 cross links (processed 0000169382, took 1.00771 sec)
have done 0000000485 cross links (processed 0000009037, took 0.179951 sec)
have done 0000000184 cross links (processed 0000002721, took 0.176708 sec)
have done 0000000070 cross links (processed 0000001244, took 0.176417 sec)
have done 0000000033 cross links (processed 0000000570, took 0.176309 sec)
have done 0000000012 cross links (processed 0000000126, took 0.176108 sec)
have done 0000000005 cross links (processed 0000000056, took 0.176006 sec)
have done 0000000000 cross links (processed 0000000016, took 0.17691 sec)
Local groups found.

group finding took = 91.0919 sec
Start finding nearest dm-particle (presently allocated=37849.8 MB)
still finding nearest... (presently allocated=38086.8 MB)
fof-nearest iteration 1: need to repeat for 258324810 particles.
still finding nearest... (presently allocated=38092.3 MB)
fof-nearest iteration 2: need to repeat for 246540342 particles.
still finding nearest... (presently allocated=38102 MB)
fof-nearest iteration 3: need to repeat for 223203166 particles.
still finding nearest... (presently allocated=38112.4 MB)
fof-nearest iteration 4: need to repeat for 181450176 particles.
still finding nearest... (presently allocated=38124.3 MB)
fof-nearest iteration 5: need to repeat for 124475687 particles.
still finding nearest... (presently allocated=38129.6 MB)
fof-nearest iteration 6: need to repeat for 60113694 particles.
still finding nearest... (presently allocated=38116.8 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 47.3853 sec
compiling local group data and catalogue took = 6.08629 sec

Total number of groups with at least 32 particles: 166205
Largest group has 45285399 particles.
Total number of particles in groups: 0211430361

group properties are now allocated.. (presently allocated=31635.7 MB)
computation of group properties took = 0.967588 sec
start global sorting of group catalogues number 25
LargestGroup = 18704.578545; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.290443 sec
Group catalogues globally sorted. took = 4.55292 sec
starting saving of group catalogue number 25
data//groups_025_z000p113
Group catalogues number 25 saved. took = 3.32421 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (270602465).
tree build for species 0 took 3.15093 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0160218161 particles. (took 86.8828 sec)
ngb iteration 2: need to repeat for 0096901213 particles. (took 54.5648 sec)
ngb iteration 3: need to repeat for 0081682097 particles. (took 26.6219 sec)
ngb iteration 4: need to repeat for 0074081260 particles. (took 20.648 sec)
ngb iteration 5: need to repeat for 0065886717 particles. (took 18.2284 sec)
ngb iteration 6: need to repeat for 0053904504 particles. (took 15.6672 sec)
ngb iteration 7: need to repeat for 0039076652 particles. (took 12.8618 sec)
ngb iteration 8: need to repeat for 0025244280 particles. (took 9.47024 sec)
ngb iteration 9: need to repeat for 0014939249 particles. (took 6.32106 sec)
ngb iteration 10: need to repeat for 0008338477 particles. (took 3.97482 sec)
ngb iteration 11: need to repeat for 0004486440 particles. (took 2.46467 sec)
ngb iteration 12: need to repeat for 0002362667 particles. (took 1.56 sec)
ngb iteration 13: need to repeat for 0001230159 particles. (took 1.04407 sec)
ngb iteration 14: need to repeat for 0000569422 particles. (took 0.742731 sec)
ngb iteration 15: need to repeat for 0000160342 particles. (took 0.519742 sec)
ngb iteration 16: need to repeat for 0000051192 particles. (took 0.336038 sec)
ngb iteration 17: need to repeat for 0000020885 particles. (took 0.279227 sec)
ngb iteration 18: need to repeat for 0000010902 particles. (took 0.26473 sec)
ngb iteration 19: need to repeat for 0000006778 particles. (took 0.261 sec)
ngb iteration 20: need to repeat for 0000004624 particles. (took 0.258661 sec)
ngb iteration 21: need to repeat for 0000003459 particles. (took 0.25809 sec)
ngb iteration 22: need to repeat for 0000002682 particles. (took 0.257314 sec)
ngb iteration 23: need to repeat for 0000002115 particles. (took 0.257092 sec)
ngb iteration 24: need to repeat for 0000001692 particles. (took 0.257467 sec)
ngb iteration 25: need to repeat for 0000001315 particles. (took 0.256595 sec)
ngb iteration 26: need to repeat for 0000000982 particles. (took 0.256509 sec)
ngb iteration 27: need to repeat for 0000000715 particles. (took 0.256655 sec)
ngb iteration 28: need to repeat for 0000000513 particles. (took 0.256403 sec)
ngb iteration 29: need to repeat for 0000000333 particles. (took 0.25655 sec)
ngb iteration 30: need to repeat for 0000000223 particles. (took 0.256227 sec)
ngb iteration 31: need to repeat for 0000000131 particles. (took 0.256324 sec)
ngb iteration 32: need to repeat for 0000000071 particles. (took 0.256347 sec)
ngb iteration 33: need to repeat for 0000000034 particles. (took 0.25637 sec)
ngb iteration 34: need to repeat for 0000000016 particles. (took 0.256257 sec)
ngb iteration 35: need to repeat for 0000000004 particles. (took 0.256252 sec)
ngb iteration 36: need to repeat for 0000000002 particles. (took 0.256179 sec)
ngb iteration 37: need to repeat for 0000000001 particles. (took 0.256471 sec)
final operations ... 
density and smoothing length for species 0 took 269.472 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.55313 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0165922455 particles. (took 127.952 sec)
ngb iteration 2: need to repeat for 0101676534 particles. (took 55.3973 sec)
ngb iteration 3: need to repeat for 0078424263 particles. (took 29.2618 sec)
ngb iteration 4: need to repeat for 0067535299 particles. (took 20.2558 sec)
ngb iteration 5: need to repeat for 0059252521 particles. (took 16.5197 sec)
ngb iteration 6: need to repeat for 0049132755 particles. (took 14.0791 sec)
ngb iteration 7: need to repeat for 0037004651 particles. (took 11.5906 sec)
ngb iteration 8: need to repeat for 0025320091 particles. (took 8.78493 sec)
ngb iteration 9: need to repeat for 0016064914 particles. (took 6.1497 sec)
ngb iteration 10: need to repeat for 0009668464 particles. (took 4.09551 sec)
ngb iteration 11: need to repeat for 0005635102 particles. (took 2.67971 sec)
ngb iteration 12: need to repeat for 0003229242 particles. (took 1.77685 sec)
ngb iteration 13: need to repeat for 0001840418 particles. (took 1.20704 sec)
ngb iteration 14: need to repeat for 0000995703 particles. (took 0.859919 sec)
ngb iteration 15: need to repeat for 0000465674 particles. (took 0.624695 sec)
ngb iteration 16: need to repeat for 0000238174 particles. (took 0.443614 sec)
ngb iteration 17: need to repeat for 0000129847 particles. (took 0.365414 sec)
ngb iteration 18: need to repeat for 0000073182 particles. (took 0.330211 sec)
ngb iteration 19: need to repeat for 0000041101 particles. (took 0.314698 sec)
ngb iteration 20: need to repeat for 0000022893 particles. (took 0.307482 sec)
ngb iteration 21: need to repeat for 0000012300 particles. (took 0.30366 sec)
ngb iteration 22: need to repeat for 0000006398 particles. (took 0.301085 sec)
ngb iteration 23: need to repeat for 0000003196 particles. (took 0.299669 sec)
ngb iteration 24: need to repeat for 0000001527 particles. (took 0.299073 sec)
ngb iteration 25: need to repeat for 0000000737 particles. (took 0.298265 sec)
ngb iteration 26: need to repeat for 0000000336 particles. (took 0.297845 sec)
ngb iteration 27: need to repeat for 0000000149 particles. (took 0.297666 sec)
ngb iteration 28: need to repeat for 0000000070 particles. (took 0.29749 sec)
ngb iteration 29: need to repeat for 0000000036 particles. (took 0.29752 sec)
ngb iteration 30: need to repeat for 0000000015 particles. (took 0.297333 sec)
ngb iteration 31: need to repeat for 0000000007 particles. (took 0.297372 sec)
ngb iteration 32: need to repeat for 0000000003 particles. (took 0.297302 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.29732 sec)
final operations ... 
density and smoothing length for species 1 took 309.072 sec
Tree construction for species 4 (16018448).
tree build for species 4 took 0.339949 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0009116547 particles. (took 19.4373 sec)
ngb iteration 2: need to repeat for 0006315865 particles. (took 6.96379 sec)
ngb iteration 3: need to repeat for 0004579164 particles. (took 4.00016 sec)
ngb iteration 4: need to repeat for 0003627531 particles. (took 3.03429 sec)
ngb iteration 5: need to repeat for 0003028205 particles. (took 2.52229 sec)
ngb iteration 6: need to repeat for 0002538125 particles. (took 2.13783 sec)
ngb iteration 7: need to repeat for 0002063658 particles. (took 1.52011 sec)
ngb iteration 8: need to repeat for 0001610482 particles. (took 1.21966 sec)
ngb iteration 9: need to repeat for 0001217034 particles. (took 1.00664 sec)
ngb iteration 10: need to repeat for 0000896873 particles. (took 0.811689 sec)
ngb iteration 11: need to repeat for 0000652168 particles. (took 0.681628 sec)
ngb iteration 12: need to repeat for 0000471487 particles. (took 0.600372 sec)
ngb iteration 13: need to repeat for 0000337696 particles. (took 0.536222 sec)
ngb iteration 14: need to repeat for 0000238356 particles. (took 0.492587 sec)
ngb iteration 15: need to repeat for 0000163557 particles. (took 0.459657 sec)
ngb iteration 16: need to repeat for 0000113891 particles. (took 0.430981 sec)
ngb iteration 17: need to repeat for 0000080042 particles. (took 0.412438 sec)
ngb iteration 18: need to repeat for 0000056214 particles. (took 0.406991 sec)
ngb iteration 19: need to repeat for 0000039903 particles. (took 0.389245 sec)
ngb iteration 20: need to repeat for 0000028337 particles. (took 0.38202 sec)
ngb iteration 21: need to repeat for 0000020452 particles. (took 0.377355 sec)
ngb iteration 22: need to repeat for 0000014889 particles. (took 0.374479 sec)
ngb iteration 23: need to repeat for 0000011099 particles. (took 0.371625 sec)
ngb iteration 24: need to repeat for 0000008524 particles. (took 0.36954 sec)
ngb iteration 25: need to repeat for 0000006584 particles. (took 0.368416 sec)
ngb iteration 26: need to repeat for 0000005116 particles. (took 0.367458 sec)
ngb iteration 27: need to repeat for 0000004053 particles. (took 0.367077 sec)
ngb iteration 28: need to repeat for 0000003087 particles. (took 0.366888 sec)
ngb iteration 29: need to repeat for 0000002321 particles. (took 0.366288 sec)
ngb iteration 30: need to repeat for 0000001684 particles. (took 0.3662 sec)
ngb iteration 31: need to repeat for 0000001180 particles. (took 0.365985 sec)
ngb iteration 32: need to repeat for 0000000776 particles. (took 0.365635 sec)
ngb iteration 33: need to repeat for 0000000499 particles. (took 0.365745 sec)
ngb iteration 34: need to repeat for 0000000280 particles. (took 0.365705 sec)
ngb iteration 35: need to repeat for 0000000148 particles. (took 0.365597 sec)
ngb iteration 36: need to repeat for 0000000077 particles. (took 0.365449 sec)
ngb iteration 37: need to repeat for 0000000049 particles. (took 0.365393 sec)
ngb iteration 38: need to repeat for 0000000021 particles. (took 0.365324 sec)
ngb iteration 39: need to repeat for 0000000016 particles. (took 0.365456 sec)
ngb iteration 40: need to repeat for 0000000008 particles. (took 0.365328 sec)
ngb iteration 41: need to repeat for 0000000002 particles. (took 0.365289 sec)
ngb iteration 42: need to repeat for 0000000002 particles. (took 0.365533 sec)
ngb iteration 43: need to repeat for 0000000001 particles. (took 0.366111 sec)
final operations ... 
density and smoothing length for species 4 took 57.7502 sec
Tree construction.
tree build took 7.19622 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000025822 particles. (took 0.763908 sec)
ngb iteration 2: need to repeat for 0000022927 particles. (took 0.414202 sec)
ngb iteration 3: need to repeat for 0000013327 particles. (took 0.41473 sec)
ngb iteration 4: need to repeat for 0000008179 particles. (took 0.4084 sec)
ngb iteration 5: need to repeat for 0000006616 particles. (took 0.402468 sec)
ngb iteration 6: need to repeat for 0000005621 particles. (took 0.399524 sec)
ngb iteration 7: need to repeat for 0000004590 particles. (took 0.396514 sec)
ngb iteration 8: need to repeat for 0000003459 particles. (took 0.394131 sec)
ngb iteration 9: need to repeat for 0000002509 particles. (took 0.390502 sec)
ngb iteration 10: need to repeat for 0000001708 particles. (took 0.38695 sec)
ngb iteration 11: need to repeat for 0000001089 particles. (took 0.383559 sec)
ngb iteration 12: need to repeat for 0000000746 particles. (took 0.379784 sec)
ngb iteration 13: need to repeat for 0000000530 particles. (took 0.376633 sec)
ngb iteration 14: need to repeat for 0000000318 particles. (took 0.374211 sec)
ngb iteration 15: need to repeat for 0000000200 particles. (took 0.372381 sec)
ngb iteration 16: need to repeat for 0000000137 particles. (took 0.370768 sec)
ngb iteration 17: need to repeat for 0000000076 particles. (took 0.375439 sec)
ngb iteration 18: need to repeat for 0000000046 particles. (took 0.36751 sec)
ngb iteration 19: need to repeat for 0000000036 particles. (took 0.366698 sec)
ngb iteration 20: need to repeat for 0000000026 particles. (took 0.366152 sec)
ngb iteration 21: need to repeat for 0000000015 particles. (took 0.365581 sec)
ngb iteration 22: need to repeat for 0000000011 particles. (took 0.365521 sec)
ngb iteration 23: need to repeat for 0000000008 particles. (took 0.365341 sec)
ngb iteration 24: need to repeat for 0000000006 particles. (took 0.365668 sec)
ngb iteration 25: need to repeat for 0000000005 particles. (took 0.36515 sec)
ngb iteration 26: need to repeat for 0000000003 particles. (took 0.365103 sec)
ngb iteration 27: need to repeat for 0000000002 particles. (took 0.365067 sec)
ngb iteration 28: need to repeat for 0000000001 particles. (took 0.365137 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.365049 sec)
ngb iteration 30: need to repeat for 0000000001 particles. (took 0.364982 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.365221 sec)
final operations ... 
density and smoothing length for species 5 took 13.9398 sec
Tree construction for species 0 (270602465).
tree build for species 0 took 3.17568 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 187.614 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.51126 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 98.5821 sec
Tree construction for species 4 (16018448).
tree build for species 4 took 0.370711 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 29.0181 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.16481 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 18.8407 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 7.01784 sec
saving densities took 9.94857 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 35850623 particles.)
the other 166204 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 114195 - 136813421 

subfind_exchange()() took 4.90735 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=36820.6 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.004 MB of temporary storage for domain decomposition... (presently allocated=37263 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 37263 Mbyte (on task=0), Smallest = 32336.7 Mbyte, Average = 32586 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3704     246.1118  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3704     441.4822  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3704     636.8525  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6313   16266.4839  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11561.3844   27827.8683  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2723.6016   30551.4699  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.6223   30845.0922  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8028   30846.9169  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    294.1832   31141.1002  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    490.3054   31631.4056  fof_fof()/fof.c/337
   0 2978 0             Group      4.3133   31635.7189  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5184.9139   36820.6328  subfind()/subfind.c/376
   0 2982 0          TopNodes     20.3186   36840.9733  domain_allocate()/domain.c/570
   0 2983 0        domain_key    390.7408   37231.7141  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.5630   37233.2791  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.5630   37234.8421  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.5630   37236.4051  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.5630   37237.9680  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.5630   37239.5317  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.5630   37241.0954  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     21.8815   37262.9769  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=23585
After=30721
NTopleaves= 26881  NTopnodes=30721 (space for 409722)
gravity work-load balance=1.01255   memory-balance=1.01255   SPH work-load balance=1.01057
iter=0 exchange of 0044247029 particles (ret=0)
domain decomposition done. (took 4.57934 sec)
Freed 17.3493 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 43235.7 Mbyte (on task=0), Smallest = 38309.4 Mbyte, Average = 38558.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3704     246.1118  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3704     441.4822  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3704     636.8525  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6313   16266.4839  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11561.3844   27827.8683  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2723.6016   30551.4699  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.6223   30845.0922  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8028   30846.9169  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    294.1832   31141.1002  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    490.3054   31631.4056  fof_fof()/fof.c/337
   0 2978 0             Group      4.3133   31635.7189  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5184.9139   36820.6328  subfind()/subfind.c/376
   0 2982 0          TopNodes      1.5235   36822.1782  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.1025   36822.2808  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base   3285.0352   40107.3160  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base   2737.5294   42844.8454  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode    195.4876   43040.3330  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father    195.3704   43235.7034  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 6.21926 sec  (presently allocated=43235.7 MB)
force_treebuild() took 6.90201 sec (presently allocated=43235.7 MB)
Start find_linkngb (1011555 particles on task=0)
find linkngb iteration 1: need to repeat for 0027257103 particles. (took 41.8311 sec)
find linkngb iteration 2: need to repeat for 0022882734 particles. (took 17.2282 sec)
find linkngb iteration 3: need to repeat for 0018864752 particles. (took 10.0565 sec)
find linkngb iteration 4: need to repeat for 0017330416 particles. (took 6.48692 sec)
find linkngb iteration 5: need to repeat for 0015190777 particles. (took 5.73301 sec)
find linkngb iteration 6: need to repeat for 0012368058 particles. (took 4.88699 sec)
find linkngb iteration 7: need to repeat for 0008946928 particles. (took 3.92845 sec)
find linkngb iteration 8: need to repeat for 0005758035 particles. (took 2.84944 sec)
find linkngb iteration 9: need to repeat for 0003393172 particles. (took 1.86184 sec)
find linkngb iteration 10: need to repeat for 0001900059 particles. (took 1.1254 sec)
find linkngb iteration 11: need to repeat for 0001032830 particles. (took 0.657457 sec)
find linkngb iteration 12: need to repeat for 0000540326 particles. (took 0.384726 sec)
find linkngb iteration 13: need to repeat for 0000178299 particles. (took 0.216759 sec)
find linkngb iteration 14: need to repeat for 0000049054 particles. (took 0.0783322 sec)
find linkngb iteration 15: need to repeat for 0000022685 particles. (took 0.0308061 sec)
find linkngb iteration 16: need to repeat for 0000011599 particles. (took 0.0191789 sec)
find linkngb iteration 17: need to repeat for 0000005917 particles. (took 0.012001 sec)
find linkngb iteration 18: need to repeat for 0000002878 particles. (took 0.00802994 sec)
find linkngb iteration 19: need to repeat for 0000001464 particles. (took 0.00629401 sec)
find linkngb iteration 20: need to repeat for 0000000838 particles. (took 0.00528383 sec)
find linkngb iteration 21: need to repeat for 0000000520 particles. (took 0.00465703 sec)
find linkngb iteration 22: need to repeat for 0000000314 particles. (took 0.00435686 sec)
find linkngb iteration 23: need to repeat for 0000000177 particles. (took 0.00402617 sec)
find linkngb iteration 24: need to repeat for 0000000099 particles. (took 0.00382996 sec)
find linkngb iteration 25: need to repeat for 0000000055 particles. (took 0.00381207 sec)
find linkngb iteration 26: need to repeat for 0000000031 particles. (took 0.00383997 sec)
find linkngb iteration 27: need to repeat for 0000000016 particles. (took 0.00407314 sec)
find linkngb iteration 28: need to repeat for 0000000006 particles. (took 0.00405693 sec)
find linkngb iteration 29: need to repeat for 0000000003 particles. (took 0.0040431 sec)
find linkngb iteration 30: need to repeat for 0000000002 particles. (took 0.004071 sec)
find linkngb iteration 31: need to repeat for 0000000001 particles. (took 0.0040679 sec)
find_linkngb() took 97.4625 sec
Start finding nearest two (1011555 particles on task=0)
find_nearesttwo() took 13.4494 sec (presently allocated=43312.9 MB)
parallel sort of densities done. took 0.599129 sec
building distributed linked list. (presently allocated 43302.8 MB)
identification of primary candidates took 546.515 sec
adding background as candidate took 0.0556161 sec
establishing of rank order took 169.493 sec  (p=45285399, grouplen=45285399) presently allocated 43302.8 MB

total number of subhalo candidates=166017

number of subhalo candidates that can be done independently=142356.
(Largest size is 5421, finding them took 0.050653 sec)
particles are marked (took 63.1657)
independent subhalos are assembled on individual CPUs for unbinding (0.449825 sec, (presently allocated=43302.8 MB)
unbinding of independent ones took 0.489572 sec
particles have returned to their original processor (0.543463 sec, presently allocated 43302.8 MB)

number of subhalo candidates that can be done independently=21364.
(Largest size is 27448, finding them took 3.4524 sec)
particles are marked (took 47.2681)
independent subhalos are assembled on individual CPUs for unbinding (0.463716 sec, (presently allocated=43302.8 MB)
unbinding of independent ones took 1.55758 sec
particles have returned to their original processor (0.595743 sec, presently allocated 43302.8 MB)

number of subhalo candidates that can be done independently=2130.
(Largest size is 106539, finding them took 3.42416 sec)
particles are marked (took 37.9583)
independent subhalos are assembled on individual CPUs for unbinding (0.455162 sec, (presently allocated=43302.8 MB)
unbinding of independent ones took 6.11298 sec
particles have returned to their original processor (0.586687 sec, presently allocated 43302.8 MB)

number of subhalo candidates that can be done independently=152.
(Largest size is 392055, finding them took 2.57157 sec)
particles are marked (took 39.3097)
independent subhalos are assembled on individual CPUs for unbinding (0.434615 sec, (presently allocated=43302.8 MB)
unbinding of independent ones took 16.6822 sec
particles have returned to their original processor (0.534131 sec, presently allocated 43302.8 MB)

number of subhalo candidates that can be done independently=13.
(Largest size is 2953824, finding them took 3.92499 sec)
particles are marked (took 32.2483)
independent subhalos are assembled on individual CPUs for unbinding (0.41515 sec, (presently allocated=43302.8 MB)
unbinding of independent ones took 50.3674 sec
particles have returned to their original processor (0.616119 sec, presently allocated 43302.8 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 2953824, finding them took 2.74961 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=2953824 ... maximum alloacted 43306.7 MB
took 29.9044 sec
collective unbinding of nr=1 (2) of length=45285399 ... maximum alloacted 43306.7 MB
took 359.614 sec

the collective unbinding of remaining halos took 410.069 sec

found 8618 bound substructures in FoF group of length 45285399
determination of parent subhalo took 0.0481551 sec (presently allocated 43306.7 MB)
determining substructure properties took 377.464 sec (presently allocated 43306.7 MB)
processing of collective halos took 2009.41 sec
sort of local particles()() took 6.24127 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 1739.16 sec

Task 34: testing particles ...
Task 38: testing particles ...
unsorting of local particles()() took 5.52273 sec
Task 0: testing particles ...
Task 39: testing particles ...
Task 44: testing particles ...
Task 41: testing particles ...
Task 28: testing particles ...
Task 40: testing particles ...
Task 43: testing particles ...
Task 21: testing particles ...
Task 37: testing particles ...
Task 20: testing particles ...
Task 24: testing particles ...
Task 36: testing particles ...
Task 16: testing particles ...
Task 31: testing particles ...
Task 33: testing particles ...
Task 18: testing particles ...
Task 25: testing particles ...
Task 32: testing particles ...
Task 35: testing particles ...
Task 23: testing particles ...
Task 22: testing particles ...
Task 15: testing particles ...
Task 26: testing particles ...
Task 14: testing particles ...
Task 29: testing particles ...
Task 17: testing particles ...
Task 12: testing particles ...
Task 13: testing particles ...
Task 27: testing particles ...
Task 8: testing particles ...
Task 9: testing particles ...
Task 10: testing particles ...
Task 7: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
Task 11: testing particles ...
Task 42: testing particles ...
Task 30: testing particles ...
Task 19: testing particles ...
Task 4: testing particles ...
Task 3: testing particles ...
Task 2: testing particles ...
Task 1: testing particles ...
subfind_exchange() (for return to original CPU)  took 9.75716 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=36820.6 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.004 MB of temporary storage for domain decomposition... (presently allocated=37263 MB)
Before=34065
After=36977
NTopleaves= 32355  NTopnodes=36977 (space for 409722)
gravity work-load balance=1.01486   memory-balance=1.01484   SPH work-load balance=1.01492
iter=0 exchange of 0563670794 particles (ret=0)
domain decomposition done. (took 26.9347 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0629 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000130760 particles. (took 0.084548 sec)
SO iteration 2: need to repeat for 0000130760 particles. (took 0.078748 sec)
SO iteration 3: need to repeat for 0000130760 particles. (took 0.0773249 sec)
SO iteration 4: need to repeat for 0000130760 particles. (took 0.0786648 sec)
SO iteration 5: need to repeat for 0000130760 particles. (took 0.0790319 sec)
SO iteration 6: need to repeat for 0000130760 particles. (took 0.078994 sec)
SO iteration 7: need to repeat for 0000130760 particles. (took 0.07885 sec)
SO iteration 8: need to repeat for 0000130760 particles. (took 0.0788829 sec)
SO iteration 9: need to repeat for 0000130760 particles. (took 0.0788069 sec)
SO iteration 10: need to repeat for 0000130760 particles. (took 0.0787082 sec)
SO iteration 11: need to repeat for 0000130760 particles. (took 0.0788519 sec)
SO iteration 12: need to repeat for 0000130760 particles. (took 0.078809 sec)
SO iteration 13: need to repeat for 0000130760 particles. (took 0.0787649 sec)
SO iteration 14: need to repeat for 0000130760 particles. (took 0.0787411 sec)
SO iteration 15: need to repeat for 0000128524 particles. (took 0.0787489 sec)
SO iteration 16: need to repeat for 0000000465 particles. (took 0.0754941 sec)
SO iteration 17: need to repeat for 0000000039 particles. (took 0.00205994 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000224113 sec)
SO iteration 1: need to repeat for 0000130760 particles. (took 0.0803289 sec)
SO iteration 2: need to repeat for 0000130760 particles. (took 0.0590498 sec)
SO iteration 3: need to repeat for 0000130760 particles. (took 0.0654831 sec)
SO iteration 4: need to repeat for 0000130760 particles. (took 0.0612619 sec)
SO iteration 5: need to repeat for 0000130760 particles. (took 0.0619881 sec)
SO iteration 6: need to repeat for 0000130760 particles. (took 0.0626318 sec)
SO iteration 7: need to repeat for 0000130760 particles. (took 0.062355 sec)
SO iteration 8: need to repeat for 0000130760 particles. (took 0.0623119 sec)
SO iteration 9: need to repeat for 0000130760 particles. (took 0.0623569 sec)
SO iteration 10: need to repeat for 0000130760 particles. (took 0.0623169 sec)
SO iteration 11: need to repeat for 0000130760 particles. (took 0.0622809 sec)
SO iteration 12: need to repeat for 0000130760 particles. (took 0.0623651 sec)
SO iteration 13: need to repeat for 0000130760 particles. (took 0.062345 sec)
SO iteration 14: need to repeat for 0000130760 particles. (took 0.0622969 sec)
SO iteration 15: need to repeat for 0000129881 particles. (took 0.0623682 sec)
SO iteration 16: need to repeat for 0000015011 particles. (took 0.0613921 sec)
SO iteration 17: need to repeat for 0000000250 particles. (took 0.010488 sec)
SO iteration 18: need to repeat for 0000000030 particles. (took 0.00068593 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000141144 sec)
SO iteration 1: need to repeat for 0000130760 particles. (took 0.0801249 sec)
SO iteration 2: need to repeat for 0000130760 particles. (took 0.0581889 sec)
SO iteration 3: need to repeat for 0000130760 particles. (took 0.048624 sec)
SO iteration 4: need to repeat for 0000130760 particles. (took 0.0527101 sec)
SO iteration 5: need to repeat for 0000130760 particles. (took 0.0505741 sec)
SO iteration 6: need to repeat for 0000130760 particles. (took 0.050725 sec)
SO iteration 7: need to repeat for 0000130760 particles. (took 0.05088 sec)
SO iteration 8: need to repeat for 0000130760 particles. (took 0.050905 sec)
SO iteration 9: need to repeat for 0000130760 particles. (took 0.0508361 sec)
SO iteration 10: need to repeat for 0000130760 particles. (took 0.050884 sec)
SO iteration 11: need to repeat for 0000130760 particles. (took 0.050843 sec)
SO iteration 12: need to repeat for 0000130760 particles. (took 0.0508759 sec)
SO iteration 13: need to repeat for 0000130760 particles. (took 0.0508161 sec)
SO iteration 14: need to repeat for 0000130760 particles. (took 0.050885 sec)
SO iteration 15: need to repeat for 0000130728 particles. (took 0.050909 sec)
SO iteration 16: need to repeat for 0000129384 particles. (took 0.0508351 sec)
SO iteration 17: need to repeat for 0000017820 particles. (took 0.0502169 sec)
SO iteration 18: need to repeat for 0000000399 particles. (took 0.0095911 sec)
SO iteration 19: need to repeat for 0000000048 particles. (took 0.000733852 sec)
SO iteration 1: need to repeat for 0000130760 particles. (took 0.0802591 sec)
SO iteration 2: need to repeat for 0000130760 particles. (took 0.0607219 sec)
SO iteration 3: need to repeat for 0000130760 particles. (took 0.066968 sec)
SO iteration 4: need to repeat for 0000130760 particles. (took 0.07231 sec)
SO iteration 5: need to repeat for 0000130760 particles. (took 0.070401 sec)
SO iteration 6: need to repeat for 0000130760 particles. (took 0.0711281 sec)
SO iteration 7: need to repeat for 0000130760 particles. (took 0.0709238 sec)
SO iteration 8: need to repeat for 0000130760 particles. (took 0.0711448 sec)
SO iteration 9: need to repeat for 0000130760 particles. (took 0.071028 sec)
SO iteration 10: need to repeat for 0000130760 particles. (took 0.0710871 sec)
SO iteration 11: need to repeat for 0000130760 particles. (took 0.071002 sec)
SO iteration 12: need to repeat for 0000130760 particles. (took 0.0709951 sec)
SO iteration 13: need to repeat for 0000130760 particles. (took 0.0710669 sec)
SO iteration 14: need to repeat for 0000130760 particles. (took 0.0710378 sec)
SO iteration 15: need to repeat for 0000128899 particles. (took 0.07108 sec)
SO iteration 16: need to repeat for 0000002023 particles. (took 0.068836 sec)
SO iteration 17: need to repeat for 0000000091 particles. (took 0.00322509 sec)
SO iteration 18: need to repeat for 0000000004 particles. (took 0.000498056 sec)
SO iteration 1: need to repeat for 0000130760 particles. (took 0.0802798 sec)
SO iteration 2: need to repeat for 0000130760 particles. (took 0.0590281 sec)
SO iteration 3: need to repeat for 0000130760 particles. (took 0.0653019 sec)
SO iteration 4: need to repeat for 0000130760 particles. (took 0.0616839 sec)
SO iteration 5: need to repeat for 0000130760 particles. (took 0.0620182 sec)
SO iteration 6: need to repeat for 0000130760 particles. (took 0.0618429 sec)
SO iteration 7: need to repeat for 0000130760 particles. (took 0.062109 sec)
SO iteration 8: need to repeat for 0000130760 particles. (took 0.0621419 sec)
SO iteration 9: need to repeat for 0000130760 particles. (took 0.062098 sec)
SO iteration 10: need to repeat for 0000130760 particles. (took 0.0621321 sec)
SO iteration 11: need to repeat for 0000130760 particles. (took 0.0622048 sec)
SO iteration 12: need to repeat for 0000130760 particles. (took 0.0622251 sec)
SO iteration 13: need to repeat for 0000130760 particles. (took 0.0621679 sec)
SO iteration 14: need to repeat for 0000130760 particles. (took 0.062176 sec)
SO iteration 15: need to repeat for 0000129971 particles. (took 0.0621791 sec)
SO iteration 16: need to repeat for 0000018721 particles. (took 0.0611799 sec)
SO iteration 17: need to repeat for 0000000284 particles. (took 0.0116279 sec)
SO iteration 18: need to repeat for 0000000034 particles. (took 0.000756025 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000139952 sec)
SO iteration 1: need to repeat for 0000130760 particles. (took 0.080296 sec)
SO iteration 2: need to repeat for 0000130760 particles. (took 0.0582621 sec)
SO iteration 3: need to repeat for 0000130760 particles. (took 0.0491731 sec)
SO iteration 4: need to repeat for 0000130760 particles. (took 0.053791 sec)
SO iteration 5: need to repeat for 0000130760 particles. (took 0.0559981 sec)
SO iteration 6: need to repeat for 0000130760 particles. (took 0.0564389 sec)
SO iteration 7: need to repeat for 0000130760 particles. (took 0.055963 sec)
SO iteration 8: need to repeat for 0000130760 particles. (took 0.0558798 sec)
SO iteration 9: need to repeat for 0000130760 particles. (took 0.0560658 sec)
SO iteration 10: need to repeat for 0000130760 particles. (took 0.0558522 sec)
SO iteration 11: need to repeat for 0000130760 particles. (took 0.055871 sec)
SO iteration 12: need to repeat for 0000130760 particles. (took 0.0559101 sec)
SO iteration 13: need to repeat for 0000130760 particles. (took 0.0559151 sec)
SO iteration 14: need to repeat for 0000130760 particles. (took 0.0557921 sec)
SO iteration 15: need to repeat for 0000130642 particles. (took 0.055814 sec)
SO iteration 16: need to repeat for 0000128928 particles. (took 0.055898 sec)
SO iteration 17: need to repeat for 0000002469 particles. (took 0.0536969 sec)
SO iteration 18: need to repeat for 0000000157 particles. (took 0.00274014 sec)
SO iteration 19: need to repeat for 0000000007 particles. (took 0.000500917 sec)
SO iteration 1: need to repeat for 0000130760 particles. (took 0.0802 sec)
SO iteration 2: need to repeat for 0000130760 particles. (took 0.0581882 sec)
SO iteration 3: need to repeat for 0000130760 particles. (took 0.0485849 sec)
SO iteration 4: need to repeat for 0000130760 particles. (took 0.041625 sec)
SO iteration 5: need to repeat for 0000130760 particles. (took 0.0459099 sec)
SO iteration 6: need to repeat for 0000130760 particles. (took 0.046401 sec)
SO iteration 7: need to repeat for 0000130760 particles. (took 0.046844 sec)
SO iteration 8: need to repeat for 0000130760 particles. (took 0.046757 sec)
SO iteration 9: need to repeat for 0000130760 particles. (took 0.0468271 sec)
SO iteration 10: need to repeat for 0000130760 particles. (took 0.046746 sec)
SO iteration 11: need to repeat for 0000130760 particles. (took 0.046828 sec)
SO iteration 12: need to repeat for 0000130760 particles. (took 0.0467069 sec)
SO iteration 13: need to repeat for 0000130760 particles. (took 0.0467758 sec)
SO iteration 14: need to repeat for 0000130760 particles. (took 0.046828 sec)
SO iteration 15: need to repeat for 0000130754 particles. (took 0.0467701 sec)
SO iteration 16: need to repeat for 0000130579 particles. (took 0.046839 sec)
SO iteration 17: need to repeat for 0000129005 particles. (took 0.0466981 sec)
SO iteration 18: need to repeat for 0000004794 particles. (took 0.04602 sec)
SO iteration 19: need to repeat for 0000000188 particles. (took 0.0029161 sec)
SO iteration 20: need to repeat for 0000000007 particles. (took 0.000463963 sec)
determining spherical overdensity masses took 7.21551 sec
finding spherical overdensity particles took 0.587974 sec
determining contamination of halos took 0.309356 sec
Global sort of Groups took 0.0491309 sec
Global sort of SubGroups took 0.112158 sec
Global sort of IDs took 2.68059 sec
Writing block 0 (GLEN), n=3694, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14776d
Writing block 1 (GOFF), n=3694, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14776d
Writing block 2 (MTOT), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 3 (GPOS), n=3694, ptype=0, dtype=1, ndim=3, bpb=4 bytes=44328d
Writing block 4 (MMEA), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 5 (RMEA), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 6 (MCRI), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 7 (RCRI), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 8 (MTOP), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 9 (RTOP), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 17 (NCON), n=3694, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14776d
Writing block 18 (MCON), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 22 (NSUB), n=3694, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14776d
Writing block 23 (FSUB), n=3694, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14776d
Writing block 24 (SLEN), n=12253, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49012d
Writing block 25 (SOFF), n=12253, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49012d
Writing block 26 (SSUB), n=12253, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49012d
Writing block 27 (MSUB), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 28 (SPOS), n=12253, ptype=1, dtype=1, ndim=3, bpb=4 bytes=147036d
Writing block 29 (SVEL), n=12253, ptype=1, dtype=1, ndim=3, bpb=4 bytes=147036d
Writing block 30 (SCM ), n=12253, ptype=1, dtype=1, ndim=3, bpb=4 bytes=147036d
Writing block 33 (VMAX), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 34 (RMAX), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 35 (RHMS), n=12253, ptype=1, dtype=1, ndim=6, bpb=4 bytes=294072d
Writing block 36 (MTRH), n=12253, ptype=1, dtype=1, ndim=6, bpb=4 bytes=294072d
Writing block 37 (MBID), n=12253, ptype=1, dtype=2, ndim=1, bpb=8 bytes=98024d
Writing block 38 (GRNR), n=12253, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49012d
Writing block 39 (SUBN), n=12253, ptype=1, dtype=0, ndim=1, bpb=4 bytes=49012d
Writing block 40 (SMST), n=12253, ptype=1, dtype=1, ndim=6, bpb=4 bytes=294072d
Writing block 53 (PID ), n=5398174, ptype=2, dtype=2, ndim=1, bpb=8 bytes=43185392d
Writing block 54 (SLEN), n=12253, ptype=1, dtype=0, ndim=6, bpb=4 bytes=294072d
Writing block 55 (STEN), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 56 (SKEN), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 57 (SUEN), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 58 (SUIT), n=12253, ptype=1, dtype=1, ndim=9, bpb=4 bytes=441108d
Writing block 59 (BHMA), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 60 (BHMD), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 61 (SVD ), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 62 (SVDH), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 63 (HMPR), n=12253, ptype=1, dtype=1, ndim=6, bpb=4 bytes=294072d
Writing block 64 (SSFR), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 65 (SSA ), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 66 (SSBZ), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 67 (SSIM), n=12253, ptype=1, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 68 (SSPI), n=12253, ptype=4, dtype=1, ndim=3, bpb=4 bytes=147036d
Writing block 69 (GSPI), n=12253, ptype=1, dtype=1, ndim=3, bpb=4 bytes=147036d
Writing block 70 (FSPI), n=12253, ptype=5, dtype=1, ndim=3, bpb=4 bytes=147036d
Writing block 71 (SFM ), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 72 (SFMT), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 73 (SFME), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 74 (SFAE), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 75 (SFKE), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 76 (SFTE), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 77 (SMWP), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 78 (SMM ), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 79 (SMMS), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 80 (SFZ ), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 81 (SFZS), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 82 (SSIA), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 83 (SIAS), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 84 (SMET), n=12253, ptype=5, dtype=1, ndim=9, bpb=4 bytes=441108d
Writing block 85 (SMTS), n=12253, ptype=5, dtype=1, ndim=9, bpb=4 bytes=441108d
Writing block 86 (MF1 ), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 87 (MeF1), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 88 (MF  ), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 89 (MeF2), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 90 (MFA ), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 91 (MeFA), n=12253, ptype=5, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 92 (NSPI), n=12253, ptype=6, dtype=1, ndim=3, bpb=4 bytes=147036d
Writing block 93 (NFM ), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 94 (NFMT), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 95 (NFME), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 96 (NFAE), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 97 (NFKE), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 98 (NFTE), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 99 (SMWP), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 100 (SMM ), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 101 (SMMS), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 102 (SSIA), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 103 (SIAS), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 104 (SMET), n=12253, ptype=6, dtype=1, ndim=9, bpb=4 bytes=441108d
Writing block 105 (SMTS), n=12253, ptype=6, dtype=1, ndim=9, bpb=4 bytes=441108d
Writing block 106 (MF1 ), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 107 (MeF1), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 108 (MF2 ), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 109 (MeF2), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 110 (MFA ), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 111 (MeFA), n=12253, ptype=6, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 112 (SM  ), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 113 (SFKE), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 114 (SFAE), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 115 (SMWP), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 116 (SMM ), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 117 (SMMS), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 118 (SSIA), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 119 (SIAS), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 120 (SMET), n=12253, ptype=4, dtype=1, ndim=9, bpb=4 bytes=441108d
Writing block 121 (SMTS), n=12253, ptype=4, dtype=1, ndim=9, bpb=4 bytes=441108d
Writing block 122 (MF1 ), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 123 (MeF1), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 124 (MF2 ), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 125 (MeF2), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 126 (MFA ), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 127 (MeFA), n=12253, ptype=4, dtype=1, ndim=1, bpb=4 bytes=49012d
Writing block 128 (MMe5), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 129 (RMe5), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 130 (MCr5), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 131 (RCr5), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 132 (MMe2), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 133 (RMe2), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 134 (MCr2), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 135 (RCr2), n=3694, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14776d
Writing block 136 (MAPT), n=12253, ptype=7, dtype=1, ndim=60, bpb=4 bytes=2940720d
Writing block 137 (SAPT), n=12253, ptype=8, dtype=1, ndim=10, bpb=4 bytes=490120d
Writing block 138 (VAPT), n=12253, ptype=9, dtype=1, ndim=10, bpb=4 bytes=490120d
Writing block 139 (BEGY), n=5398174, ptype=2, dtype=1, ndim=1, bpb=4 bytes=21592696d
Subgroup catalogues saved. took = 10.0231 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 2.567809e+00
 eagle_ph_key_ort: type= 1 timed by volker 2.937992e+00
 eagle_ph_key_ort: type= 2 timed by volker 1.646430e-01
 eagle_ph_key_ort: type= 3 timed by volker 5.246902e-02
 eagle_ph_key_ort: type= 4 timed by volker 1.701710e-01
 eagle_ph_key_ort: type= 5 timed by volker 3.063607e-02
 eagle_ph_key_ort: timing parallel sort = 6.570932e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19802829608

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 37114.6 Mbyte (on task=0), Smallest = 32185.5 Mbyte, Average = 32436.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3704     246.1118  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3704     441.4822  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3704     636.8525  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6313   16266.4839  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11561.3844   27827.8683  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2723.6016   30551.4699  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.6223   30845.0922  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8028   30846.9169  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    294.1832   31141.1002  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    490.3054   31631.4056  fof_fof()/fof.c/337
   0 2978 0             Group      4.3133   31635.7189  fof_fof()/fof.c/380
   0 2979 0          SubGroup   5184.9139   36820.6328  subfind()/subfind.c/376
   0 2980 0   sort_index_data    293.9172   37114.5500  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 160, max_elements= 206256 number of bytes = 33000960
 eagle_ph_key_ort: timing parallel P exchange = 2.735208e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19802829608
 eagle_fetch_elements: max_bytes= 248, max_elements= 1247847 number of bytes = 309466056
 eagle_ph_key_ort: timing parallel SphP exchange = 1.486971e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19802829608
 eagle_fetch_elements: max_bytes= 384, max_elements= 2499668 number of bytes = 959872512
 eagle_ph_key_ort: timing parallel MetP exchange = 9.790981e-01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 19802829608
 eagle_fetch_elements: max_bytes= 256, max_elements= 4097823 number of bytes = 1049042688
 eagle_ph_key_ort: timing parallel BHP exchange = 1.512384e-02
Sorting particle-data by peano-hilbert key took = 52.3571 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 160, max_elements= 206256 number of bytes= 33000960
 eagle_ph_restore: timing parallel P exchange = 3.174978e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 252, max_elements= 1181189 number of bytes= 297659628
 eagle_ph_restore: timing parallel SphP exchange = 1.505347e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2499668 number of bytes= 959872512
 eagle_ph_restore: timing parallel MetP exchange = 8.540730e-01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4097823 number of bytes= 1049042688
 eagle_ph_restore: timing parallel BHP exchange = 1.780891e-02
Restoring original order after ph key sorting took = 47.8112 sec

finished writing particle file...

Finished with SUBFIND.  (total time=5273.6 sec)

Finished computing FoF groups.  (presently allocated=30846.9 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30845.1 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.004 MB of temporary storage for domain decomposition... (presently allocated=31287.4 MB)
Before=33105
After=36353
NTopleaves= 31809  NTopnodes=36353 (space for 409722)
gravity work-load balance=1.01293   memory-balance=1.01291   SPH work-load balance=1.01618
iter=0 exchange of 0562790769 particles (ret=0)
domain decomposition done. (took 27.4499 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0915 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 5: endrun called with an error level of 124


Finished FOF, total time doing fof/subfind = 5502.93 s
task 36: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 43:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 19: endrun called with an error level of 124


task 39: endrun called with an error level of 124


task 42: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 8: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 20: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
 An HDF5 error was detected, we'd better stop.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 27: endrun called with an error level of 124


task 31: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
task 43: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 19:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12)  An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
task 22: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
task 33: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
task 5: endrun called with an error level of 124


task 30: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 27:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
 An HDF5 error was detected, we'd better stop.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
task 11: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
task 19: endrun called with an error level of 124


task 39: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
task 8: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 27: endrun called with an error level of 124


task 31: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 16: endrun called with an error level of 124


task 0: endrun called with an error level of 124


task 36: endrun called with an error level of 124


task 43: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 19:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
task 42: endrun called with an error level of 124


task 22: endrun called with an error level of 124


    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
task 33: endrun called with an error level of 124


task 20: endrun called with an error level of 124


task 30: endrun called with an error level of 124


HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 27:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
task 11: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
    major: Error API
    minor: Can't get value
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 43:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63092.01 Mb (on task=14), Smallest =   62880.79 Mb (on task=0), Average =   63038.53 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=11), Smallest =   64531.71 Mb (on task=14), Average =   64532.01 Mb
Committed_AS:	 Largest =    1651.20 Mb (on task=0), Smallest =    1439.70 Mb (on task=14), Average =    1493.48 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=2), Smallest =   16266.02 Mb (on task=6), Average =   16309.96 Mb
AllocMem:	 Largest =    1651.20 Mb (on task=0), Smallest =    1439.70 Mb (on task=14), Average =    1493.48 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 45 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N1':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         56000
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 16264.6 MByte for particle storage.

Allocated 11567.8 MByte for storage of SPH data.

Allocated 2719.95 MByte for storage of MET data.

Allocated 293.786 MByte for storage of BH data.


reading file `data//snapshot_024_z000p155/snap_024_z000p155.0.hdf5' on task=0 (contains 36486352 particles.)
distributing this file to tasks 0-4
Type 0 (gas):   16983128  (tot=     0270753391) masstab=0
Type 1 (halo):  18006845  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14542  (tot=     0000254233) masstab=0
Type 3 (bulge):   452491  (tot=     0002602064) masstab=0
Type 4 (stars):  1027319  (tot=     0015868421) masstab=0
Type 5 (bndry):     2027  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.9.hdf5' on task=30 (contains 35904824 particles.)
distributing this file to tasks 30-30
Type 0 (gas):   16800776  (tot=     0270753391) masstab=0
Type 1 (halo):  18003401  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12714  (tot=     0000254233) masstab=0
Type 3 (bulge):    69639  (tot=     0002602064) masstab=0
Type 4 (stars):  1016182  (tot=     0015868421) masstab=0
Type 5 (bndry):     2112  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.1.hdf5' on task=5 (contains 36008056 particles.)
distributing this file to tasks 5-7
Type 0 (gas):   16918929  (tot=     0270753391) masstab=0
Type 1 (halo):  17821006  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14517  (tot=     0000254233) masstab=0
Type 3 (bulge):   209998  (tot=     0002602064) masstab=0
Type 4 (stars):  1041641  (tot=     0015868421) masstab=0
Type 5 (bndry):     1965  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.11.hdf5' on task=33 (contains 35983249 particles.)
distributing this file to tasks 33-35
Type 0 (gas):   16952540  (tot=     0270753391) masstab=0
Type 1 (halo):  17871189  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     22693  (tot=     0000254233) masstab=0
Type 3 (bulge):   173718  (tot=     0002602064) masstab=0
Type 4 (stars):   961100  (tot=     0015868421) masstab=0
Type 5 (bndry):     2009  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.14.hdf5' on task=42 (contains 35887405 particles.)
distributing this file to tasks 42-42
Type 0 (gas):   16912357  (tot=     0270753391) masstab=0
Type 1 (halo):  17806863  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15553  (tot=     0000254233) masstab=0
Type 3 (bulge):   133184  (tot=     0002602064) masstab=0
Type 4 (stars):  1017458  (tot=     0015868421) masstab=0
Type 5 (bndry):     1990  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.7.hdf5' on task=22 (contains 36061326 particles.)
distributing this file to tasks 22-26
Type 0 (gas):   16916617  (tot=     0270753391) masstab=0
Type 1 (halo):  17946122  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12133  (tot=     0000254233) masstab=0
Type 3 (bulge):   143017  (tot=     0002602064) masstab=0
Type 4 (stars):  1041442  (tot=     0015868421) masstab=0
Type 5 (bndry):     1995  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.3.hdf5' on task=11 (contains 35921106 particles.)
distributing this file to tasks 11-15
Type 0 (gas):   16948385  (tot=     0270753391) masstab=0
Type 1 (halo):  17729605  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     25433  (tot=     0000254233) masstab=0
Type 3 (bulge):   164481  (tot=     0002602064) masstab=0
Type 4 (stars):  1051197  (tot=     0015868421) masstab=0
Type 5 (bndry):     2005  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.5.hdf5' on task=19 (contains 36090664 particles.)
distributing this file to tasks 19-19
Type 0 (gas):   16854857  (tot=     0270753391) masstab=0
Type 1 (halo):  18136048  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10406  (tot=     0000254233) masstab=0
Type 3 (bulge):    87851  (tot=     0002602064) masstab=0
Type 4 (stars):   999496  (tot=     0015868421) masstab=0
Type 5 (bndry):     2006  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.8.hdf5' on task=27 (contains 35987592 particles.)
distributing this file to tasks 27-29
Type 0 (gas):   16977571  (tot=     0270753391) masstab=0
Type 1 (halo):  17863387  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      6297  (tot=     0000254233) masstab=0
Type 3 (bulge):   212579  (tot=     0002602064) masstab=0
Type 4 (stars):   925797  (tot=     0015868421) masstab=0
Type 5 (bndry):     1961  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.15.hdf5' on task=43 (contains 36152760 particles.)
distributing this file to tasks 43-44
Type 0 (gas):   16945550  (tot=     0270753391) masstab=0
Type 1 (halo):  18140368  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19867  (tot=     0000254233) masstab=0
Type 3 (bulge):   153856  (tot=     0002602064) masstab=0
Type 4 (stars):   891079  (tot=     0015868421) masstab=0
Type 5 (bndry):     2040  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.6.hdf5' on task=20 (contains 35914756 particles.)
distributing this file to tasks 20-21
Type 0 (gas):   16918915  (tot=     0270753391) masstab=0
Type 1 (halo):  17961288  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11905  (tot=     0000254233) masstab=0
Type 3 (bulge):     3556  (tot=     0002602064) masstab=0
Type 4 (stars):  1017036  (tot=     0015868421) masstab=0
Type 5 (bndry):     2056  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.13.hdf5' on task=39 (contains 35864629 particles.)
distributing this file to tasks 39-41
Type 0 (gas):   16849278  (tot=     0270753391) masstab=0
Type 1 (halo):  17829021  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11325  (tot=     0000254233) masstab=0
Type 3 (bulge):    85513  (tot=     0002602064) masstab=0
Type 4 (stars):  1087534  (tot=     0015868421) masstab=0
Type 5 (bndry):     1958  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.2.hdf5' on task=8 (contains 36034467 particles.)
distributing this file to tasks 8-10
Type 0 (gas):   16925100  (tot=     0270753391) masstab=0
Type 1 (halo):  17920346  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8615  (tot=     0000254233) masstab=0
Type 3 (bulge):   150781  (tot=     0002602064) masstab=0
Type 4 (stars):  1027618  (tot=     0015868421) masstab=0
Type 5 (bndry):     2007  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.10.hdf5' on task=31 (contains 35888936 particles.)
distributing this file to tasks 31-32
Type 0 (gas):   16995753  (tot=     0270753391) masstab=0
Type 1 (halo):  17895153  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12539  (tot=     0000254233) masstab=0
Type 3 (bulge):    84293  (tot=     0002602064) masstab=0
Type 4 (stars):   899230  (tot=     0015868421) masstab=0
Type 5 (bndry):     1968  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.12.hdf5' on task=36 (contains 36221470 particles.)
distributing this file to tasks 36-38
Type 0 (gas):   16910783  (tot=     0270753391) masstab=0
Type 1 (halo):  17988659  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     30586  (tot=     0000254233) masstab=0
Type 3 (bulge):   428061  (tot=     0002602064) masstab=0
Type 4 (stars):   861404  (tot=     0015868421) masstab=0
Type 5 (bndry):     1977  (tot=     0000032043) masstab=0


reading file `data//snapshot_024_z000p155/snap_024_z000p155.4.hdf5' on task=16 (contains 35763290 particles.)
distributing this file to tasks 16-18
Type 0 (gas):   16942852  (tot=     0270753391) masstab=0
Type 1 (halo):  17741429  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     25108  (tot=     0000254233) masstab=0
Type 3 (bulge):    49046  (tot=     0002602064) masstab=0
Type 4 (stars):  1002888  (tot=     0015868421) masstab=0
Type 5 (bndry):     1967  (tot=     0000032043) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576170882


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= 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=14.7949 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30848.1 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.004 MB of temporary storage for domain decomposition... (presently allocated=31290.4 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 31290.4 Mbyte (on task=1), Smallest = 31290.4 Mbyte, Average = 31290.4 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle    195.3704     246.1129  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin    195.3704     441.4833  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin    195.3704     636.8537  allocate_memory()/allocate.c/61
   1 2969 0                 P  15629.6350   16266.4888  allocate_memory()/allocate.c/67
   1 2970 0              SphP  11567.8328   27834.3216  allocate_memory()/allocate.c/85
   1 2971 0              MetP   2719.9460   30554.2676  allocate_memory()/allocate.c/105
   1 2972 0               BHP    293.7861   30848.0538  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes     20.3186   30868.3943  domain_allocate()/domain.c/570
   1 2976 0        domain_key    390.7409   31259.1352  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      1.5630   31260.7002  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      1.5630   31262.2632  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      1.5630   31263.8261  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      1.5630   31265.3891  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      1.5630   31266.9528  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      1.5630   31268.5164  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes     21.8815   31290.3980  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=33841
After=35393
NTopleaves= 30969  NTopnodes=35393 (space for 409722)
gravity work-load balance=1.01144   memory-balance=1.01143   SPH work-load balance=1.00755
iter=0 exchange of 0566174365 particles (ret=0)
domain decomposition done. (took 61.9521 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.1354 MByte in top-level domain structure

Allocated 6414.23 MByte for BH-tree, and 0.118137 Mbyte for top-leaves.  (presently allocted 37264.2 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
Ngb-Tree contruction finished 
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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 38012.3 Mbyte (on task=11), Smallest = 37832.5 Mbyte, Average = 37908.4 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  11 2965 0     ProcessedFlag     48.8426      50.7424  allocate_memory()/allocate.c/52
  11 2966 0  NextActiveParticle    195.3704     246.1129  allocate_memory()/allocate.c/55
  11 2967 0     NextInTimeBin    195.3704     441.4833  allocate_memory()/allocate.c/58
  11 2968 0     PrevInTimeBin    195.3704     636.8537  allocate_memory()/allocate.c/61
  11 2969 0                 P  15629.6350   16266.4888  allocate_memory()/allocate.c/67
  11 2970 0              SphP  11567.8328   27834.3216  allocate_memory()/allocate.c/85
  11 2971 0              MetP   2719.9460   30554.2676  allocate_memory()/allocate.c/105
  11 2972 0               BHP    293.7861   30848.0538  allocate_memory()/allocate.c/126
  11 2975 0          TopNodes      1.7552   30849.8309  domain_allocate()/domain.c/570
  11 2976 0   DomainNodeIndex      0.1181   30849.9491  force_treeallocate()/forcetree.c/4800
  11 2977 0        Nodes_base   3285.4637   34135.4128  force_treeallocate()/forcetree.c/4803
  11 2978 0     Extnodes_base   2737.8864   36873.2992  force_treeallocate()/forcetree.c/4811
  11 2979 0          Nextnode    195.5055   37068.8046  force_treeallocate()/forcetree.c/4820
  11 2980 0            Father    195.3704   37264.1751  force_treeallocate()/forcetree.c/4827
  11 2981 0           Ngblist     48.5360   37312.7110  density()/density.c/690
  11 2982 0              Left     97.0719   37409.7830  density()/density.c/692
  11 2983 0             Right     97.0719   37506.8549  density()/density.c/693
  11 2984 0    DataIndexTable      7.0175   37513.8724  density()/density.c/738
  11 2985 0      DataNodeList     18.7134   37532.5858  density()/density.c/740
  11 2986 0       DensDataGet    148.4026   37680.9885  density()/density.c/893
  11 2987 0    DensDataResult    195.6217   37876.6102  density()/density.c/931
  11 2988 0       DensDataOut    135.6722   38012.2824  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0002065627 particles.
ngb iteration 2: need to repeat for 0000000451 particles.
ngb iteration 3: need to repeat for 0000000189 particles.
ngb iteration 4: need to repeat for 0000000160 particles.
ngb iteration 5: need to repeat for 0000000036 particles.
ngb iteration 6: need to repeat for 0000000025 particles.
ngb iteration 7: need to repeat for 0000000015 particles.
ngb iteration 8: need to repeat for 0000000005 particles.
ngb iteration 9: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.101.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.155.hdf5

Begin to compute FoF group catalogues...  (presently allocated=37264.2 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30848.1 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.004 MB of temporary storage for domain decomposition... (presently allocated=31290.4 MB)
Before=33105
After=36569
NTopleaves= 31998  NTopnodes=36569 (space for 409722)
gravity work-load balance=1.01131   memory-balance=1.01133   SPH work-load balance=1.00854
iter=0 exchange of 0566377668 particles (ret=0)
domain decomposition done. (took 26.9513 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0816 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=30849.9 MB)
Tree construction.

Start linking particles (presently allocated=37850.3 MB)
links on local processor done (took 47.0627 sec).
Marked=0028789994 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=38119.7 MB) 
have done 0000469729 cross links (processed 0028789994, took 9.20792 sec)
have done 0000197103 cross links (processed 0021510257, took 8.57748 sec)
have done 0000136572 cross links (processed 0017810203, took 7.87699 sec)
have done 0000081317 cross links (processed 0010380630, took 7.95759 sec)
have done 0000049904 cross links (processed 0006734052, took 6.99059 sec)
have done 0000029844 cross links (processed 0004635854, took 7.03789 sec)
have done 0000013062 cross links (processed 0000544453, took 1.11211 sec)
have done 0000003839 cross links (processed 0000098585, took 0.443392 sec)
have done 0000001582 cross links (processed 0000089037, took 0.414732 sec)
have done 0000001326 cross links (processed 0000169728, took 0.738594 sec)
have done 0000000665 cross links (processed 0000017337, took 0.1715 sec)
have done 0000000201 cross links (processed 0000004462, took 0.165842 sec)
have done 0000000072 cross links (processed 0000000837, took 0.163891 sec)
have done 0000000019 cross links (processed 0000000248, took 0.164164 sec)
have done 0000000006 cross links (processed 0000000060, took 0.163661 sec)
have done 0000000002 cross links (processed 0000000014, took 0.163848 sec)
have done 0000000000 cross links (processed 0000000004, took 0.163959 sec)
Local groups found.

group finding took = 99.0384 sec
Start finding nearest dm-particle (presently allocated=37850.3 MB)
still finding nearest... (presently allocated=38083.3 MB)
fof-nearest iteration 1: need to repeat for 258238031 particles.
still finding nearest... (presently allocated=38088.7 MB)
fof-nearest iteration 2: need to repeat for 246485651 particles.
still finding nearest... (presently allocated=38099.9 MB)
fof-nearest iteration 3: need to repeat for 223438117 particles.
still finding nearest... (presently allocated=38113.7 MB)
fof-nearest iteration 4: need to repeat for 182000728 particles.
still finding nearest... (presently allocated=38122.5 MB)
fof-nearest iteration 5: need to repeat for 125298192 particles.
still finding nearest... (presently allocated=38131.9 MB)
fof-nearest iteration 6: need to repeat for 60488646 particles.
still finding nearest... (presently allocated=38119.3 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 47.8224 sec
compiling local group data and catalogue took = 5.9003 sec

Total number of groups with at least 32 particles: 167424
Largest group has 40400655 particles.
Total number of particles in groups: 0209534616

group properties are now allocated.. (presently allocated=31635.5 MB)
computation of group properties took = 0.859342 sec
start global sorting of group catalogues number 24
LargestGroup = 16420.425312; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.268716 sec
Group catalogues globally sorted. took = 4.30482 sec
starting saving of group catalogue number 24
data//groups_024_z000p155
Group catalogues number 24 saved. took = 3.46117 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (270753391).
tree build for species 0 took 3.32822 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0159923261 particles. (took 91.2854 sec)
ngb iteration 2: need to repeat for 0097142553 particles. (took 53.1864 sec)
ngb iteration 3: need to repeat for 0081727426 particles. (took 27.6502 sec)
ngb iteration 4: need to repeat for 0074108514 particles. (took 21.0316 sec)
ngb iteration 5: need to repeat for 0065917169 particles. (took 18.3477 sec)
ngb iteration 6: need to repeat for 0053945485 particles. (took 15.5137 sec)
ngb iteration 7: need to repeat for 0039133860 particles. (took 12.7915 sec)
ngb iteration 8: need to repeat for 0025290150 particles. (took 9.4882 sec)
ngb iteration 9: need to repeat for 0014975248 particles. (took 6.38659 sec)
ngb iteration 10: need to repeat for 0008358479 particles. (took 4.04794 sec)
ngb iteration 11: need to repeat for 0004496623 particles. (took 2.51412 sec)
ngb iteration 12: need to repeat for 0002365946 particles. (took 1.59026 sec)
ngb iteration 13: need to repeat for 0001230012 particles. (took 1.04477 sec)
ngb iteration 14: need to repeat for 0000569224 particles. (took 0.718633 sec)
ngb iteration 15: need to repeat for 0000161691 particles. (took 0.495014 sec)
ngb iteration 16: need to repeat for 0000051771 particles. (took 0.316405 sec)
ngb iteration 17: need to repeat for 0000021124 particles. (took 0.261031 sec)
ngb iteration 18: need to repeat for 0000011144 particles. (took 0.246291 sec)
ngb iteration 19: need to repeat for 0000006926 particles. (took 0.241754 sec)
ngb iteration 20: need to repeat for 0000004680 particles. (took 0.240748 sec)
ngb iteration 21: need to repeat for 0000003317 particles. (took 0.239333 sec)
ngb iteration 22: need to repeat for 0000002399 particles. (took 0.239097 sec)
ngb iteration 23: need to repeat for 0000001815 particles. (took 0.238961 sec)
ngb iteration 24: need to repeat for 0000001416 particles. (took 0.239067 sec)
ngb iteration 25: need to repeat for 0000001105 particles. (took 0.238709 sec)
ngb iteration 26: need to repeat for 0000000850 particles. (took 0.238396 sec)
ngb iteration 27: need to repeat for 0000000605 particles. (took 0.238403 sec)
ngb iteration 28: need to repeat for 0000000392 particles. (took 0.238681 sec)
ngb iteration 29: need to repeat for 0000000254 particles. (took 0.238461 sec)
ngb iteration 30: need to repeat for 0000000159 particles. (took 0.238506 sec)
ngb iteration 31: need to repeat for 0000000097 particles. (took 0.238372 sec)
ngb iteration 32: need to repeat for 0000000055 particles. (took 0.23838 sec)
ngb iteration 33: need to repeat for 0000000027 particles. (took 0.238808 sec)
ngb iteration 34: need to repeat for 0000000013 particles. (took 0.238214 sec)
ngb iteration 35: need to repeat for 0000000007 particles. (took 0.238291 sec)
ngb iteration 36: need to repeat for 0000000004 particles. (took 0.238226 sec)
final operations ... 
density and smoothing length for species 0 took 273.337 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.52243 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0165662715 particles. (took 139.353 sec)
ngb iteration 2: need to repeat for 0101965197 particles. (took 53.3612 sec)
ngb iteration 3: need to repeat for 0078529543 particles. (took 30.0924 sec)
ngb iteration 4: need to repeat for 0067593043 particles. (took 20.139 sec)
ngb iteration 5: need to repeat for 0059328780 particles. (took 16.0656 sec)
ngb iteration 6: need to repeat for 0049228033 particles. (took 13.6172 sec)
ngb iteration 7: need to repeat for 0037113064 particles. (took 11.2778 sec)
ngb iteration 8: need to repeat for 0025431399 particles. (took 8.76642 sec)
ngb iteration 9: need to repeat for 0016161909 particles. (took 6.25426 sec)
ngb iteration 10: need to repeat for 0009751550 particles. (took 4.16401 sec)
ngb iteration 11: need to repeat for 0005699401 particles. (took 2.74568 sec)
ngb iteration 12: need to repeat for 0003273138 particles. (took 1.82524 sec)
ngb iteration 13: need to repeat for 0001870839 particles. (took 1.23825 sec)
ngb iteration 14: need to repeat for 0001016418 particles. (took 0.872607 sec)
ngb iteration 15: need to repeat for 0000478915 particles. (took 0.614153 sec)
ngb iteration 16: need to repeat for 0000247468 particles. (took 0.415053 sec)
ngb iteration 17: need to repeat for 0000135557 particles. (took 0.322677 sec)
ngb iteration 18: need to repeat for 0000076756 particles. (took 0.283797 sec)
ngb iteration 19: need to repeat for 0000043628 particles. (took 0.265281 sec)
ngb iteration 20: need to repeat for 0000024280 particles. (took 0.256367 sec)
ngb iteration 21: need to repeat for 0000013241 particles. (took 0.251087 sec)
ngb iteration 22: need to repeat for 0000006941 particles. (took 0.248276 sec)
ngb iteration 23: need to repeat for 0000003596 particles. (took 0.246893 sec)
ngb iteration 24: need to repeat for 0000001743 particles. (took 0.245997 sec)
ngb iteration 25: need to repeat for 0000000790 particles. (took 0.244969 sec)
ngb iteration 26: need to repeat for 0000000348 particles. (took 0.244457 sec)
ngb iteration 27: need to repeat for 0000000162 particles. (took 0.24451 sec)
ngb iteration 28: need to repeat for 0000000073 particles. (took 0.244581 sec)
ngb iteration 29: need to repeat for 0000000023 particles. (took 0.243854 sec)
ngb iteration 30: need to repeat for 0000000009 particles. (took 0.243972 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.243788 sec)
final operations ... 
density and smoothing length for species 1 took 316.773 sec
Tree construction for species 4 (15868421).
tree build for species 4 took 0.56143 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0008952828 particles. (took 21.04 sec)
ngb iteration 2: need to repeat for 0006200308 particles. (took 6.49887 sec)
ngb iteration 3: need to repeat for 0004465538 particles. (took 3.97814 sec)
ngb iteration 4: need to repeat for 0003515212 particles. (took 2.68734 sec)
ngb iteration 5: need to repeat for 0002924651 particles. (took 2.07283 sec)
ngb iteration 6: need to repeat for 0002449137 particles. (took 1.74194 sec)
ngb iteration 7: need to repeat for 0001990375 particles. (took 1.53367 sec)
ngb iteration 8: need to repeat for 0001555884 particles. (took 1.35045 sec)
ngb iteration 9: need to repeat for 0001178596 particles. (took 1.1299 sec)
ngb iteration 10: need to repeat for 0000870940 particles. (took 0.981815 sec)
ngb iteration 11: need to repeat for 0000637429 particles. (took 0.860489 sec)
ngb iteration 12: need to repeat for 0000462097 particles. (took 0.707738 sec)
ngb iteration 13: need to repeat for 0000333752 particles. (took 0.559297 sec)
ngb iteration 14: need to repeat for 0000237652 particles. (took 0.469629 sec)
ngb iteration 15: need to repeat for 0000166937 particles. (took 0.428001 sec)
ngb iteration 16: need to repeat for 0000116244 particles. (took 0.394981 sec)
ngb iteration 17: need to repeat for 0000080880 particles. (took 0.382248 sec)
ngb iteration 18: need to repeat for 0000057634 particles. (took 0.362883 sec)
ngb iteration 19: need to repeat for 0000041368 particles. (took 0.351948 sec)
ngb iteration 20: need to repeat for 0000029813 particles. (took 0.342133 sec)
ngb iteration 21: need to repeat for 0000021245 particles. (took 0.334304 sec)
ngb iteration 22: need to repeat for 0000015389 particles. (took 0.329125 sec)
ngb iteration 23: need to repeat for 0000011495 particles. (took 0.325056 sec)
ngb iteration 24: need to repeat for 0000008771 particles. (took 0.323032 sec)
ngb iteration 25: need to repeat for 0000006698 particles. (took 0.322572 sec)
ngb iteration 26: need to repeat for 0000005222 particles. (took 0.321391 sec)
ngb iteration 27: need to repeat for 0000004017 particles. (took 0.321076 sec)
ngb iteration 28: need to repeat for 0000003086 particles. (took 0.321312 sec)
ngb iteration 29: need to repeat for 0000002358 particles. (took 0.320865 sec)
ngb iteration 30: need to repeat for 0000001730 particles. (took 0.321078 sec)
ngb iteration 31: need to repeat for 0000001240 particles. (took 0.321025 sec)
ngb iteration 32: need to repeat for 0000000815 particles. (took 0.320371 sec)
ngb iteration 33: need to repeat for 0000000532 particles. (took 0.320376 sec)
ngb iteration 34: need to repeat for 0000000358 particles. (took 0.320169 sec)
ngb iteration 35: need to repeat for 0000000211 particles. (took 0.320116 sec)
ngb iteration 36: need to repeat for 0000000125 particles. (took 0.319915 sec)
ngb iteration 37: need to repeat for 0000000071 particles. (took 0.320067 sec)
ngb iteration 38: need to repeat for 0000000045 particles. (took 0.320446 sec)
ngb iteration 39: need to repeat for 0000000021 particles. (took 0.319983 sec)
ngb iteration 40: need to repeat for 0000000014 particles. (took 0.320391 sec)
ngb iteration 41: need to repeat for 0000000005 particles. (took 0.320411 sec)
ngb iteration 42: need to repeat for 0000000001 particles. (took 0.319876 sec)
final operations ... 
density and smoothing length for species 4 took 56.7626 sec
Tree construction.
tree build took 7.36034 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000024904 particles. (took 0.510869 sec)
ngb iteration 2: need to repeat for 0000022119 particles. (took 0.375817 sec)
ngb iteration 3: need to repeat for 0000013160 particles. (took 0.354916 sec)
ngb iteration 4: need to repeat for 0000007986 particles. (took 0.347747 sec)
ngb iteration 5: need to repeat for 0000006477 particles. (took 0.342559 sec)
ngb iteration 6: need to repeat for 0000005497 particles. (took 0.338545 sec)
ngb iteration 7: need to repeat for 0000004492 particles. (took 0.335202 sec)
ngb iteration 8: need to repeat for 0000003438 particles. (took 0.332299 sec)
ngb iteration 9: need to repeat for 0000002432 particles. (took 0.329933 sec)
ngb iteration 10: need to repeat for 0000001679 particles. (took 0.327593 sec)
ngb iteration 11: need to repeat for 0000001100 particles. (took 0.330816 sec)
ngb iteration 12: need to repeat for 0000000721 particles. (took 0.32263 sec)
ngb iteration 13: need to repeat for 0000000508 particles. (took 0.321592 sec)
ngb iteration 14: need to repeat for 0000000338 particles. (took 0.321084 sec)
ngb iteration 15: need to repeat for 0000000203 particles. (took 0.320961 sec)
ngb iteration 16: need to repeat for 0000000139 particles. (took 0.320859 sec)
ngb iteration 17: need to repeat for 0000000085 particles. (took 0.320867 sec)
ngb iteration 18: need to repeat for 0000000053 particles. (took 0.320211 sec)
ngb iteration 19: need to repeat for 0000000033 particles. (took 0.320752 sec)
ngb iteration 20: need to repeat for 0000000021 particles. (took 0.320568 sec)
ngb iteration 21: need to repeat for 0000000012 particles. (took 0.320271 sec)
ngb iteration 22: need to repeat for 0000000009 particles. (took 0.320494 sec)
ngb iteration 23: need to repeat for 0000000005 particles. (took 0.320431 sec)
ngb iteration 24: need to repeat for 0000000003 particles. (took 0.320441 sec)
ngb iteration 25: need to repeat for 0000000001 particles. (took 0.320765 sec)
ngb iteration 26: need to repeat for 0000000001 particles. (took 0.320257 sec)
final operations ... 
density and smoothing length for species 5 took 10.5057 sec
Tree construction for species 0 (270753391).
tree build for species 0 took 3.17158 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 184.372 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 3.47559 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 93.8814 sec
Tree construction for species 4 (15868421).
tree build for species 4 took 0.358929 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 27.6547 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.138895 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 18.1331 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 6.92137 sec
saving densities took 9.99687 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 35850631 particles.)
the other 167423 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 115416 - 139880424 

subfind_exchange()() took 4.22274 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=36292.8 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.004 MB of temporary storage for domain decomposition... (presently allocated=36735.1 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 36735.1 Mbyte (on task=0), Smallest = 32342 Mbyte, Average = 32584.4 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3704     246.1118  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3704     441.4823  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3704     636.8527  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6350   16266.4877  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11567.8328   27834.3205  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2719.9460   30554.2666  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.7861   30848.0527  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8135   30849.8882  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    292.9489   31142.8371  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    488.2482   31631.0853  fof_fof()/fof.c/337
   0 2978 0             Group      4.3890   31635.4743  fof_fof()/fof.c/380
   0 2979 0          SubGroup   4657.3295   36292.8038  subfind()/subfind.c/376
   0 2982 0          TopNodes     20.3186   36313.1443  domain_allocate()/domain.c/570
   0 2983 0        domain_key    390.7409   36703.8852  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.5630   36705.4502  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.5630   36707.0132  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.5630   36708.5762  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.5630   36710.1391  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.5630   36711.7028  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.5630   36713.2665  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     21.8815   36735.1480  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=22449
After=30433
NTopleaves= 26629  NTopnodes=30433 (space for 409722)
gravity work-load balance=1.01104   memory-balance=1.01104   SPH work-load balance=1.00973
iter=0 exchange of 0039568087 particles (ret=0)
domain decomposition done. (took 4.2555 sec)
Freed 17.3625 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 42707.8 Mbyte (on task=0), Smallest = 38314.6 Mbyte, Average = 38557.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3704     246.1118  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3704     441.4823  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3704     636.8527  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6350   16266.4877  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11567.8328   27834.3205  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2719.9460   30554.2666  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.7861   30848.0527  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8135   30849.8882  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    292.9489   31142.8371  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    488.2482   31631.0853  fof_fof()/fof.c/337
   0 2978 0             Group      4.3890   31635.4743  fof_fof()/fof.c/380
   0 2979 0          SubGroup   4657.3295   36292.8038  subfind()/subfind.c/376
   0 2982 0          TopNodes      1.5092   36294.3350  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.1016   36294.4366  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base   3285.0096   39579.4462  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base   2737.5080   42316.9542  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode    195.4865   42512.4407  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father    195.3704   42707.8111  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 5.88203 sec  (presently allocated=42707.8 MB)
force_treebuild() took 6.35795 sec (presently allocated=42707.8 MB)
Start find_linkngb (892896 particles on task=0)
find linkngb iteration 1: need to repeat for 0025176897 particles. (took 35.9764 sec)
find linkngb iteration 2: need to repeat for 0021197193 particles. (took 14.9939 sec)
find linkngb iteration 3: need to repeat for 0017488413 particles. (took 9.00001 sec)
find linkngb iteration 4: need to repeat for 0016077601 particles. (took 5.63192 sec)
find linkngb iteration 5: need to repeat for 0014108346 particles. (took 5.04268 sec)
find linkngb iteration 6: need to repeat for 0011493706 particles. (took 4.96921 sec)
find linkngb iteration 7: need to repeat for 0008316070 particles. (took 3.44497 sec)
find linkngb iteration 8: need to repeat for 0005343672 particles. (took 2.48499 sec)
find linkngb iteration 9: need to repeat for 0003148209 particles. (took 1.61507 sec)
find linkngb iteration 10: need to repeat for 0001759169 particles. (took 0.974 sec)
find linkngb iteration 11: need to repeat for 0000956541 particles. (took 0.569865 sec)
find linkngb iteration 12: need to repeat for 0000501157 particles. (took 0.330478 sec)
find linkngb iteration 13: need to repeat for 0000166149 particles. (took 0.186177 sec)
find linkngb iteration 14: need to repeat for 0000046032 particles. (took 0.0628979 sec)
find linkngb iteration 15: need to repeat for 0000021476 particles. (took 0.0204201 sec)
find linkngb iteration 16: need to repeat for 0000010932 particles. (took 0.010679 sec)
find linkngb iteration 17: need to repeat for 0000005536 particles. (took 0.00585222 sec)
find linkngb iteration 18: need to repeat for 0000002693 particles. (took 0.00455999 sec)
find linkngb iteration 19: need to repeat for 0000001316 particles. (took 0.00401402 sec)
find linkngb iteration 20: need to repeat for 0000000674 particles. (took 0.00371504 sec)
find linkngb iteration 21: need to repeat for 0000000390 particles. (took 0.00354719 sec)
find linkngb iteration 22: need to repeat for 0000000242 particles. (took 0.00340796 sec)
find linkngb iteration 23: need to repeat for 0000000140 particles. (took 0.00335288 sec)
find linkngb iteration 24: need to repeat for 0000000088 particles. (took 0.00331879 sec)
find linkngb iteration 25: need to repeat for 0000000041 particles. (took 0.00331521 sec)
find linkngb iteration 26: need to repeat for 0000000024 particles. (took 0.00328302 sec)
find linkngb iteration 27: need to repeat for 0000000010 particles. (took 0.00365591 sec)
find linkngb iteration 28: need to repeat for 0000000005 particles. (took 0.00366592 sec)
find linkngb iteration 29: need to repeat for 0000000001 particles. (took 0.00365496 sec)
find_linkngb() took 85.3716 sec
Start finding nearest two (892896 particles on task=0)
find_nearesttwo() took 13.716 sec (presently allocated=42775.9 MB)
parallel sort of densities done. took 0.541526 sec
building distributed linked list. (presently allocated 42767.1 MB)
identification of primary candidates took 477.035 sec
adding background as candidate took 0.049958 sec
establishing of rank order took 153.37 sec  (p=40400655, grouplen=40400655) presently allocated 42767.1 MB

total number of subhalo candidates=148545

number of subhalo candidates that can be done independently=126659.
(Largest size is 5370, finding them took 0.044163 sec)
particles are marked (took 56.1194)
independent subhalos are assembled on individual CPUs for unbinding (0.446788 sec, (presently allocated=42767.1 MB)
unbinding of independent ones took 0.535661 sec
particles have returned to their original processor (0.534468 sec, presently allocated 42767.1 MB)

number of subhalo candidates that can be done independently=19739.
(Largest size is 23263, finding them took 3.12576 sec)
particles are marked (took 42.1639)
independent subhalos are assembled on individual CPUs for unbinding (0.424694 sec, (presently allocated=42767.1 MB)
unbinding of independent ones took 1.58111 sec
particles have returned to their original processor (0.513972 sec, presently allocated 42767.1 MB)

number of subhalo candidates that can be done independently=1960.
(Largest size is 131879, finding them took 3.07196 sec)
particles are marked (took 35.4014)
independent subhalos are assembled on individual CPUs for unbinding (0.424272 sec, (presently allocated=42767.1 MB)
unbinding of independent ones took 11.7344 sec
particles have returned to their original processor (0.512394 sec, presently allocated 42767.1 MB)

number of subhalo candidates that can be done independently=176.
(Largest size is 373702, finding them took 3.19143 sec)
particles are marked (took 28.8473)
independent subhalos are assembled on individual CPUs for unbinding (0.404239 sec, (presently allocated=42767.1 MB)
unbinding of independent ones took 14.3485 sec
particles have returned to their original processor (0.51185 sec, presently allocated 42767.1 MB)

number of subhalo candidates that can be done independently=10.
(Largest size is 349431, finding them took 1.54824 sec)
particles are marked (took 25.4342)
independent subhalos are assembled on individual CPUs for unbinding (0.413644 sec, (presently allocated=42767.1 MB)
unbinding of independent ones took 29.4343 sec
particles have returned to their original processor (0.508806 sec, presently allocated 42767.1 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 40400655, finding them took 3.58191 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=40400655 ... maximum alloacted 42770.5 MB
took 321.777 sec

the collective unbinding of remaining halos took 340.167 sec

found 7458 bound substructures in FoF group of length 40400655
determination of parent subhalo took 0.0442719 sec (presently allocated 42770.5 MB)
determining substructure properties took 314.277 sec (presently allocated 42770.5 MB)
processing of collective halos took 1732.08 sec
sort of local particles()() took 6.6502 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 1668.87 sec

Task 43: testing particles ...
Task 38: testing particles ...
Task 36: testing particles ...
Task 44: testing particles ...
Task 35: testing particles ...
Task 28: testing particles ...
Task 32: testing particles ...
Task 39: testing particles ...
Task 29: testing particles ...
unsorting of local particles()() took 5.89541 sec
Task 0: testing particles ...
Task 41: testing particles ...
Task 40: testing particles ...
Task 31: testing particles ...
Task 37: testing particles ...
Task 13: testing particles ...
Task 34: testing particles ...
Task 33: testing particles ...
Task 27: testing particles ...
Task 15: testing particles ...
Task 23: testing particles ...
Task 25: testing particles ...
Task 21: testing particles ...
Task 16: testing particles ...
Task 20: testing particles ...
Task 26: testing particles ...
Task 17: testing particles ...
Task 12: testing particles ...
Task 24: testing particles ...
Task 22: testing particles ...
Task 18: testing particles ...
Task 8: testing particles ...
Task 14: testing particles ...
Task 10: testing particles ...
Task 42: testing particles ...
Task 9: testing particles ...
Task 30: testing particles ...
Task 5: testing particles ...
Task 7: testing particles ...
Task 19: testing particles ...
Task 3: testing particles ...
Task 6: testing particles ...
Task 11: testing particles ...
Task 4: testing particles ...
Task 2: testing particles ...
Task 1: testing particles ...
subfind_exchange() (for return to original CPU)  took 8.69276 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=36292.8 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.004 MB of temporary storage for domain decomposition... (presently allocated=36735.1 MB)
Before=34025
After=37145
NTopleaves= 32502  NTopnodes=37145 (space for 409722)
gravity work-load balance=1.01144   memory-balance=1.0114   SPH work-load balance=1.01092
iter=0 exchange of 0561338698 particles (ret=0)
domain decomposition done. (took 27.7645 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0552 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000132486 particles. (took 0.0871329 sec)
SO iteration 2: need to repeat for 0000132486 particles. (took 0.080004 sec)
SO iteration 3: need to repeat for 0000132486 particles. (took 0.080292 sec)
SO iteration 4: need to repeat for 0000132486 particles. (took 0.0792742 sec)
SO iteration 5: need to repeat for 0000132486 particles. (took 0.079587 sec)
SO iteration 6: need to repeat for 0000132486 particles. (took 0.0797529 sec)
SO iteration 7: need to repeat for 0000132486 particles. (took 0.08009 sec)
SO iteration 8: need to repeat for 0000132486 particles. (took 0.0798409 sec)
SO iteration 9: need to repeat for 0000132486 particles. (took 0.0796399 sec)
SO iteration 10: need to repeat for 0000132486 particles. (took 0.080066 sec)
SO iteration 11: need to repeat for 0000132486 particles. (took 0.079668 sec)
SO iteration 12: need to repeat for 0000132486 particles. (took 0.0797431 sec)
SO iteration 13: need to repeat for 0000132486 particles. (took 0.0797458 sec)
SO iteration 14: need to repeat for 0000132486 particles. (took 0.0797122 sec)
SO iteration 15: need to repeat for 0000130208 particles. (took 0.0796609 sec)
SO iteration 16: need to repeat for 0000000457 particles. (took 0.091413 sec)
SO iteration 17: need to repeat for 0000000033 particles. (took 0.000905037 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000133991 sec)
SO iteration 1: need to repeat for 0000132486 particles. (took 0.112106 sec)
SO iteration 2: need to repeat for 0000132486 particles. (took 0.0813351 sec)
SO iteration 3: need to repeat for 0000132486 particles. (took 0.0967419 sec)
SO iteration 4: need to repeat for 0000132486 particles. (took 0.085984 sec)
SO iteration 5: need to repeat for 0000132486 particles. (took 0.0893469 sec)
SO iteration 6: need to repeat for 0000132486 particles. (took 0.0902529 sec)
SO iteration 7: need to repeat for 0000132486 particles. (took 0.089668 sec)
SO iteration 8: need to repeat for 0000132486 particles. (took 0.0893831 sec)
SO iteration 9: need to repeat for 0000132486 particles. (took 0.0893681 sec)
SO iteration 10: need to repeat for 0000132486 particles. (took 0.0892608 sec)
SO iteration 11: need to repeat for 0000132486 particles. (took 0.089303 sec)
SO iteration 12: need to repeat for 0000132486 particles. (took 0.0892789 sec)
SO iteration 13: need to repeat for 0000132486 particles. (took 0.0893149 sec)
SO iteration 14: need to repeat for 0000132486 particles. (took 0.0892498 sec)
SO iteration 15: need to repeat for 0000131590 particles. (took 0.0892141 sec)
SO iteration 16: need to repeat for 0000015932 particles. (took 0.088475 sec)
SO iteration 17: need to repeat for 0000000247 particles. (took 0.0105581 sec)
SO iteration 18: need to repeat for 0000000028 particles. (took 0.000795126 sec)
SO iteration 1: need to repeat for 0000132486 particles. (took 0.112343 sec)
SO iteration 2: need to repeat for 0000132486 particles. (took 0.0792098 sec)
SO iteration 3: need to repeat for 0000132486 particles. (took 0.06322 sec)
SO iteration 4: need to repeat for 0000132486 particles. (took 0.069088 sec)
SO iteration 5: need to repeat for 0000132486 particles. (took 0.0665779 sec)
SO iteration 6: need to repeat for 0000132486 particles. (took 0.0667689 sec)
SO iteration 7: need to repeat for 0000132486 particles. (took 0.0668991 sec)
SO iteration 8: need to repeat for 0000132486 particles. (took 0.0670121 sec)
SO iteration 9: need to repeat for 0000132486 particles. (took 0.0669172 sec)
SO iteration 10: need to repeat for 0000132486 particles. (took 0.0670249 sec)
SO iteration 11: need to repeat for 0000132486 particles. (took 0.066958 sec)
SO iteration 12: need to repeat for 0000132486 particles. (took 0.0669949 sec)
SO iteration 13: need to repeat for 0000132486 particles. (took 0.066936 sec)
SO iteration 14: need to repeat for 0000132486 particles. (took 0.067045 sec)
SO iteration 15: need to repeat for 0000132461 particles. (took 0.067157 sec)
SO iteration 16: need to repeat for 0000131097 particles. (took 0.0669591 sec)
SO iteration 17: need to repeat for 0000019380 particles. (took 0.0663769 sec)
SO iteration 18: need to repeat for 0000000411 particles. (took 0.00960803 sec)
SO iteration 19: need to repeat for 0000000048 particles. (took 0.000587225 sec)
SO iteration 20: need to repeat for 0000000001 particles. (took 0.000148058 sec)
SO iteration 1: need to repeat for 0000132486 particles. (took 0.112438 sec)
SO iteration 2: need to repeat for 0000132486 particles. (took 0.083127 sec)
SO iteration 3: need to repeat for 0000132486 particles. (took 0.0998349 sec)
SO iteration 4: need to repeat for 0000132486 particles. (took 0.106686 sec)
SO iteration 5: need to repeat for 0000132486 particles. (took 0.106342 sec)
SO iteration 6: need to repeat for 0000132486 particles. (took 0.106623 sec)
SO iteration 7: need to repeat for 0000132486 particles. (took 0.106694 sec)
SO iteration 8: need to repeat for 0000132486 particles. (took 0.106808 sec)
SO iteration 9: need to repeat for 0000132486 particles. (took 0.106726 sec)
SO iteration 10: need to repeat for 0000132486 particles. (took 0.106752 sec)
SO iteration 11: need to repeat for 0000132486 particles. (took 0.106783 sec)
SO iteration 12: need to repeat for 0000132486 particles. (took 0.106846 sec)
SO iteration 13: need to repeat for 0000132486 particles. (took 0.106791 sec)
SO iteration 14: need to repeat for 0000132486 particles. (took 0.106753 sec)
SO iteration 15: need to repeat for 0000130553 particles. (took 0.106849 sec)
SO iteration 16: need to repeat for 0000001745 particles. (took 0.098644 sec)
SO iteration 17: need to repeat for 0000000070 particles. (took 0.00217104 sec)
SO iteration 18: need to repeat for 0000000005 particles. (took 0.000270844 sec)
SO iteration 1: need to repeat for 0000132486 particles. (took 0.112317 sec)
SO iteration 2: need to repeat for 0000132486 particles. (took 0.081512 sec)
SO iteration 3: need to repeat for 0000132486 particles. (took 0.095618 sec)
SO iteration 4: need to repeat for 0000132486 particles. (took 0.0858831 sec)
SO iteration 5: need to repeat for 0000132486 particles. (took 0.0893812 sec)
SO iteration 6: need to repeat for 0000132486 particles. (took 0.0904541 sec)
SO iteration 7: need to repeat for 0000132486 particles. (took 0.0898728 sec)
SO iteration 8: need to repeat for 0000132486 particles. (took 0.0897319 sec)
SO iteration 9: need to repeat for 0000132486 particles. (took 0.0896931 sec)
SO iteration 10: need to repeat for 0000132486 particles. (took 0.089674 sec)
SO iteration 11: need to repeat for 0000132486 particles. (took 0.0896461 sec)
SO iteration 12: need to repeat for 0000132486 particles. (took 0.0896902 sec)
SO iteration 13: need to repeat for 0000132486 particles. (took 0.0897591 sec)
SO iteration 14: need to repeat for 0000132486 particles. (took 0.0896642 sec)
SO iteration 15: need to repeat for 0000131569 particles. (took 0.0897532 sec)
SO iteration 16: need to repeat for 0000015110 particles. (took 0.0887341 sec)
SO iteration 17: need to repeat for 0000000239 particles. (took 0.0103588 sec)
SO iteration 18: need to repeat for 0000000028 particles. (took 0.000766039 sec)
SO iteration 1: need to repeat for 0000132486 particles. (took 0.112421 sec)
SO iteration 2: need to repeat for 0000132486 particles. (took 0.07921 sec)
SO iteration 3: need to repeat for 0000132486 particles. (took 0.0657511 sec)
SO iteration 4: need to repeat for 0000132486 particles. (took 0.0718732 sec)
SO iteration 5: need to repeat for 0000132486 particles. (took 0.073946 sec)
SO iteration 6: need to repeat for 0000132486 particles. (took 0.074425 sec)
SO iteration 7: need to repeat for 0000132486 particles. (took 0.0746081 sec)
SO iteration 8: need to repeat for 0000132486 particles. (took 0.0747209 sec)
SO iteration 9: need to repeat for 0000132486 particles. (took 0.0758221 sec)
SO iteration 10: need to repeat for 0000132486 particles. (took 0.0747809 sec)
SO iteration 11: need to repeat for 0000132486 particles. (took 0.0746851 sec)
SO iteration 12: need to repeat for 0000132486 particles. (took 0.074652 sec)
SO iteration 13: need to repeat for 0000132486 particles. (took 0.074636 sec)
SO iteration 14: need to repeat for 0000132486 particles. (took 0.074666 sec)
SO iteration 15: need to repeat for 0000132334 particles. (took 0.0746658 sec)
SO iteration 16: need to repeat for 0000130612 particles. (took 0.0746419 sec)
SO iteration 17: need to repeat for 0000002218 particles. (took 0.0737109 sec)
SO iteration 18: need to repeat for 0000000145 particles. (took 0.00217795 sec)
SO iteration 19: need to repeat for 0000000010 particles. (took 0.000344038 sec)
SO iteration 1: need to repeat for 0000132486 particles. (took 0.112351 sec)
SO iteration 2: need to repeat for 0000132486 particles. (took 0.0791991 sec)
SO iteration 3: need to repeat for 0000132486 particles. (took 0.0629158 sec)
SO iteration 4: need to repeat for 0000132486 particles. (took 0.053771 sec)
SO iteration 5: need to repeat for 0000132486 particles. (took 0.058316 sec)
SO iteration 6: need to repeat for 0000132486 particles. (took 0.0600388 sec)
SO iteration 7: need to repeat for 0000132486 particles. (took 0.059953 sec)
SO iteration 8: need to repeat for 0000132486 particles. (took 0.0600989 sec)
SO iteration 9: need to repeat for 0000132486 particles. (took 0.059967 sec)
SO iteration 10: need to repeat for 0000132486 particles. (took 0.0600421 sec)
SO iteration 11: need to repeat for 0000132486 particles. (took 0.060015 sec)
SO iteration 12: need to repeat for 0000132486 particles. (took 0.0599861 sec)
SO iteration 13: need to repeat for 0000132486 particles. (took 0.06001 sec)
SO iteration 14: need to repeat for 0000132486 particles. (took 0.0600009 sec)
SO iteration 15: need to repeat for 0000132480 particles. (took 0.06003 sec)
SO iteration 16: need to repeat for 0000132277 particles. (took 0.060014 sec)
SO iteration 17: need to repeat for 0000130563 particles. (took 0.0600259 sec)
SO iteration 18: need to repeat for 0000004431 particles. (took 0.0594101 sec)
SO iteration 19: need to repeat for 0000000190 particles. (took 0.00250292 sec)
SO iteration 20: need to repeat for 0000000013 particles. (took 0.000313044 sec)
determining spherical overdensity masses took 9.55518 sec
finding spherical overdensity particles took 0.542376 sec
determining contamination of halos took 0.477005 sec
Global sort of Groups took 0.043308 sec
Global sort of SubGroups took 0.090112 sec
Global sort of IDs took 2.64664 sec
Writing block 0 (GLEN), n=3721, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14884d
Writing block 1 (GOFF), n=3721, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14884d
Writing block 2 (MTOT), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 3 (GPOS), n=3721, ptype=0, dtype=1, ndim=3, bpb=4 bytes=44652d
Writing block 4 (MMEA), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 5 (RMEA), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 6 (MCRI), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 7 (RCRI), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 8 (MTOP), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 9 (RTOP), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 17 (NCON), n=3721, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14884d
Writing block 18 (MCON), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 22 (NSUB), n=3721, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14884d
Writing block 23 (FSUB), n=3721, ptype=0, dtype=0, ndim=1, bpb=4 bytes=14884d
Writing block 24 (SLEN), n=11095, ptype=1, dtype=0, ndim=1, bpb=4 bytes=44380d
Writing block 25 (SOFF), n=11095, ptype=1, dtype=0, ndim=1, bpb=4 bytes=44380d
Writing block 26 (SSUB), n=11095, ptype=1, dtype=0, ndim=1, bpb=4 bytes=44380d
Writing block 27 (MSUB), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 28 (SPOS), n=11095, ptype=1, dtype=1, ndim=3, bpb=4 bytes=133140d
Writing block 29 (SVEL), n=11095, ptype=1, dtype=1, ndim=3, bpb=4 bytes=133140d
Writing block 30 (SCM ), n=11095, ptype=1, dtype=1, ndim=3, bpb=4 bytes=133140d
Writing block 33 (VMAX), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 34 (RMAX), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 35 (RHMS), n=11095, ptype=1, dtype=1, ndim=6, bpb=4 bytes=266280d
Writing block 36 (MTRH), n=11095, ptype=1, dtype=1, ndim=6, bpb=4 bytes=266280d
Writing block 37 (MBID), n=11095, ptype=1, dtype=2, ndim=1, bpb=8 bytes=88760d
Writing block 38 (GRNR), n=11095, ptype=1, dtype=0, ndim=1, bpb=4 bytes=44380d
Writing block 39 (SUBN), n=11095, ptype=1, dtype=0, ndim=1, bpb=4 bytes=44380d
Writing block 40 (SMST), n=11095, ptype=1, dtype=1, ndim=6, bpb=4 bytes=266280d
Writing block 53 (PID ), n=4379753, ptype=2, dtype=2, ndim=1, bpb=8 bytes=35038024d
Writing block 54 (SLEN), n=11095, ptype=1, dtype=0, ndim=6, bpb=4 bytes=266280d
Writing block 55 (STEN), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 56 (SKEN), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 57 (SUEN), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 58 (SUIT), n=11095, ptype=1, dtype=1, ndim=9, bpb=4 bytes=399420d
Writing block 59 (BHMA), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 60 (BHMD), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 61 (SVD ), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 62 (SVDH), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 63 (HMPR), n=11095, ptype=1, dtype=1, ndim=6, bpb=4 bytes=266280d
Writing block 64 (SSFR), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 65 (SSA ), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 66 (SSBZ), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 67 (SSIM), n=11095, ptype=1, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 68 (SSPI), n=11095, ptype=4, dtype=1, ndim=3, bpb=4 bytes=133140d
Writing block 69 (GSPI), n=11095, ptype=1, dtype=1, ndim=3, bpb=4 bytes=133140d
Writing block 70 (FSPI), n=11095, ptype=5, dtype=1, ndim=3, bpb=4 bytes=133140d
Writing block 71 (SFM ), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 72 (SFMT), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 73 (SFME), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 74 (SFAE), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 75 (SFKE), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 76 (SFTE), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 77 (SMWP), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 78 (SMM ), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 79 (SMMS), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 80 (SFZ ), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 81 (SFZS), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 82 (SSIA), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 83 (SIAS), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 84 (SMET), n=11095, ptype=5, dtype=1, ndim=9, bpb=4 bytes=399420d
Writing block 85 (SMTS), n=11095, ptype=5, dtype=1, ndim=9, bpb=4 bytes=399420d
Writing block 86 (MF1 ), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 87 (MeF1), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 88 (MF  ), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 89 (MeF2), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 90 (MFA ), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 91 (MeFA), n=11095, ptype=5, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 92 (NSPI), n=11095, ptype=6, dtype=1, ndim=3, bpb=4 bytes=133140d
Writing block 93 (NFM ), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 94 (NFMT), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 95 (NFME), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 96 (NFAE), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 97 (NFKE), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 98 (NFTE), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 99 (SMWP), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 100 (SMM ), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 101 (SMMS), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 102 (SSIA), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 103 (SIAS), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 104 (SMET), n=11095, ptype=6, dtype=1, ndim=9, bpb=4 bytes=399420d
Writing block 105 (SMTS), n=11095, ptype=6, dtype=1, ndim=9, bpb=4 bytes=399420d
Writing block 106 (MF1 ), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 107 (MeF1), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 108 (MF2 ), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 109 (MeF2), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 110 (MFA ), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 111 (MeFA), n=11095, ptype=6, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 112 (SM  ), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 113 (SFKE), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 114 (SFAE), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 115 (SMWP), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 116 (SMM ), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 117 (SMMS), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 118 (SSIA), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 119 (SIAS), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 120 (SMET), n=11095, ptype=4, dtype=1, ndim=9, bpb=4 bytes=399420d
Writing block 121 (SMTS), n=11095, ptype=4, dtype=1, ndim=9, bpb=4 bytes=399420d
Writing block 122 (MF1 ), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 123 (MeF1), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 124 (MF2 ), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 125 (MeF2), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 126 (MFA ), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 127 (MeFA), n=11095, ptype=4, dtype=1, ndim=1, bpb=4 bytes=44380d
Writing block 128 (MMe5), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 129 (RMe5), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 130 (MCr5), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 131 (RCr5), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 132 (MMe2), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 133 (RMe2), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 134 (MCr2), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 135 (RCr2), n=3721, ptype=0, dtype=1, ndim=1, bpb=4 bytes=14884d
Writing block 136 (MAPT), n=11095, ptype=7, dtype=1, ndim=60, bpb=4 bytes=2662800d
Writing block 137 (SAPT), n=11095, ptype=8, dtype=1, ndim=10, bpb=4 bytes=443800d
Writing block 138 (VAPT), n=11095, ptype=9, dtype=1, ndim=10, bpb=4 bytes=443800d
Writing block 139 (BEGY), n=4379753, ptype=2, dtype=1, ndim=1, bpb=4 bytes=17519012d
Subgroup catalogues saved. took = 10.1638 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 2.457733e+00
 eagle_ph_key_ort: type= 1 timed by volker 2.899511e+00
 eagle_ph_key_ort: type= 2 timed by volker 2.853630e-01
 eagle_ph_key_ort: type= 3 timed by volker 6.934905e-02
 eagle_ph_key_ort: type= 4 timed by volker 1.593680e-01
 eagle_ph_key_ort: type= 5 timed by volker 4.381704e-02
 eagle_ph_key_ort: timing parallel sort = 6.479502e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 20361030520

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 36582.2 Mbyte (on task=0), Smallest = 32193.1 Mbyte, Average = 32435.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2965 0     ProcessedFlag     48.8426      50.7414  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle    195.3704     246.1118  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin    195.3704     441.4823  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin    195.3704     636.8527  allocate_memory()/allocate.c/61
   0 2969 0                 P  15629.6350   16266.4877  allocate_memory()/allocate.c/67
   0 2970 0              SphP  11567.8328   27834.3205  allocate_memory()/allocate.c/85
   0 2971 0              MetP   2719.9460   30554.2666  allocate_memory()/allocate.c/105
   0 2972 0               BHP    293.7861   30848.0527  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      1.8135   30849.8882  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList    292.9489   31142.8371  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    488.2482   31631.0853  fof_fof()/fof.c/337
   0 2978 0             Group      4.3890   31635.4743  fof_fof()/fof.c/380
   0 2979 0          SubGroup   4657.3295   36292.8038  subfind()/subfind.c/376
   0 2980 0   sort_index_data    289.4044   36582.2081  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 160, max_elements= 227459 number of bytes = 36393440
 eagle_ph_key_ort: timing parallel P exchange = 2.628309e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 20361030520
 eagle_fetch_elements: max_bytes= 248, max_elements= 1257953 number of bytes = 311972344
 eagle_ph_key_ort: timing parallel SphP exchange = 1.555487e+01
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 20361030520
 eagle_fetch_elements: max_bytes= 384, max_elements= 2472530 number of bytes = 949451520
 eagle_ph_key_ort: timing parallel MetP exchange = 1.014262e+00
 eagle_fetch_elements: we are using 2147483647 bytes of memory, FreeBytes= 20361030520
 eagle_fetch_elements: max_bytes= 256, max_elements= 4097830 number of bytes = 1049044480
 eagle_ph_key_ort: timing parallel BHP exchange = 1.917100e-02
Sorting particle-data by peano-hilbert key took = 51.9204 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 160, max_elements= 227459 number of bytes= 36393440
 eagle_ph_restore: timing parallel P exchange = 3.056256e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 252, max_elements= 1191299 number of bytes= 300207348
 eagle_ph_restore: timing parallel SphP exchange = 1.518324e+01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2472530 number of bytes= 949451520
 eagle_ph_restore: timing parallel MetP exchange = 9.461451e-01
 eagle_send_elements: we are using 2147483647 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 4097830 number of bytes= 1049044480
 eagle_ph_restore: timing parallel BHP exchange = 1.843500e-02
Restoring original order after ph key sorting took = 46.8738 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4930.22 sec)

Finished computing FoF groups.  (presently allocated=30849.9 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=30848.1 MB)
Allocated 20.3405 MByte for top-level domain structure
use of 422.004 MB of temporary storage for domain decomposition... (presently allocated=31290.4 MB)
Before=33177
After=36593
NTopleaves= 32019  NTopnodes=36593 (space for 409722)
gravity work-load balance=1.01545   memory-balance=1.01544   SPH work-load balance=1.01268
iter=0 exchange of 0566427277 particles (ret=0)
domain decomposition done. (took 26.3471 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 17.0805 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 5: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 8: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) task 16: endrun called with an error level of 124


task 11: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 8:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 19:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 5: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 16:
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
Finished FOF, total time doing fof/subfind = 5169.28 s
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 11task 27: endrun called with an error level of 124


task 8: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 19: endrun called with an error level of 124


MPI-process 5:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 5
task 39: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 43:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 36: endrun called with an error level of 124


task 16: endrun called with an error level of 124


task 22: endrun called with an error level of 124


task 20: endrun called with an error level of 124


task 42: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
task 11: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 27:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 8
task 30: endrun called with an error level of 124


task 33: endrun called with an error level of 124


task 31: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 19:
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
task 43: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 16
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 20 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
HDF5-DIAG: Error detected in HDF5 (1.8.12) :
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 11
task 27: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 30:
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 31:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 19: endrun called with an error level of 124


task 39: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
task 36: endrun called with an error level of 124


task 22: endrun called with an error level of 124


task 20: endrun called with an error level of 124


task 42: endrun called with an error level of 124


MPI-process 0:
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 27:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 27
task 30: endrun called with an error level of 124


task 33: endrun called with an error level of 124


task 31: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 19
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 43:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 36:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 36
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 20
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 42:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 42
task 0: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 30
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 31
task 43: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 43
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
task 0: endrun called with an error level of 124


    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63034.75 Mb (on task=56), Smallest =   62821.41 Mb (on task=0), Average =   62978.43 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=44), Smallest =   64531.71 Mb (on task=56), Average =   64532.01 Mb
Committed_AS:	 Largest =    1710.58 Mb (on task=0), Smallest =    1496.95 Mb (on task=56), Average =    1553.59 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=8), Smallest =   16266.03 Mb (on task=24), Average =   16310.04 Mb
AllocMem:	 Largest =    1710.58 Mb (on task=0), Smallest =    1496.95 Mb (on task=56), Average =    1553.59 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 180 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N4':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         14000
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 4066.15 MByte for particle storage.

Allocated 2893.8 MByte for storage of SPH data.

Allocated 678.94 MByte for storage of MET data.

Allocated 73.4932 MByte for storage of BH data.


reading file `data//snapshot_023_z000p199/snap_023_z000p199.0.hdf5' on task=0 (contains 36311696 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   16799108  (tot=     0270926058) masstab=0
Type 1 (halo):  17850968  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13249  (tot=     0000254233) masstab=0
Type 3 (bulge):    97116  (tot=     0002602064) masstab=0
Type 4 (stars):  1549317  (tot=     0015696740) masstab=0
Type 5 (bndry):     1938  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.11.hdf5' on task=129 (contains 36211181 particles.)
distributing this file to tasks 129-134
Type 0 (gas):   16850644  (tot=     0270926058) masstab=0
Type 1 (halo):  18051330  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11378  (tot=     0000254233) masstab=0
Type 3 (bulge):   297269  (tot=     0002602064) masstab=0
Type 4 (stars):   998648  (tot=     0015696740) masstab=0
Type 5 (bndry):     1912  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.2.hdf5' on task=33 (contains 36288025 particles.)
distributing this file to tasks 33-38
Type 0 (gas):   16918234  (tot=     0270926058) masstab=0
Type 1 (halo):  18067680  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19221  (tot=     0000254233) masstab=0
Type 3 (bulge):   234728  (tot=     0002602064) masstab=0
Type 4 (stars):  1046223  (tot=     0015696740) masstab=0
Type 5 (bndry):     1939  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.13.hdf5' on task=157 (contains 35648516 particles.)
distributing this file to tasks 157-167
Type 0 (gas):   16960024  (tot=     0270926058) masstab=0
Type 1 (halo):  17721655  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8490  (tot=     0000254233) masstab=0
Type 3 (bulge):      460  (tot=     0002602064) masstab=0
Type 4 (stars):   955847  (tot=     0015696740) masstab=0
Type 5 (bndry):     2040  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.7.hdf5' on task=84 (contains 35902902 particles.)
distributing this file to tasks 84-89
Type 0 (gas):   16993363  (tot=     0270926058) masstab=0
Type 1 (halo):  17941838  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15181  (tot=     0000254233) masstab=0
Type 3 (bulge):     5425  (tot=     0002602064) masstab=0
Type 4 (stars):   945227  (tot=     0015696740) masstab=0
Type 5 (bndry):     1868  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.1.hdf5' on task=22 (contains 36198922 particles.)
distributing this file to tasks 22-32
Type 0 (gas):   17042675  (tot=     0270926058) masstab=0
Type 1 (halo):  17797212  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9412  (tot=     0000254233) masstab=0
Type 3 (bulge):   267991  (tot=     0002602064) masstab=0
Type 4 (stars):  1079679  (tot=     0015696740) masstab=0
Type 5 (bndry):     1953  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.15.hdf5' on task=174 (contains 35499294 particles.)
distributing this file to tasks 174-179
Type 0 (gas):   17056594  (tot=     0270926058) masstab=0
Type 1 (halo):  17584976  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13927  (tot=     0000254233) masstab=0
Type 3 (bulge):   112509  (tot=     0002602064) masstab=0
Type 4 (stars):   729250  (tot=     0015696740) masstab=0
Type 5 (bndry):     2038  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.10.hdf5' on task=123 (contains 35986589 particles.)
distributing this file to tasks 123-128
Type 0 (gas):   16914990  (tot=     0270926058) masstab=0
Type 1 (halo):  18143885  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20688  (tot=     0000254233) masstab=0
Type 3 (bulge):    34142  (tot=     0002602064) masstab=0
Type 4 (stars):   870919  (tot=     0015696740) masstab=0
Type 5 (bndry):     1965  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.14.hdf5' on task=168 (contains 35924688 particles.)
distributing this file to tasks 168-173
Type 0 (gas):   16897459  (tot=     0270926058) masstab=0
Type 1 (halo):  18096036  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18517  (tot=     0000254233) masstab=0
Type 3 (bulge):    75331  (tot=     0002602064) masstab=0
Type 4 (stars):   835387  (tot=     0015696740) masstab=0
Type 5 (bndry):     1958  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.3.hdf5' on task=39 (contains 36155202 particles.)
distributing this file to tasks 39-44
Type 0 (gas):   16935529  (tot=     0270926058) masstab=0
Type 1 (halo):  17989196  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15529  (tot=     0000254233) masstab=0
Type 3 (bulge):   192136  (tot=     0002602064) masstab=0
Type 4 (stars):  1020894  (tot=     0015696740) masstab=0
Type 5 (bndry):     1918  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.5.hdf5' on task=67 (contains 35817748 particles.)
distributing this file to tasks 67-77
Type 0 (gas):   17004722  (tot=     0270926058) masstab=0
Type 1 (halo):  17647712  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18039  (tot=     0000254233) masstab=0
Type 3 (bulge):   107752  (tot=     0002602064) masstab=0
Type 4 (stars):  1037599  (tot=     0015696740) masstab=0
Type 5 (bndry):     1924  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.6.hdf5' on task=78 (contains 36186017 particles.)
distributing this file to tasks 78-83
Type 0 (gas):   16929829  (tot=     0270926058) masstab=0
Type 1 (halo):  18019470  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10085  (tot=     0000254233) masstab=0
Type 3 (bulge):   387518  (tot=     0002602064) masstab=0
Type 4 (stars):   837115  (tot=     0015696740) masstab=0
Type 5 (bndry):     2000  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.8.hdf5' on task=90 (contains 36097097 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   16841477  (tot=     0270926058) masstab=0
Type 1 (halo):  18106373  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16325  (tot=     0000254233) masstab=0
Type 3 (bulge):   341741  (tot=     0002602064) masstab=0
Type 4 (stars):   789252  (tot=     0015696740) masstab=0
Type 5 (bndry):     1929  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.9.hdf5' on task=112 (contains 35738734 particles.)
distributing this file to tasks 112-122
Type 0 (gas):   16934532  (tot=     0270926058) masstab=0
Type 1 (halo):  17859535  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18826  (tot=     0000254233) masstab=0
Type 3 (bulge):    47102  (tot=     0002602064) masstab=0
Type 4 (stars):   876827  (tot=     0015696740) masstab=0
Type 5 (bndry):     1912  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.12.hdf5' on task=135 (contains 35900906 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   16899168  (tot=     0270926058) masstab=0
Type 1 (halo):  17957870  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21391  (tot=     0000254233) masstab=0
Type 3 (bulge):   110231  (tot=     0002602064) masstab=0
Type 4 (stars):   910202  (tot=     0015696740) masstab=0
Type 5 (bndry):     2044  (tot=     0000031204) masstab=0


reading file `data//snapshot_023_z000p199/snap_023_z000p199.4.hdf5' on task=45 (contains 36303512 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   16947710  (tot=     0270926058) masstab=0
Type 1 (halo):  17824994  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     23975  (tot=     0000254233) masstab=0
Type 3 (bulge):   290613  (tot=     0002602064) masstab=0
Type 4 (stars):  1214354  (tot=     0015696740) masstab=0
Type 5 (bndry):     1866  (tot=     0000031204) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576171029


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= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.88386 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7714.4 MB)
Allocated 5.16755 MByte for top-level domain structure
use of 105.514 MB of temporary storage for domain decomposition... (presently allocated=7825.08 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 7825.08 Mbyte (on task=1), Smallest = 7825.08 Mbyte, Average = 7825.08 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.1236       2.0193  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag     12.2107      14.2299  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     48.8426      63.0725  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     48.8426     111.9152  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     48.8426     160.7578  allocate_memory()/allocate.c/61
   1 2969 0                 P   3907.4097    4068.1674  allocate_memory()/allocate.c/67
   1 2970 0              SphP   2893.8010    6961.9685  allocate_memory()/allocate.c/85
   1 2971 0              MetP    678.9404    7640.9089  allocate_memory()/allocate.c/105
   1 2972 0               BHP     73.4932    7714.4021  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      5.0797    7719.5696  domain_allocate()/domain.c/570
   1 2976 0        domain_key     97.6852    7817.2549  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.3907    7817.6539  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.3907    7818.0446  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.3907    7818.4353  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.3907    7818.8261  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.3907    7819.2196  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.3907    7819.6131  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      5.4704    7825.0835  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 6.69144 MByte for top-level domain structure
use of 107.858 MB of temporary storage for domain decomposition... (presently allocated=7828.95 MB)
Before=112313
After=132649
NTopleaves= 116068  NTopnodes=132649 (space for 133160)
gravity work-load balance=1.01601   memory-balance=1.01601   SPH work-load balance=1.0148
iter=0 exchange of 0572613541 particles (ret=0)
domain decomposition done. (took 18.6712 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 0.0233917 MByte in top-level domain structure

Allocated 1624.81 MByte for BH-tree, and 0.442764 Mbyte for top-leaves.  (presently allocted 9346.32 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
Ngb-Tree contruction finished 
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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 9855.39 Mbyte (on task=34), Smallest = 9750.21 Mbyte, Average = 9807.37 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  34 2964 0  Sendcount_matrix      0.1236       2.0193  allocate_memory()/allocate.c/41
  34 2965 0     ProcessedFlag     12.2107      14.2299  allocate_memory()/allocate.c/52
  34 2966 0  NextActiveParticle     48.8426      63.0725  allocate_memory()/allocate.c/55
  34 2967 0     NextInTimeBin     48.8426     111.9152  allocate_memory()/allocate.c/58
  34 2968 0     PrevInTimeBin     48.8426     160.7578  allocate_memory()/allocate.c/61
  34 2969 0                 P   3907.4097    4068.1674  allocate_memory()/allocate.c/67
  34 2970 0              SphP   2893.8010    6961.9685  allocate_memory()/allocate.c/85
  34 2971 0              MetP    678.9404    7640.9089  allocate_memory()/allocate.c/105
  34 2972 0               BHP     73.4932    7714.4021  allocate_memory()/allocate.c/126
  34 2975 0          TopNodes      6.5782    7721.0682  domain_allocate()/domain.c/570
  34 2976 0   DomainNodeIndex      0.4428    7721.5109  force_treeallocate()/forcetree.c/4800
  34 2977 0        Nodes_base    832.7005    8554.2114  force_treeallocate()/forcetree.c/4803
  34 2978 0     Extnodes_base    693.9171    9248.1285  force_treeallocate()/forcetree.c/4811
  34 2979 0          Nextnode     49.3486    9297.4772  force_treeallocate()/forcetree.c/4820
  34 2980 0            Father     48.8426    9346.3198  force_treeallocate()/forcetree.c/4827
  34 2981 0           Ngblist     12.0083    9358.3281  density()/density.c/690
  34 2982 0              Left     24.0167    9382.3448  density()/density.c/692
  34 2983 0             Right     24.0167    9406.3615  density()/density.c/693
  34 2984 0    DataIndexTable      7.0175    9413.3790  density()/density.c/738
  34 2985 0      DataNodeList     18.7134    9432.0925  density()/density.c/740
  34 2986 0       DensDataGet    124.0744    9556.1669  density()/density.c/893
  34 2987 0    DensDataResult    163.5527    9719.7196  density()/density.c/931
  34 2988 0       DensDataOut    135.6724    9855.3920  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0002440624 particles.
ngb iteration 2: need to repeat for 0000000905 particles.
ngb iteration 3: need to repeat for 0000000260 particles.
ngb iteration 4: need to repeat for 0000000223 particles.
ngb iteration 5: need to repeat for 0000000103 particles.
ngb iteration 6: need to repeat for 0000000075 particles.
ngb iteration 7: need to repeat for 0000000034 particles.
ngb iteration 8: need to repeat for 0000000005 particles.
ngb iteration 9: need to repeat for 0000000002 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.155.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.211.hdf5

Begin to compute FoF group catalogues...  (presently allocated=9346.32 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7714.4 MB)
Allocated 6.69144 MByte for top-level domain structure
use of 107.858 MB of temporary storage for domain decomposition... (presently allocated=7828.95 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=7833.98 MB)
Before=124745
After=138657
NTopleaves= 121325  NTopnodes=138657 (space for 173108)
gravity work-load balance=1.01716   memory-balance=1.01716   SPH work-load balance=1.01816
iter=0 exchange of 0573089956 particles (ret=0)
domain decomposition done. (took 11.4106 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.57704 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=7721.37 MB)
Tree construction.

Start linking particles (presently allocated=9495.72 MB)
links on local processor done (took 10.8381 sec).
Marked=0050019437 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=9628.25 MB) 
have done 0000812300 cross links (processed 0050019437, took 5.55495 sec)
have done 0000349294 cross links (processed 0037641730, took 5.23219 sec)
have done 0000249215 cross links (processed 0031701215, took 3.92952 sec)
have done 0000165905 cross links (processed 0021308725, took 3.26351 sec)
have done 0000102028 cross links (processed 0012287617, took 4.52798 sec)
have done 0000061147 cross links (processed 0007041446, took 4.30556 sec)
have done 0000038534 cross links (processed 0004446760, took 3.80436 sec)
have done 0000021134 cross links (processed 0001136953, took 0.414005 sec)
have done 0000009265 cross links (processed 0000397476, took 0.451057 sec)
have done 0000003457 cross links (processed 0000051233, took 0.048712 sec)
have done 0000001402 cross links (processed 0000018600, took 0.046968 sec)
have done 0000000573 cross links (processed 0000006879, took 0.046694 sec)
have done 0000000263 cross links (processed 0000002990, took 0.045476 sec)
have done 0000000147 cross links (processed 0000002040, took 0.0460739 sec)
have done 0000000055 cross links (processed 0000000608, took 0.0450132 sec)
have done 0000000018 cross links (processed 0000000206, took 0.0449018 sec)
have done 0000000020 cross links (processed 0000000215, took 0.045186 sec)
have done 0000000011 cross links (processed 0000000097, took 0.044584 sec)
have done 0000000002 cross links (processed 0000000042, took 0.045316 sec)
have done 0000000000 cross links (processed 0000000005, took 0.0447531 sec)
Local groups found.

group finding took = 42.9708 sec
Start finding nearest dm-particle (presently allocated=9495.72 MB)
still finding nearest... (presently allocated=9614.72 MB)
fof-nearest iteration 1: need to repeat for 258267163 particles.
still finding nearest... (presently allocated=9615.44 MB)
fof-nearest iteration 2: need to repeat for 246168006 particles.
still finding nearest... (presently allocated=9619.79 MB)
fof-nearest iteration 3: need to repeat for 223262565 particles.
still finding nearest... (presently allocated=9626.29 MB)
fof-nearest iteration 4: need to repeat for 182717351 particles.
still finding nearest... (presently allocated=9631.48 MB)
fof-nearest iteration 5: need to repeat for 126299957 particles.
still finding nearest... (presently allocated=9634.34 MB)
fof-nearest iteration 6: need to repeat for 60849238 particles.
still finding nearest... (presently allocated=9630.22 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 12.5869 sec
compiling local group data and catalogue took = 1.31529 sec

Total number of groups with at least 32 particles: 168253
Largest group has 39440963 particles.
Total number of particles in groups: 0207080572

group properties are now allocated.. (presently allocated=7919.96 MB)
computation of group properties took = 0.201617 sec
start global sorting of group catalogues number 23
LargestGroup = 16003.713797; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0704019 sec
Group catalogues globally sorted. took = 1.14395 sec
starting saving of group catalogue number 23
data//groups_023_z000p199
Group catalogues number 23 saved. took = 3.31852 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (270926058).
tree build for species 0 took 0.866979 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0185946885 particles. (took 20.9048 sec)
ngb iteration 2: need to repeat for 0138114694 particles. (took 13.9436 sec)
ngb iteration 3: need to repeat for 0123781391 particles. (took 9.14398 sec)
ngb iteration 4: need to repeat for 0114170033 particles. (took 7.75269 sec)
ngb iteration 5: need to repeat for 0102034943 particles. (took 6.97864 sec)
ngb iteration 6: need to repeat for 0083676241 particles. (took 6.23956 sec)
ngb iteration 7: need to repeat for 0060789183 particles. (took 5.1757 sec)
ngb iteration 8: need to repeat for 0039337605 particles. (took 3.89508 sec)
ngb iteration 9: need to repeat for 0023316107 particles. (took 2.66035 sec)
ngb iteration 10: need to repeat for 0013026504 particles. (took 1.71588 sec)
ngb iteration 11: need to repeat for 0007020238 particles. (took 1.08057 sec)
ngb iteration 12: need to repeat for 0003704162 particles. (took 0.658323 sec)
ngb iteration 13: need to repeat for 0001935027 particles. (took 0.389324 sec)
ngb iteration 14: need to repeat for 0000902719 particles. (took 0.250471 sec)
ngb iteration 15: need to repeat for 0000263959 particles. (took 0.163814 sec)
ngb iteration 16: need to repeat for 0000088805 particles. (took 0.100847 sec)
ngb iteration 17: need to repeat for 0000038407 particles. (took 0.079288 sec)
ngb iteration 18: need to repeat for 0000021473 particles. (took 0.07127 sec)
ngb iteration 19: need to repeat for 0000013981 particles. (took 0.0679259 sec)
ngb iteration 20: need to repeat for 0000009824 particles. (took 0.066798 sec)
ngb iteration 21: need to repeat for 0000007118 particles. (took 0.0649211 sec)
ngb iteration 22: need to repeat for 0000005322 particles. (took 0.0639291 sec)
ngb iteration 23: need to repeat for 0000003979 particles. (took 0.0664351 sec)
ngb iteration 24: need to repeat for 0000002879 particles. (took 0.062655 sec)
ngb iteration 25: need to repeat for 0000002069 particles. (took 0.0621319 sec)
ngb iteration 26: need to repeat for 0000001445 particles. (took 0.0623391 sec)
ngb iteration 27: need to repeat for 0000000971 particles. (took 0.0618029 sec)
ngb iteration 28: need to repeat for 0000000628 particles. (took 0.062207 sec)
ngb iteration 29: need to repeat for 0000000357 particles. (took 0.062161 sec)
ngb iteration 30: need to repeat for 0000000204 particles. (took 0.061877 sec)
ngb iteration 31: need to repeat for 0000000093 particles. (took 0.0622859 sec)
ngb iteration 32: need to repeat for 0000000055 particles. (took 0.0618069 sec)
ngb iteration 33: need to repeat for 0000000025 particles. (took 0.061934 sec)
ngb iteration 34: need to repeat for 0000000012 particles. (took 0.0622709 sec)
ngb iteration 35: need to repeat for 0000000006 particles. (took 0.061754 sec)
ngb iteration 36: need to repeat for 0000000002 particles. (took 0.0620182 sec)
ngb iteration 37: need to repeat for 0000000001 particles. (took 0.0617249 sec)
final operations ... 
density and smoothing length for species 0 took 82.9067 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.97764 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0191209284 particles. (took 31.6286 sec)
ngb iteration 2: need to repeat for 0140215344 particles. (took 14.9634 sec)
ngb iteration 3: need to repeat for 0119034880 particles. (took 10.0627 sec)
ngb iteration 4: need to repeat for 0106880114 particles. (took 7.87971 sec)
ngb iteration 5: need to repeat for 0095176873 particles. (took 6.74574 sec)
ngb iteration 6: need to repeat for 0079388262 particles. (took 5.92886 sec)
ngb iteration 7: need to repeat for 0060024921 particles. (took 5.02075 sec)
ngb iteration 8: need to repeat for 0041202979 particles. (took 3.8665 sec)
ngb iteration 9: need to repeat for 0026213618 particles. (took 2.76242 sec)
ngb iteration 10: need to repeat for 0015822573 particles. (took 1.87292 sec)
ngb iteration 11: need to repeat for 0009241848 particles. (took 1.23864 sec)
ngb iteration 12: need to repeat for 0005308882 particles. (took 0.798453 sec)
ngb iteration 13: need to repeat for 0003031609 particles. (took 0.504395 sec)
ngb iteration 14: need to repeat for 0001650030 particles. (took 0.318469 sec)
ngb iteration 15: need to repeat for 0000778776 particles. (took 0.206084 sec)
ngb iteration 16: need to repeat for 0000399009 particles. (took 0.129556 sec)
ngb iteration 17: need to repeat for 0000217173 particles. (took 0.0971961 sec)
ngb iteration 18: need to repeat for 0000120840 particles. (took 0.082186 sec)
ngb iteration 19: need to repeat for 0000067457 particles. (took 0.0743341 sec)
ngb iteration 20: need to repeat for 0000037121 particles. (took 0.071368 sec)
ngb iteration 21: need to repeat for 0000019848 particles. (took 0.0685251 sec)
ngb iteration 22: need to repeat for 0000010364 particles. (took 0.0673869 sec)
ngb iteration 23: need to repeat for 0000005097 particles. (took 0.065804 sec)
ngb iteration 24: need to repeat for 0000002435 particles. (took 0.0657818 sec)
ngb iteration 25: need to repeat for 0000001058 particles. (took 0.064898 sec)
ngb iteration 26: need to repeat for 0000000455 particles. (took 0.0644751 sec)
ngb iteration 27: need to repeat for 0000000168 particles. (took 0.064425 sec)
ngb iteration 28: need to repeat for 0000000061 particles. (took 0.0644891 sec)
ngb iteration 29: need to repeat for 0000000022 particles. (took 0.0644212 sec)
ngb iteration 30: need to repeat for 0000000006 particles. (took 0.064698 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.0643251 sec)
final operations ... 
density and smoothing length for species 1 took 95.4957 sec
Tree construction for species 4 (15696740).
tree build for species 4 took 0.188224 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0010367140 particles. (took 6.17156 sec)
ngb iteration 2: need to repeat for 0008076292 particles. (took 2.61262 sec)
ngb iteration 3: need to repeat for 0006616531 particles. (took 1.97222 sec)
ngb iteration 4: need to repeat for 0005730827 particles. (took 1.5238 sec)
ngb iteration 5: need to repeat for 0005067461 particles. (took 1.22481 sec)
ngb iteration 6: need to repeat for 0004393743 particles. (took 1.00543 sec)
ngb iteration 7: need to repeat for 0003623691 particles. (took 0.838942 sec)
ngb iteration 8: need to repeat for 0002836020 particles. (took 0.68375 sec)
ngb iteration 9: need to repeat for 0002122029 particles. (took 0.567117 sec)
ngb iteration 10: need to repeat for 0001541247 particles. (took 0.446119 sec)
ngb iteration 11: need to repeat for 0001102317 particles. (took 0.349877 sec)
ngb iteration 12: need to repeat for 0000777944 particles. (took 0.278746 sec)
ngb iteration 13: need to repeat for 0000546073 particles. (took 0.249386 sec)
ngb iteration 14: need to repeat for 0000379123 particles. (took 0.211494 sec)
ngb iteration 15: need to repeat for 0000259619 particles. (took 0.196205 sec)
ngb iteration 16: need to repeat for 0000180877 particles. (took 0.167014 sec)
ngb iteration 17: need to repeat for 0000127497 particles. (took 0.148948 sec)
ngb iteration 18: need to repeat for 0000090901 particles. (took 0.125043 sec)
ngb iteration 19: need to repeat for 0000065843 particles. (took 0.110932 sec)
ngb iteration 20: need to repeat for 0000048628 particles. (took 0.100644 sec)
ngb iteration 21: need to repeat for 0000035788 particles. (took 0.0957 sec)
ngb iteration 22: need to repeat for 0000026004 particles. (took 0.092706 sec)
ngb iteration 23: need to repeat for 0000019046 particles. (took 0.091114 sec)
ngb iteration 24: need to repeat for 0000014134 particles. (took 0.0876729 sec)
ngb iteration 25: need to repeat for 0000010475 particles. (took 0.0856431 sec)
ngb iteration 26: need to repeat for 0000007765 particles. (took 0.0870879 sec)
ngb iteration 27: need to repeat for 0000005688 particles. (took 0.083595 sec)
ngb iteration 28: need to repeat for 0000004131 particles. (took 0.0838909 sec)
ngb iteration 29: need to repeat for 0000002858 particles. (took 0.083519 sec)
ngb iteration 30: need to repeat for 0000001909 particles. (took 0.08342 sec)
ngb iteration 31: need to repeat for 0000001206 particles. (took 0.083257 sec)
ngb iteration 32: need to repeat for 0000000715 particles. (took 0.0830019 sec)
ngb iteration 33: need to repeat for 0000000419 particles. (took 0.08285 sec)
ngb iteration 34: need to repeat for 0000000224 particles. (took 0.0830719 sec)
ngb iteration 35: need to repeat for 0000000111 particles. (took 0.0833049 sec)
ngb iteration 36: need to repeat for 0000000059 particles. (took 0.082911 sec)
ngb iteration 37: need to repeat for 0000000028 particles. (took 0.0829902 sec)
ngb iteration 38: need to repeat for 0000000011 particles. (took 0.0828948 sec)
ngb iteration 39: need to repeat for 0000000003 particles. (took 0.0829148 sec)
ngb iteration 40: need to repeat for 0000000001 particles. (took 0.082983 sec)
ngb iteration 41: need to repeat for 0000000001 particles. (took 0.082804 sec)
ngb iteration 42: need to repeat for 0000000001 particles. (took 0.0832658 sec)
final operations ... 
density and smoothing length for species 4 took 21.2858 sec
Tree construction.
tree build took 1.93898 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000024091 particles. (took 0.134087 sec)
ngb iteration 2: need to repeat for 0000021625 particles. (took 0.104135 sec)
ngb iteration 3: need to repeat for 0000014580 particles. (took 0.103706 sec)
ngb iteration 4: need to repeat for 0000010422 particles. (took 0.10154 sec)
ngb iteration 5: need to repeat for 0000008953 particles. (took 0.100836 sec)
ngb iteration 6: need to repeat for 0000007752 particles. (took 0.0991502 sec)
ngb iteration 7: need to repeat for 0000006400 particles. (took 0.0966721 sec)
ngb iteration 8: need to repeat for 0000004867 particles. (took 0.0947711 sec)
ngb iteration 9: need to repeat for 0000003424 particles. (took 0.0941892 sec)
ngb iteration 10: need to repeat for 0000002328 particles. (took 0.0925961 sec)
ngb iteration 11: need to repeat for 0000001497 particles. (took 0.0910261 sec)
ngb iteration 12: need to repeat for 0000000952 particles. (took 0.0901799 sec)
ngb iteration 13: need to repeat for 0000000624 particles. (took 0.088371 sec)
ngb iteration 14: need to repeat for 0000000391 particles. (took 0.0874891 sec)
ngb iteration 15: need to repeat for 0000000255 particles. (took 0.087106 sec)
ngb iteration 16: need to repeat for 0000000173 particles. (took 0.0860641 sec)
ngb iteration 17: need to repeat for 0000000108 particles. (took 0.0854568 sec)
ngb iteration 18: need to repeat for 0000000069 particles. (took 0.084548 sec)
ngb iteration 19: need to repeat for 0000000049 particles. (took 0.0844491 sec)
ngb iteration 20: need to repeat for 0000000033 particles. (took 0.0838878 sec)
ngb iteration 21: need to repeat for 0000000021 particles. (took 0.0826321 sec)
ngb iteration 22: need to repeat for 0000000014 particles. (took 0.083075 sec)
ngb iteration 23: need to repeat for 0000000013 particles. (took 0.0830021 sec)
ngb iteration 24: need to repeat for 0000000009 particles. (took 0.082648 sec)
ngb iteration 25: need to repeat for 0000000007 particles. (took 0.0827131 sec)
ngb iteration 26: need to repeat for 0000000005 particles. (took 0.082907 sec)
ngb iteration 27: need to repeat for 0000000004 particles. (took 0.0833762 sec)
ngb iteration 28: need to repeat for 0000000003 particles. (took 0.0831451 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.0831339 sec)
final operations ... 
density and smoothing length for species 5 took 3.05925 sec
Tree construction for species 0 (270926058).
tree build for species 0 took 0.876838 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 46.8799 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.969558 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 21.7961 sec
Tree construction for species 4 (15696740).
tree build for species 4 took 0.191807 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 8.0386 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.090416 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 6.03136 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.79151 sec
saving densities took 3.97023 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 8962660 particles.)
the other 168252 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 29508 - 124856038 

subfind_exchange()() took 3.47549 sec

collectively doing halo 1, num=23
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=12254.9 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=12374.5 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 12374.5 Mbyte (on task=0), Smallest = 8082.05 Mbyte, Average = 8162.64 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8426      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8426     111.9141  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8426     160.7567  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4097    4068.1664  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2893.8010    6961.9674  allocate_memory()/allocate.c/85
   0 2971 0              MetP    678.9404    7640.9079  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.4932    7714.4010  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8762    7721.3651  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     74.0236    7795.3887  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    123.3727    7918.7614  fof_fof()/fof.c/337
   0 2978 0             Group      1.2005    7919.9619  fof_fof()/fof.c/380
   0 2979 0          SubGroup   4334.9258   12254.8878  subfind()/subfind.c/376
   0 2982 0          TopNodes      8.5846   12263.5603  domain_allocate()/domain.c/570
   0 2983 0        domain_key     97.6852   12361.2455  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      0.6604   12361.9141  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      0.6604   12362.5745  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      0.6604   12363.2348  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      0.6604   12363.8952  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      0.6604   12364.5583  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      0.6604   12365.2214  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes      9.2450   12374.4663  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=88537
After=117625
NTopleaves= 102922  NTopnodes=117625 (space for 173108)
gravity work-load balance=1.02088   memory-balance=1.02088   SPH work-load balance=1.01857
iter=0 exchange of 0039200488 particles (ret=0)
domain decomposition done. (took 2.49045 sec)
Freed 2.53981 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 13883.4 Mbyte (on task=0), Smallest = 9591.01 Mbyte, Average = 9671.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8426      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8426     111.9141  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8426     160.7567  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4097    4068.1664  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2893.8010    6961.9674  allocate_memory()/allocate.c/85
   0 2971 0              MetP    678.9404    7640.9079  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.4932    7714.4010  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8762    7721.3651  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     74.0236    7795.3887  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    123.3727    7918.7614  fof_fof()/fof.c/337
   0 2978 0             Group      1.2005    7919.9619  fof_fof()/fof.c/380
   0 2979 0          SubGroup   4334.9258   12254.8878  subfind()/subfind.c/376
   0 2982 0          TopNodes      5.8332   12260.8088  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.3926   12261.2014  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    831.3250   13092.5264  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    692.7708   13785.2973  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     49.2913   13834.5886  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     48.8426   13883.4312  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 3.15129 sec  (presently allocated=13883.4 MB)
force_treebuild() took 5.07885 sec (presently allocated=13883.4 MB)
Start find_linkngb (216812 particles on task=0)
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8426      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8426     111.9141  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8426     160.7567  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4097    4068.1664  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2893.8010    6961.9674  allocate_memory()/allocate.c/85
   0 2971 0              MetP    678.9404    7640.9079  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.4932    7714.4010  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8762    7721.3651  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     74.0236    7795.3887  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    123.3727    7918.7614  fof_fof()/fof.c/337
   0 2978 0             Group      1.2005    7919.9619  fof_fof()/fof.c/380
   0 2979 0          SubGroup   4334.9258   12254.8878  subfind()/subfind.c/376
   0 2982 0          TopNodes      5.8332   12260.8088  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.3926   12261.2014  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    831.3250   13092.5264  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    692.7708   13785.2973  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     49.2913   13834.5886  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     48.8426   13883.4312  force_treeallocate()/forcetree.c/4827
   0 2988 0           Ngblist      0.8271   13884.2583  subfind_find_linkngb()/subfind_findlinkngb.c/53
   0 2989 0         Dist2list      1.6541   13885.9125  subfind_find_linkngb()/subfind_findlinkngb.c/54
   0 2990 0    DataIndexTable     27.2727   13913.1852  subfind_find_linkngb()/subfind_findlinkngb.c/62
   0 2991 0      DataNodeList     72.7273   13985.9124  subfind_find_linkngb()/subfind_findlinkngb.c/64
   0 2992 0              Left      1.6541   13987.5666  subfind_find_linkngb()/subfind_findlinkngb.c/66
   0 2993 0             Right      1.6541   13989.2207  subfind_find_linkngb()/subfind_findlinkngb.c/67
   0 2994 0              Todo      0.2068   13989.4275  subfind_find_linkngb()/subfind_findlinkngb.c/68
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 26.5917 MB for variable '	  LinkngbDataGet' at subfind_find_linkngb()/subfind_findlinkngb.c/line 123 (FreeBytes=10.5725 MB).
task 0: endrun called with an error level of 812


application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
task 0: endrun called with an error level of 124


    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63034.71 Mb (on task=56), Smallest =   62822.58 Mb (on task=0), Average =   62978.37 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=44), Smallest =   64531.71 Mb (on task=56), Average =   64532.01 Mb
Committed_AS:	 Largest =    1709.41 Mb (on task=0), Smallest =    1497.00 Mb (on task=56), Average =    1553.64 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=8), Smallest =   16266.04 Mb (on task=24), Average =   16310.12 Mb
AllocMem:	 Largest =    1709.41 Mb (on task=0), Smallest =    1497.00 Mb (on task=56), Average =    1553.64 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 180 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N4':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         14000
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 4066.15 MByte for particle storage.

Allocated 2895.82 MByte for storage of SPH data.

Allocated 677.797 MByte for storage of MET data.

Allocated 73.5444 MByte for storage of BH data.


reading file `data//snapshot_022_z000p247/snap_022_z000p247.0.hdf5' on task=0 (contains 36410087 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   16960155  (tot=     0271114751) masstab=0
Type 1 (halo):  18148554  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13362  (tot=     0000254233) masstab=0
Type 3 (bulge):   297082  (tot=     0002602064) masstab=0
Type 4 (stars):   989026  (tot=     0015509063) masstab=0
Type 5 (bndry):     1908  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.15.hdf5' on task=174 (contains 35905404 particles.)
distributing this file to tasks 174-179
Type 0 (gas):   16986785  (tot=     0271114751) masstab=0
Type 1 (halo):  17821183  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     23339  (tot=     0000254233) masstab=0
Type 3 (bulge):   206562  (tot=     0002602064) masstab=0
Type 4 (stars):   865656  (tot=     0015509063) masstab=0
Type 5 (bndry):     1879  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.7.hdf5' on task=84 (contains 35809254 particles.)
distributing this file to tasks 84-89
Type 0 (gas):   16973031  (tot=     0271114751) masstab=0
Type 1 (halo):  17588645  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14065  (tot=     0000254233) masstab=0
Type 3 (bulge):   225890  (tot=     0002602064) masstab=0
Type 4 (stars):  1005790  (tot=     0015509063) masstab=0
Type 5 (bndry):     1833  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.9.hdf5' on task=112 (contains 35747682 particles.)
distributing this file to tasks 112-122
Type 0 (gas):   16944918  (tot=     0271114751) masstab=0
Type 1 (halo):  17495604  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11469  (tot=     0000254233) masstab=0
Type 3 (bulge):   243195  (tot=     0002602064) masstab=0
Type 4 (stars):  1050647  (tot=     0015509063) masstab=0
Type 5 (bndry):     1849  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.6.hdf5' on task=78 (contains 36032949 particles.)
distributing this file to tasks 78-83
Type 0 (gas):   16983981  (tot=     0271114751) masstab=0
Type 1 (halo):  18039766  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      7745  (tot=     0000254233) masstab=0
Type 3 (bulge):   130695  (tot=     0002602064) masstab=0
Type 4 (stars):   868907  (tot=     0015509063) masstab=0
Type 5 (bndry):     1855  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.1.hdf5' on task=22 (contains 36185235 particles.)
distributing this file to tasks 22-32
Type 0 (gas):   16888659  (tot=     0271114751) masstab=0
Type 1 (halo):  18035817  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15180  (tot=     0000254233) masstab=0
Type 3 (bulge):   205272  (tot=     0002602064) masstab=0
Type 4 (stars):  1038332  (tot=     0015509063) masstab=0
Type 5 (bndry):     1975  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.11.hdf5' on task=129 (contains 36065264 particles.)
distributing this file to tasks 129-134
Type 0 (gas):   16996865  (tot=     0271114751) masstab=0
Type 1 (halo):  17928423  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21311  (tot=     0000254233) masstab=0
Type 3 (bulge):   131134  (tot=     0002602064) masstab=0
Type 4 (stars):   985672  (tot=     0015509063) masstab=0
Type 5 (bndry):     1859  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.14.hdf5' on task=168 (contains 35900236 particles.)
distributing this file to tasks 168-173
Type 0 (gas):   16914603  (tot=     0271114751) masstab=0
Type 1 (halo):  17929480  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     31694  (tot=     0000254233) masstab=0
Type 3 (bulge):   147107  (tot=     0002602064) masstab=0
Type 4 (stars):   875300  (tot=     0015509063) masstab=0
Type 5 (bndry):     2052  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.5.hdf5' on task=67 (contains 36072930 particles.)
distributing this file to tasks 67-77
Type 0 (gas):   16810426  (tot=     0271114751) masstab=0
Type 1 (halo):  18174736  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13780  (tot=     0000254233) masstab=0
Type 3 (bulge):   125314  (tot=     0002602064) masstab=0
Type 4 (stars):   946689  (tot=     0015509063) masstab=0
Type 5 (bndry):     1985  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.2.hdf5' on task=33 (contains 35863395 particles.)
distributing this file to tasks 33-38
Type 0 (gas):   17035498  (tot=     0271114751) masstab=0
Type 1 (halo):  17701628  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     24922  (tot=     0000254233) masstab=0
Type 3 (bulge):    61851  (tot=     0002602064) masstab=0
Type 4 (stars):  1037637  (tot=     0015509063) masstab=0
Type 5 (bndry):     1859  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.8.hdf5' on task=90 (contains 35934404 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   16988687  (tot=     0271114751) masstab=0
Type 1 (halo):  17914675  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15551  (tot=     0000254233) masstab=0
Type 3 (bulge):    39955  (tot=     0002602064) masstab=0
Type 4 (stars):   973801  (tot=     0015509063) masstab=0
Type 5 (bndry):     1735  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.13.hdf5' on task=157 (contains 35930657 particles.)
distributing this file to tasks 157-167
Type 0 (gas):   16915251  (tot=     0271114751) masstab=0
Type 1 (halo):  18105527  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9956  (tot=     0000254233) masstab=0
Type 3 (bulge):      237  (tot=     0002602064) masstab=0
Type 4 (stars):   897738  (tot=     0015509063) masstab=0
Type 5 (bndry):     1948  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.4.hdf5' on task=45 (contains 36037690 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   16961345  (tot=     0271114751) masstab=0
Type 1 (halo):  17741570  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11100  (tot=     0000254233) masstab=0
Type 3 (bulge):   259054  (tot=     0002602064) masstab=0
Type 4 (stars):  1062710  (tot=     0015509063) masstab=0
Type 5 (bndry):     1911  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.12.hdf5' on task=135 (contains 36063070 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   16927547  (tot=     0271114751) masstab=0
Type 1 (halo):  18010678  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20758  (tot=     0000254233) masstab=0
Type 3 (bulge):    75976  (tot=     0002602064) masstab=0
Type 4 (stars):  1026196  (tot=     0015509063) masstab=0
Type 5 (bndry):     1915  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.10.hdf5' on task=123 (contains 35996509 particles.)
distributing this file to tasks 123-128
Type 0 (gas):   16859152  (tot=     0271114751) masstab=0
Type 1 (halo):  18006883  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10089  (tot=     0000254233) masstab=0
Type 3 (bulge):   207747  (tot=     0002602064) masstab=0
Type 4 (stars):   910777  (tot=     0015509063) masstab=0
Type 5 (bndry):     1861  (tot=     0000030321) masstab=0


reading file `data//snapshot_022_z000p247/snap_022_z000p247.3.hdf5' on task=39 (contains 36216396 particles.)
distributing this file to tasks 39-44
Type 0 (gas):   16967848  (tot=     0271114751) masstab=0
Type 1 (halo):  18017561  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9912  (tot=     0000254233) masstab=0
Type 3 (bulge):   244993  (tot=     0002602064) masstab=0
Type 4 (stars):   974185  (tot=     0015509063) masstab=0
Type 5 (bndry):     1897  (tot=     0000030321) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576171162


Setting next time for grid output file to Time_next= 0.814267

Setting next time for line of sight file to Time_next= 0.803424

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.80248 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7715.33 MB)
Allocated 5.16755 MByte for top-level domain structure
use of 105.514 MB of temporary storage for domain decomposition... (presently allocated=7826.01 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 7826.01 Mbyte (on task=1), Smallest = 7826.01 Mbyte, Average = 7826.01 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.1236       2.0193  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag     12.2107      14.2299  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     48.8426      63.0725  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     48.8426     111.9152  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     48.8426     160.7578  allocate_memory()/allocate.c/61
   1 2969 0                 P   3907.4097    4068.1674  allocate_memory()/allocate.c/67
   1 2970 0              SphP   2895.8178    6963.9853  allocate_memory()/allocate.c/85
   1 2971 0              MetP    677.7968    7641.7820  allocate_memory()/allocate.c/105
   1 2972 0               BHP     73.5444    7715.3265  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      5.0797    7720.4940  domain_allocate()/domain.c/570
   1 2976 0        domain_key     97.6852    7818.1793  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.3907    7818.5783  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.3907    7818.9690  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.3907    7819.3598  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.3907    7819.7505  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.3907    7820.1440  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.3907    7820.5375  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      5.4704    7826.0079  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 6.69144 MByte for top-level domain structure
use of 107.858 MB of temporary storage for domain decomposition... (presently allocated=7829.88 MB)
Before=112969
After=132617
NTopleaves= 116040  NTopnodes=132617 (space for 133160)
gravity work-load balance=1.01405   memory-balance=1.01406   SPH work-load balance=1.01339
iter=0 exchange of 0572828067 particles (ret=0)
domain decomposition done. (took 18.9529 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 0.0248566 MByte in top-level domain structure

Allocated 1624.8 MByte for BH-tree, and 0.442657 Mbyte for top-leaves.  (presently allocted 9347.24 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 9856.81 Mbyte (on task=121), Smallest = 9758.59 Mbyte, Average = 9808.29 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 121 2964 0  Sendcount_matrix      0.1236       2.0193  allocate_memory()/allocate.c/41
 121 2965 0     ProcessedFlag     12.2107      14.2299  allocate_memory()/allocate.c/52
 121 2966 0  NextActiveParticle     48.8426      63.0725  allocate_memory()/allocate.c/55
 121 2967 0     NextInTimeBin     48.8426     111.9152  allocate_memory()/allocate.c/58
 121 2968 0     PrevInTimeBin     48.8426     160.7578  allocate_memory()/allocate.c/61
 121 2969 0                 P   3907.4097    4068.1674  allocate_memory()/allocate.c/67
 121 2970 0              SphP   2895.8178    6963.9853  allocate_memory()/allocate.c/85
 121 2971 0              MetP    677.7968    7641.7820  allocate_memory()/allocate.c/105
 121 2972 0               BHP     73.5444    7715.3265  allocate_memory()/allocate.c/126
 121 2975 0          TopNodes      6.5766    7721.9910  domain_allocate()/domain.c/570
 121 2976 0   DomainNodeIndex      0.4427    7722.4336  force_treeallocate()/forcetree.c/4800
 121 2977 0        Nodes_base    832.6976    8555.1312  force_treeallocate()/forcetree.c/4803
 121 2978 0     Extnodes_base    693.9146    9249.0459  force_treeallocate()/forcetree.c/4811
 121 2979 0          Nextnode     49.3485    9298.3944  force_treeallocate()/forcetree.c/4820
 121 2980 0            Father     48.8426    9347.2370  force_treeallocate()/forcetree.c/4827
 121 2981 0           Ngblist     12.1753    9359.4123  density()/density.c/690
 121 2982 0              Left     24.3505    9383.7628  density()/density.c/692
 121 2983 0             Right     24.3505    9408.1133  density()/density.c/693
 121 2984 0    DataIndexTable      7.0175    9415.1308  density()/density.c/738
 121 2985 0      DataNodeList     18.7134    9433.8443  density()/density.c/740
 121 2986 0       DensDataGet    123.9316    9557.7759  density()/density.c/893
 121 2987 0    DensDataResult    163.3644    9721.1403  density()/density.c/931
 121 2988 0       DensDataOut    135.6724    9856.8127  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0003335629 particles.
ngb iteration 2: need to repeat for 0000000545 particles.
ngb iteration 3: need to repeat for 0000000213 particles.
ngb iteration 4: need to repeat for 0000000138 particles.
ngb iteration 5: need to repeat for 0000000044 particles.
ngb iteration 6: need to repeat for 0000000035 particles.
ngb iteration 7: need to repeat for 0000000021 particles.
ngb iteration 8: need to repeat for 0000000005 particles.
ngb iteration 9: need to repeat for 0000000003 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.211.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.271.hdf5

Begin to compute FoF group catalogues...  (presently allocated=9347.24 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7715.33 MB)
Allocated 6.69144 MByte for top-level domain structure
use of 107.858 MB of temporary storage for domain decomposition... (presently allocated=7829.88 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=7834.9 MB)
Before=124169
After=138025
NTopleaves= 120772  NTopnodes=138025 (space for 173108)
gravity work-load balance=1.01303   memory-balance=1.01304   SPH work-load balance=1.012
iter=0 exchange of 0572891949 particles (ret=0)
domain decomposition done. (took 11.4024 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.60597 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=7722.26 MB)
Tree construction.

Start linking particles (presently allocated=9494.28 MB)
links on local processor done (took 11.6064 sec).
Marked=0049693429 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=9626.13 MB) 
have done 0000809729 cross links (processed 0049693429, took 4.87477 sec)
have done 0000341819 cross links (processed 0037206768, took 4.40381 sec)
have done 0000240037 cross links (processed 0030819368, took 4.51457 sec)
have done 0000159119 cross links (processed 0021458018, took 3.81039 sec)
have done 0000105511 cross links (processed 0014625868, took 3.41035 sec)
have done 0000068619 cross links (processed 0008892286, took 3.03652 sec)
have done 0000044122 cross links (processed 0003757944, took 2.33382 sec)
have done 0000025426 cross links (processed 0001343228, took 1.08305 sec)
have done 0000012561 cross links (processed 0000475235, took 0.645368 sec)
have done 0000005413 cross links (processed 0000118136, took 0.0658281 sec)
have done 0000002169 cross links (processed 0000042109, took 0.0525839 sec)
have done 0000000816 cross links (processed 0000010828, took 0.0471292 sec)
have done 0000000323 cross links (processed 0000004504, took 0.0470231 sec)
have done 0000000183 cross links (processed 0000002652, took 0.0466599 sec)
have done 0000000085 cross links (processed 0000002944, took 0.0505941 sec)
have done 0000000036 cross links (processed 0000000348, took 0.0453591 sec)
have done 0000000015 cross links (processed 0000000139, took 0.0458789 sec)
have done 0000000002 cross links (processed 0000000071, took 0.04547 sec)
have done 0000000001 cross links (processed 0000000010, took 0.045753 sec)
have done 0000000000 cross links (processed 0000000003, took 0.0456679 sec)
Local groups found.

group finding took = 40.4053 sec
Start finding nearest dm-particle (presently allocated=9494.28 MB)
still finding nearest... (presently allocated=9612.74 MB)
fof-nearest iteration 1: need to repeat for 258131768 particles.
still finding nearest... (presently allocated=9614.06 MB)
fof-nearest iteration 2: need to repeat for 245578445 particles.
still finding nearest... (presently allocated=9618.02 MB)
fof-nearest iteration 3: need to repeat for 223378084 particles.
still finding nearest... (presently allocated=9625.02 MB)
fof-nearest iteration 4: need to repeat for 184019206 particles.
still finding nearest... (presently allocated=9631.01 MB)
fof-nearest iteration 5: need to repeat for 127451083 particles.
still finding nearest... (presently allocated=9630.34 MB)
fof-nearest iteration 6: need to repeat for 61244108 particles.
still finding nearest... (presently allocated=9623.25 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 12.7078 sec
compiling local group data and catalogue took = 2.02952 sec

Total number of groups with at least 32 particles: 170567
Largest group has 37544690 particles.
Total number of particles in groups: 0203361110

group properties are now allocated.. (presently allocated=7918.06 MB)
computation of group properties took = 0.244684 sec
start global sorting of group catalogues number 22
LargestGroup = 15371.589948; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.068187 sec
Group catalogues globally sorted. took = 1.23422 sec
starting saving of group catalogue number 22
data//groups_022_z000p247
Group catalogues number 22 saved. took = 3.39613 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (271114751).
tree build for species 0 took 0.869097 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0185945700 particles. (took 21.5321 sec)
ngb iteration 2: need to repeat for 0138311000 particles. (took 13.9516 sec)
ngb iteration 3: need to repeat for 0123794190 particles. (took 9.25609 sec)
ngb iteration 4: need to repeat for 0114159586 particles. (took 7.7596 sec)
ngb iteration 5: need to repeat for 0102073578 particles. (took 7.0074 sec)
ngb iteration 6: need to repeat for 0083772009 particles. (took 6.25467 sec)
ngb iteration 7: need to repeat for 0060947670 particles. (took 5.19357 sec)
ngb iteration 8: need to repeat for 0039506839 particles. (took 3.92556 sec)
ngb iteration 9: need to repeat for 0023458790 particles. (took 2.68832 sec)
ngb iteration 10: need to repeat for 0013130072 particles. (took 1.73753 sec)
ngb iteration 11: need to repeat for 0007085340 particles. (took 1.09691 sec)
ngb iteration 12: need to repeat for 0003743353 particles. (took 0.666082 sec)
ngb iteration 13: need to repeat for 0001958292 particles. (took 0.395654 sec)
ngb iteration 14: need to repeat for 0000919441 particles. (took 0.254946 sec)
ngb iteration 15: need to repeat for 0000273928 particles. (took 0.164752 sec)
ngb iteration 16: need to repeat for 0000092419 particles. (took 0.0977151 sec)
ngb iteration 17: need to repeat for 0000039677 particles. (took 0.075752 sec)
ngb iteration 18: need to repeat for 0000021561 particles. (took 0.0689261 sec)
ngb iteration 19: need to repeat for 0000013356 particles. (took 0.065474 sec)
ngb iteration 20: need to repeat for 0000009075 particles. (took 0.0644851 sec)
ngb iteration 21: need to repeat for 0000006362 particles. (took 0.0639999 sec)
ngb iteration 22: need to repeat for 0000004614 particles. (took 0.062948 sec)
ngb iteration 23: need to repeat for 0000003381 particles. (took 0.0630429 sec)
ngb iteration 24: need to repeat for 0000002513 particles. (took 0.062325 sec)
ngb iteration 25: need to repeat for 0000001871 particles. (took 0.062264 sec)
ngb iteration 26: need to repeat for 0000001378 particles. (took 0.0620871 sec)
ngb iteration 27: need to repeat for 0000000958 particles. (took 0.062778 sec)
ngb iteration 28: need to repeat for 0000000649 particles. (took 0.062258 sec)
ngb iteration 29: need to repeat for 0000000417 particles. (took 0.0622151 sec)
ngb iteration 30: need to repeat for 0000000249 particles. (took 0.0619888 sec)
ngb iteration 31: need to repeat for 0000000139 particles. (took 0.0623841 sec)
ngb iteration 32: need to repeat for 0000000076 particles. (took 0.062284 sec)
ngb iteration 33: need to repeat for 0000000038 particles. (took 0.0619431 sec)
ngb iteration 34: need to repeat for 0000000018 particles. (took 0.0619161 sec)
ngb iteration 35: need to repeat for 0000000013 particles. (took 0.062484 sec)
ngb iteration 36: need to repeat for 0000000007 particles. (took 0.0619869 sec)
ngb iteration 37: need to repeat for 0000000002 particles. (took 0.0623052 sec)
final operations ... 
density and smoothing length for species 0 took 83.8155 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.998255 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0191082819 particles. (took 31.7727 sec)
ngb iteration 2: need to repeat for 0140326744 particles. (took 15.3391 sec)
ngb iteration 3: need to repeat for 0119023941 particles. (took 10.0994 sec)
ngb iteration 4: need to repeat for 0106840019 particles. (took 7.86198 sec)
ngb iteration 5: need to repeat for 0095166015 particles. (took 6.72726 sec)
ngb iteration 6: need to repeat for 0079442123 particles. (took 5.93078 sec)
ngb iteration 7: need to repeat for 0060133703 particles. (took 4.9555 sec)
ngb iteration 8: need to repeat for 0041332912 particles. (took 3.79447 sec)
ngb iteration 9: need to repeat for 0026326420 particles. (took 2.73993 sec)
ngb iteration 10: need to repeat for 0015893444 particles. (took 1.87679 sec)
ngb iteration 11: need to repeat for 0009290933 particles. (took 1.25168 sec)
ngb iteration 12: need to repeat for 0005338635 particles. (took 0.813501 sec)
ngb iteration 13: need to repeat for 0003052381 particles. (took 0.514048 sec)
ngb iteration 14: need to repeat for 0001664715 particles. (took 0.333425 sec)
ngb iteration 15: need to repeat for 0000791155 particles. (took 0.219289 sec)
ngb iteration 16: need to repeat for 0000406339 particles. (took 0.140088 sec)
ngb iteration 17: need to repeat for 0000220911 particles. (took 0.106491 sec)
ngb iteration 18: need to repeat for 0000124231 particles. (took 0.0874739 sec)
ngb iteration 19: need to repeat for 0000069681 particles. (took 0.079284 sec)
ngb iteration 20: need to repeat for 0000038518 particles. (took 0.0755949 sec)
ngb iteration 21: need to repeat for 0000020561 particles. (took 0.0755861 sec)
ngb iteration 22: need to repeat for 0000010523 particles. (took 0.074985 sec)
ngb iteration 23: need to repeat for 0000005222 particles. (took 0.0697062 sec)
ngb iteration 24: need to repeat for 0000002451 particles. (took 0.06653 sec)
ngb iteration 25: need to repeat for 0000001101 particles. (took 0.0652721 sec)
ngb iteration 26: need to repeat for 0000000485 particles. (took 0.0650969 sec)
ngb iteration 27: need to repeat for 0000000213 particles. (took 0.0645142 sec)
ngb iteration 28: need to repeat for 0000000090 particles. (took 0.064867 sec)
ngb iteration 29: need to repeat for 0000000038 particles. (took 0.0651011 sec)
ngb iteration 30: need to repeat for 0000000011 particles. (took 0.0648582 sec)
ngb iteration 31: need to repeat for 0000000008 particles. (took 0.0654809 sec)
ngb iteration 32: need to repeat for 0000000003 particles. (took 0.064863 sec)
ngb iteration 33: need to repeat for 0000000002 particles. (took 0.0649581 sec)
ngb iteration 34: need to repeat for 0000000001 particles. (took 0.0647528 sec)
final operations ... 
density and smoothing length for species 1 took 96.1723 sec
Tree construction for species 4 (15509063).
tree build for species 4 took 0.20315 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0010225197 particles. (took 7.17214 sec)
ngb iteration 2: need to repeat for 0007989361 particles. (took 3.18945 sec)
ngb iteration 3: need to repeat for 0006559889 particles. (took 2.10448 sec)
ngb iteration 4: need to repeat for 0005698064 particles. (took 1.4522 sec)
ngb iteration 5: need to repeat for 0005046837 particles. (took 1.18794 sec)
ngb iteration 6: need to repeat for 0004380191 particles. (took 0.961179 sec)
ngb iteration 7: need to repeat for 0003624547 particles. (took 0.798008 sec)
ngb iteration 8: need to repeat for 0002842006 particles. (took 0.657414 sec)
ngb iteration 9: need to repeat for 0002136423 particles. (took 0.538721 sec)
ngb iteration 10: need to repeat for 0001561786 particles. (took 0.434046 sec)
ngb iteration 11: need to repeat for 0001121677 particles. (took 0.33431 sec)
ngb iteration 12: need to repeat for 0000799859 particles. (took 0.257874 sec)
ngb iteration 13: need to repeat for 0000566683 particles. (took 0.201385 sec)
ngb iteration 14: need to repeat for 0000399210 particles. (took 0.183934 sec)
ngb iteration 15: need to repeat for 0000278932 particles. (took 0.161628 sec)
ngb iteration 16: need to repeat for 0000196978 particles. (took 0.160795 sec)
ngb iteration 17: need to repeat for 0000140778 particles. (took 0.14418 sec)
ngb iteration 18: need to repeat for 0000102089 particles. (took 0.127633 sec)
ngb iteration 19: need to repeat for 0000074455 particles. (took 0.121369 sec)
ngb iteration 20: need to repeat for 0000054453 particles. (took 0.108677 sec)
ngb iteration 21: need to repeat for 0000040336 particles. (took 0.100007 sec)
ngb iteration 22: need to repeat for 0000029921 particles. (took 0.0940251 sec)
ngb iteration 23: need to repeat for 0000022144 particles. (took 0.0905609 sec)
ngb iteration 24: need to repeat for 0000016380 particles. (took 0.087548 sec)
ngb iteration 25: need to repeat for 0000012011 particles. (took 0.086024 sec)
ngb iteration 26: need to repeat for 0000008755 particles. (took 0.0853009 sec)
ngb iteration 27: need to repeat for 0000006363 particles. (took 0.0846529 sec)
ngb iteration 28: need to repeat for 0000004568 particles. (took 0.084976 sec)
ngb iteration 29: need to repeat for 0000003115 particles. (took 0.0849068 sec)
ngb iteration 30: need to repeat for 0000002074 particles. (took 0.084002 sec)
ngb iteration 31: need to repeat for 0000001291 particles. (took 0.0845041 sec)
ngb iteration 32: need to repeat for 0000000759 particles. (took 0.083971 sec)
ngb iteration 33: need to repeat for 0000000440 particles. (took 0.084018 sec)
ngb iteration 34: need to repeat for 0000000245 particles. (took 0.0842278 sec)
ngb iteration 35: need to repeat for 0000000127 particles. (took 0.083853 sec)
ngb iteration 36: need to repeat for 0000000076 particles. (took 0.0837121 sec)
ngb iteration 37: need to repeat for 0000000032 particles. (took 0.0841041 sec)
ngb iteration 38: need to repeat for 0000000016 particles. (took 0.0835891 sec)
ngb iteration 39: need to repeat for 0000000005 particles. (took 0.083533 sec)
ngb iteration 40: need to repeat for 0000000002 particles. (took 0.0839319 sec)
ngb iteration 41: need to repeat for 0000000002 particles. (took 0.0837119 sec)
ngb iteration 42: need to repeat for 0000000001 particles. (took 0.0836971 sec)
final operations ... 
density and smoothing length for species 4 took 22.6149 sec
Tree construction.
tree build took 1.93088 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000023164 particles. (took 0.139798 sec)
ngb iteration 2: need to repeat for 0000020819 particles. (took 0.0975399 sec)
ngb iteration 3: need to repeat for 0000014102 particles. (took 0.098042 sec)
ngb iteration 4: need to repeat for 0000010105 particles. (took 0.099905 sec)
ngb iteration 5: need to repeat for 0000008606 particles. (took 0.095994 sec)
ngb iteration 6: need to repeat for 0000007410 particles. (took 0.0950179 sec)
ngb iteration 7: need to repeat for 0000006116 particles. (took 0.094491 sec)
ngb iteration 8: need to repeat for 0000004678 particles. (took 0.0938828 sec)
ngb iteration 9: need to repeat for 0000003292 particles. (took 0.0940862 sec)
ngb iteration 10: need to repeat for 0000002182 particles. (took 0.094888 sec)
ngb iteration 11: need to repeat for 0000001370 particles. (took 0.0970919 sec)
ngb iteration 12: need to repeat for 0000000877 particles. (took 0.0905828 sec)
ngb iteration 13: need to repeat for 0000000554 particles. (took 0.091717 sec)
ngb iteration 14: need to repeat for 0000000361 particles. (took 0.092514 sec)
ngb iteration 15: need to repeat for 0000000215 particles. (took 0.0949399 sec)
ngb iteration 16: need to repeat for 0000000127 particles. (took 0.08724 sec)
ngb iteration 17: need to repeat for 0000000076 particles. (took 0.0847201 sec)
ngb iteration 18: need to repeat for 0000000051 particles. (took 0.0842271 sec)
ngb iteration 19: need to repeat for 0000000038 particles. (took 0.084177 sec)
ngb iteration 20: need to repeat for 0000000027 particles. (took 0.0838521 sec)
ngb iteration 21: need to repeat for 0000000020 particles. (took 0.0837309 sec)
ngb iteration 22: need to repeat for 0000000016 particles. (took 0.0837851 sec)
ngb iteration 23: need to repeat for 0000000015 particles. (took 0.08303 sec)
ngb iteration 24: need to repeat for 0000000011 particles. (took 0.0830331 sec)
ngb iteration 25: need to repeat for 0000000007 particles. (took 0.0834541 sec)
ngb iteration 26: need to repeat for 0000000005 particles. (took 0.083287 sec)
ngb iteration 27: need to repeat for 0000000003 particles. (took 0.08338 sec)
ngb iteration 28: need to repeat for 0000000002 particles. (took 0.083781 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.0830188 sec)
ngb iteration 30: need to repeat for 0000000001 particles. (took 0.083339 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.0836279 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.083113 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.0833189 sec)
ngb iteration 34: need to repeat for 0000000001 particles. (took 0.0836229 sec)
ngb iteration 35: need to repeat for 0000000001 particles. (took 0.0831749 sec)
ngb iteration 36: need to repeat for 0000000001 particles. (took 0.082978 sec)
ngb iteration 37: need to repeat for 0000000001 particles. (took 0.083797 sec)
final operations ... 
density and smoothing length for species 5 took 3.72928 sec
Tree construction for species 0 (271114751).
tree build for species 0 took 0.875566 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 43.4892 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.988234 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 23.5248 sec
Tree construction for species 4 (15509063).
tree build for species 4 took 0.208171 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 8.64095 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.0948389 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 6.06242 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.7989 sec
saving densities took 3.58349 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 8962660 particles.)
the other 170566 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 30238 - 123313659 

subfind_exchange()() took 3.58149 sec

collectively doing halo 1, num=22
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=12046.9 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=12166.5 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 12166.5 Mbyte (on task=0), Smallest = 8084.64 Mbyte, Average = 8161.3 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8426      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8426     111.9141  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8426     160.7567  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4097    4068.1664  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2895.8178    6963.9842  allocate_memory()/allocate.c/85
   0 2971 0              MetP    677.7968    7641.7810  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.5444    7715.3254  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8448    7722.2581  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     72.9158    7795.1739  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    121.5263    7916.7002  fof_fof()/fof.c/337
   0 2978 0             Group      1.3551    7918.0553  fof_fof()/fof.c/380
   0 2979 0          SubGroup   4128.8492   12046.9045  subfind()/subfind.c/376
   0 2982 0          TopNodes      8.5846   12055.5770  domain_allocate()/domain.c/570
   0 2983 0        domain_key     97.6852   12153.2623  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      0.6604   12153.9309  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      0.6604   12154.5912  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      0.6604   12155.2516  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      0.6604   12155.9119  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      0.6604   12156.5750  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      0.6604   12157.2381  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes      9.2450   12166.4831  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=89121
After=117017
NTopleaves= 102390  NTopnodes=117017 (space for 173108)
gravity work-load balance=1.01599   memory-balance=1.01599   SPH work-load balance=1.01465
iter=0 exchange of 0037311238 particles (ret=0)
domain decomposition done. (took 2.46517 sec)
Freed 2.56764 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 13675.3 Mbyte (on task=0), Smallest = 9593.47 Mbyte, Average = 9670.13 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8426      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8426     111.9141  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8426     160.7567  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4097    4068.1664  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2895.8178    6963.9842  allocate_memory()/allocate.c/85
   0 2971 0              MetP    677.7968    7641.7810  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.5444    7715.3254  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8448    7722.2581  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     72.9158    7795.1739  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    121.5263    7916.7002  fof_fof()/fof.c/337
   0 2978 0             Group      1.3551    7918.0553  fof_fof()/fof.c/380
   0 2979 0          SubGroup   4128.8492   12046.9045  subfind()/subfind.c/376
   0 2982 0          TopNodes      5.8030   12052.7954  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.3906   12053.1860  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    831.2693   12884.4554  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    692.7245   13577.1798  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     49.2890   13626.4688  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     48.8426   13675.3114  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 3.1411 sec  (presently allocated=13675.3 MB)
force_treebuild() took 5.10308 sec (presently allocated=13675.3 MB)
Start find_linkngb (209365 particles on task=0)
find linkngb iteration 1: need to repeat for 0031861384 particles. (took 6.61053 sec)
find linkngb iteration 2: need to repeat for 0028097308 particles. (took 3.88571 sec)
find linkngb iteration 3: need to repeat for 0023907158 particles. (took 2.43932 sec)
find linkngb iteration 4: need to repeat for 0022143645 particles. (took 1.68116 sec)
find linkngb iteration 5: need to repeat for 0019558421 particles. (took 1.51957 sec)
find linkngb iteration 6: need to repeat for 0015940980 particles. (took 1.33292 sec)
find linkngb iteration 7: need to repeat for 0011540972 particles. (took 1.09114 sec)
find linkngb iteration 8: need to repeat for 0007432049 particles. (took 0.805946 sec)
find linkngb iteration 9: need to repeat for 0004394435 particles. (took 0.537154 sec)
find linkngb iteration 10: need to repeat for 0002465656 particles. (took 0.320455 sec)
find linkngb iteration 11: need to repeat for 0001344461 particles. (took 0.179191 sec)
find linkngb iteration 12: need to repeat for 0000703182 particles. (took 0.101325 sec)
find linkngb iteration 13: need to repeat for 0000234773 particles. (took 0.0572522 sec)
find linkngb iteration 14: need to repeat for 0000069033 particles. (took 0.023489 sec)
find linkngb iteration 15: need to repeat for 0000030395 particles. (took 0.010397 sec)
find linkngb iteration 16: need to repeat for 0000015319 particles. (took 0.00591397 sec)
find linkngb iteration 17: need to repeat for 0000007652 particles. (took 0.00417709 sec)
find linkngb iteration 18: need to repeat for 0000003696 particles. (took 0.003057 sec)
find linkngb iteration 19: need to repeat for 0000001868 particles. (took 0.00204611 sec)
find linkngb iteration 20: need to repeat for 0000001006 particles. (took 0.00146794 sec)
find linkngb iteration 21: need to repeat for 0000000583 particles. (took 0.00118399 sec)
find linkngb iteration 22: need to repeat for 0000000371 particles. (took 0.00103879 sec)
find linkngb iteration 23: need to repeat for 0000000227 particles. (took 0.00100493 sec)
find linkngb iteration 24: need to repeat for 0000000145 particles. (took 0.00097394 sec)
find linkngb iteration 25: need to repeat for 0000000086 particles. (took 0.000951052 sec)
find linkngb iteration 26: need to repeat for 0000000056 particles. (took 0.000952005 sec)
find linkngb iteration 27: need to repeat for 0000000035 particles. (took 0.000926971 sec)
find linkngb iteration 28: need to repeat for 0000000020 particles. (took 0.000931025 sec)
find linkngb iteration 29: need to repeat for 0000000010 particles. (took 0.000922918 sec)
find linkngb iteration 30: need to repeat for 0000000006 particles. (took 0.000910044 sec)
find linkngb iteration 31: need to repeat for 0000000003 particles. (took 0.000910044 sec)
find linkngb iteration 32: need to repeat for 0000000001 particles. (took 0.000910044 sec)
find_linkngb() took 20.6264 sec
Start finding nearest two (209365 particles on task=0)
find_nearesttwo() took 2.46871 sec (presently allocated=13691.3 MB)
parallel sort of densities done. took 0.226751 sec
building distributed linked list. (presently allocated 13689.2 MB)
identification of primary candidates took 695.195 sec
adding background as candidate took 0.087455 sec
establishing of rank order took 228.802 sec  (p=37544690, grouplen=37544690) presently allocated 13689.2 MB

total number of subhalo candidates=135627

number of subhalo candidates that can be done independently=116267.
(Largest size is 5533, finding them took 0.0716431 sec)
particles are marked (took 116.01)
independent subhalos are assembled on individual CPUs for unbinding (0.259391 sec, (presently allocated=13689.2 MB)
unbinding of independent ones took 0.199858 sec
particles have returned to their original processor (0.336819 sec, presently allocated 13689.2 MB)

number of subhalo candidates that can be done independently=17460.
(Largest size is 16125, finding them took 2.71244 sec)
particles are marked (took 84.749)
independent subhalos are assembled on individual CPUs for unbinding (0.239425 sec, (presently allocated=13689.2 MB)
unbinding of independent ones took 0.980967 sec
particles have returned to their original processor (0.318254 sec, presently allocated 13689.2 MB)

number of subhalo candidates that can be done independently=1753.
(Largest size is 107287, finding them took 2.63713 sec)
particles are marked (took 69.5385)
independent subhalos are assembled on individual CPUs for unbinding (0.215211 sec, (presently allocated=13689.2 MB)
unbinding of independent ones took 3.8461 sec
particles have returned to their original processor (0.296652 sec, presently allocated 13689.2 MB)

number of subhalo candidates that can be done independently=131.
(Largest size is 545619, finding them took 0.932833 sec)
particles are marked (took 68.0765)
independent subhalos are assembled on individual CPUs for unbinding (0.237499 sec, (presently allocated=13689.2 MB)
unbinding of independent ones took 14.5285 sec
particles have returned to their original processor (0.309813 sec, presently allocated 13689.2 MB)

number of subhalo candidates that can be done independently=10.
(Largest size is 863737, finding them took 0.91705 sec)
particles are marked (took 53.1508)
independent subhalos are assembled on individual CPUs for unbinding (0.201652 sec, (presently allocated=13689.2 MB)
unbinding of independent ones took 6.12239 sec
particles have returned to their original processor (0.287061 sec, presently allocated 13689.2 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 863737, finding them took 1.35232 sec)
particles are marked (took 49.7051)
independent subhalos are assembled on individual CPUs for unbinding (0.183773 sec, (presently allocated=13689.2 MB)
unbinding of independent ones took 0.186818 sec
particles have returned to their original processor (0.266995 sec, presently allocated 13689.2 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 863737, finding them took 1.23087 sec)
particles are marked (took 49.8555)
independent subhalos are assembled on individual CPUs for unbinding (0.18576 sec, (presently allocated=13689.2 MB)
unbinding of independent ones took 0.496064 sec
particles have returned to their original processor (0.269371 sec, presently allocated 13689.2 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 863737, finding them took 1.22714 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=545619 ... maximum alloacted 13690 MB
took 17.031 sec
collective unbinding of nr=1 (4) of length=863737 ... maximum alloacted 13690 MB
took 9.58847 sec
collective unbinding of nr=2 (4) of length=549916 ... maximum alloacted 13690 MB
took 7.87732 sec
collective unbinding of nr=3 (4) of length=37544690 ... maximum alloacted 13690 MB
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8426      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8426     111.9141  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8426     160.7567  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4097    4068.1664  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2895.8178    6963.9842  allocate_memory()/allocate.c/85
   0 2971 0              MetP    677.7968    7641.7810  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.5444    7715.3254  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8448    7722.2581  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     72.9158    7795.1739  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    121.5263    7916.7002  fof_fof()/fof.c/337
   0 2978 0             Group      1.3551    7918.0553  fof_fof()/fof.c/380
   0 2979 0          SubGroup   4128.8492   12046.9045  subfind()/subfind.c/376
   0 2982 0          TopNodes      5.8030   12052.7954  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.3906   12053.1860  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    831.2693   12884.4554  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    692.7245   13577.1798  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     49.2890   13626.4688  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     48.8426   13675.3114  force_treeallocate()/forcetree.c/4827
   0 2988 0                sd      7.9866   13683.2981  subfind_process_group_collectiv()/subfind_collective.c/316
   0 2989 0              Head      1.5973   13684.8954  subfind_process_group_collectiv()/subfind_collective.c/365
   0 2990 0              Next      1.5973   13686.4927  subfind_process_group_collectiv()/subfind_collective.c/366
   0 2991 0              Tail      1.5973   13688.0901  subfind_process_group_collectiv()/subfind_collective.c/367
   0 2992 0               Len      0.7987   13688.8887  subfind_process_group_collectiv()/subfind_collective.c/368
   0 2993 0        candidates      0.3195   13689.2082  subfind_process_group_collectiv()/subfind_collective.c/380
   0 2994 0                ud      0.7987   13690.0069  subfind_process_group_collectiv()/subfind_collective.c/667
   0 2995 0    DataIndexTable     24.4898   13714.4967  subfind_potential_compute()/subfind_potential.c/33
   0 2996 0      DataNodeList     65.3061   13779.8028  subfind_potential_compute()/subfind_potential.c/35
   0 2997 0       GravDataGet     79.0490   13858.8518  subfind_potential_compute()/subfind_potential.c/77
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 146.938 MB for variable 'GravDataIn' at subfind_potential_compute()/subfind_potential.c/line 78 (FreeBytes=141.148 MB).
task 0: endrun called with an error level of 812


application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63032.78 Mb (on task=56), Smallest =   62821.76 Mb (on task=0), Average =   62978.33 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=44), Smallest =   64531.71 Mb (on task=56), Average =   64532.01 Mb
Committed_AS:	 Largest =    1710.23 Mb (on task=0), Smallest =    1498.93 Mb (on task=56), Average =    1553.69 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=8), Smallest =   16266.05 Mb (on task=24), Average =   16310.24 Mb
AllocMem:	 Largest =    1710.23 Mb (on task=0), Smallest =    1498.93 Mb (on task=56), Average =    1553.69 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 180 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N4':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         14000
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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

reading file `data//snapshot_021_z000p297/snap_021_z000p297.11.hdf5' on task=129 (contains 35892292 particles.)
distributing this file to tasks 129-134
Type 0 (gas):   16987103  (tot=     0271317973) masstab=0
Type 1 (halo):  17748304  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     31656  (tot=     0000254233) masstab=0
Type 3 (bulge):   185096  (tot=     0002602064) masstab=0
Type 4 (stars):   938332  (tot=     0015306757) masstab=0
Type 5 (bndry):     1801  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.7.hdf5' on task=84 (contains 35936404 particles.)
distributing this file to tasks 84-89
Type 0 (gas):   16894887  (tot=     0271317973) masstab=0
Type 1 (halo):  17971193  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14483  (tot=     0000254233) masstab=0
Type 3 (bulge):   145423  (tot=     0002602064) masstab=0
Type 4 (stars):   908557  (tot=     0015306757) masstab=0
Type 5 (bndry):     1861  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.10.hdf5' on task=123 (contains 35651885 particles.)
distributing this file to tasks 123-128
Type 0 (gas):   17017886  (tot=     0271317973) masstab=0
Type 1 (halo):  17708846  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15660  (tot=     0000254233) masstab=0
Type 3 (bulge):   132692  (tot=     0002602064) masstab=0
Type 4 (stars):   775069  (tot=     0015306757) masstab=0
Type 5 (bndry):     1732  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.13.hdf5' on task=157 (contains 35821887 particles.)
distributing this file to tasks 157-167
Type 0 (gas):   17122057  (tot=     0271317973) masstab=0
Type 1 (halo):  17651469  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10200  (tot=     0000254233) masstab=0
Type 3 (bulge):    99868  (tot=     0002602064) masstab=0
Type 4 (stars):   936368  (tot=     0015306757) masstab=0
Type 5 (bndry):     1925  (tot=     0000029552) masstab=0


Allocated 4066.15 MByte for particle storage.

Allocated 2897.99 MByte for storage of SPH data.

Allocated 676.564 MByte for storage of MET data.

Allocated 73.5996 MByte for storage of BH data.


reading file `data//snapshot_021_z000p297/snap_021_z000p297.0.hdf5' on task=0 (contains 36262113 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   16847163  (tot=     0271317973) masstab=0
Type 1 (halo):  17756282  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12811  (tot=     0000254233) masstab=0
Type 3 (bulge):   377173  (tot=     0002602064) masstab=0
Type 4 (stars):  1266862  (tot=     0015306757) masstab=0
Type 5 (bndry):     1822  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.15.hdf5' on task=174 (contains 36001817 particles.)
distributing this file to tasks 174-179
Type 0 (gas):   17063441  (tot=     0271317973) masstab=0
Type 1 (halo):  17922207  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8914  (tot=     0000254233) masstab=0
Type 3 (bulge):   222921  (tot=     0002602064) masstab=0
Type 4 (stars):   782390  (tot=     0015306757) masstab=0
Type 5 (bndry):     1944  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.2.hdf5' on task=33 (contains 36206413 particles.)
distributing this file to tasks 33-38
Type 0 (gas):   16848308  (tot=     0271317973) masstab=0
Type 1 (halo):  18059331  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9202  (tot=     0000254233) masstab=0
Type 3 (bulge):   108618  (tot=     0002602064) masstab=0
Type 4 (stars):  1179191  (tot=     0015306757) masstab=0
Type 5 (bndry):     1763  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.6.hdf5' on task=78 (contains 35930659 particles.)
distributing this file to tasks 78-83
Type 0 (gas):   16969478  (tot=     0271317973) masstab=0
Type 1 (halo):  17899209  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13906  (tot=     0000254233) masstab=0
Type 3 (bulge):    62892  (tot=     0002602064) masstab=0
Type 4 (stars):   983294  (tot=     0015306757) masstab=0
Type 5 (bndry):     1880  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.14.hdf5' on task=168 (contains 35953737 particles.)
distributing this file to tasks 168-173
Type 0 (gas):   16904802  (tot=     0271317973) masstab=0
Type 1 (halo):  17819186  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9945  (tot=     0000254233) masstab=0
Type 3 (bulge):   273757  (tot=     0002602064) masstab=0
Type 4 (stars):   944223  (tot=     0015306757) masstab=0
Type 5 (bndry):     1824  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.1.hdf5' on task=22 (contains 36421261 particles.)
distributing this file to tasks 22-32
Type 0 (gas):   16788828  (tot=     0271317973) masstab=0
Type 1 (halo):  18352098  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10065  (tot=     0000254233) masstab=0
Type 3 (bulge):    98895  (tot=     0002602064) masstab=0
Type 4 (stars):  1169456  (tot=     0015306757) masstab=0
Type 5 (bndry):     1919  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.3.hdf5' on task=39 (contains 36205163 particles.)
distributing this file to tasks 39-44
Type 0 (gas):   16968152  (tot=     0271317973) masstab=0
Type 1 (halo):  17863247  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16272  (tot=     0000254233) masstab=0
Type 3 (bulge):   293788  (tot=     0002602064) masstab=0
Type 4 (stars):  1061841  (tot=     0015306757) masstab=0
Type 5 (bndry):     1863  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.9.hdf5' on task=112 (contains 35993407 particles.)
distributing this file to tasks 112-122
Type 0 (gas):   16862971  (tot=     0271317973) masstab=0
Type 1 (halo):  18121528  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20592  (tot=     0000254233) masstab=0
Type 3 (bulge):   119241  (tot=     0002602064) masstab=0
Type 4 (stars):   867235  (tot=     0015306757) masstab=0
Type 5 (bndry):     1840  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.8.hdf5' on task=90 (contains 35994136 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   16990557  (tot=     0271317973) masstab=0
Type 1 (halo):  17823687  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14841  (tot=     0000254233) masstab=0
Type 3 (bulge):   248762  (tot=     0002602064) masstab=0
Type 4 (stars):   914420  (tot=     0015306757) masstab=0
Type 5 (bndry):     1869  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.12.hdf5' on task=135 (contains 35832698 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   16899113  (tot=     0271317973) masstab=0
Type 1 (halo):  18034622  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19933  (tot=     0000254233) masstab=0
Type 3 (bulge):    26941  (tot=     0002602064) masstab=0
Type 4 (stars):   850251  (tot=     0015306757) masstab=0
Type 5 (bndry):     1838  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.5.hdf5' on task=67 (contains 36062636 particles.)
distributing this file to tasks 67-77
Type 0 (gas):   17120147  (tot=     0271317973) masstab=0
Type 1 (halo):  18172168  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19402  (tot=     0000254233) masstab=0
Type 3 (bulge):    27573  (tot=     0002602064) masstab=0
Type 4 (stars):   721486  (tot=     0015306757) masstab=0
Type 5 (bndry):     1860  (tot=     0000029552) masstab=0


reading file `data//snapshot_021_z000p297/snap_021_z000p297.4.hdf5' on task=45 (contains 36004801 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   17033080  (tot=     0271317973) masstab=0
Type 1 (halo):  17757353  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     26351  (tot=     0000254233) masstab=0
Type 3 (bulge):   178424  (tot=     0002602064) masstab=0
Type 4 (stars):  1007782  (tot=     0015306757) masstab=0
Type 5 (bndry):     1811  (tot=     0000029552) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576171309


Setting next time for grid output file to Time_next= 0.775031

Setting next time for line of sight file to Time_next= 0.772075

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.72671 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7716.32 MB)
Allocated 5.16755 MByte for top-level domain structure
use of 105.514 MB of temporary storage for domain decomposition... (presently allocated=7827 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 7827 Mbyte (on task=1), Smallest = 7827 Mbyte, Average = 7827 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.1236       2.0193  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag     12.2107      14.2299  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     48.8426      63.0726  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     48.8426     111.9152  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     48.8426     160.7578  allocate_memory()/allocate.c/61
   1 2969 0                 P   3907.4109    4068.1687  allocate_memory()/allocate.c/67
   1 2970 0              SphP   2897.9885    6966.1572  allocate_memory()/allocate.c/85
   1 2971 0              MetP    676.5637    7642.7209  allocate_memory()/allocate.c/105
   1 2972 0               BHP     73.5996    7716.3205  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      5.0797    7721.4881  domain_allocate()/domain.c/570
   1 2976 0        domain_key     97.6853    7819.1733  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.3907    7819.5723  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.3907    7819.9631  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.3907    7820.3538  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.3907    7820.7446  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.3907    7821.1381  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.3907    7821.5316  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      5.4704    7827.0020  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 6.69144 MByte for top-level domain structure
use of 107.858 MB of temporary storage for domain decomposition... (presently allocated=7830.87 MB)
Before=110129
After=133089
NTopleaves= 116453  NTopnodes=133089 (space for 133160)
gravity work-load balance=1.01349   memory-balance=1.0135   SPH work-load balance=1.01305
iter=0 exchange of 0572538699 particles (ret=0)
domain decomposition done. (took 18.69 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 0.00325012 MByte in top-level domain structure

Allocated 1624.88 MByte for BH-tree, and 0.444233 Mbyte for top-leaves.  (presently allocted 9348.34 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 predicted entropy from the internal energies read in the file...
Computing the predicted entropy from the internal energies read in the file...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 9857.29 Mbyte (on task=63), Smallest = 9760.37 Mbyte, Average = 9809.39 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  63 2964 0  Sendcount_matrix      0.1236       2.0193  allocate_memory()/allocate.c/41
  63 2965 0     ProcessedFlag     12.2107      14.2299  allocate_memory()/allocate.c/52
  63 2966 0  NextActiveParticle     48.8426      63.0726  allocate_memory()/allocate.c/55
  63 2967 0     NextInTimeBin     48.8426     111.9152  allocate_memory()/allocate.c/58
  63 2968 0     PrevInTimeBin     48.8426     160.7578  allocate_memory()/allocate.c/61
  63 2969 0                 P   3907.4109    4068.1687  allocate_memory()/allocate.c/67
  63 2970 0              SphP   2897.9885    6966.1572  allocate_memory()/allocate.c/85
  63 2971 0              MetP    676.5637    7642.7209  allocate_memory()/allocate.c/105
  63 2972 0               BHP     73.5996    7716.3205  allocate_memory()/allocate.c/126
  63 2975 0          TopNodes      6.6000    7723.0084  domain_allocate()/domain.c/570
  63 2976 0   DomainNodeIndex      0.4442    7723.4527  force_treeallocate()/forcetree.c/4800
  63 2977 0        Nodes_base    832.7410    8556.1936  force_treeallocate()/forcetree.c/4803
  63 2978 0     Extnodes_base    693.9508    9250.1444  force_treeallocate()/forcetree.c/4811
  63 2979 0          Nextnode     49.3503    9299.4948  force_treeallocate()/forcetree.c/4820
  63 2980 0            Father     48.8426    9348.3374  force_treeallocate()/forcetree.c/4827
  63 2981 0           Ngblist     12.1295    9360.4669  density()/density.c/690
  63 2982 0              Left     24.2589    9384.7258  density()/density.c/692
  63 2983 0             Right     24.2589    9408.9847  density()/density.c/693
  63 2984 0    DataIndexTable      7.0175    9416.0022  density()/density.c/738
  63 2985 0      DataNodeList     18.7134    9434.7157  density()/density.c/740
  63 2986 0       DensDataGet    123.7594    9558.4751  density()/density.c/893
  63 2987 0    DensDataResult    163.1374    9721.6125  density()/density.c/931
  63 2988 0       DensDataOut    135.6724    9857.2849  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0001426935 particles.
ngb iteration 2: need to repeat for 0000000757 particles.
ngb iteration 3: need to repeat for 0000000269 particles.
ngb iteration 4: need to repeat for 0000000181 particles.
ngb iteration 5: need to repeat for 0000000050 particles.
ngb iteration 6: need to repeat for 0000000039 particles.
ngb iteration 7: need to repeat for 0000000019 particles.
ngb iteration 8: need to repeat for 0000000005 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.271.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.333.hdf5

Begin to compute FoF group catalogues...  (presently allocated=9348.34 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7716.32 MB)
Allocated 6.69144 MByte for top-level domain structure
use of 107.858 MB of temporary storage for domain decomposition... (presently allocated=7830.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=7835.9 MB)
Before=124873
After=138513
NTopleaves= 121199  NTopnodes=138513 (space for 173108)
gravity work-load balance=1.01771   memory-balance=1.01771   SPH work-load balance=1.01655
iter=0 exchange of 0573149476 particles (ret=0)
domain decomposition done. (took 11.4632 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.58363 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=7723.28 MB)
Tree construction.

Start linking particles (presently allocated=9496.75 MB)
links on local processor done (took 10.9967 sec).
Marked=0048094052 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=9629.02 MB) 
have done 0000808447 cross links (processed 0048094052, took 4.47333 sec)
have done 0000340103 cross links (processed 0035872371, took 4.0692 sec)
have done 0000238133 cross links (processed 0030118946, took 4.05358 sec)
have done 0000160614 cross links (processed 0021095906, took 3.28015 sec)
have done 0000104224 cross links (processed 0014074533, took 3.10655 sec)
have done 0000064186 cross links (processed 0008755470, took 3.05428 sec)
have done 0000037497 cross links (processed 0005308923, took 2.73391 sec)
have done 0000021636 cross links (processed 0002514536, took 2.11676 sec)
have done 0000012499 cross links (processed 0000631904, took 0.706293 sec)
have done 0000007336 cross links (processed 0000192615, took 0.133881 sec)
have done 0000003431 cross links (processed 0000068668, took 0.0710111 sec)
have done 0000001396 cross links (processed 0000032842, took 0.0699441 sec)
have done 0000000570 cross links (processed 0000013805, took 0.064431 sec)
have done 0000000207 cross links (processed 0000002633, took 0.045872 sec)
have done 0000000069 cross links (processed 0000000856, took 0.0453169 sec)
have done 0000000023 cross links (processed 0000000286, took 0.0454319 sec)
have done 0000000007 cross links (processed 0000000084, took 0.0447671 sec)
have done 0000000001 cross links (processed 0000000027, took 0.0446749 sec)
have done 0000000000 cross links (processed 0000000002, took 0.0446911 sec)
Local groups found.

group finding took = 39.3383 sec
Start finding nearest dm-particle (presently allocated=9496.75 MB)
still finding nearest... (presently allocated=9614.26 MB)
fof-nearest iteration 1: need to repeat for 258213943 particles.
still finding nearest... (presently allocated=9617.06 MB)
fof-nearest iteration 2: need to repeat for 245489730 particles.
still finding nearest... (presently allocated=9621.95 MB)
fof-nearest iteration 3: need to repeat for 224127816 particles.
still finding nearest... (presently allocated=9627.67 MB)
fof-nearest iteration 4: need to repeat for 185491512 particles.
still finding nearest... (presently allocated=9632.22 MB)
fof-nearest iteration 5: need to repeat for 128610754 particles.
still finding nearest... (presently allocated=9634.11 MB)
fof-nearest iteration 6: need to repeat for 61650074 particles.
still finding nearest... (presently allocated=9628.24 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 12.777 sec
compiling local group data and catalogue took = 1.32953 sec

Total number of groups with at least 32 particles: 172202
Largest group has 35790469 particles.
Total number of particles in groups: 0199276633

group properties are now allocated.. (presently allocated=7920.78 MB)
computation of group properties took = 0.215124 sec
start global sorting of group catalogues number 21
LargestGroup = 14766.538953; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0725281 sec
Group catalogues globally sorted. took = 1.12806 sec
starting saving of group catalogue number 21
data//groups_021_z000p297
Group catalogues number 21 saved. took = 3.17349 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (271317973).
tree build for species 0 took 0.86586 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0185827268 particles. (took 21.5235 sec)
ngb iteration 2: need to repeat for 0138414282 particles. (took 13.8434 sec)
ngb iteration 3: need to repeat for 0123763594 particles. (took 9.24068 sec)
ngb iteration 4: need to repeat for 0114094961 particles. (took 7.79798 sec)
ngb iteration 5: need to repeat for 0102029139 particles. (took 7.00963 sec)
ngb iteration 6: need to repeat for 0083805507 particles. (took 6.25476 sec)
ngb iteration 7: need to repeat for 0061054391 particles. (took 5.18933 sec)
ngb iteration 8: need to repeat for 0039633304 particles. (took 3.90586 sec)
ngb iteration 9: need to repeat for 0023560683 particles. (took 2.66964 sec)
ngb iteration 10: need to repeat for 0013194582 particles. (took 1.72859 sec)
ngb iteration 11: need to repeat for 0007119675 particles. (took 1.0904 sec)
ngb iteration 12: need to repeat for 0003760588 particles. (took 0.658504 sec)
ngb iteration 13: need to repeat for 0001964090 particles. (took 0.388514 sec)
ngb iteration 14: need to repeat for 0000920778 particles. (took 0.249888 sec)
ngb iteration 15: need to repeat for 0000274905 particles. (took 0.16369 sec)
ngb iteration 16: need to repeat for 0000091789 particles. (took 0.098532 sec)
ngb iteration 17: need to repeat for 0000038762 particles. (took 0.075974 sec)
ngb iteration 18: need to repeat for 0000020877 particles. (took 0.0691888 sec)
ngb iteration 19: need to repeat for 0000013238 particles. (took 0.066407 sec)
ngb iteration 20: need to repeat for 0000009117 particles. (took 0.0651019 sec)
ngb iteration 21: need to repeat for 0000006591 particles. (took 0.064795 sec)
ngb iteration 22: need to repeat for 0000004796 particles. (took 0.0650668 sec)
ngb iteration 23: need to repeat for 0000003451 particles. (took 0.0636899 sec)
ngb iteration 24: need to repeat for 0000002447 particles. (took 0.062465 sec)
ngb iteration 25: need to repeat for 0000001741 particles. (took 0.0625789 sec)
ngb iteration 26: need to repeat for 0000001220 particles. (took 0.062573 sec)
ngb iteration 27: need to repeat for 0000000798 particles. (took 0.0624461 sec)
ngb iteration 28: need to repeat for 0000000506 particles. (took 0.0621002 sec)
ngb iteration 29: need to repeat for 0000000319 particles. (took 0.0621841 sec)
ngb iteration 30: need to repeat for 0000000179 particles. (took 0.0625451 sec)
ngb iteration 31: need to repeat for 0000000093 particles. (took 0.0619838 sec)
ngb iteration 32: need to repeat for 0000000043 particles. (took 0.0625038 sec)
ngb iteration 33: need to repeat for 0000000018 particles. (took 0.06194 sec)
ngb iteration 34: need to repeat for 0000000004 particles. (took 0.0620799 sec)
ngb iteration 35: need to repeat for 0000000001 particles. (took 0.0622809 sec)
ngb iteration 36: need to repeat for 0000000001 particles. (took 0.0619709 sec)
final operations ... 
density and smoothing length for species 0 took 83.5949 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 1.00124 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0190300581 particles. (took 31.9695 sec)
ngb iteration 2: need to repeat for 0139880980 particles. (took 15.1554 sec)
ngb iteration 3: need to repeat for 0118524406 particles. (took 10.0626 sec)
ngb iteration 4: need to repeat for 0106369249 particles. (took 7.89282 sec)
ngb iteration 5: need to repeat for 0094790688 particles. (took 6.79353 sec)
ngb iteration 6: need to repeat for 0079198818 particles. (took 5.97971 sec)
ngb iteration 7: need to repeat for 0060018428 particles. (took 5.02961 sec)
ngb iteration 8: need to repeat for 0041316288 particles. (took 3.89807 sec)
ngb iteration 9: need to repeat for 0026349257 particles. (took 2.79422 sec)
ngb iteration 10: need to repeat for 0015930666 particles. (took 1.89679 sec)
ngb iteration 11: need to repeat for 0009322101 particles. (took 1.25982 sec)
ngb iteration 12: need to repeat for 0005360467 particles. (took 0.812485 sec)
ngb iteration 13: need to repeat for 0003065387 particles. (took 0.507449 sec)
ngb iteration 14: need to repeat for 0001671025 particles. (took 0.324712 sec)
ngb iteration 15: need to repeat for 0000794170 particles. (took 0.21223 sec)
ngb iteration 16: need to repeat for 0000406112 particles. (took 0.132957 sec)
ngb iteration 17: need to repeat for 0000218896 particles. (took 0.0984931 sec)
ngb iteration 18: need to repeat for 0000121061 particles. (took 0.0830159 sec)
ngb iteration 19: need to repeat for 0000066811 particles. (took 0.074934 sec)
ngb iteration 20: need to repeat for 0000036244 particles. (took 0.0698431 sec)
ngb iteration 21: need to repeat for 0000019092 particles. (took 0.067445 sec)
ngb iteration 22: need to repeat for 0000009793 particles. (took 0.0662611 sec)
ngb iteration 23: need to repeat for 0000004768 particles. (took 0.0648348 sec)
ngb iteration 24: need to repeat for 0000002237 particles. (took 0.0647459 sec)
ngb iteration 25: need to repeat for 0000000978 particles. (took 0.0642271 sec)
ngb iteration 26: need to repeat for 0000000423 particles. (took 0.063863 sec)
ngb iteration 27: need to repeat for 0000000183 particles. (took 0.0639811 sec)
ngb iteration 28: need to repeat for 0000000068 particles. (took 0.0634 sec)
ngb iteration 29: need to repeat for 0000000024 particles. (took 0.063832 sec)
ngb iteration 30: need to repeat for 0000000014 particles. (took 0.063962 sec)
ngb iteration 31: need to repeat for 0000000003 particles. (took 0.063889 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0636792 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.0636921 sec)
ngb iteration 34: need to repeat for 0000000001 particles. (took 0.063185 sec)
final operations ... 
density and smoothing length for species 1 took 96.4683 sec
Tree construction for species 4 (15306757).
tree build for species 4 took 0.20357 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0009980661 particles. (took 7.46026 sec)
ngb iteration 2: need to repeat for 0007759337 particles. (took 3.12049 sec)
ngb iteration 3: need to repeat for 0006330226 particles. (took 2.3299 sec)
ngb iteration 4: need to repeat for 0005478453 particles. (took 1.78542 sec)
ngb iteration 5: need to repeat for 0004844368 particles. (took 1.40429 sec)
ngb iteration 6: need to repeat for 0004204192 particles. (took 1.11914 sec)
ngb iteration 7: need to repeat for 0003477033 particles. (took 0.878898 sec)
ngb iteration 8: need to repeat for 0002734271 particles. (took 0.682868 sec)
ngb iteration 9: need to repeat for 0002058993 particles. (took 0.550372 sec)
ngb iteration 10: need to repeat for 0001504682 particles. (took 0.439462 sec)
ngb iteration 11: need to repeat for 0001078930 particles. (took 0.372134 sec)
ngb iteration 12: need to repeat for 0000764859 particles. (took 0.31195 sec)
ngb iteration 13: need to repeat for 0000539199 particles. (took 0.27361 sec)
ngb iteration 14: need to repeat for 0000380171 particles. (took 0.224895 sec)
ngb iteration 15: need to repeat for 0000264058 particles. (took 0.20316 sec)
ngb iteration 16: need to repeat for 0000184569 particles. (took 0.15818 sec)
ngb iteration 17: need to repeat for 0000131278 particles. (took 0.145899 sec)
ngb iteration 18: need to repeat for 0000094217 particles. (took 0.139582 sec)
ngb iteration 19: need to repeat for 0000068727 particles. (took 0.134208 sec)
ngb iteration 20: need to repeat for 0000050649 particles. (took 0.125654 sec)
ngb iteration 21: need to repeat for 0000037317 particles. (took 0.118719 sec)
ngb iteration 22: need to repeat for 0000027875 particles. (took 0.111306 sec)
ngb iteration 23: need to repeat for 0000021093 particles. (took 0.104098 sec)
ngb iteration 24: need to repeat for 0000015928 particles. (took 0.0989442 sec)
ngb iteration 25: need to repeat for 0000011915 particles. (took 0.0930362 sec)
ngb iteration 26: need to repeat for 0000008903 particles. (took 0.0896659 sec)
ngb iteration 27: need to repeat for 0000006677 particles. (took 0.0868781 sec)
ngb iteration 28: need to repeat for 0000004898 particles. (took 0.0854521 sec)
ngb iteration 29: need to repeat for 0000003562 particles. (took 0.0852101 sec)
ngb iteration 30: need to repeat for 0000002589 particles. (took 0.084959 sec)
ngb iteration 31: need to repeat for 0000001843 particles. (took 0.0845592 sec)
ngb iteration 32: need to repeat for 0000001234 particles. (took 0.084379 sec)
ngb iteration 33: need to repeat for 0000000810 particles. (took 0.0841141 sec)
ngb iteration 34: need to repeat for 0000000501 particles. (took 0.083981 sec)
ngb iteration 35: need to repeat for 0000000294 particles. (took 0.0844321 sec)
ngb iteration 36: need to repeat for 0000000167 particles. (took 0.08373 sec)
ngb iteration 37: need to repeat for 0000000078 particles. (took 0.083849 sec)
ngb iteration 38: need to repeat for 0000000051 particles. (took 0.083328 sec)
ngb iteration 39: need to repeat for 0000000021 particles. (took 0.0830989 sec)
ngb iteration 40: need to repeat for 0000000009 particles. (took 0.083478 sec)
ngb iteration 41: need to repeat for 0000000002 particles. (took 0.0831659 sec)
final operations ... 
density and smoothing length for species 4 took 24.17 sec
Tree construction.
tree build took 1.93791 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000022203 particles. (took 0.138052 sec)
ngb iteration 2: need to repeat for 0000019831 particles. (took 0.100512 sec)
ngb iteration 3: need to repeat for 0000013509 particles. (took 0.102958 sec)
ngb iteration 4: need to repeat for 0000009588 particles. (took 0.0993209 sec)
ngb iteration 5: need to repeat for 0000008220 particles. (took 0.096405 sec)
ngb iteration 6: need to repeat for 0000007092 particles. (took 0.095119 sec)
ngb iteration 7: need to repeat for 0000005834 particles. (took 0.0937381 sec)
ngb iteration 8: need to repeat for 0000004407 particles. (took 0.0925729 sec)
ngb iteration 9: need to repeat for 0000003126 particles. (took 0.0910308 sec)
ngb iteration 10: need to repeat for 0000002103 particles. (took 0.0905869 sec)
ngb iteration 11: need to repeat for 0000001323 particles. (took 0.0900321 sec)
ngb iteration 12: need to repeat for 0000000814 particles. (took 0.088438 sec)
ngb iteration 13: need to repeat for 0000000532 particles. (took 0.0887489 sec)
ngb iteration 14: need to repeat for 0000000341 particles. (took 0.0852888 sec)
ngb iteration 15: need to repeat for 0000000213 particles. (took 0.087034 sec)
ngb iteration 16: need to repeat for 0000000141 particles. (took 0.0836458 sec)
ngb iteration 17: need to repeat for 0000000086 particles. (took 0.084615 sec)
ngb iteration 18: need to repeat for 0000000059 particles. (took 0.083617 sec)
ngb iteration 19: need to repeat for 0000000039 particles. (took 0.0829561 sec)
ngb iteration 20: need to repeat for 0000000027 particles. (took 0.083163 sec)
ngb iteration 21: need to repeat for 0000000016 particles. (took 0.0842311 sec)
ngb iteration 22: need to repeat for 0000000012 particles. (took 0.0834301 sec)
ngb iteration 23: need to repeat for 0000000010 particles. (took 0.0833118 sec)
ngb iteration 24: need to repeat for 0000000006 particles. (took 0.08356 sec)
ngb iteration 25: need to repeat for 0000000003 particles. (took 0.0828049 sec)
ngb iteration 26: need to repeat for 0000000003 particles. (took 0.0830269 sec)
ngb iteration 27: need to repeat for 0000000002 particles. (took 0.0829289 sec)
ngb iteration 28: need to repeat for 0000000001 particles. (took 0.0830152 sec)
final operations ... 
density and smoothing length for species 5 took 2.94647 sec
Tree construction for species 0 (271317973).
tree build for species 0 took 0.87914 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 46.0039 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.99035 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 21.925 sec
Tree construction for species 4 (15306757).
tree build for species 4 took 0.194699 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 8.66782 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.0933928 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 5.97135 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.79234 sec
saving densities took 3.8696 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 8962662 particles.)
the other 172201 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 30345 - 119940462 

subfind_exchange()() took 3.61963 sec

collectively doing halo 1, num=21
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=11859.9 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=11979.5 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 11979.5 Mbyte (on task=0), Smallest = 8085.32 Mbyte, Average = 8159.86 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8426      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8426     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8426     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4109    4068.1677  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2897.9885    6966.1561  allocate_memory()/allocate.c/85
   0 2971 0              MetP    676.5637    7642.7199  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.5996    7716.3195  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8690    7723.2764  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.5955    7796.8719  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6592    7919.5311  fof_fof()/fof.c/337
   0 2978 0             Group      1.2482    7920.7793  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3939.1217   11859.9010  subfind()/subfind.c/376
   0 2982 0          TopNodes      8.5846   11868.5735  domain_allocate()/domain.c/570
   0 2983 0        domain_key     97.6853   11966.2588  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      0.6604   11966.9274  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      0.6604   11967.5878  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      0.6604   11968.2481  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      0.6604   11968.9085  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      0.6604   11969.5716  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      0.6604   11970.2347  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes      9.2450   11979.4796  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=88737
After=114921
NTopleaves= 100556  NTopnodes=114921 (space for 173108)
gravity work-load balance=1.01366   memory-balance=1.01366   SPH work-load balance=1.01082
iter=0 exchange of 0035615110 particles (ret=0)
domain decomposition done. (took 2.47882 sec)
Freed 2.66359 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 13487.8 Mbyte (on task=0), Smallest = 9593.68 Mbyte, Average = 9668.22 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8426      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8426     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8426     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4109    4068.1677  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2897.9885    6966.1561  allocate_memory()/allocate.c/85
   0 2971 0              MetP    676.5637    7642.7199  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.5996    7716.3195  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8690    7723.2764  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.5955    7796.8719  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6592    7919.5311  fof_fof()/fof.c/337
   0 2978 0             Group      1.2482    7920.7793  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3939.1217   11859.9010  subfind()/subfind.c/376
   0 2982 0          TopNodes      5.6991   11865.6880  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.3836   11866.0716  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    831.0776   12697.1492  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    692.5647   13389.7139  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     49.2810   13438.9949  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     48.8426   13487.8376  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 3.14739 sec  (presently allocated=13487.8 MB)
force_treebuild() took 4.89177 sec (presently allocated=13487.8 MB)
Start find_linkngb (199625 particles on task=0)
find linkngb iteration 1: need to repeat for 0030545870 particles. (took 6.09122 sec)
find linkngb iteration 2: need to repeat for 0026984533 particles. (took 3.53255 sec)
find linkngb iteration 3: need to repeat for 0022984002 particles. (took 2.25468 sec)
find linkngb iteration 4: need to repeat for 0021301123 particles. (took 1.66259 sec)
find linkngb iteration 5: need to repeat for 0018814984 particles. (took 1.48789 sec)
find linkngb iteration 6: need to repeat for 0015369641 particles. (took 1.29437 sec)
find linkngb iteration 7: need to repeat for 0011134997 particles. (took 1.06506 sec)
find linkngb iteration 8: need to repeat for 0007169235 particles. (took 0.792321 sec)
find linkngb iteration 9: need to repeat for 0004232004 particles. (took 0.517197 sec)
find linkngb iteration 10: need to repeat for 0002373022 particles. (took 0.297818 sec)
find linkngb iteration 11: need to repeat for 0001293402 particles. (took 0.165273 sec)
find linkngb iteration 12: need to repeat for 0000676301 particles. (took 0.095269 sec)
find linkngb iteration 13: need to repeat for 0000225314 particles. (took 0.0560088 sec)
find linkngb iteration 14: need to repeat for 0000063819 particles. (took 0.023701 sec)
find linkngb iteration 15: need to repeat for 0000029453 particles. (took 0.010756 sec)
find linkngb iteration 16: need to repeat for 0000014987 particles. (took 0.0069809 sec)
find linkngb iteration 17: need to repeat for 0000007455 particles. (took 0.00492191 sec)
find linkngb iteration 18: need to repeat for 0000003763 particles. (took 0.00352287 sec)
find linkngb iteration 19: need to repeat for 0000001968 particles. (took 0.00244594 sec)
find linkngb iteration 20: need to repeat for 0000001132 particles. (took 0.00162411 sec)
find linkngb iteration 21: need to repeat for 0000000729 particles. (took 0.00128102 sec)
find linkngb iteration 22: need to repeat for 0000000465 particles. (took 0.00110292 sec)
find linkngb iteration 23: need to repeat for 0000000298 particles. (took 0.000946999 sec)
find linkngb iteration 24: need to repeat for 0000000173 particles. (took 0.000936985 sec)
find linkngb iteration 25: need to repeat for 0000000103 particles. (took 0.00089097 sec)
find linkngb iteration 26: need to repeat for 0000000060 particles. (took 0.000905037 sec)
find linkngb iteration 27: need to repeat for 0000000028 particles. (took 0.000873804 sec)
find linkngb iteration 28: need to repeat for 0000000011 particles. (took 0.000893831 sec)
find linkngb iteration 29: need to repeat for 0000000004 particles. (took 0.000891209 sec)
find linkngb iteration 30: need to repeat for 0000000003 particles. (took 0.000889063 sec)
find linkngb iteration 31: need to repeat for 0000000002 particles. (took 0.00088501 sec)
find linkngb iteration 32: need to repeat for 0000000002 particles. (took 0.000886917 sec)
find_linkngb() took 19.3801 sec
Start finding nearest two (199625 particles on task=0)
find_nearesttwo() took 2.27224 sec (presently allocated=13503.1 MB)
parallel sort of densities done. took 0.221518 sec
building distributed linked list. (presently allocated 13501.1 MB)
identification of primary candidates took 656.658 sec
adding background as candidate took 0.0864739 sec
establishing of rank order took 217.959 sec  (p=35790469, grouplen=35790469) presently allocated 13501.1 MB

total number of subhalo candidates=130388

number of subhalo candidates that can be done independently=112161.
(Largest size is 2574, finding them took 0.053803 sec)
particles are marked (took 111.652)
independent subhalos are assembled on individual CPUs for unbinding (0.259383 sec, (presently allocated=13501.1 MB)
unbinding of independent ones took 0.173951 sec
particles have returned to their original processor (0.339968 sec, presently allocated 13501.1 MB)

number of subhalo candidates that can be done independently=16545.
(Largest size is 26811, finding them took 2.59924 sec)
particles are marked (took 80.7786)
independent subhalos are assembled on individual CPUs for unbinding (0.237254 sec, (presently allocated=13501.1 MB)
unbinding of independent ones took 0.822708 sec
particles have returned to their original processor (0.319361 sec, presently allocated 13501.1 MB)

number of subhalo candidates that can be done independently=1548.
(Largest size is 70907, finding them took 2.47916 sec)
particles are marked (took 65.4478)
independent subhalos are assembled on individual CPUs for unbinding (0.210463 sec, (presently allocated=13501.1 MB)
unbinding of independent ones took 2.77045 sec
particles have returned to their original processor (0.299363 sec, presently allocated 13501.1 MB)

number of subhalo candidates that can be done independently=119.
(Largest size is 410939, finding them took 0.859695 sec)
particles are marked (took 71.94)
independent subhalos are assembled on individual CPUs for unbinding (0.24669 sec, (presently allocated=13501.1 MB)
unbinding of independent ones took 30.4945 sec
particles have returned to their original processor (0.326578 sec, presently allocated 13501.1 MB)

number of subhalo candidates that can be done independently=13.
(Largest size is 554890, finding them took 1.34027 sec)
particles are marked (took 53.6634)
independent subhalos are assembled on individual CPUs for unbinding (0.203331 sec, (presently allocated=13501.1 MB)
unbinding of independent ones took 6.1892 sec
particles have returned to their original processor (0.292897 sec, presently allocated 13501.1 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 554890, finding them took 1.34123 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=554890 ... maximum alloacted 13501.8 MB
took 6.9348 sec
collective unbinding of nr=1 (2) of length=35790469 ... maximum alloacted 13501.8 MB
took 497.625 sec

the collective unbinding of remaining halos took 550.893 sec

found 6843 bound substructures in FoF group of length 35790469
determination of parent subhalo took 0.069422 sec (presently allocated 13501.8 MB)
determining substructure properties took 459.526 sec (presently allocated 13501.8 MB)
processing of collective halos took 2369.25 sec
sort of local particles()() took 1.40112 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 1430.56 sec

Task 152: testing particles ...
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unsorting of local particles()() took 1.23452 sec
Task 0: testing particles ...
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subfind_exchange() (for return to original CPU)  took 8.08994 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=11859.9 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=11979.5 MB)
Before=127193
After=140041
NTopleaves= 122536  NTopnodes=140041 (space for 173108)
gravity work-load balance=1.0163   memory-balance=1.0163   SPH work-load balance=1.01684
iter=0 exchange of 0572861237 particles (ret=0)
domain decomposition done. (took 10.2672 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.51369 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000138655 particles. (took 0.0262351 sec)
SO iteration 2: need to repeat for 0000138655 particles. (took 0.0247259 sec)
SO iteration 3: need to repeat for 0000138655 particles. (took 0.0247898 sec)
SO iteration 4: need to repeat for 0000138655 particles. (took 0.0252419 sec)
SO iteration 5: need to repeat for 0000138655 particles. (took 0.0248721 sec)
SO iteration 6: need to repeat for 0000138655 particles. (took 0.0248139 sec)
SO iteration 7: need to repeat for 0000138655 particles. (took 0.0247369 sec)
SO iteration 8: need to repeat for 0000138655 particles. (took 0.0247588 sec)
SO iteration 9: need to repeat for 0000138655 particles. (took 0.024744 sec)
SO iteration 10: need to repeat for 0000138655 particles. (took 0.0247228 sec)
SO iteration 11: need to repeat for 0000138655 particles. (took 0.0246959 sec)
SO iteration 12: need to repeat for 0000138655 particles. (took 0.024663 sec)
SO iteration 13: need to repeat for 0000138655 particles. (took 0.024678 sec)
SO iteration 14: need to repeat for 0000138655 particles. (took 0.0247269 sec)
SO iteration 15: need to repeat for 0000136494 particles. (took 0.024842 sec)
SO iteration 16: need to repeat for 0000000576 particles. (took 0.0236311 sec)
SO iteration 17: need to repeat for 0000000031 particles. (took 0.00109601 sec)
SO iteration 1: need to repeat for 0000138655 particles. (took 0.02529 sec)
SO iteration 2: need to repeat for 0000138655 particles. (took 0.0197949 sec)
SO iteration 3: need to repeat for 0000138655 particles. (took 0.0220659 sec)
SO iteration 4: need to repeat for 0000138655 particles. (took 0.0204561 sec)
SO iteration 5: need to repeat for 0000138655 particles. (took 0.0209649 sec)
SO iteration 6: need to repeat for 0000138655 particles. (took 0.02086 sec)
SO iteration 7: need to repeat for 0000138655 particles. (took 0.0207491 sec)
SO iteration 8: need to repeat for 0000138655 particles. (took 0.0208561 sec)
SO iteration 9: need to repeat for 0000138655 particles. (took 0.0209801 sec)
SO iteration 10: need to repeat for 0000138655 particles. (took 0.0209351 sec)
SO iteration 11: need to repeat for 0000138655 particles. (took 0.0209281 sec)
SO iteration 12: need to repeat for 0000138655 particles. (took 0.0208449 sec)
SO iteration 13: need to repeat for 0000138655 particles. (took 0.021157 sec)
SO iteration 14: need to repeat for 0000138655 particles. (took 0.020967 sec)
SO iteration 15: need to repeat for 0000137829 particles. (took 0.020911 sec)
SO iteration 16: need to repeat for 0000019767 particles. (took 0.020776 sec)
SO iteration 17: need to repeat for 0000000290 particles. (took 0.00604415 sec)
SO iteration 18: need to repeat for 0000000032 particles. (took 0.000619173 sec)
SO iteration 1: need to repeat for 0000138655 particles. (took 0.0248051 sec)
SO iteration 2: need to repeat for 0000138655 particles. (took 0.0192339 sec)
SO iteration 3: need to repeat for 0000138655 particles. (took 0.01651 sec)
SO iteration 4: need to repeat for 0000138655 particles. (took 0.018075 sec)
SO iteration 5: need to repeat for 0000138655 particles. (took 0.0176501 sec)
SO iteration 6: need to repeat for 0000138655 particles. (took 0.0179601 sec)
SO iteration 7: need to repeat for 0000138655 particles. (took 0.0178161 sec)
SO iteration 8: need to repeat for 0000138655 particles. (took 0.0179291 sec)
SO iteration 9: need to repeat for 0000138655 particles. (took 0.0177829 sec)
SO iteration 10: need to repeat for 0000138655 particles. (took 0.0179238 sec)
SO iteration 11: need to repeat for 0000138655 particles. (took 0.0178039 sec)
SO iteration 12: need to repeat for 0000138655 particles. (took 0.0179842 sec)
SO iteration 13: need to repeat for 0000138655 particles. (took 0.0179341 sec)
SO iteration 14: need to repeat for 0000138655 particles. (took 0.017988 sec)
SO iteration 15: need to repeat for 0000138632 particles. (took 0.0178928 sec)
SO iteration 16: need to repeat for 0000137276 particles. (took 0.017942 sec)
SO iteration 17: need to repeat for 0000026284 particles. (took 0.017797 sec)
SO iteration 18: need to repeat for 0000000507 particles. (took 0.006284 sec)
SO iteration 19: need to repeat for 0000000052 particles. (took 0.000776052 sec)
SO iteration 1: need to repeat for 0000138655 particles. (took 0.0257599 sec)
SO iteration 2: need to repeat for 0000138655 particles. (took 0.0202112 sec)
SO iteration 3: need to repeat for 0000138655 particles. (took 0.0224221 sec)
SO iteration 4: need to repeat for 0000138655 particles. (took 0.0236092 sec)
SO iteration 5: need to repeat for 0000138655 particles. (took 0.0236061 sec)
SO iteration 6: need to repeat for 0000138655 particles. (took 0.023859 sec)
SO iteration 7: need to repeat for 0000138655 particles. (took 0.023711 sec)
SO iteration 8: need to repeat for 0000138655 particles. (took 0.0236611 sec)
SO iteration 9: need to repeat for 0000138655 particles. (took 0.0237141 sec)
SO iteration 10: need to repeat for 0000138655 particles. (took 0.0236921 sec)
SO iteration 11: need to repeat for 0000138655 particles. (took 0.0235901 sec)
SO iteration 12: need to repeat for 0000138655 particles. (took 0.023505 sec)
SO iteration 13: need to repeat for 0000138655 particles. (took 0.0236399 sec)
SO iteration 14: need to repeat for 0000138655 particles. (took 0.0236011 sec)
SO iteration 15: need to repeat for 0000136674 particles. (took 0.0237799 sec)
SO iteration 16: need to repeat for 0000001490 particles. (took 0.0227158 sec)
SO iteration 17: need to repeat for 0000000079 particles. (took 0.00148392 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000533104 sec)
SO iteration 1: need to repeat for 0000138655 particles. (took 0.0249472 sec)
SO iteration 2: need to repeat for 0000138655 particles. (took 0.0197771 sec)
SO iteration 3: need to repeat for 0000138655 particles. (took 0.0219939 sec)
SO iteration 4: need to repeat for 0000138655 particles. (took 0.021673 sec)
SO iteration 5: need to repeat for 0000138655 particles. (took 0.0219822 sec)
SO iteration 6: need to repeat for 0000138655 particles. (took 0.0219102 sec)
SO iteration 7: need to repeat for 0000138655 particles. (took 0.0219419 sec)
SO iteration 8: need to repeat for 0000138655 particles. (took 0.0218549 sec)
SO iteration 9: need to repeat for 0000138655 particles. (took 0.0219791 sec)
SO iteration 10: need to repeat for 0000138655 particles. (took 0.0219879 sec)
SO iteration 11: need to repeat for 0000138655 particles. (took 0.022042 sec)
SO iteration 12: need to repeat for 0000138655 particles. (took 0.0218709 sec)
SO iteration 13: need to repeat for 0000138655 particles. (took 0.02197 sec)
SO iteration 14: need to repeat for 0000138655 particles. (took 0.021769 sec)
SO iteration 15: need to repeat for 0000137387 particles. (took 0.0218911 sec)
SO iteration 16: need to repeat for 0000008924 particles. (took 0.0210872 sec)
SO iteration 17: need to repeat for 0000000196 particles. (took 0.00405288 sec)
SO iteration 18: need to repeat for 0000000017 particles. (took 0.000577927 sec)
SO iteration 1: need to repeat for 0000138655 particles. (took 0.024796 sec)
SO iteration 2: need to repeat for 0000138655 particles. (took 0.019273 sec)
SO iteration 3: need to repeat for 0000138655 particles. (took 0.019196 sec)
SO iteration 4: need to repeat for 0000138655 particles. (took 0.019681 sec)
SO iteration 5: need to repeat for 0000138655 particles. (took 0.0196011 sec)
SO iteration 6: need to repeat for 0000138655 particles. (took 0.019135 sec)
SO iteration 7: need to repeat for 0000138655 particles. (took 0.0189359 sec)
SO iteration 8: need to repeat for 0000138655 particles. (took 0.0188949 sec)
SO iteration 9: need to repeat for 0000138655 particles. (took 0.0190179 sec)
SO iteration 10: need to repeat for 0000138655 particles. (took 0.019048 sec)
SO iteration 11: need to repeat for 0000138655 particles. (took 0.019043 sec)
SO iteration 12: need to repeat for 0000138655 particles. (took 0.019053 sec)
SO iteration 13: need to repeat for 0000138655 particles. (took 0.019032 sec)
SO iteration 14: need to repeat for 0000138655 particles. (took 0.019098 sec)
SO iteration 15: need to repeat for 0000138476 particles. (took 0.0189939 sec)
SO iteration 16: need to repeat for 0000136780 particles. (took 0.0189991 sec)
SO iteration 17: need to repeat for 0000001683 particles. (took 0.0186629 sec)
SO iteration 18: need to repeat for 0000000116 particles. (took 0.00179505 sec)
SO iteration 19: need to repeat for 0000000004 particles. (took 0.000537157 sec)
SO iteration 1: need to repeat for 0000138655 particles. (took 0.0248621 sec)
SO iteration 2: need to repeat for 0000138655 particles. (took 0.0191832 sec)
SO iteration 3: need to repeat for 0000138655 particles. (took 0.0166581 sec)
SO iteration 4: need to repeat for 0000138655 particles. (took 0.0151811 sec)
SO iteration 5: need to repeat for 0000138655 particles. (took 0.015883 sec)
SO iteration 6: need to repeat for 0000138655 particles. (took 0.016228 sec)
SO iteration 7: need to repeat for 0000138655 particles. (took 0.0162342 sec)
SO iteration 8: need to repeat for 0000138655 particles. (took 0.016181 sec)
SO iteration 9: need to repeat for 0000138655 particles. (took 0.0162179 sec)
SO iteration 10: need to repeat for 0000138655 particles. (took 0.0161788 sec)
SO iteration 11: need to repeat for 0000138655 particles. (took 0.016206 sec)
SO iteration 12: need to repeat for 0000138655 particles. (took 0.016139 sec)
SO iteration 13: need to repeat for 0000138655 particles. (took 0.016067 sec)
SO iteration 14: need to repeat for 0000138655 particles. (took 0.0161679 sec)
SO iteration 15: need to repeat for 0000138651 particles. (took 0.0161729 sec)
SO iteration 16: need to repeat for 0000138331 particles. (took 0.0161562 sec)
SO iteration 17: need to repeat for 0000134483 particles. (took 0.0162909 sec)
SO iteration 18: need to repeat for 0000003843 particles. (took 0.0160861 sec)
SO iteration 19: need to repeat for 0000000156 particles. (took 0.00211406 sec)
SO iteration 20: need to repeat for 0000000007 particles. (took 0.000488997 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000430107 sec)
determining spherical overdensity masses took 2.43738 sec
finding spherical overdensity particles took 0.319208 sec
determining contamination of halos took 0.224334 sec
Global sort of Groups took 0.0422111 sec
Global sort of SubGroups took 0.123379 sec
Global sort of IDs took 0.675588 sec
Writing block 0 (GLEN), n=957, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3828d
Writing block 1 (GOFF), n=957, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3828d
Writing block 2 (MTOT), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 3 (GPOS), n=957, ptype=0, dtype=1, ndim=3, bpb=4 bytes=11484d
Writing block 4 (MMEA), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 5 (RMEA), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 6 (MCRI), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 7 (RCRI), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 8 (MTOP), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 9 (RTOP), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 17 (NCON), n=957, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3828d
Writing block 18 (MCON), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 22 (NSUB), n=957, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3828d
Writing block 23 (FSUB), n=957, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3828d
Writing block 24 (SLEN), n=7742, ptype=1, dtype=0, ndim=1, bpb=4 bytes=30968d
Writing block 25 (SOFF), n=7742, ptype=1, dtype=0, ndim=1, bpb=4 bytes=30968d
Writing block 26 (SSUB), n=7742, ptype=1, dtype=0, ndim=1, bpb=4 bytes=30968d
Writing block 27 (MSUB), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 28 (SPOS), n=7742, ptype=1, dtype=1, ndim=3, bpb=4 bytes=92904d
Writing block 29 (SVEL), n=7742, ptype=1, dtype=1, ndim=3, bpb=4 bytes=92904d
Writing block 30 (SCM ), n=7742, ptype=1, dtype=1, ndim=3, bpb=4 bytes=92904d
Writing block 33 (VMAX), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 34 (RMAX), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 35 (RHMS), n=7742, ptype=1, dtype=1, ndim=6, bpb=4 bytes=185808d
Writing block 36 (MTRH), n=7742, ptype=1, dtype=1, ndim=6, bpb=4 bytes=185808d
Writing block 37 (MBID), n=7742, ptype=1, dtype=2, ndim=1, bpb=8 bytes=61936d
Writing block 38 (GRNR), n=7742, ptype=1, dtype=0, ndim=1, bpb=4 bytes=30968d
Writing block 39 (SUBN), n=7742, ptype=1, dtype=0, ndim=1, bpb=4 bytes=30968d
Writing block 40 (SMST), n=7742, ptype=1, dtype=1, ndim=6, bpb=4 bytes=185808d
Writing block 53 (PID ), n=970179, ptype=2, dtype=2, ndim=1, bpb=8 bytes=7761432d
Writing block 54 (SLEN), n=7742, ptype=1, dtype=0, ndim=6, bpb=4 bytes=185808d
Writing block 55 (STEN), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 56 (SKEN), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 57 (SUEN), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 58 (SUIT), n=7742, ptype=1, dtype=1, ndim=9, bpb=4 bytes=278712d
Writing block 59 (BHMA), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 60 (BHMD), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 61 (SVD ), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 62 (SVDH), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 63 (HMPR), n=7742, ptype=1, dtype=1, ndim=6, bpb=4 bytes=185808d
Writing block 64 (SSFR), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 65 (SSA ), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 66 (SSBZ), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 67 (SSIM), n=7742, ptype=1, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 68 (SSPI), n=7742, ptype=4, dtype=1, ndim=3, bpb=4 bytes=92904d
Writing block 69 (GSPI), n=7742, ptype=1, dtype=1, ndim=3, bpb=4 bytes=92904d
Writing block 70 (FSPI), n=7742, ptype=5, dtype=1, ndim=3, bpb=4 bytes=92904d
Writing block 71 (SFM ), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 72 (SFMT), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 73 (SFME), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 74 (SFAE), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 75 (SFKE), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 76 (SFTE), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 77 (SMWP), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 78 (SMM ), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 79 (SMMS), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 80 (SFZ ), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 81 (SFZS), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 82 (SSIA), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 83 (SIAS), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 84 (SMET), n=7742, ptype=5, dtype=1, ndim=9, bpb=4 bytes=278712d
Writing block 85 (SMTS), n=7742, ptype=5, dtype=1, ndim=9, bpb=4 bytes=278712d
Writing block 86 (MF1 ), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 87 (MeF1), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 88 (MF  ), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 89 (MeF2), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 90 (MFA ), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 91 (MeFA), n=7742, ptype=5, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 92 (NSPI), n=7742, ptype=6, dtype=1, ndim=3, bpb=4 bytes=92904d
Writing block 93 (NFM ), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 94 (NFMT), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 95 (NFME), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 96 (NFAE), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 97 (NFKE), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 98 (NFTE), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 99 (SMWP), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 100 (SMM ), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 101 (SMMS), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 102 (SSIA), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 103 (SIAS), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 104 (SMET), n=7742, ptype=6, dtype=1, ndim=9, bpb=4 bytes=278712d
Writing block 105 (SMTS), n=7742, ptype=6, dtype=1, ndim=9, bpb=4 bytes=278712d
Writing block 106 (MF1 ), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 107 (MeF1), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 108 (MF2 ), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 109 (MeF2), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 110 (MFA ), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 111 (MeFA), n=7742, ptype=6, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 112 (SM  ), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 113 (SFKE), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 114 (SFAE), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 115 (SMWP), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 116 (SMM ), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 117 (SMMS), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 118 (SSIA), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 119 (SIAS), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 120 (SMET), n=7742, ptype=4, dtype=1, ndim=9, bpb=4 bytes=278712d
Writing block 121 (SMTS), n=7742, ptype=4, dtype=1, ndim=9, bpb=4 bytes=278712d
Writing block 122 (MF1 ), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 123 (MeF1), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 124 (MF2 ), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 125 (MeF2), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 126 (MFA ), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 127 (MeFA), n=7742, ptype=4, dtype=1, ndim=1, bpb=4 bytes=30968d
Writing block 128 (MMe5), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 129 (RMe5), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 130 (MCr5), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 131 (RCr5), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 132 (MMe2), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 133 (RMe2), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 134 (MCr2), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 135 (RCr2), n=957, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3828d
Writing block 136 (MAPT), n=7742, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1858080d
Writing block 137 (SAPT), n=7742, ptype=8, dtype=1, ndim=10, bpb=4 bytes=309680d
Writing block 138 (VAPT), n=7742, ptype=9, dtype=1, ndim=10, bpb=4 bytes=309680d
Writing block 139 (BEGY), n=970179, ptype=2, dtype=1, ndim=1, bpb=4 bytes=3880716d
Subgroup catalogues saved. took = 10.5225 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 6.850080e-01
 eagle_ph_key_ort: type= 1 timed by volker 7.830389e-01
 eagle_ph_key_ort: type= 2 timed by volker 7.904983e-02
 eagle_ph_key_ort: type= 3 timed by volker 3.771591e-02
 eagle_ph_key_ort: type= 4 timed by volker 8.877611e-02
 eagle_ph_key_ort: type= 5 timed by volker 3.011084e-02
 eagle_ph_key_ort: timing parallel sort = 1.815521e+00
 eagle_fetch_elements: we are using 1733767296 bytes of memory, FreeBytes= 2167209120

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 11933.2 Mbyte (on task=0), Smallest = 8038.6 Mbyte, Average = 8113.55 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8426      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8426     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8426     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4109    4068.1677  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2897.9885    6966.1561  allocate_memory()/allocate.c/85
   0 2971 0              MetP    676.5637    7642.7199  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.5996    7716.3195  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8690    7723.2764  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.5955    7796.8719  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6592    7919.5311  fof_fof()/fof.c/337
   0 2978 0             Group      1.2482    7920.7793  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3939.1217   11859.9010  subfind()/subfind.c/376
   0 2980 0   sort_index_data     73.2873   11933.1883  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1062529 number of bytes = 340009280

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 13571 Mbyte (on task=0), Smallest = 9664.44 Mbyte, Average = 9751.07 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8426      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8426     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8426     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4109    4068.1677  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2897.9885    6966.1561  allocate_memory()/allocate.c/85
   0 2971 0              MetP    676.5637    7642.7199  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.5996    7716.3195  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8690    7723.2764  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.5955    7796.8719  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6592    7919.5311  fof_fof()/fof.c/337
   0 2978 0             Group      1.2482    7920.7793  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3939.1217   11859.9010  subfind()/subfind.c/376
   0 2980 0   sort_index_data     73.2873   11933.1883  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      4.0532   11937.2416  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      4.0532   11941.2948  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      4.0532   11945.3480  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    324.2581   12269.6061  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    324.2581   12593.8643  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    977.1637   13571.0279  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 5.057714e+00
 eagle_fetch_elements: we are using 1733767296 bytes of memory, FreeBytes= 2167209120
 eagle_fetch_elements: max_bytes= 504, max_elements= 942436 number of bytes = 474987744
 eagle_ph_key_ort: timing parallel SphP exchange = 3.823912e+00
 eagle_fetch_elements: we are using 1733767296 bytes of memory, FreeBytes= 2167209120
 eagle_fetch_elements: max_bytes= 384, max_elements= 2137497 number of bytes = 820798848
 eagle_ph_key_ort: timing parallel MetP exchange = 3.260601e-01
 eagle_fetch_elements: we are using 1733767296 bytes of memory, FreeBytes= 2167209120
 eagle_fetch_elements: max_bytes= 256, max_elements= 3308608 number of bytes = 847003648
 eagle_ph_key_ort: timing parallel BHP exchange = 1.149487e-02
Sorting particle-data by peano-hilbert key took = 11.6646 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1733767296 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1062529 number of bytes= 340009280
 eagle_ph_restore: timing parallel P exchange = 5.386155e+00
 eagle_send_elements: we are using 1733767296 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 942436 number of bytes= 474987744
 eagle_ph_restore: timing parallel SphP exchange = 3.930200e+00
 eagle_send_elements: we are using 1733767296 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2137497 number of bytes= 820798848
 eagle_ph_restore: timing parallel MetP exchange = 3.638930e-01
 eagle_send_elements: we are using 1733767296 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3308608 number of bytes= 847003648
 eagle_ph_restore: timing parallel BHP exchange = 1.162696e-02
Restoring original order after ph key sorting took = 9.72349 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4469.88 sec)

Finished computing FoF groups.  (presently allocated=7723.28 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7716.32 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=7835.9 MB)
Before=124841
After=138753
NTopleaves= 121409  NTopnodes=138753 (space for 173108)
gravity work-load balance=1.01868   memory-balance=1.01869   SPH work-load balance=1.01748
iter=0 exchange of 0573008911 particles (ret=0)
domain decomposition done. (took 10.091 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.57265 MByte in top-level domain structure
Tree construction.
task 22: endrun called with an error level of 124


task 33: endrun called with an error level of 124


task 33: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
task 22: endrun called with an error level of 124


task 39: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 45: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
task 45: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 67: endrun called with an error level of 124


task 67: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
task 90: endrun called with an error level of 124


task 123: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 78: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 84:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 129: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 123:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 123
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 123:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 123
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 78:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 78
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 78:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 78
task 84: endrun called with an error level of 124


task 84: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 129:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 129
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 129:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 129
task 90: endrun called with an error level of 124


task 123: endrun called with an error level of 124


task 135: endrun called with an error level of 124


task 135: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 78: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 84
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 84:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 84
task 129: endrun called with an error level of 124


Finished FOF, total time doing fof/subfind = 4555.23 s
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
task 168: endrun called with an error level of 124


task 174: endrun called with an error level of 124


task 157: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 39: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 168:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 168
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 168:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 168
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 174:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 174
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 174:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 174
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
task 0: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
task 168: endrun called with an error level of 124


task 174: endrun called with an error level of 124


task 157: endrun called with an error level of 124


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


    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63032.86 Mb (on task=56), Smallest =   62821.81 Mb (on task=0), Average =   62978.31 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=44), Smallest =   64531.71 Mb (on task=56), Average =   64532.01 Mb
Committed_AS:	 Largest =    1710.18 Mb (on task=0), Smallest =    1498.84 Mb (on task=56), Average =    1553.70 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=8), Smallest =   16266.05 Mb (on task=24), Average =   16310.33 Mb
AllocMem:	 Largest =    1710.18 Mb (on task=0), Smallest =    1498.84 Mb (on task=56), Average =    1553.70 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 180 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N4':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         14000
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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

reading file `data//snapshot_020_z000p352/snap_020_z000p352.7.hdf5' on task=84 (contains 36041311 particles.)
distributing this file to tasks 84-89
Type 0 (gas):   16879992  (tot=     0271555694) masstab=0
Type 1 (halo):  18080120  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13427  (tot=     0000254233) masstab=0
Type 3 (bulge):   122590  (tot=     0002602064) masstab=0
Type 4 (stars):   943427  (tot=     0015069978) masstab=0
Type 5 (bndry):     1755  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.6.hdf5' on task=78 (contains 35823322 particles.)
distributing this file to tasks 78-83
Type 0 (gas):   17051622  (tot=     0271555694) masstab=0
Type 1 (halo):  17667659  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     22298  (tot=     0000254233) masstab=0
Type 3 (bulge):    26484  (tot=     0002602064) masstab=0
Type 4 (stars):  1053436  (tot=     0015069978) masstab=0
Type 5 (bndry):     1823  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.2.hdf5' on task=33 (contains 36104567 particles.)
distributing this file to tasks 33-38
Type 0 (gas):   16933063  (tot=     0271555694) masstab=0
Type 1 (halo):  18023859  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14451  (tot=     0000254233) masstab=0
Type 3 (bulge):    80829  (tot=     0002602064) masstab=0
Type 4 (stars):  1050564  (tot=     0015069978) masstab=0
Type 5 (bndry):     1801  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.10.hdf5' on task=123 (contains 35841058 particles.)
distributing this file to tasks 123-128
Type 0 (gas):   17024869  (tot=     0271555694) masstab=0
Type 1 (halo):  17800411  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19248  (tot=     0000254233) masstab=0
Type 3 (bulge):   140482  (tot=     0002602064) masstab=0
Type 4 (stars):   854291  (tot=     0015069978) masstab=0
Type 5 (bndry):     1757  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.11.hdf5' on task=129 (contains 35794843 particles.)
distributing this file to tasks 129-134
Type 0 (gas):   16939517  (tot=     0271555694) masstab=0
Type 1 (halo):  17883567  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13305  (tot=     0000254233) masstab=0
Type 3 (bulge):      888  (tot=     0002602064) masstab=0
Type 4 (stars):   955809  (tot=     0015069978) masstab=0
Type 5 (bndry):     1757  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.3.hdf5' on task=39 (contains 35916330 particles.)
distributing this file to tasks 39-44
Type 0 (gas):   17021564  (tot=     0271555694) masstab=0
Type 1 (halo):  17938722  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10808  (tot=     0000254233) masstab=0
Type 3 (bulge):   123789  (tot=     0002602064) masstab=0
Type 4 (stars):   819775  (tot=     0015069978) masstab=0
Type 5 (bndry):     1672  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.9.hdf5' on task=112 (contains 36045446 particles.)
distributing this file to tasks 112-122
Type 0 (gas):   17045996  (tot=     0271555694) masstab=0
Type 1 (halo):  17942242  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13589  (tot=     0000254233) masstab=0
Type 3 (bulge):   179564  (tot=     0002602064) masstab=0
Type 4 (stars):   862343  (tot=     0015069978) masstab=0
Type 5 (bndry):     1712  (tot=     0000028732) masstab=0


Allocated 4066.15 MByte for particle storage.

Allocated 2900.53 MByte for storage of SPH data.

Allocated 675.121 MByte for storage of MET data.

Allocated 73.6641 MByte for storage of BH data.


reading file `data//snapshot_020_z000p352/snap_020_z000p352.0.hdf5' on task=0 (contains 36684390 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   16855933  (tot=     0271555694) masstab=0
Type 1 (halo):  17775741  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     23380  (tot=     0000254233) masstab=0
Type 3 (bulge):   583173  (tot=     0002602064) masstab=0
Type 4 (stars):  1444363  (tot=     0015069978) masstab=0
Type 5 (bndry):     1800  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.14.hdf5' on task=168 (contains 35805581 particles.)
distributing this file to tasks 168-173
Type 0 (gas):   17072368  (tot=     0271555694) masstab=0
Type 1 (halo):  17865203  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12799  (tot=     0000254233) masstab=0
Type 3 (bulge):    59005  (tot=     0002602064) masstab=0
Type 4 (stars):   794352  (tot=     0015069978) masstab=0
Type 5 (bndry):     1854  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.13.hdf5' on task=157 (contains 36057461 particles.)
distributing this file to tasks 157-167
Type 0 (gas):   16988280  (tot=     0271555694) masstab=0
Type 1 (halo):  18121539  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11950  (tot=     0000254233) masstab=0
Type 3 (bulge):   174302  (tot=     0002602064) masstab=0
Type 4 (stars):   759601  (tot=     0015069978) masstab=0
Type 5 (bndry):     1789  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.15.hdf5' on task=174 (contains 35924585 particles.)
distributing this file to tasks 174-179
Type 0 (gas):   16905560  (tot=     0271555694) masstab=0
Type 1 (halo):  17990271  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12691  (tot=     0000254233) masstab=0
Type 3 (bulge):   126189  (tot=     0002602064) masstab=0
Type 4 (stars):   888086  (tot=     0015069978) masstab=0
Type 5 (bndry):     1788  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.5.hdf5' on task=67 (contains 36164245 particles.)
distributing this file to tasks 67-77
Type 0 (gas):   16897560  (tot=     0271555694) masstab=0
Type 1 (halo):  17908049  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     25594  (tot=     0000254233) masstab=0
Type 3 (bulge):   419687  (tot=     0002602064) masstab=0
Type 4 (stars):   911474  (tot=     0015069978) masstab=0
Type 5 (bndry):     1881  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.12.hdf5' on task=135 (contains 35936125 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   16935424  (tot=     0271555694) masstab=0
Type 1 (halo):  17896220  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9547  (tot=     0000254233) masstab=0
Type 3 (bulge):    72973  (tot=     0002602064) masstab=0
Type 4 (stars):  1020129  (tot=     0015069978) masstab=0
Type 5 (bndry):     1832  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.1.hdf5' on task=22 (contains 36164600 particles.)
distributing this file to tasks 22-32
Type 0 (gas):   16976551  (tot=     0271555694) masstab=0
Type 1 (halo):  17914810  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     22770  (tot=     0000254233) masstab=0
Type 3 (bulge):   150474  (tot=     0002602064) masstab=0
Type 4 (stars):  1098208  (tot=     0015069978) masstab=0
Type 5 (bndry):     1787  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.8.hdf5' on task=90 (contains 35730417 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   16989751  (tot=     0271555694) masstab=0
Type 1 (halo):  17811980  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18213  (tot=     0000254233) masstab=0
Type 3 (bulge):   123137  (tot=     0002602064) masstab=0
Type 4 (stars):   785517  (tot=     0015069978) masstab=0
Type 5 (bndry):     1819  (tot=     0000028732) masstab=0


reading file `data//snapshot_020_z000p352/snap_020_z000p352.4.hdf5' on task=45 (contains 36137150 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   17037644  (tot=     0271555694) masstab=0
Type 1 (halo):  18040337  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10163  (tot=     0000254233) masstab=0
Type 3 (bulge):   218498  (tot=     0002602064) masstab=0
Type 4 (stars):   828603  (tot=     0015069978) masstab=0
Type 5 (bndry):     1905  (tot=     0000028732) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576171431


Setting next time for grid output file to Time_next= 0.756128

Setting next time for line of sight file to Time_next= 0.741948

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.73564 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7717.48 MB)
Allocated 5.16755 MByte for top-level domain structure
use of 105.514 MB of temporary storage for domain decomposition... (presently allocated=7828.16 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 7828.16 Mbyte (on task=1), Smallest = 7828.16 Mbyte, Average = 7828.16 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.1236       2.0193  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag     12.2107      14.2299  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     48.8427      63.0726  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     48.8427     111.9152  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     48.8427     160.7579  allocate_memory()/allocate.c/61
   1 2969 0                 P   3907.4121    4068.1700  allocate_memory()/allocate.c/67
   1 2970 0              SphP   2900.5263    6968.6963  allocate_memory()/allocate.c/85
   1 2971 0              MetP    675.1208    7643.8171  allocate_memory()/allocate.c/105
   1 2972 0               BHP     73.6641    7717.4812  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      5.0797    7722.6488  domain_allocate()/domain.c/570
   1 2976 0        domain_key     97.6853    7820.3341  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.3907    7820.7331  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.3907    7821.1238  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.3907    7821.5145  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.3907    7821.9053  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.3907    7822.2988  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.3907    7822.6923  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      5.4704    7828.1627  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 6.69144 MByte for top-level domain structure
use of 107.858 MB of temporary storage for domain decomposition... (presently allocated=7832.03 MB)
Before=114953
After=133113
NTopleaves= 116474  NTopnodes=133113 (space for 133160)
gravity work-load balance=1.015   memory-balance=1.01499   SPH work-load balance=1.01248
iter=0 exchange of 0573311480 particles (ret=0)
domain decomposition done. (took 19.1752 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 0.00215149 MByte in top-level domain structure

Allocated 1624.89 MByte for BH-tree, and 0.444313 Mbyte for top-leaves.  (presently allocted 9349.5 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 predicted entropy from the internal energies read in the file...
Computing the predicted entropy from the internal energies read in the file...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 9860.96 Mbyte (on task=147), Smallest = 9759.16 Mbyte, Average = 9810.56 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 147 2964 0  Sendcount_matrix      0.1236       2.0193  allocate_memory()/allocate.c/41
 147 2965 0     ProcessedFlag     12.2107      14.2299  allocate_memory()/allocate.c/52
 147 2966 0  NextActiveParticle     48.8427      63.0726  allocate_memory()/allocate.c/55
 147 2967 0     NextInTimeBin     48.8427     111.9152  allocate_memory()/allocate.c/58
 147 2968 0     PrevInTimeBin     48.8427     160.7579  allocate_memory()/allocate.c/61
 147 2969 0                 P   3907.4121    4068.1700  allocate_memory()/allocate.c/67
 147 2970 0              SphP   2900.5263    6968.6963  allocate_memory()/allocate.c/85
 147 2971 0              MetP    675.1208    7643.8171  allocate_memory()/allocate.c/105
 147 2972 0               BHP     73.6641    7717.4812  allocate_memory()/allocate.c/126
 147 2975 0          TopNodes      6.6012    7724.1703  domain_allocate()/domain.c/570
 147 2976 0   DomainNodeIndex      0.4443    7724.6146  force_treeallocate()/forcetree.c/4800
 147 2977 0        Nodes_base    832.7434    8557.3581  force_treeallocate()/forcetree.c/4803
 147 2978 0     Extnodes_base    693.9529    9251.3109  force_treeallocate()/forcetree.c/4811
 147 2979 0          Nextnode     49.3504    9300.6614  force_treeallocate()/forcetree.c/4820
 147 2980 0            Father     48.8427    9349.5040  force_treeallocate()/forcetree.c/4827
 147 2981 0           Ngblist     12.1835    9361.6875  density()/density.c/690
 147 2982 0              Left     24.3670    9386.0545  density()/density.c/692
 147 2983 0             Right     24.3670    9410.4215  density()/density.c/693
 147 2984 0    DataIndexTable      7.0175    9417.4391  density()/density.c/738
 147 2985 0      DataNodeList     18.7134    9436.1525  density()/density.c/740
 147 2986 0       DensDataGet    124.7238    9560.8764  density()/density.c/893
 147 2987 0    DensDataResult    164.4087    9725.2851  density()/density.c/931
 147 2988 0       DensDataOut    135.6720    9860.9571  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0003156149 particles.
ngb iteration 2: need to repeat for 0000002089 particles.
ngb iteration 3: need to repeat for 0000000768 particles.
ngb iteration 4: need to repeat for 0000000592 particles.
ngb iteration 5: need to repeat for 0000000185 particles.
ngb iteration 6: need to repeat for 0000000140 particles.
ngb iteration 7: need to repeat for 0000000067 particles.
ngb iteration 8: need to repeat for 0000000014 particles.
ngb iteration 9: need to repeat for 0000000009 particles.
ngb iteration 10: need to repeat for 0000000003 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.333.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.399.hdf5

Begin to compute FoF group catalogues...  (presently allocated=9349.5 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7717.48 MB)
Allocated 6.69144 MByte for top-level domain structure
use of 107.858 MB of temporary storage for domain decomposition... (presently allocated=7832.03 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=7837.06 MB)
Before=124993
After=138681
NTopleaves= 121346  NTopnodes=138681 (space for 173108)
gravity work-load balance=1.01407   memory-balance=1.01407   SPH work-load balance=1.01645
iter=0 exchange of 0573063759 particles (ret=0)
domain decomposition done. (took 11.6871 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.57594 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=7724.45 MB)
Tree construction.

Start linking particles (presently allocated=9497.93 MB)
links on local processor done (took 12.6243 sec).
Marked=0046570177 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=9630.2 MB) 
have done 0000812445 cross links (processed 0046570177, took 4.75317 sec)
have done 0000343847 cross links (processed 0034180884, took 4.34188 sec)
have done 0000242582 cross links (processed 0028647460, took 4.25258 sec)
have done 0000155784 cross links (processed 0018604117, took 4.12727 sec)
have done 0000097828 cross links (processed 0011342411, took 3.99352 sec)
have done 0000063797 cross links (processed 0007901395, took 3.88033 sec)
have done 0000046055 cross links (processed 0006821225, took 3.95505 sec)
have done 0000034476 cross links (processed 0003598789, took 3.53429 sec)
have done 0000024617 cross links (processed 0001459463, took 1.77314 sec)
have done 0000015352 cross links (processed 0000915313, took 1.25572 sec)
have done 0000008733 cross links (processed 0000296670, took 0.201565 sec)
have done 0000003751 cross links (processed 0000130353, took 0.243517 sec)
have done 0000001532 cross links (processed 0000062519, took 0.0725338 sec)
have done 0000000612 cross links (processed 0000015674, took 0.0475681 sec)
have done 0000000215 cross links (processed 0000002734, took 0.0442891 sec)
have done 0000000066 cross links (processed 0000000874, took 0.0433619 sec)
have done 0000000021 cross links (processed 0000000259, took 0.0433481 sec)
have done 0000000002 cross links (processed 0000000064, took 0.0434699 sec)
have done 0000000000 cross links (processed 0000000005, took 0.043551 sec)
Local groups found.

group finding took = 49.4237 sec
Start finding nearest dm-particle (presently allocated=9497.93 MB)
still finding nearest... (presently allocated=9616 MB)
fof-nearest iteration 1: need to repeat for 258269253 particles.
still finding nearest... (presently allocated=9617.54 MB)
fof-nearest iteration 2: need to repeat for 245582506 particles.
still finding nearest... (presently allocated=9621.72 MB)
fof-nearest iteration 3: need to repeat for 225148791 particles.
still finding nearest... (presently allocated=9627.3 MB)
fof-nearest iteration 4: need to repeat for 186858837 particles.
still finding nearest... (presently allocated=9632.01 MB)
fof-nearest iteration 5: need to repeat for 129760668 particles.
still finding nearest... (presently allocated=9633.65 MB)
fof-nearest iteration 6: need to repeat for 62080386 particles.
still finding nearest... (presently allocated=9629.53 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 12.3498 sec
compiling local group data and catalogue took = 1.3187 sec

Total number of groups with at least 32 particles: 174856
Largest group has 34540955 particles.
Total number of particles in groups: 0195028706

group properties are now allocated.. (presently allocated=7922.03 MB)
computation of group properties took = 0.215196 sec
start global sorting of group catalogues number 20
LargestGroup = 14340.135409; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0791559 sec
Group catalogues globally sorted. took = 1.16654 sec
starting saving of group catalogue number 20
data//groups_020_z000p352
Group catalogues number 20 saved. took = 3.15075 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (271555694).
tree build for species 0 took 0.881554 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0185486432 particles. (took 21.2744 sec)
ngb iteration 2: need to repeat for 0138342286 particles. (took 14.0043 sec)
ngb iteration 3: need to repeat for 0123563143 particles. (took 9.33428 sec)
ngb iteration 4: need to repeat for 0113889069 particles. (took 7.64155 sec)
ngb iteration 5: need to repeat for 0101883005 particles. (took 6.88985 sec)
ngb iteration 6: need to repeat for 0083761896 particles. (took 6.14948 sec)
ngb iteration 7: need to repeat for 0061095597 particles. (took 5.13227 sec)
ngb iteration 8: need to repeat for 0039718918 particles. (took 3.85343 sec)
ngb iteration 9: need to repeat for 0023634033 particles. (took 2.63449 sec)
ngb iteration 10: need to repeat for 0013244839 particles. (took 1.70536 sec)
ngb iteration 11: need to repeat for 0007147972 particles. (took 1.07383 sec)
ngb iteration 12: need to repeat for 0003774302 particles. (took 0.655465 sec)
ngb iteration 13: need to repeat for 0001972401 particles. (took 0.387322 sec)
ngb iteration 14: need to repeat for 0000926365 particles. (took 0.250816 sec)
ngb iteration 15: need to repeat for 0000279569 particles. (took 0.160807 sec)
ngb iteration 16: need to repeat for 0000092912 particles. (took 0.0982201 sec)
ngb iteration 17: need to repeat for 0000039428 particles. (took 0.0771141 sec)
ngb iteration 18: need to repeat for 0000021056 particles. (took 0.0689499 sec)
ngb iteration 19: need to repeat for 0000013047 particles. (took 0.0644429 sec)
ngb iteration 20: need to repeat for 0000008811 particles. (took 0.063391 sec)
ngb iteration 21: need to repeat for 0000006265 particles. (took 0.0622401 sec)
ngb iteration 22: need to repeat for 0000004524 particles. (took 0.062166 sec)
ngb iteration 23: need to repeat for 0000003290 particles. (took 0.0616119 sec)
ngb iteration 24: need to repeat for 0000002339 particles. (took 0.0618041 sec)
ngb iteration 25: need to repeat for 0000001613 particles. (took 0.0619602 sec)
ngb iteration 26: need to repeat for 0000001104 particles. (took 0.0618801 sec)
ngb iteration 27: need to repeat for 0000000710 particles. (took 0.0615199 sec)
ngb iteration 28: need to repeat for 0000000409 particles. (took 0.0619359 sec)
ngb iteration 29: need to repeat for 0000000236 particles. (took 0.061619 sec)
ngb iteration 30: need to repeat for 0000000123 particles. (took 0.0624549 sec)
ngb iteration 31: need to repeat for 0000000065 particles. (took 0.0611641 sec)
ngb iteration 32: need to repeat for 0000000033 particles. (took 0.0616179 sec)
ngb iteration 33: need to repeat for 0000000010 particles. (took 0.061517 sec)
ngb iteration 34: need to repeat for 0000000004 particles. (took 0.061605 sec)
ngb iteration 35: need to repeat for 0000000001 particles. (took 0.0617242 sec)
ngb iteration 36: need to repeat for 0000000001 particles. (took 0.0624132 sec)
ngb iteration 37: need to repeat for 0000000001 particles. (took 0.061651 sec)
final operations ... 
density and smoothing length for species 0 took 83.0733 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.995919 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0189749468 particles. (took 32.181 sec)
ngb iteration 2: need to repeat for 0139559867 particles. (took 14.9508 sec)
ngb iteration 3: need to repeat for 0118122842 particles. (took 9.89775 sec)
ngb iteration 4: need to repeat for 0106005915 particles. (took 7.62828 sec)
ngb iteration 5: need to repeat for 0094487233 particles. (took 6.4467 sec)
ngb iteration 6: need to repeat for 0079006585 particles. (took 5.65424 sec)
ngb iteration 7: need to repeat for 0059954486 particles. (took 4.77039 sec)
ngb iteration 8: need to repeat for 0041319690 particles. (took 3.68771 sec)
ngb iteration 9: need to repeat for 0026376174 particles. (took 2.70295 sec)
ngb iteration 10: need to repeat for 0015958256 particles. (took 1.82883 sec)
ngb iteration 11: need to repeat for 0009342169 particles. (took 1.204 sec)
ngb iteration 12: need to repeat for 0005370650 particles. (took 0.778946 sec)
ngb iteration 13: need to repeat for 0003066679 particles. (took 0.488726 sec)
ngb iteration 14: need to repeat for 0001669216 particles. (took 0.31094 sec)
ngb iteration 15: need to repeat for 0000791002 particles. (took 0.204639 sec)
ngb iteration 16: need to repeat for 0000400653 particles. (took 0.132699 sec)
ngb iteration 17: need to repeat for 0000214487 particles. (took 0.100306 sec)
ngb iteration 18: need to repeat for 0000118156 particles. (took 0.084213 sec)
ngb iteration 19: need to repeat for 0000065171 particles. (took 0.0754349 sec)
ngb iteration 20: need to repeat for 0000035271 particles. (took 0.070457 sec)
ngb iteration 21: need to repeat for 0000018296 particles. (took 0.0680799 sec)
ngb iteration 22: need to repeat for 0000009373 particles. (took 0.0664589 sec)
ngb iteration 23: need to repeat for 0000004620 particles. (took 0.0656302 sec)
ngb iteration 24: need to repeat for 0000002158 particles. (took 0.064564 sec)
ngb iteration 25: need to repeat for 0000000950 particles. (took 0.064517 sec)
ngb iteration 26: need to repeat for 0000000405 particles. (took 0.064358 sec)
ngb iteration 27: need to repeat for 0000000158 particles. (took 0.0642531 sec)
ngb iteration 28: need to repeat for 0000000062 particles. (took 0.0640631 sec)
ngb iteration 29: need to repeat for 0000000014 particles. (took 0.0644329 sec)
ngb iteration 30: need to repeat for 0000000007 particles. (took 0.0640628 sec)
final operations ... 
density and smoothing length for species 1 took 94.3711 sec
Tree construction for species 4 (15069978).
tree build for species 4 took 0.186493 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0009749314 particles. (took 7.67253 sec)
ngb iteration 2: need to repeat for 0007569824 particles. (took 2.74503 sec)
ngb iteration 3: need to repeat for 0006174461 particles. (took 2.08003 sec)
ngb iteration 4: need to repeat for 0005336510 particles. (took 1.63916 sec)
ngb iteration 5: need to repeat for 0004715105 particles. (took 1.34819 sec)
ngb iteration 6: need to repeat for 0004092411 particles. (took 1.07014 sec)
ngb iteration 7: need to repeat for 0003396770 particles. (took 0.940426 sec)
ngb iteration 8: need to repeat for 0002674001 particles. (took 0.785969 sec)
ngb iteration 9: need to repeat for 0002018014 particles. (took 0.597333 sec)
ngb iteration 10: need to repeat for 0001479597 particles. (took 0.416522 sec)
ngb iteration 11: need to repeat for 0001066572 particles. (took 0.329164 sec)
ngb iteration 12: need to repeat for 0000757834 particles. (took 0.260042 sec)
ngb iteration 13: need to repeat for 0000539038 particles. (took 0.201886 sec)
ngb iteration 14: need to repeat for 0000380260 particles. (took 0.184699 sec)
ngb iteration 15: need to repeat for 0000266394 particles. (took 0.162641 sec)
ngb iteration 16: need to repeat for 0000188117 particles. (took 0.152489 sec)
ngb iteration 17: need to repeat for 0000133576 particles. (took 0.139672 sec)
ngb iteration 18: need to repeat for 0000096807 particles. (took 0.122579 sec)
ngb iteration 19: need to repeat for 0000070937 particles. (took 0.114285 sec)
ngb iteration 20: need to repeat for 0000053177 particles. (took 0.102205 sec)
ngb iteration 21: need to repeat for 0000040096 particles. (took 0.0953591 sec)
ngb iteration 22: need to repeat for 0000030034 particles. (took 0.0916879 sec)
ngb iteration 23: need to repeat for 0000022562 particles. (took 0.0886331 sec)
ngb iteration 24: need to repeat for 0000017008 particles. (took 0.087147 sec)
ngb iteration 25: need to repeat for 0000013048 particles. (took 0.085315 sec)
ngb iteration 26: need to repeat for 0000009976 particles. (took 0.0845549 sec)
ngb iteration 27: need to repeat for 0000007544 particles. (took 0.0845399 sec)
ngb iteration 28: need to repeat for 0000005580 particles. (took 0.0842881 sec)
ngb iteration 29: need to repeat for 0000003986 particles. (took 0.0840309 sec)
ngb iteration 30: need to repeat for 0000002748 particles. (took 0.0838649 sec)
ngb iteration 31: need to repeat for 0000001802 particles. (took 0.0834191 sec)
ngb iteration 32: need to repeat for 0000001134 particles. (took 0.0829639 sec)
ngb iteration 33: need to repeat for 0000000634 particles. (took 0.083328 sec)
ngb iteration 34: need to repeat for 0000000354 particles. (took 0.0828509 sec)
ngb iteration 35: need to repeat for 0000000178 particles. (took 0.0827811 sec)
ngb iteration 36: need to repeat for 0000000091 particles. (took 0.0855501 sec)
ngb iteration 37: need to repeat for 0000000044 particles. (took 0.0829511 sec)
ngb iteration 38: need to repeat for 0000000017 particles. (took 0.0826261 sec)
ngb iteration 39: need to repeat for 0000000006 particles. (took 0.082787 sec)
ngb iteration 40: need to repeat for 0000000002 particles. (took 0.083019 sec)
final operations ... 
density and smoothing length for species 4 took 23.2006 sec
Tree construction.
tree build took 1.951 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000021304 particles. (took 0.143391 sec)
ngb iteration 2: need to repeat for 0000019057 particles. (took 0.10927 sec)
ngb iteration 3: need to repeat for 0000013077 particles. (took 0.100775 sec)
ngb iteration 4: need to repeat for 0000009206 particles. (took 0.0996621 sec)
ngb iteration 5: need to repeat for 0000007818 particles. (took 0.0955811 sec)
ngb iteration 6: need to repeat for 0000006729 particles. (took 0.0936971 sec)
ngb iteration 7: need to repeat for 0000005553 particles. (took 0.0922968 sec)
ngb iteration 8: need to repeat for 0000004304 particles. (took 0.0913122 sec)
ngb iteration 9: need to repeat for 0000003037 particles. (took 0.090482 sec)
ngb iteration 10: need to repeat for 0000002030 particles. (took 0.0875659 sec)
ngb iteration 11: need to repeat for 0000001314 particles. (took 0.08618 sec)
ngb iteration 12: need to repeat for 0000000811 particles. (took 0.08515 sec)
ngb iteration 13: need to repeat for 0000000538 particles. (took 0.0849099 sec)
ngb iteration 14: need to repeat for 0000000337 particles. (took 0.0840001 sec)
ngb iteration 15: need to repeat for 0000000205 particles. (took 0.0842869 sec)
ngb iteration 16: need to repeat for 0000000125 particles. (took 0.0877562 sec)
ngb iteration 17: need to repeat for 0000000077 particles. (took 0.083751 sec)
ngb iteration 18: need to repeat for 0000000043 particles. (took 0.0828371 sec)
ngb iteration 19: need to repeat for 0000000032 particles. (took 0.082798 sec)
ngb iteration 20: need to repeat for 0000000027 particles. (took 0.0833511 sec)
ngb iteration 21: need to repeat for 0000000020 particles. (took 0.0828738 sec)
ngb iteration 22: need to repeat for 0000000016 particles. (took 0.0825961 sec)
ngb iteration 23: need to repeat for 0000000012 particles. (took 0.0826311 sec)
ngb iteration 24: need to repeat for 0000000008 particles. (took 0.0824819 sec)
ngb iteration 25: need to repeat for 0000000007 particles. (took 0.0823781 sec)
ngb iteration 26: need to repeat for 0000000004 particles. (took 0.0825489 sec)
ngb iteration 27: need to repeat for 0000000002 particles. (took 0.0821102 sec)
final operations ... 
density and smoothing length for species 5 took 2.848 sec
Tree construction for species 0 (271555694).
tree build for species 0 took 0.89269 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 42.3006 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.985127 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 22.9418 sec
Tree construction for species 4 (15069978).
tree build for species 4 took 0.176628 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 8.23023 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.0924232 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 5.95796 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.7832 sec
saving densities took 3.78693 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 8962665 particles.)
the other 174855 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 33936 - 116858095 

subfind_exchange()() took 3.31836 sec

collectively doing halo 1, num=20
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=11725.7 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=11845.3 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 11845.3 Mbyte (on task=0), Smallest = 8087.96 Mbyte, Average = 8158.48 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8427      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8427     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8427     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4121    4068.1689  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2900.5263    6968.6953  allocate_memory()/allocate.c/85
   0 2971 0              MetP    675.1208    7643.8161  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.6641    7717.4802  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8773    7724.4454  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.5881    7798.0335  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6469    7920.6804  fof_fof()/fof.c/337
   0 2978 0             Group      1.3489    7922.0293  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3803.6928   11725.7221  subfind()/subfind.c/376
   0 2982 0          TopNodes      8.5846   11734.3946  domain_allocate()/domain.c/570
   0 2983 0        domain_key     97.6853   11832.0799  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      0.6604   11832.7485  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      0.6604   11833.4088  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      0.6604   11834.0692  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      0.6604   11834.7295  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      0.6604   11835.3926  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      0.6604   11836.0557  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes      9.2450   11845.3007  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=89393
After=115889
NTopleaves= 101403  NTopnodes=115889 (space for 173108)
gravity work-load balance=1.01358   memory-balance=1.01358   SPH work-load balance=1.01313
iter=0 exchange of 0034308057 particles (ret=0)
domain decomposition done. (took 2.35242 sec)
Freed 2.61928 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 13353.9 Mbyte (on task=0), Smallest = 9596.53 Mbyte, Average = 9667.06 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8427      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8427     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8427     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4121    4068.1689  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2900.5263    6968.6953  allocate_memory()/allocate.c/85
   0 2971 0              MetP    675.1208    7643.8161  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.6641    7717.4802  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8773    7724.4454  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.5881    7798.0335  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6469    7920.6804  fof_fof()/fof.c/337
   0 2978 0             Group      1.3489    7922.0293  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3803.6928   11725.7221  subfind()/subfind.c/376
   0 2982 0          TopNodes      5.7471   11731.5570  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.3868   11731.9439  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    831.1665   12563.1104  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    692.6388   13255.7492  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     49.2847   13305.0339  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     48.8427   13353.8766  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 3.01361 sec  (presently allocated=13353.9 MB)
force_treebuild() took 4.64264 sec (presently allocated=13353.9 MB)
Start find_linkngb (191895 particles on task=0)
find linkngb iteration 1: need to repeat for 0029611980 particles. (took 5.78631 sec)
find linkngb iteration 2: need to repeat for 0026187405 particles. (took 3.50054 sec)
find linkngb iteration 3: need to repeat for 0022333327 particles. (took 2.21697 sec)
find linkngb iteration 4: need to repeat for 0020681997 particles. (took 1.51556 sec)
find linkngb iteration 5: need to repeat for 0018274494 particles. (took 1.39851 sec)
find linkngb iteration 6: need to repeat for 0014923088 particles. (took 1.22476 sec)
find linkngb iteration 7: need to repeat for 0010809420 particles. (took 1.00641 sec)
find linkngb iteration 8: need to repeat for 0006958658 particles. (took 0.747638 sec)
find linkngb iteration 9: need to repeat for 0004110227 particles. (took 0.499069 sec)
find linkngb iteration 10: need to repeat for 0002303557 particles. (took 0.294559 sec)
find linkngb iteration 11: need to repeat for 0001254798 particles. (took 0.165517 sec)
find linkngb iteration 12: need to repeat for 0000655824 particles. (took 0.0956199 sec)
find linkngb iteration 13: need to repeat for 0000218116 particles. (took 0.0539789 sec)
find linkngb iteration 14: need to repeat for 0000062049 particles. (took 0.0224838 sec)
find linkngb iteration 15: need to repeat for 0000028748 particles. (took 0.0100188 sec)
find linkngb iteration 16: need to repeat for 0000014745 particles. (took 0.00644493 sec)
find linkngb iteration 17: need to repeat for 0000007595 particles. (took 0.00497818 sec)
find linkngb iteration 18: need to repeat for 0000003921 particles. (took 0.00332999 sec)
find linkngb iteration 19: need to repeat for 0000002100 particles. (took 0.00241613 sec)
find linkngb iteration 20: need to repeat for 0000001269 particles. (took 0.00145197 sec)
find linkngb iteration 21: need to repeat for 0000000808 particles. (took 0.00118184 sec)
find linkngb iteration 22: need to repeat for 0000000532 particles. (took 0.00107598 sec)
find linkngb iteration 23: need to repeat for 0000000342 particles. (took 0.0009799 sec)
find linkngb iteration 24: need to repeat for 0000000197 particles. (took 0.000945091 sec)
find linkngb iteration 25: need to repeat for 0000000101 particles. (took 0.000880957 sec)
find linkngb iteration 26: need to repeat for 0000000047 particles. (took 0.000876188 sec)
find linkngb iteration 27: need to repeat for 0000000021 particles. (took 0.000850916 sec)
find linkngb iteration 28: need to repeat for 0000000008 particles. (took 0.000853062 sec)
find linkngb iteration 29: need to repeat for 0000000002 particles. (took 0.000857115 sec)
find_linkngb() took 18.5675 sec
Start finding nearest two (191895 particles on task=0)
find_nearesttwo() took 2.19162 sec (presently allocated=13368.5 MB)
parallel sort of densities done. took 0.218106 sec
building distributed linked list. (presently allocated 13366.6 MB)
identification of primary candidates took 641.894 sec
adding background as candidate took 0.0865791 sec
establishing of rank order took 209.825 sec  (p=34540955, grouplen=34540955) presently allocated 13366.6 MB

total number of subhalo candidates=125541

number of subhalo candidates that can be done independently=108375.
(Largest size is 4191, finding them took 0.052494 sec)
particles are marked (took 108.121)
independent subhalos are assembled on individual CPUs for unbinding (0.25196 sec, (presently allocated=13366.6 MB)
unbinding of independent ones took 0.15691 sec
particles have returned to their original processor (0.332983 sec, presently allocated 13366.6 MB)

number of subhalo candidates that can be done independently=15551.
(Largest size is 16072, finding them took 2.45521 sec)
particles are marked (took 77.3)
independent subhalos are assembled on individual CPUs for unbinding (0.229447 sec, (presently allocated=13366.6 MB)
unbinding of independent ones took 0.655593 sec
particles have returned to their original processor (0.307562 sec, presently allocated 13366.6 MB)

number of subhalo candidates that can be done independently=1481.
(Largest size is 76280, finding them took 2.40946 sec)
particles are marked (took 64.7092)
independent subhalos are assembled on individual CPUs for unbinding (0.211231 sec, (presently allocated=13366.6 MB)
unbinding of independent ones took 2.71291 sec
particles have returned to their original processor (0.291201 sec, presently allocated 13366.6 MB)

number of subhalo candidates that can be done independently=117.
(Largest size is 507859, finding them took 0.789258 sec)
particles are marked (took 63.3324)
independent subhalos are assembled on individual CPUs for unbinding (0.239922 sec, (presently allocated=13366.6 MB)
unbinding of independent ones took 48.0936 sec
particles have returned to their original processor (0.319331 sec, presently allocated 13366.6 MB)

number of subhalo candidates that can be done independently=14.
(Largest size is 1534422, finding them took 1.26935 sec)
particles are marked (took 55.6798)
independent subhalos are assembled on individual CPUs for unbinding (0.196225 sec, (presently allocated=13366.6 MB)
unbinding of independent ones took 10.2361 sec
particles have returned to their original processor (0.283567 sec, presently allocated 13366.6 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 1534422, finding them took 1.27567 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=507859 ... maximum alloacted 13367.3 MB
took 7.75982 sec
collective unbinding of nr=1 (3) of length=1534422 ... maximum alloacted 13367.3 MB
took 19.6976 sec
collective unbinding of nr=2 (3) of length=34540955 ... maximum alloacted 13367.3 MB
took 463 sec

the collective unbinding of remaining halos took 535.289 sec

found 6886 bound substructures in FoF group of length 34540955
determination of parent subhalo took 0.069267 sec (presently allocated 13367.3 MB)
determining substructure properties took 457.08 sec (presently allocated 13367.3 MB)
processing of collective halos took 2333.78 sec
sort of local particles()() took 1.38347 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 1376.82 sec

Task 148: testing particles ...
Task 167: testing particles ...
Task 157: testing particles ...
Task 161: testing particles ...
Task 156: testing particles ...
Task 172: testing particles ...
Task 159: testing particles ...
Task 138: testing particles ...
Task 173: testing particles ...
Task 115: testing particles ...
Task 126: testing particles ...
Task 137: testing particles ...
Task 158: testing particles ...
Task 163: testing particles ...
Task 143: testing particles ...
Task 155: testing particles ...
Task 118: testing particles ...
Task 160: testing particles ...
Task 168: testing particles ...
Task 88: testing particles ...
Task 176: testing particles ...
Task 141: testing particles ...
Task 133: testing particles ...
Task 96: testing particles ...
Task 139: testing particles ...
unsorting of local particles()() took 1.25852 sec
Task 0: testing particles ...
Task 142: testing particles ...
Task 95: testing particles ...
Task 134: testing particles ...
Task 175: testing particles ...
Task 132: testing particles ...
Task 136: testing particles ...
Task 111: testing particles ...
Task 105: testing particles ...
Task 150: testing particles ...
Task 177: testing particles ...
Task 112: testing particles ...
Task 152: testing particles ...
Task 169: testing particles ...
Task 145: testing particles ...
Task 154: testing particles ...
Task 116: testing particles ...
Task 179: testing particles ...
Task 165: testing particles ...
Task 166: testing particles ...
Task 113: testing particles ...
Task 79: testing particles ...
Task 151: testing particles ...
Task 144: testing particles ...
Task 78: testing particles ...
Task 127: testing particles ...
Task 170: testing particles ...
Task 122: testing particles ...
Task 42: testing particles ...
Task 100: testing particles ...
Task 89: testing particles ...
Task 74: testing particles ...
Task 129: testing particles ...
Task 171: testing particles ...
Task 108: testing particles ...
Task 124: testing particles ...
Task 140: testing particles ...
Task 119: testing particles ...
Task 94: testing particles ...
Task 121: testing particles ...
Task 120: testing particles ...
Task 90: testing particles ...
Task 149: testing particles ...
Task 109: testing particles ...
Task 162: testing particles ...
Task 128: testing particles ...
Task 130: testing particles ...
Task 85: testing particles ...
Task 164: testing particles ...
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subfind_exchange() (for return to original CPU)  took 7.53595 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=11725.7 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=11845.3 MB)
Before=127313
After=140089
NTopleaves= 122578  NTopnodes=140089 (space for 173108)
gravity work-load balance=1.01529   memory-balance=1.01529   SPH work-load balance=1.01484
iter=0 exchange of 0573187553 particles (ret=0)
domain decomposition done. (took 10.5658 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.51149 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000140691 particles. (took 0.02634 sec)
SO iteration 2: need to repeat for 0000140691 particles. (took 0.0239861 sec)
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SO iteration 12: need to repeat for 0000140691 particles. (took 0.025177 sec)
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SO iteration 14: need to repeat for 0000140691 particles. (took 0.025053 sec)
SO iteration 15: need to repeat for 0000138518 particles. (took 0.0251269 sec)
SO iteration 16: need to repeat for 0000000629 particles. (took 0.0240769 sec)
SO iteration 17: need to repeat for 0000000032 particles. (took 0.0010612 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000511885 sec)
SO iteration 1: need to repeat for 0000140691 particles. (took 0.025645 sec)
SO iteration 2: need to repeat for 0000140691 particles. (took 0.0210228 sec)
SO iteration 3: need to repeat for 0000140691 particles. (took 0.0220308 sec)
SO iteration 4: need to repeat for 0000140691 particles. (took 0.0219409 sec)
SO iteration 5: need to repeat for 0000140691 particles. (took 0.0219412 sec)
SO iteration 6: need to repeat for 0000140691 particles. (took 0.021919 sec)
SO iteration 7: need to repeat for 0000140691 particles. (took 0.021688 sec)
SO iteration 8: need to repeat for 0000140691 particles. (took 0.0217168 sec)
SO iteration 9: need to repeat for 0000140691 particles. (took 0.021759 sec)
SO iteration 10: need to repeat for 0000140691 particles. (took 0.0217011 sec)
SO iteration 11: need to repeat for 0000140691 particles. (took 0.021723 sec)
SO iteration 12: need to repeat for 0000140691 particles. (took 0.021693 sec)
SO iteration 13: need to repeat for 0000140691 particles. (took 0.021734 sec)
SO iteration 14: need to repeat for 0000140691 particles. (took 0.0217581 sec)
SO iteration 15: need to repeat for 0000139843 particles. (took 0.0218451 sec)
SO iteration 16: need to repeat for 0000021219 particles. (took 0.0215189 sec)
SO iteration 17: need to repeat for 0000000308 particles. (took 0.00644708 sec)
SO iteration 18: need to repeat for 0000000035 particles. (took 0.000669956 sec)
SO iteration 1: need to repeat for 0000140691 particles. (took 0.025589 sec)
SO iteration 2: need to repeat for 0000140691 particles. (took 0.02054 sec)
SO iteration 3: need to repeat for 0000140691 particles. (took 0.0167511 sec)
SO iteration 4: need to repeat for 0000140691 particles. (took 0.0183918 sec)
SO iteration 5: need to repeat for 0000140691 particles. (took 0.0175078 sec)
SO iteration 6: need to repeat for 0000140691 particles. (took 0.0173409 sec)
SO iteration 7: need to repeat for 0000140691 particles. (took 0.017695 sec)
SO iteration 8: need to repeat for 0000140691 particles. (took 0.0177732 sec)
SO iteration 9: need to repeat for 0000140691 particles. (took 0.0178361 sec)
SO iteration 10: need to repeat for 0000140691 particles. (took 0.0177572 sec)
SO iteration 11: need to repeat for 0000140691 particles. (took 0.017817 sec)
SO iteration 12: need to repeat for 0000140691 particles. (took 0.017736 sec)
SO iteration 13: need to repeat for 0000140691 particles. (took 0.0178978 sec)
SO iteration 14: need to repeat for 0000140691 particles. (took 0.0178039 sec)
SO iteration 15: need to repeat for 0000140668 particles. (took 0.0178468 sec)
SO iteration 16: need to repeat for 0000139322 particles. (took 0.0178821 sec)
SO iteration 17: need to repeat for 0000029187 particles. (took 0.017673 sec)
SO iteration 18: need to repeat for 0000000538 particles. (took 0.00708985 sec)
SO iteration 19: need to repeat for 0000000048 particles. (took 0.000801086 sec)
SO iteration 20: need to repeat for 0000000001 particles. (took 0.000452995 sec)
SO iteration 1: need to repeat for 0000140691 particles. (took 0.0261331 sec)
SO iteration 2: need to repeat for 0000140691 particles. (took 0.0210898 sec)
SO iteration 3: need to repeat for 0000140691 particles. (took 0.023124 sec)
SO iteration 4: need to repeat for 0000140691 particles. (took 0.023591 sec)
SO iteration 5: need to repeat for 0000140691 particles. (took 0.0239868 sec)
SO iteration 6: need to repeat for 0000140691 particles. (took 0.0237989 sec)
SO iteration 7: need to repeat for 0000140691 particles. (took 0.023591 sec)
SO iteration 8: need to repeat for 0000140691 particles. (took 0.0237231 sec)
SO iteration 9: need to repeat for 0000140691 particles. (took 0.0236411 sec)
SO iteration 10: need to repeat for 0000140691 particles. (took 0.0237641 sec)
SO iteration 11: need to repeat for 0000140691 particles. (took 0.0239801 sec)
SO iteration 12: need to repeat for 0000140691 particles. (took 0.023968 sec)
SO iteration 13: need to repeat for 0000140691 particles. (took 0.0240641 sec)
SO iteration 14: need to repeat for 0000140691 particles. (took 0.02387 sec)
SO iteration 15: need to repeat for 0000138654 particles. (took 0.0236628 sec)
SO iteration 16: need to repeat for 0000001445 particles. (took 0.0231228 sec)
SO iteration 17: need to repeat for 0000000061 particles. (took 0.00145102 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000519037 sec)
SO iteration 1: need to repeat for 0000140691 particles. (took 0.025697 sec)
SO iteration 2: need to repeat for 0000140691 particles. (took 0.0210211 sec)
SO iteration 3: need to repeat for 0000140691 particles. (took 0.0228829 sec)
SO iteration 4: need to repeat for 0000140691 particles. (took 0.0223091 sec)
SO iteration 5: need to repeat for 0000140691 particles. (took 0.0221419 sec)
SO iteration 6: need to repeat for 0000140691 particles. (took 0.0223391 sec)
SO iteration 7: need to repeat for 0000140691 particles. (took 0.0224352 sec)
SO iteration 8: need to repeat for 0000140691 particles. (took 0.0223949 sec)
SO iteration 9: need to repeat for 0000140691 particles. (took 0.0224071 sec)
SO iteration 10: need to repeat for 0000140691 particles. (took 0.0225739 sec)
SO iteration 11: need to repeat for 0000140691 particles. (took 0.022609 sec)
SO iteration 12: need to repeat for 0000140691 particles. (took 0.02248 sec)
SO iteration 13: need to repeat for 0000140691 particles. (took 0.0225501 sec)
SO iteration 14: need to repeat for 0000140691 particles. (took 0.0225301 sec)
SO iteration 15: need to repeat for 0000139277 particles. (took 0.0224741 sec)
SO iteration 16: need to repeat for 0000007635 particles. (took 0.0217161 sec)
SO iteration 17: need to repeat for 0000000172 particles. (took 0.00390601 sec)
SO iteration 18: need to repeat for 0000000017 particles. (took 0.000559807 sec)
SO iteration 1: need to repeat for 0000140691 particles. (took 0.0254891 sec)
SO iteration 2: need to repeat for 0000140691 particles. (took 0.020705 sec)
SO iteration 3: need to repeat for 0000140691 particles. (took 0.0191779 sec)
SO iteration 4: need to repeat for 0000140691 particles. (took 0.0196869 sec)
SO iteration 5: need to repeat for 0000140691 particles. (took 0.019604 sec)
SO iteration 6: need to repeat for 0000140691 particles. (took 0.0197749 sec)
SO iteration 7: need to repeat for 0000140691 particles. (took 0.0200689 sec)
SO iteration 8: need to repeat for 0000140691 particles. (took 0.020189 sec)
SO iteration 9: need to repeat for 0000140691 particles. (took 0.020227 sec)
SO iteration 10: need to repeat for 0000140691 particles. (took 0.020272 sec)
SO iteration 11: need to repeat for 0000140691 particles. (took 0.0203569 sec)
SO iteration 12: need to repeat for 0000140691 particles. (took 0.0203221 sec)
SO iteration 13: need to repeat for 0000140691 particles. (took 0.020329 sec)
SO iteration 14: need to repeat for 0000140691 particles. (took 0.0203209 sec)
SO iteration 15: need to repeat for 0000140478 particles. (took 0.0203559 sec)
SO iteration 16: need to repeat for 0000138786 particles. (took 0.020345 sec)
SO iteration 17: need to repeat for 0000001584 particles. (took 0.019346 sec)
SO iteration 18: need to repeat for 0000000117 particles. (took 0.00180006 sec)
SO iteration 19: need to repeat for 0000000004 particles. (took 0.000544786 sec)
SO iteration 1: need to repeat for 0000140691 particles. (took 0.025584 sec)
SO iteration 2: need to repeat for 0000140691 particles. (took 0.0205381 sec)
SO iteration 3: need to repeat for 0000140691 particles. (took 0.0166621 sec)
SO iteration 4: need to repeat for 0000140691 particles. (took 0.0157831 sec)
SO iteration 5: need to repeat for 0000140691 particles. (took 0.0163779 sec)
SO iteration 6: need to repeat for 0000140691 particles. (took 0.0160968 sec)
SO iteration 7: need to repeat for 0000140691 particles. (took 0.0161529 sec)
SO iteration 8: need to repeat for 0000140691 particles. (took 0.016273 sec)
SO iteration 9: need to repeat for 0000140691 particles. (took 0.0161569 sec)
SO iteration 10: need to repeat for 0000140691 particles. (took 0.0162649 sec)
SO iteration 11: need to repeat for 0000140691 particles. (took 0.016268 sec)
SO iteration 12: need to repeat for 0000140691 particles. (took 0.0162151 sec)
SO iteration 13: need to repeat for 0000140691 particles. (took 0.0161269 sec)
SO iteration 14: need to repeat for 0000140691 particles. (took 0.0161681 sec)
SO iteration 15: need to repeat for 0000140687 particles. (took 0.0161641 sec)
SO iteration 16: need to repeat for 0000140295 particles. (took 0.0160961 sec)
SO iteration 17: need to repeat for 0000134796 particles. (took 0.0160789 sec)
SO iteration 18: need to repeat for 0000003660 particles. (took 0.015707 sec)
SO iteration 19: need to repeat for 0000000140 particles. (took 0.00203896 sec)
SO iteration 20: need to repeat for 0000000007 particles. (took 0.00048995 sec)
determining spherical overdensity masses took 2.48957 sec
finding spherical overdensity particles took 0.344143 sec
determining contamination of halos took 0.201266 sec
Global sort of Groups took 0.042053 sec
Global sort of SubGroups took 0.123292 sec
Global sort of IDs took 0.728837 sec
Writing block 0 (GLEN), n=972, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3888d
Writing block 1 (GOFF), n=972, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3888d
Writing block 2 (MTOT), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 3 (GPOS), n=972, ptype=0, dtype=1, ndim=3, bpb=4 bytes=11664d
Writing block 4 (MMEA), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 5 (RMEA), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 6 (MCRI), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 7 (RCRI), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 8 (MTOP), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 9 (RTOP), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 17 (NCON), n=972, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3888d
Writing block 18 (MCON), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 22 (NSUB), n=972, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3888d
Writing block 23 (FSUB), n=972, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3888d
Writing block 24 (SLEN), n=7820, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31280d
Writing block 25 (SOFF), n=7820, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31280d
Writing block 26 (SSUB), n=7820, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31280d
Writing block 27 (MSUB), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 28 (SPOS), n=7820, ptype=1, dtype=1, ndim=3, bpb=4 bytes=93840d
Writing block 29 (SVEL), n=7820, ptype=1, dtype=1, ndim=3, bpb=4 bytes=93840d
Writing block 30 (SCM ), n=7820, ptype=1, dtype=1, ndim=3, bpb=4 bytes=93840d
Writing block 33 (VMAX), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 34 (RMAX), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 35 (RHMS), n=7820, ptype=1, dtype=1, ndim=6, bpb=4 bytes=187680d
Writing block 36 (MTRH), n=7820, ptype=1, dtype=1, ndim=6, bpb=4 bytes=187680d
Writing block 37 (MBID), n=7820, ptype=1, dtype=2, ndim=1, bpb=8 bytes=62560d
Writing block 38 (GRNR), n=7820, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31280d
Writing block 39 (SUBN), n=7820, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31280d
Writing block 40 (SMST), n=7820, ptype=1, dtype=1, ndim=6, bpb=4 bytes=187680d
Writing block 53 (PID ), n=1203159, ptype=2, dtype=2, ndim=1, bpb=8 bytes=9625272d
Writing block 54 (SLEN), n=7820, ptype=1, dtype=0, ndim=6, bpb=4 bytes=187680d
Writing block 55 (STEN), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 56 (SKEN), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 57 (SUEN), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 58 (SUIT), n=7820, ptype=1, dtype=1, ndim=9, bpb=4 bytes=281520d
Writing block 59 (BHMA), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 60 (BHMD), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 61 (SVD ), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 62 (SVDH), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 63 (HMPR), n=7820, ptype=1, dtype=1, ndim=6, bpb=4 bytes=187680d
Writing block 64 (SSFR), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 65 (SSA ), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 66 (SSBZ), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 67 (SSIM), n=7820, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 68 (SSPI), n=7820, ptype=4, dtype=1, ndim=3, bpb=4 bytes=93840d
Writing block 69 (GSPI), n=7820, ptype=1, dtype=1, ndim=3, bpb=4 bytes=93840d
Writing block 70 (FSPI), n=7820, ptype=5, dtype=1, ndim=3, bpb=4 bytes=93840d
Writing block 71 (SFM ), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 72 (SFMT), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 73 (SFME), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 74 (SFAE), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 75 (SFKE), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 76 (SFTE), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 77 (SMWP), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 78 (SMM ), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 79 (SMMS), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 80 (SFZ ), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 81 (SFZS), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 82 (SSIA), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 83 (SIAS), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 84 (SMET), n=7820, ptype=5, dtype=1, ndim=9, bpb=4 bytes=281520d
Writing block 85 (SMTS), n=7820, ptype=5, dtype=1, ndim=9, bpb=4 bytes=281520d
Writing block 86 (MF1 ), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 87 (MeF1), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 88 (MF  ), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 89 (MeF2), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 90 (MFA ), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 91 (MeFA), n=7820, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 92 (NSPI), n=7820, ptype=6, dtype=1, ndim=3, bpb=4 bytes=93840d
Writing block 93 (NFM ), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 94 (NFMT), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 95 (NFME), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 96 (NFAE), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 97 (NFKE), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 98 (NFTE), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 99 (SMWP), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 100 (SMM ), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 101 (SMMS), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 102 (SSIA), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 103 (SIAS), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 104 (SMET), n=7820, ptype=6, dtype=1, ndim=9, bpb=4 bytes=281520d
Writing block 105 (SMTS), n=7820, ptype=6, dtype=1, ndim=9, bpb=4 bytes=281520d
Writing block 106 (MF1 ), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 107 (MeF1), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 108 (MF2 ), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 109 (MeF2), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 110 (MFA ), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 111 (MeFA), n=7820, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 112 (SM  ), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 113 (SFKE), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 114 (SFAE), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 115 (SMWP), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 116 (SMM ), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 117 (SMMS), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 118 (SSIA), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 119 (SIAS), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 120 (SMET), n=7820, ptype=4, dtype=1, ndim=9, bpb=4 bytes=281520d
Writing block 121 (SMTS), n=7820, ptype=4, dtype=1, ndim=9, bpb=4 bytes=281520d
Writing block 122 (MF1 ), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 123 (MeF1), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 124 (MF2 ), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 125 (MeF2), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 126 (MFA ), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 127 (MeFA), n=7820, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31280d
Writing block 128 (MMe5), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 129 (RMe5), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 130 (MCr5), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 131 (RCr5), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 132 (MMe2), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 133 (RMe2), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 134 (MCr2), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 135 (RCr2), n=972, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3888d
Writing block 136 (MAPT), n=7820, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1876800d
Writing block 137 (SAPT), n=7820, ptype=8, dtype=1, ndim=10, bpb=4 bytes=312800d
Writing block 138 (VAPT), n=7820, ptype=9, dtype=1, ndim=10, bpb=4 bytes=312800d
Writing block 139 (BEGY), n=1203159, ptype=2, dtype=1, ndim=1, bpb=4 bytes=4812636d
Subgroup catalogues saved. took = 10.4301 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 7.025669e-01
 eagle_ph_key_ort: type= 1 timed by volker 7.748559e-01
 eagle_ph_key_ort: type= 2 timed by volker 8.475208e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.334593e-02
 eagle_ph_key_ort: type= 4 timed by volker 9.583211e-02
 eagle_ph_key_ort: type= 5 timed by volker 2.268100e-02
 eagle_ph_key_ort: timing parallel sort = 1.838959e+00
 eagle_fetch_elements: we are using 1846931072 bytes of memory, FreeBytes= 2308663840

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 11798.3 Mbyte (on task=0), Smallest = 8040.88 Mbyte, Average = 8112.17 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8427      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8427     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8427     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4121    4068.1689  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2900.5263    6968.6953  allocate_memory()/allocate.c/85
   0 2971 0              MetP    675.1208    7643.8161  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.6641    7717.4802  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8773    7724.4454  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.5881    7798.0335  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6469    7920.6804  fof_fof()/fof.c/337
   0 2978 0             Group      1.3489    7922.0293  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3803.6928   11725.7221  subfind()/subfind.c/376
   0 2980 0   sort_index_data     72.5645   11798.2866  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1237673 number of bytes = 396055360

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 13535.4 Mbyte (on task=0), Smallest = 9774.07 Mbyte, Average = 9858.6 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8427      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8427     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8427     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4121    4068.1689  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2900.5263    6968.6953  allocate_memory()/allocate.c/85
   0 2971 0              MetP    675.1208    7643.8161  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.6641    7717.4802  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8773    7724.4454  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.5881    7798.0335  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6469    7920.6804  fof_fof()/fof.c/337
   0 2978 0             Group      1.3489    7922.0293  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3803.6928   11725.7221  subfind()/subfind.c/376
   0 2980 0   sort_index_data     72.5645   11798.2866  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      4.7214   11803.0079  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      4.7214   11807.7293  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      4.7214   11812.4506  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    377.7078   12190.1585  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    377.7078   12567.8663  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    967.5269   13535.3932  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 4.995645e+00
 eagle_fetch_elements: we are using 1846931072 bytes of memory, FreeBytes= 2308663840
 eagle_fetch_elements: max_bytes= 504, max_elements= 1054209 number of bytes = 531321336
 eagle_ph_key_ort: timing parallel SphP exchange = 3.784058e+00
 eagle_fetch_elements: we are using 1846931072 bytes of memory, FreeBytes= 2308663840
 eagle_fetch_elements: max_bytes= 384, max_elements= 2277160 number of bytes = 874429440
 eagle_ph_key_ort: timing parallel MetP exchange = 3.440390e-01
 eagle_fetch_elements: we are using 1846931072 bytes of memory, FreeBytes= 2308663840
 eagle_fetch_elements: max_bytes= 256, max_elements= 3524571 number of bytes = 902290176
 eagle_ph_key_ort: timing parallel BHP exchange = 6.693125e-03
Sorting particle-data by peano-hilbert key took = 11.5825 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1846931072 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1237673 number of bytes= 396055360
 eagle_ph_restore: timing parallel P exchange = 5.286024e+00
 eagle_send_elements: we are using 1846931072 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1054209 number of bytes= 531321336
 eagle_ph_restore: timing parallel SphP exchange = 3.855443e+00
 eagle_send_elements: we are using 1846931072 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2277160 number of bytes= 874429440
 eagle_ph_restore: timing parallel MetP exchange = 3.736520e-01
 eagle_send_elements: we are using 1846931072 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3524571 number of bytes= 902290176
 eagle_ph_restore: timing parallel BHP exchange = 6.497860e-03
Restoring original order after ph key sorting took = 9.55854 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4359.66 sec)

Finished computing FoF groups.  (presently allocated=7724.45 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7717.48 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=7837.06 MB)
Before=124761
After=138881
NTopleaves= 121521  NTopnodes=138881 (space for 173108)
gravity work-load balance=1.01422   memory-balance=1.01421   SPH work-load balance=1.01334
iter=0 exchange of 0572759091 particles (ret=0)
domain decomposition done. (took 10.2822 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.56679 MByte in top-level domain structure
Tree construction.
task 22: endrun called with an error level of 124


task 33: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
task 39: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
task 22: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
task 33: endrun called with an error level of 124


task 39: endrun called with an error level of 124


task 45: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
Finished FOF, total time doing fof/subfind = 4455.06 s
task 67: endrun called with an error level of 124


task 174: endrun called with an error level of 124


task 45: endrun called with an error level of 124


task 123: endrun called with an error level of 124


task 157: endrun called with an error level of 124


task 135: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 84:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 112: endrun called with an error level of 124


task 90: endrun called with an error level of 124


task 168: endrun called with an error level of 124


task 129: endrun called with an error level of 124


task 78: endrun called with an error level of 124


task 0: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 174:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 174
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 174:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 174
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 123:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 123
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 123:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 123
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
task 84: endrun called with an error level of 124


task 84: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 168:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 168
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 168:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 168
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 129:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 129
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 129:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 129
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 78:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 78
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 78:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 78
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 67: endrun called with an error level of 124


task 174: endrun called with an error level of 124


task 123: endrun called with an error level of 124


task 157: endrun called with an error level of 124


task 135: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 84
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 84:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 84
task 112: endrun called with an error level of 124


task 90: endrun called with an error level of 124


task 168: endrun called with an error level of 124


task 129: endrun called with an error level of 124


task 78: endrun called with an error level of 124


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


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   63033.82 Mb (on task=56), Smallest =   62821.79 Mb (on task=0), Average =   62978.43 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=44), Smallest =   64531.71 Mb (on task=56), Average =   64532.01 Mb
Committed_AS:	 Largest =    1710.20 Mb (on task=0), Smallest =    1497.89 Mb (on task=56), Average =    1553.58 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=8), Smallest =   16266.05 Mb (on task=24), Average =   16310.44 Mb
AllocMem:	 Largest =    1710.20 Mb (on task=0), Smallest =    1497.89 Mb (on task=56), Average =    1553.58 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 180 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N4':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         14000
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 4066.15 MByte for particle storage.

Allocated 2901.16 MByte for storage of SPH data.

Allocated 674.76 MByte for storage of MET data.

Allocated 73.6802 MByte for storage of BH data.


reading file `data//snapshot_019_z000p366/snap_019_z000p366.0.hdf5' on task=0 (contains 35984031 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   16969810  (tot=     0271615125) masstab=0
Type 1 (halo):  17832739  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12169  (tot=     0000254233) masstab=0
Type 3 (bulge):    92777  (tot=     0002602064) masstab=0
Type 4 (stars):  1074817  (tot=     0015010770) masstab=0
Type 5 (bndry):     1719  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.13.hdf5' on task=157 (contains 36152273 particles.)
distributing this file to tasks 157-167
Type 0 (gas):   17026482  (tot=     0271615125) masstab=0
Type 1 (halo):  17971388  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14450  (tot=     0000254233) masstab=0
Type 3 (bulge):   285590  (tot=     0002602064) masstab=0
Type 4 (stars):   852594  (tot=     0015010770) masstab=0
Type 5 (bndry):     1769  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.14.hdf5' on task=168 (contains 36166738 particles.)
distributing this file to tasks 168-173
Type 0 (gas):   17042604  (tot=     0271615125) masstab=0
Type 1 (halo):  18104778  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10321  (tot=     0000254233) masstab=0
Type 3 (bulge):   113561  (tot=     0002602064) masstab=0
Type 4 (stars):   893672  (tot=     0015010770) masstab=0
Type 5 (bndry):     1802  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.9.hdf5' on task=112 (contains 36101092 particles.)
distributing this file to tasks 112-122
Type 0 (gas):   16905503  (tot=     0271615125) masstab=0
Type 1 (halo):  18048991  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8368  (tot=     0000254233) masstab=0
Type 3 (bulge):   108622  (tot=     0002602064) masstab=0
Type 4 (stars):  1027817  (tot=     0015010770) masstab=0
Type 5 (bndry):     1791  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.6.hdf5' on task=78 (contains 35767107 particles.)
distributing this file to tasks 78-83
Type 0 (gas):   17066190  (tot=     0271615125) masstab=0
Type 1 (halo):  17700107  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     26765  (tot=     0000254233) masstab=0
Type 3 (bulge):   180853  (tot=     0002602064) masstab=0
Type 4 (stars):   791413  (tot=     0015010770) masstab=0
Type 5 (bndry):     1779  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.10.hdf5' on task=123 (contains 35941231 particles.)
distributing this file to tasks 123-128
Type 0 (gas):   17029651  (tot=     0271615125) masstab=0
Type 1 (halo):  17956402  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20592  (tot=     0000254233) masstab=0
Type 3 (bulge):   104325  (tot=     0002602064) masstab=0
Type 4 (stars):   828486  (tot=     0015010770) masstab=0
Type 5 (bndry):     1775  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.7.hdf5' on task=84 (contains 35958587 particles.)
distributing this file to tasks 84-89
Type 0 (gas):   16954552  (tot=     0271615125) masstab=0
Type 1 (halo):  17816317  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21436  (tot=     0000254233) masstab=0
Type 3 (bulge):   184033  (tot=     0002602064) masstab=0
Type 4 (stars):   980470  (tot=     0015010770) masstab=0
Type 5 (bndry):     1779  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.2.hdf5' on task=33 (contains 36108113 particles.)
distributing this file to tasks 33-38
Type 0 (gas):   16994479  (tot=     0271615125) masstab=0
Type 1 (halo):  17902122  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19481  (tot=     0000254233) masstab=0
Type 3 (bulge):   252379  (tot=     0002602064) masstab=0
Type 4 (stars):   937949  (tot=     0015010770) masstab=0
Type 5 (bndry):     1703  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.15.hdf5' on task=174 (contains 36117255 particles.)
distributing this file to tasks 174-179
Type 0 (gas):   16877175  (tot=     0271615125) masstab=0
Type 1 (halo):  17946643  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11918  (tot=     0000254233) masstab=0
Type 3 (bulge):   167089  (tot=     0002602064) masstab=0
Type 4 (stars):  1112526  (tot=     0015010770) masstab=0
Type 5 (bndry):     1904  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.3.hdf5' on task=39 (contains 35919275 particles.)
distributing this file to tasks 39-44
Type 0 (gas):   16932701  (tot=     0271615125) masstab=0
Type 1 (halo):  17830500  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16255  (tot=     0000254233) masstab=0
Type 3 (bulge):   140936  (tot=     0002602064) masstab=0
Type 4 (stars):   997257  (tot=     0015010770) masstab=0
Type 5 (bndry):     1626  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.1.hdf5' on task=22 (contains 36059302 particles.)
distributing this file to tasks 22-32
Type 0 (gas):   17022452  (tot=     0271615125) masstab=0
Type 1 (halo):  17932880  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16937  (tot=     0000254233) masstab=0
Type 3 (bulge):   217160  (tot=     0002602064) masstab=0
Type 4 (stars):   868072  (tot=     0015010770) masstab=0
Type 5 (bndry):     1801  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.4.hdf5' on task=45 (contains 35901441 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   16918637  (tot=     0271615125) masstab=0
Type 1 (halo):  17933668  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20718  (tot=     0000254233) masstab=0
Type 3 (bulge):    40952  (tot=     0002602064) masstab=0
Type 4 (stars):   985595  (tot=     0015010770) masstab=0
Type 5 (bndry):     1871  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.5.hdf5' on task=67 (contains 35867907 particles.)
distributing this file to tasks 67-77
Type 0 (gas):   16982309  (tot=     0271615125) masstab=0
Type 1 (halo):  17715873  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     25755  (tot=     0000254233) masstab=0
Type 3 (bulge):   146328  (tot=     0002602064) masstab=0
Type 4 (stars):   995804  (tot=     0015010770) masstab=0
Type 5 (bndry):     1838  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.11.hdf5' on task=129 (contains 36166846 particles.)
distributing this file to tasks 129-134
Type 0 (gas):   16924021  (tot=     0271615125) masstab=0
Type 1 (halo):  17979307  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9444  (tot=     0000254233) masstab=0
Type 3 (bulge):   278474  (tot=     0002602064) masstab=0
Type 4 (stars):   973808  (tot=     0015010770) masstab=0
Type 5 (bndry):     1792  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.12.hdf5' on task=135 (contains 35919006 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   16969850  (tot=     0271615125) masstab=0
Type 1 (halo):  17956901  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9936  (tot=     0000254233) masstab=0
Type 3 (bulge):   108331  (tot=     0002602064) masstab=0
Type 4 (stars):   872214  (tot=     0015010770) masstab=0
Type 5 (bndry):     1774  (tot=     0000028578) masstab=0


reading file `data//snapshot_019_z000p366/snap_019_z000p366.8.hdf5' on task=90 (contains 36041296 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   16998709  (tot=     0271615125) masstab=0
Type 1 (halo):  18032114  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9688  (tot=     0000254233) masstab=0
Type 3 (bulge):   180654  (tot=     0002602064) masstab=0
Type 4 (stars):   818276  (tot=     0015010770) masstab=0
Type 5 (bndry):     1855  (tot=     0000028578) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576171500


Setting next time for grid output file to Time_next= 0.737686

Setting next time for line of sight file to Time_next= 0.734602

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.83857 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7717.77 MB)
Allocated 5.16755 MByte for top-level domain structure
use of 105.514 MB of temporary storage for domain decomposition... (presently allocated=7828.45 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 7828.45 Mbyte (on task=1), Smallest = 7828.45 Mbyte, Average = 7828.45 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.1236       2.0193  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag     12.2107      14.2299  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     48.8427      63.0726  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     48.8427     111.9152  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     48.8427     160.7579  allocate_memory()/allocate.c/61
   1 2969 0                 P   3907.4121    4068.1700  allocate_memory()/allocate.c/67
   1 2970 0              SphP   2901.1608    6969.3308  allocate_memory()/allocate.c/85
   1 2971 0              MetP    674.7598    7644.0905  allocate_memory()/allocate.c/105
   1 2972 0               BHP     73.6802    7717.7707  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      5.0797    7722.9383  domain_allocate()/domain.c/570
   1 2976 0        domain_key     97.6853    7820.6236  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.3907    7821.0225  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.3907    7821.4133  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.3907    7821.8040  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.3907    7822.1948  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.3907    7822.5883  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.3907    7822.9818  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      5.4704    7828.4522  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 6.69144 MByte for top-level domain structure
use of 107.858 MB of temporary storage for domain decomposition... (presently allocated=7832.32 MB)
Before=113513
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=7837.35 MB)
Before=113513
After=133225
NTopleaves= 116572  NTopnodes=133225 (space for 173108)
gravity work-load balance=1.01667   memory-balance=1.01667   SPH work-load balance=1.01701
iter=0 exchange of 0573174361 particles (ret=0)
domain decomposition done. (took 21.4099 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.8257 MByte in top-level domain structure

Allocated 1624.91 MByte for BH-tree, and 0.444687 Mbyte for top-leaves.  (presently allocted 9349.82 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 9857.06 Mbyte (on task=91), Smallest = 9720.16 Mbyte, Average = 9810.87 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  91 2964 0  Sendcount_matrix      0.1236       2.0193  allocate_memory()/allocate.c/41
  91 2965 0     ProcessedFlag     12.2107      14.2299  allocate_memory()/allocate.c/52
  91 2966 0  NextActiveParticle     48.8427      63.0726  allocate_memory()/allocate.c/55
  91 2967 0     NextInTimeBin     48.8427     111.9152  allocate_memory()/allocate.c/58
  91 2968 0     PrevInTimeBin     48.8427     160.7579  allocate_memory()/allocate.c/61
  91 2969 0                 P   3907.4121    4068.1700  allocate_memory()/allocate.c/67
  91 2970 0              SphP   2901.1608    6969.3308  allocate_memory()/allocate.c/85
  91 2971 0              MetP    674.7598    7644.0905  allocate_memory()/allocate.c/105
  91 2972 0               BHP     73.6802    7717.7707  allocate_memory()/allocate.c/126
  91 2975 0          TopNodes      6.6068    7724.4654  domain_allocate()/domain.c/570
  91 2976 0   DomainNodeIndex      0.4447    7724.9100  force_treeallocate()/forcetree.c/4800
  91 2977 0        Nodes_base    832.7537    8557.6637  force_treeallocate()/forcetree.c/4803
  91 2978 0     Extnodes_base    693.9614    9251.6252  force_treeallocate()/forcetree.c/4811
  91 2979 0          Nextnode     49.3509    9300.9760  force_treeallocate()/forcetree.c/4820
  91 2980 0            Father     48.8427    9349.8187  force_treeallocate()/forcetree.c/4827
  91 2981 0           Ngblist     12.0890    9361.9077  density()/density.c/690
  91 2982 0              Left     24.1780    9386.0857  density()/density.c/692
  91 2983 0             Right     24.1780    9410.2636  density()/density.c/693
  91 2984 0    DataIndexTable      7.0175    9417.2812  density()/density.c/738
  91 2985 0      DataNodeList     18.7134    9435.9946  density()/density.c/740
  91 2986 0       DensDataGet    123.1092    9559.1038  density()/density.c/893
  91 2987 0    DensDataResult    162.2803    9721.3840  density()/density.c/931
  91 2988 0       DensDataOut    135.6724    9857.0565  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0004087149 particles.
ngb iteration 2: need to repeat for 0000001308 particles.
ngb iteration 3: need to repeat for 0000000422 particles.
ngb iteration 4: need to repeat for 0000000317 particles.
ngb iteration 5: need to repeat for 0000000144 particles.
ngb iteration 6: need to repeat for 0000000104 particles.
ngb iteration 7: need to repeat for 0000000047 particles.
ngb iteration 8: need to repeat for 0000000007 particles.
ngb iteration 9: need to repeat for 0000000004 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.333.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.399.hdf5

Begin to compute FoF group catalogues...  (presently allocated=9349.82 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7717.77 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=7837.35 MB)
Before=125305
After=138545
NTopleaves= 121227  NTopnodes=138545 (space for 173108)
gravity work-load balance=1.01733   memory-balance=1.01733   SPH work-load balance=1.01772
iter=0 exchange of 0572759710 particles (ret=0)
domain decomposition done. (took 10.0942 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.58217 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=7724.73 MB)
Tree construction.

Start linking particles (presently allocated=9498.22 MB)
links on local processor done (took 10.0225 sec).
Marked=0046243642 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=9630.5 MB) 
have done 0000814579 cross links (processed 0046243642, took 4.40675 sec)
have done 0000344211 cross links (processed 0033964093, took 3.99809 sec)
have done 0000241930 cross links (processed 0027851204, took 2.6822 sec)
have done 0000155616 cross links (processed 0018215651, took 2.45456 sec)
have done 0000100695 cross links (processed 0013098470, took 3.19639 sec)
have done 0000067728 cross links (processed 0008527714, took 3.10741 sec)
have done 0000044744 cross links (processed 0005393066, took 2.48071 sec)
have done 0000032898 cross links (processed 0004965551, took 2.6617 sec)
have done 0000028018 cross links (processed 0003730971, took 1.61225 sec)
have done 0000019758 cross links (processed 0001719926, took 2.59336 sec)
have done 0000012163 cross links (processed 0000477535, took 0.838921 sec)
have done 0000005164 cross links (processed 0000160642, took 0.0736639 sec)
have done 0000002091 cross links (processed 0000054933, took 0.0638621 sec)
have done 0000000780 cross links (processed 0000013059, took 0.0463669 sec)
have done 0000000293 cross links (processed 0000004326, took 0.0454521 sec)
have done 0000000132 cross links (processed 0000001634, took 0.0448749 sec)
have done 0000000048 cross links (processed 0000000574, took 0.0442281 sec)
have done 0000000011 cross links (processed 0000000142, took 0.044584 sec)
have done 0000000002 cross links (processed 0000000048, took 0.0440309 sec)
have done 0000000002 cross links (processed 0000000021, took 0.044544 sec)
have done 0000000001 cross links (processed 0000000011, took 0.04425 sec)
have done 0000000000 cross links (processed 0000000002, took 0.0444059 sec)
Local groups found.

group finding took = 40.7537 sec
Start finding nearest dm-particle (presently allocated=9498.22 MB)
still finding nearest... (presently allocated=9616.43 MB)
fof-nearest iteration 1: need to repeat for 258344359 particles.
still finding nearest... (presently allocated=9618.69 MB)
fof-nearest iteration 2: need to repeat for 245613504 particles.
still finding nearest... (presently allocated=9623.04 MB)
fof-nearest iteration 3: need to repeat for 225393107 particles.
still finding nearest... (presently allocated=9628.05 MB)
fof-nearest iteration 4: need to repeat for 187190262 particles.
still finding nearest... (presently allocated=9632.81 MB)
fof-nearest iteration 5: need to repeat for 130026990 particles.
still finding nearest... (presently allocated=9636.13 MB)
fof-nearest iteration 6: need to repeat for 62179309 particles.
still finding nearest... (presently allocated=9631.79 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 12.6829 sec
compiling local group data and catalogue took = 1.40202 sec

Total number of groups with at least 32 particles: 175193
Largest group has 34235127 particles.
Total number of particles in groups: 0193863717

group properties are now allocated.. (presently allocated=7922.27 MB)
computation of group properties took = 0.199934 sec
start global sorting of group catalogues number 19
LargestGroup = 14248.728736; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0746481 sec
Group catalogues globally sorted. took = 1.10872 sec
starting saving of group catalogue number 19
data//groups_019_z000p366
Group catalogues number 19 saved. took = 3.43017 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (271615125).
tree build for species 0 took 0.871662 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0185452440 particles. (took 21.6812 sec)
ngb iteration 2: need to repeat for 0138355623 particles. (took 13.7721 sec)
ngb iteration 3: need to repeat for 0123530627 particles. (took 9.13765 sec)
ngb iteration 4: need to repeat for 0113843439 particles. (took 7.69473 sec)
ngb iteration 5: need to repeat for 0101851978 particles. (took 6.94111 sec)
ngb iteration 6: need to repeat for 0083755455 particles. (took 6.21658 sec)
ngb iteration 7: need to repeat for 0061110153 particles. (took 5.16499 sec)
ngb iteration 8: need to repeat for 0039739455 particles. (took 3.87648 sec)
ngb iteration 9: need to repeat for 0023656207 particles. (took 2.64508 sec)
ngb iteration 10: need to repeat for 0013261923 particles. (took 1.70291 sec)
ngb iteration 11: need to repeat for 0007164294 particles. (took 1.07557 sec)
ngb iteration 12: need to repeat for 0003788516 particles. (took 0.656149 sec)
ngb iteration 13: need to repeat for 0001982196 particles. (took 0.391125 sec)
ngb iteration 14: need to repeat for 0000933627 particles. (took 0.249972 sec)
ngb iteration 15: need to repeat for 0000284297 particles. (took 0.162728 sec)
ngb iteration 16: need to repeat for 0000096285 particles. (took 0.0999191 sec)
ngb iteration 17: need to repeat for 0000042053 particles. (took 0.0782251 sec)
ngb iteration 18: need to repeat for 0000023131 particles. (took 0.0707068 sec)
ngb iteration 19: need to repeat for 0000014485 particles. (took 0.068769 sec)
ngb iteration 20: need to repeat for 0000009964 particles. (took 0.06656 sec)
ngb iteration 21: need to repeat for 0000007258 particles. (took 0.06687 sec)
ngb iteration 22: need to repeat for 0000005374 particles. (took 0.062655 sec)
ngb iteration 23: need to repeat for 0000003933 particles. (took 0.0624812 sec)
ngb iteration 24: need to repeat for 0000002876 particles. (took 0.062839 sec)
ngb iteration 25: need to repeat for 0000002092 particles. (took 0.0624521 sec)
ngb iteration 26: need to repeat for 0000001465 particles. (took 0.0622461 sec)
ngb iteration 27: need to repeat for 0000000978 particles. (took 0.062659 sec)
ngb iteration 28: need to repeat for 0000000587 particles. (took 0.0623162 sec)
ngb iteration 29: need to repeat for 0000000333 particles. (took 0.0626721 sec)
ngb iteration 30: need to repeat for 0000000170 particles. (took 0.0619838 sec)
ngb iteration 31: need to repeat for 0000000092 particles. (took 0.062063 sec)
ngb iteration 32: need to repeat for 0000000050 particles. (took 0.0624349 sec)
ngb iteration 33: need to repeat for 0000000029 particles. (took 0.0622091 sec)
ngb iteration 34: need to repeat for 0000000015 particles. (took 0.062278 sec)
ngb iteration 35: need to repeat for 0000000005 particles. (took 0.062151 sec)
ngb iteration 36: need to repeat for 0000000002 particles. (took 0.062335 sec)
ngb iteration 37: need to repeat for 0000000001 particles. (took 0.0622692 sec)
ngb iteration 38: need to repeat for 0000000001 particles. (took 0.062536 sec)
ngb iteration 39: need to repeat for 0000000001 particles. (took 0.062937 sec)
ngb iteration 40: need to repeat for 0000000001 particles. (took 0.0622149 sec)
ngb iteration 41: need to repeat for 0000000001 particles. (took 0.0618339 sec)
final operations ... 
density and smoothing length for species 0 took 83.5702 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.96771 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0189475868 particles. (took 34.1902 sec)
ngb iteration 2: need to repeat for 0139380566 particles. (took 14.1941 sec)
ngb iteration 3: need to repeat for 0117929959 particles. (took 9.61331 sec)
ngb iteration 4: need to repeat for 0105828672 particles. (took 7.47877 sec)
ngb iteration 5: need to repeat for 0094342436 particles. (took 6.40364 sec)
ngb iteration 6: need to repeat for 0078884760 particles. (took 5.6466 sec)
ngb iteration 7: need to repeat for 0059862371 particles. (took 4.76846 sec)
ngb iteration 8: need to repeat for 0041249057 particles. (took 3.70496 sec)
ngb iteration 9: need to repeat for 0026327447 particles. (took 2.66326 sec)
ngb iteration 10: need to repeat for 0015923016 particles. (took 1.82424 sec)
ngb iteration 11: need to repeat for 0009307164 particles. (took 1.21284 sec)
ngb iteration 12: need to repeat for 0005345547 particles. (took 0.787171 sec)
ngb iteration 13: need to repeat for 0003049067 particles. (took 0.495002 sec)
ngb iteration 14: need to repeat for 0001655230 particles. (took 0.321643 sec)
ngb iteration 15: need to repeat for 0000780569 particles. (took 0.206581 sec)
ngb iteration 16: need to repeat for 0000393387 particles. (took 0.131862 sec)
ngb iteration 17: need to repeat for 0000209510 particles. (took 0.0977521 sec)
ngb iteration 18: need to repeat for 0000114697 particles. (took 0.0836451 sec)
ngb iteration 19: need to repeat for 0000062994 particles. (took 0.073926 sec)
ngb iteration 20: need to repeat for 0000034183 particles. (took 0.0701332 sec)
ngb iteration 21: need to repeat for 0000017907 particles. (took 0.067246 sec)
ngb iteration 22: need to repeat for 0000009234 particles. (took 0.066113 sec)
ngb iteration 23: need to repeat for 0000004474 particles. (took 0.0665579 sec)
ngb iteration 24: need to repeat for 0000002172 particles. (took 0.0646639 sec)
ngb iteration 25: need to repeat for 0000000926 particles. (took 0.0643442 sec)
ngb iteration 26: need to repeat for 0000000385 particles. (took 0.0638921 sec)
ngb iteration 27: need to repeat for 0000000168 particles. (took 0.063621 sec)
ngb iteration 28: need to repeat for 0000000061 particles. (took 0.063561 sec)
ngb iteration 29: need to repeat for 0000000029 particles. (took 0.0637009 sec)
ngb iteration 30: need to repeat for 0000000009 particles. (took 0.06387 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.0637701 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0637848 sec)
final operations ... 
density and smoothing length for species 1 took 95.2581 sec
Tree construction for species 4 (15010770).
tree build for species 4 took 0.187632 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0009709229 particles. (took 6.73794 sec)
ngb iteration 2: need to repeat for 0007565317 particles. (took 2.52612 sec)
ngb iteration 3: need to repeat for 0006184234 particles. (took 1.90635 sec)
ngb iteration 4: need to repeat for 0005348114 particles. (took 1.45675 sec)
ngb iteration 5: need to repeat for 0004726224 particles. (took 1.14188 sec)
ngb iteration 6: need to repeat for 0004100161 particles. (took 0.912757 sec)
ngb iteration 7: need to repeat for 0003398654 particles. (took 0.760748 sec)
ngb iteration 8: need to repeat for 0002672516 particles. (took 0.615981 sec)
ngb iteration 9: need to repeat for 0002015698 particles. (took 0.486257 sec)
ngb iteration 10: need to repeat for 0001477416 particles. (took 0.383631 sec)
ngb iteration 11: need to repeat for 0001061588 particles. (took 0.308056 sec)
ngb iteration 12: need to repeat for 0000760612 particles. (took 0.239684 sec)
ngb iteration 13: need to repeat for 0000541730 particles. (took 0.198716 sec)
ngb iteration 14: need to repeat for 0000380816 particles. (took 0.170654 sec)
ngb iteration 15: need to repeat for 0000265531 particles. (took 0.149593 sec)
ngb iteration 16: need to repeat for 0000187293 particles. (took 0.136234 sec)
ngb iteration 17: need to repeat for 0000133179 particles. (took 0.12438 sec)
ngb iteration 18: need to repeat for 0000095997 particles. (took 0.113248 sec)
ngb iteration 19: need to repeat for 0000070538 particles. (took 0.106852 sec)
ngb iteration 20: need to repeat for 0000052661 particles. (took 0.102117 sec)
ngb iteration 21: need to repeat for 0000040162 particles. (took 0.0969708 sec)
ngb iteration 22: need to repeat for 0000031113 particles. (took 0.0954502 sec)
ngb iteration 23: need to repeat for 0000024097 particles. (took 0.0912919 sec)
ngb iteration 24: need to repeat for 0000018483 particles. (took 0.0879722 sec)
ngb iteration 25: need to repeat for 0000014277 particles. (took 0.0890949 sec)
ngb iteration 26: need to repeat for 0000011070 particles. (took 0.0855939 sec)
ngb iteration 27: need to repeat for 0000008373 particles. (took 0.085526 sec)
ngb iteration 28: need to repeat for 0000006178 particles. (took 0.0847979 sec)
ngb iteration 29: need to repeat for 0000004455 particles. (took 0.0850301 sec)
ngb iteration 30: need to repeat for 0000003067 particles. (took 0.0846341 sec)
ngb iteration 31: need to repeat for 0000001956 particles. (took 0.0843091 sec)
ngb iteration 32: need to repeat for 0000001209 particles. (took 0.0843589 sec)
ngb iteration 33: need to repeat for 0000000747 particles. (took 0.084301 sec)
ngb iteration 34: need to repeat for 0000000448 particles. (took 0.0835481 sec)
ngb iteration 35: need to repeat for 0000000250 particles. (took 0.084362 sec)
ngb iteration 36: need to repeat for 0000000148 particles. (took 0.0839112 sec)
ngb iteration 37: need to repeat for 0000000090 particles. (took 0.0835478 sec)
ngb iteration 38: need to repeat for 0000000053 particles. (took 0.084043 sec)
ngb iteration 39: need to repeat for 0000000024 particles. (took 0.0840049 sec)
ngb iteration 40: need to repeat for 0000000013 particles. (took 0.083786 sec)
ngb iteration 41: need to repeat for 0000000005 particles. (took 0.0843019 sec)
ngb iteration 42: need to repeat for 0000000004 particles. (took 0.083384 sec)
ngb iteration 43: need to repeat for 0000000001 particles. (took 0.0837278 sec)
ngb iteration 44: need to repeat for 0000000001 particles. (took 0.0840719 sec)
ngb iteration 45: need to repeat for 0000000001 particles. (took 0.084698 sec)
final operations ... 
density and smoothing length for species 4 took 21.1533 sec
Tree construction.
tree build took 1.93478 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000021136 particles. (took 0.134005 sec)
ngb iteration 2: need to repeat for 0000018795 particles. (took 0.103258 sec)
ngb iteration 3: need to repeat for 0000012857 particles. (took 0.100387 sec)
ngb iteration 4: need to repeat for 0000009107 particles. (took 0.0984709 sec)
ngb iteration 5: need to repeat for 0000007721 particles. (took 0.0967138 sec)
ngb iteration 6: need to repeat for 0000006677 particles. (took 0.0957849 sec)
ngb iteration 7: need to repeat for 0000005520 particles. (took 0.0941241 sec)
ngb iteration 8: need to repeat for 0000004186 particles. (took 0.092473 sec)
ngb iteration 9: need to repeat for 0000002900 particles. (took 0.090956 sec)
ngb iteration 10: need to repeat for 0000001930 particles. (took 0.0920181 sec)
ngb iteration 11: need to repeat for 0000001297 particles. (took 0.087955 sec)
ngb iteration 12: need to repeat for 0000000813 particles. (took 0.0866799 sec)
ngb iteration 13: need to repeat for 0000000522 particles. (took 0.0854402 sec)
ngb iteration 14: need to repeat for 0000000333 particles. (took 0.0847001 sec)
ngb iteration 15: need to repeat for 0000000204 particles. (took 0.084094 sec)
ngb iteration 16: need to repeat for 0000000125 particles. (took 0.0839829 sec)
ngb iteration 17: need to repeat for 0000000085 particles. (took 0.0855711 sec)
ngb iteration 18: need to repeat for 0000000056 particles. (took 0.0828769 sec)
ngb iteration 19: need to repeat for 0000000033 particles. (took 0.083941 sec)
ngb iteration 20: need to repeat for 0000000024 particles. (took 0.08269 sec)
ngb iteration 21: need to repeat for 0000000016 particles. (took 0.0828888 sec)
ngb iteration 22: need to repeat for 0000000010 particles. (took 0.0832438 sec)
ngb iteration 23: need to repeat for 0000000007 particles. (took 0.0829029 sec)
ngb iteration 24: need to repeat for 0000000005 particles. (took 0.083071 sec)
ngb iteration 25: need to repeat for 0000000004 particles. (took 0.0829809 sec)
ngb iteration 26: need to repeat for 0000000001 particles. (took 0.083142 sec)
final operations ... 
density and smoothing length for species 5 took 2.76548 sec
Tree construction for species 0 (271615125).
tree build for species 0 took 0.878056 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 45.178 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.959234 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 21.5629 sec
Tree construction for species 4 (15010770).
tree build for species 4 took 0.176985 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 7.87281 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.094713 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 5.84269 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.72628 sec
saving densities took 3.87496 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 8962665 particles.)
the other 175192 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 29125 - 115424102 

subfind_exchange()() took 3.27092 sec

collectively doing halo 1, num=19
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=11692.6 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=11812.2 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 11812.2 Mbyte (on task=0), Smallest = 8087.88 Mbyte, Average = 8158.06 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8427      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8427     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8427     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4121    4068.1689  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2901.1608    6969.3297  allocate_memory()/allocate.c/85
   0 2971 0              MetP    674.7598    7644.0895  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.6802    7717.7697  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8706    7724.7281  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.6045    7798.3327  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6742    7921.0069  fof_fof()/fof.c/337
   0 2978 0             Group      1.2679    7922.2748  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3770.2966   11692.5714  subfind()/subfind.c/376
   0 2982 0          TopNodes      8.5846   11701.2439  domain_allocate()/domain.c/570
   0 2983 0        domain_key     97.6853   11798.9292  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      0.6604   11799.5978  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      0.6604   11800.2581  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      0.6604   11800.9185  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      0.6604   11801.5788  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      0.6604   11802.2420  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      0.6604   11802.9051  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes      9.2450   11812.1500  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=89009
After=114937
NTopleaves= 100570  NTopnodes=114937 (space for 173108)
gravity work-load balance=1.0156   memory-balance=1.0156   SPH work-load balance=1.01491
iter=0 exchange of 0034022080 particles (ret=0)
domain decomposition done. (took 2.24502 sec)
Freed 2.66286 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 13320.5 Mbyte (on task=0), Smallest = 9596.24 Mbyte, Average = 9666.43 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8427      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8427     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8427     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4121    4068.1689  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2901.1608    6969.3297  allocate_memory()/allocate.c/85
   0 2971 0              MetP    674.7598    7644.0895  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.6802    7717.7697  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8706    7724.7281  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.6045    7798.3327  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6742    7921.0069  fof_fof()/fof.c/337
   0 2978 0             Group      1.2679    7922.2748  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3770.2966   11692.5714  subfind()/subfind.c/376
   0 2982 0          TopNodes      5.6999   11698.3591  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.3836   11698.7428  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    831.0794   12529.8222  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    692.5661   13222.3883  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     49.2811   13271.6694  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     48.8427   13320.5121  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 2.89625 sec  (presently allocated=13320.5 MB)
force_treebuild() took 4.53508 sec (presently allocated=13320.5 MB)
Start find_linkngb (188937 particles on task=0)
find linkngb iteration 1: need to repeat for 0029357540 particles. (took 5.50181 sec)
find linkngb iteration 2: need to repeat for 0025963182 particles. (took 3.31774 sec)
find linkngb iteration 3: need to repeat for 0022157913 particles. (took 2.09926 sec)
find linkngb iteration 4: need to repeat for 0020517891 particles. (took 1.45236 sec)
find linkngb iteration 5: need to repeat for 0018116034 particles. (took 1.32993 sec)
find linkngb iteration 6: need to repeat for 0014786964 particles. (took 1.16316 sec)
find linkngb iteration 7: need to repeat for 0010700245 particles. (took 0.960216 sec)
find linkngb iteration 8: need to repeat for 0006884329 particles. (took 0.719952 sec)
find linkngb iteration 9: need to repeat for 0004065890 particles. (took 0.475884 sec)
find linkngb iteration 10: need to repeat for 0002277627 particles. (took 0.279155 sec)
find linkngb iteration 11: need to repeat for 0001238896 particles. (took 0.156266 sec)
find linkngb iteration 12: need to repeat for 0000646840 particles. (took 0.0895672 sec)
find linkngb iteration 13: need to repeat for 0000215705 particles. (took 0.0511329 sec)
find linkngb iteration 14: need to repeat for 0000061187 particles. (took 0.021486 sec)
find linkngb iteration 15: need to repeat for 0000028175 particles. (took 0.00937295 sec)
find linkngb iteration 16: need to repeat for 0000014258 particles. (took 0.00585103 sec)
find linkngb iteration 17: need to repeat for 0000007339 particles. (took 0.00435114 sec)
find linkngb iteration 18: need to repeat for 0000003714 particles. (took 0.00320792 sec)
find linkngb iteration 19: need to repeat for 0000001970 particles. (took 0.00205493 sec)
find linkngb iteration 20: need to repeat for 0000001188 particles. (took 0.00140715 sec)
find linkngb iteration 21: need to repeat for 0000000782 particles. (took 0.00111103 sec)
find linkngb iteration 22: need to repeat for 0000000485 particles. (took 0.000977993 sec)
find linkngb iteration 23: need to repeat for 0000000322 particles. (took 0.000930071 sec)
find linkngb iteration 24: need to repeat for 0000000197 particles. (took 0.000910997 sec)
find linkngb iteration 25: need to repeat for 0000000116 particles. (took 0.000882149 sec)
find linkngb iteration 26: need to repeat for 0000000060 particles. (took 0.000882864 sec)
find linkngb iteration 27: need to repeat for 0000000030 particles. (took 0.000855207 sec)
find linkngb iteration 28: need to repeat for 0000000016 particles. (took 0.000921965 sec)
find linkngb iteration 29: need to repeat for 0000000007 particles. (took 0.000850916 sec)
find linkngb iteration 30: need to repeat for 0000000003 particles. (took 0.000860214 sec)
find linkngb iteration 31: need to repeat for 0000000003 particles. (took 0.000854969 sec)
find linkngb iteration 32: need to repeat for 0000000001 particles. (took 0.000849009 sec)
find_linkngb() took 17.6578 sec
Start finding nearest two (188937 particles on task=0)
find_nearesttwo() took 2.11377 sec (presently allocated=13334.9 MB)
parallel sort of densities done. took 0.220735 sec
building distributed linked list. (presently allocated 13333.1 MB)
identification of primary candidates took 638.436 sec
adding background as candidate took 0.0866709 sec
establishing of rank order took 208.629 sec  (p=34235127, grouplen=34235127) presently allocated 13333.1 MB

total number of subhalo candidates=124700

number of subhalo candidates that can be done independently=107265.
(Largest size is 5064, finding them took 0.051121 sec)
particles are marked (took 107.47)
independent subhalos are assembled on individual CPUs for unbinding (0.248148 sec, (presently allocated=13333.1 MB)
unbinding of independent ones took 0.164794 sec
particles have returned to their original processor (0.326067 sec, presently allocated 13333.1 MB)

number of subhalo candidates that can be done independently=15805.
(Largest size is 30411, finding them took 2.4011 sec)
particles are marked (took 78.2808)
independent subhalos are assembled on individual CPUs for unbinding (0.229569 sec, (presently allocated=13333.1 MB)
unbinding of independent ones took 0.879699 sec
particles have returned to their original processor (0.307072 sec, presently allocated 13333.1 MB)

number of subhalo candidates that can be done independently=1501.
(Largest size is 148048, finding them took 2.34752 sec)
particles are marked (took 65.8519)
independent subhalos are assembled on individual CPUs for unbinding (0.211429 sec, (presently allocated=13333.1 MB)
unbinding of independent ones took 7.64642 sec
particles have returned to their original processor (0.29552 sec, presently allocated 13333.1 MB)

number of subhalo candidates that can be done independently=107.
(Largest size is 262408, finding them took 1.17436 sec)
particles are marked (took 59.9822)
independent subhalos are assembled on individual CPUs for unbinding (0.23012 sec, (presently allocated=13333.1 MB)
unbinding of independent ones took 16.8355 sec
particles have returned to their original processor (0.30322 sec, presently allocated 13333.1 MB)

number of subhalo candidates that can be done independently=19.
(Largest size is 1546532, finding them took 1.2639 sec)
particles are marked (took 55.1334)
independent subhalos are assembled on individual CPUs for unbinding (0.195289 sec, (presently allocated=13333.1 MB)
unbinding of independent ones took 7.68 sec
particles have returned to their original processor (0.278051 sec, presently allocated 13333.1 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 1546532, finding them took 1.26265 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=619664 ... maximum alloacted 13333.8 MB
took 8.89734 sec
collective unbinding of nr=1 (3) of length=1546532 ... maximum alloacted 13333.8 MB
took 20.0287 sec
collective unbinding of nr=2 (3) of length=34235127 ... maximum alloacted 13333.8 MB
took 453.691 sec

the collective unbinding of remaining halos took 527.105 sec

found 6928 bound substructures in FoF group of length 34235127
determination of parent subhalo took 0.0669551 sec (presently allocated 13333.8 MB)
determining substructure properties took 453.325 sec (presently allocated 13333.8 MB)
processing of collective halos took 2285.16 sec
sort of local particles()() took 1.33805 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 1375.46 sec

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unsorting of local particles()() took 1.24005 sec
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subfind_exchange() (for return to original CPU)  took 7.53036 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=11692.6 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=11812.2 MB)
Before=127697
After=140121
NTopleaves= 122606  NTopnodes=140121 (space for 173108)
gravity work-load balance=1.01619   memory-balance=1.01619   SPH work-load balance=1.01512
iter=0 exchange of 0572618813 particles (ret=0)
domain decomposition done. (took 10.199 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.51003 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000141147 particles. (took 0.0311279 sec)
SO iteration 2: need to repeat for 0000141147 particles. (took 0.025223 sec)
SO iteration 3: need to repeat for 0000141147 particles. (took 0.0245981 sec)
SO iteration 4: need to repeat for 0000141147 particles. (took 0.024502 sec)
SO iteration 5: need to repeat for 0000141147 particles. (took 0.024497 sec)
SO iteration 6: need to repeat for 0000141147 particles. (took 0.0246539 sec)
SO iteration 7: need to repeat for 0000141147 particles. (took 0.024725 sec)
SO iteration 8: need to repeat for 0000141147 particles. (took 0.0247769 sec)
SO iteration 9: need to repeat for 0000141147 particles. (took 0.0247569 sec)
SO iteration 10: need to repeat for 0000141147 particles. (took 0.024653 sec)
SO iteration 11: need to repeat for 0000141147 particles. (took 0.024632 sec)
SO iteration 12: need to repeat for 0000141147 particles. (took 0.02476 sec)
SO iteration 13: need to repeat for 0000141147 particles. (took 0.024792 sec)
SO iteration 14: need to repeat for 0000141147 particles. (took 0.0255041 sec)
SO iteration 15: need to repeat for 0000138951 particles. (took 0.0258131 sec)
SO iteration 16: need to repeat for 0000000664 particles. (took 0.0237532 sec)
SO iteration 17: need to repeat for 0000000034 particles. (took 0.00118208 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000456095 sec)
SO iteration 1: need to repeat for 0000141147 particles. (took 0.0250301 sec)
SO iteration 2: need to repeat for 0000141147 particles. (took 0.0199871 sec)
SO iteration 3: need to repeat for 0000141147 particles. (took 0.022378 sec)
SO iteration 4: need to repeat for 0000141147 particles. (took 0.020844 sec)
SO iteration 5: need to repeat for 0000141147 particles. (took 0.021353 sec)
SO iteration 6: need to repeat for 0000141147 particles. (took 0.0211079 sec)
SO iteration 7: need to repeat for 0000141147 particles. (took 0.0212021 sec)
SO iteration 8: need to repeat for 0000141147 particles. (took 0.021112 sec)
SO iteration 9: need to repeat for 0000141147 particles. (took 0.0210679 sec)
SO iteration 10: need to repeat for 0000141147 particles. (took 0.0210938 sec)
SO iteration 11: need to repeat for 0000141147 particles. (took 0.0211899 sec)
SO iteration 12: need to repeat for 0000141147 particles. (took 0.021086 sec)
SO iteration 13: need to repeat for 0000141147 particles. (took 0.02108 sec)
SO iteration 14: need to repeat for 0000141147 particles. (took 0.0211 sec)
SO iteration 15: need to repeat for 0000140287 particles. (took 0.021122 sec)
SO iteration 16: need to repeat for 0000021472 particles. (took 0.0210261 sec)
SO iteration 17: need to repeat for 0000000319 particles. (took 0.00642991 sec)
SO iteration 18: need to repeat for 0000000029 particles. (took 0.000760078 sec)
SO iteration 1: need to repeat for 0000141147 particles. (took 0.0248101 sec)
SO iteration 2: need to repeat for 0000141147 particles. (took 0.0197229 sec)
SO iteration 3: need to repeat for 0000141147 particles. (took 0.0165691 sec)
SO iteration 4: need to repeat for 0000141147 particles. (took 0.017802 sec)
SO iteration 5: need to repeat for 0000141147 particles. (took 0.016799 sec)
SO iteration 6: need to repeat for 0000141147 particles. (took 0.016885 sec)
SO iteration 7: need to repeat for 0000141147 particles. (took 0.0168869 sec)
SO iteration 8: need to repeat for 0000141147 particles. (took 0.0169981 sec)
SO iteration 9: need to repeat for 0000141147 particles. (took 0.0175819 sec)
SO iteration 10: need to repeat for 0000141147 particles. (took 0.0169311 sec)
SO iteration 11: need to repeat for 0000141147 particles. (took 0.0169659 sec)
SO iteration 12: need to repeat for 0000141147 particles. (took 0.0169978 sec)
SO iteration 13: need to repeat for 0000141147 particles. (took 0.016871 sec)
SO iteration 14: need to repeat for 0000141147 particles. (took 0.017055 sec)
SO iteration 15: need to repeat for 0000141124 particles. (took 0.0169599 sec)
SO iteration 16: need to repeat for 0000139760 particles. (took 0.0169611 sec)
SO iteration 17: need to repeat for 0000029777 particles. (took 0.0167961 sec)
SO iteration 18: need to repeat for 0000000570 particles. (took 0.00703502 sec)
SO iteration 19: need to repeat for 0000000048 particles. (took 0.000833988 sec)
SO iteration 1: need to repeat for 0000141147 particles. (took 0.024909 sec)
SO iteration 2: need to repeat for 0000141147 particles. (took 0.0204189 sec)
SO iteration 3: need to repeat for 0000141147 particles. (took 0.0223329 sec)
SO iteration 4: need to repeat for 0000141147 particles. (took 0.0232041 sec)
SO iteration 5: need to repeat for 0000141147 particles. (took 0.023746 sec)
SO iteration 6: need to repeat for 0000141147 particles. (took 0.0235541 sec)
SO iteration 7: need to repeat for 0000141147 particles. (took 0.0236239 sec)
SO iteration 8: need to repeat for 0000141147 particles. (took 0.0235441 sec)
SO iteration 9: need to repeat for 0000141147 particles. (took 0.0236249 sec)
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SO iteration 15: need to repeat for 0000139094 particles. (took 0.024081 sec)
SO iteration 16: need to repeat for 0000001410 particles. (took 0.0229969 sec)
SO iteration 17: need to repeat for 0000000068 particles. (took 0.00152993 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000519991 sec)
SO iteration 1: need to repeat for 0000141147 particles. (took 0.0249581 sec)
SO iteration 2: need to repeat for 0000141147 particles. (took 0.01987 sec)
SO iteration 3: need to repeat for 0000141147 particles. (took 0.0224981 sec)
SO iteration 4: need to repeat for 0000141147 particles. (took 0.0224679 sec)
SO iteration 5: need to repeat for 0000141147 particles. (took 0.0223339 sec)
SO iteration 6: need to repeat for 0000141147 particles. (took 0.0223248 sec)
SO iteration 7: need to repeat for 0000141147 particles. (took 0.022326 sec)
SO iteration 8: need to repeat for 0000141147 particles. (took 0.0223 sec)
SO iteration 9: need to repeat for 0000141147 particles. (took 0.022289 sec)
SO iteration 10: need to repeat for 0000141147 particles. (took 0.022301 sec)
SO iteration 11: need to repeat for 0000141147 particles. (took 0.0223598 sec)
SO iteration 12: need to repeat for 0000141147 particles. (took 0.0223179 sec)
SO iteration 13: need to repeat for 0000141147 particles. (took 0.0222809 sec)
SO iteration 14: need to repeat for 0000141147 particles. (took 0.02231 sec)
SO iteration 15: need to repeat for 0000139695 particles. (took 0.0222208 sec)
SO iteration 16: need to repeat for 0000007245 particles. (took 0.0217421 sec)
SO iteration 17: need to repeat for 0000000178 particles. (took 0.00384998 sec)
SO iteration 18: need to repeat for 0000000014 particles. (took 0.000552893 sec)
SO iteration 1: need to repeat for 0000141147 particles. (took 0.024771 sec)
SO iteration 2: need to repeat for 0000141147 particles. (took 0.0198221 sec)
SO iteration 3: need to repeat for 0000141147 particles. (took 0.0193579 sec)
SO iteration 4: need to repeat for 0000141147 particles. (took 0.0198381 sec)
SO iteration 5: need to repeat for 0000141147 particles. (took 0.0193272 sec)
SO iteration 6: need to repeat for 0000141147 particles. (took 0.0191319 sec)
SO iteration 7: need to repeat for 0000141147 particles. (took 0.0191629 sec)
SO iteration 8: need to repeat for 0000141147 particles. (took 0.019119 sec)
SO iteration 9: need to repeat for 0000141147 particles. (took 0.0191381 sec)
SO iteration 10: need to repeat for 0000141147 particles. (took 0.019052 sec)
SO iteration 11: need to repeat for 0000141147 particles. (took 0.019135 sec)
SO iteration 12: need to repeat for 0000141147 particles. (took 0.019207 sec)
SO iteration 13: need to repeat for 0000141147 particles. (took 0.01917 sec)
SO iteration 14: need to repeat for 0000141147 particles. (took 0.0190899 sec)
SO iteration 15: need to repeat for 0000140930 particles. (took 0.0191422 sec)
SO iteration 16: need to repeat for 0000139230 particles. (took 0.019408 sec)
SO iteration 17: need to repeat for 0000001611 particles. (took 0.0189559 sec)
SO iteration 18: need to repeat for 0000000108 particles. (took 0.00150013 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.000494003 sec)
SO iteration 1: need to repeat for 0000141147 particles. (took 0.024888 sec)
SO iteration 2: need to repeat for 0000141147 particles. (took 0.0197608 sec)
SO iteration 3: need to repeat for 0000141147 particles. (took 0.0163448 sec)
SO iteration 4: need to repeat for 0000141147 particles. (took 0.015554 sec)
SO iteration 5: need to repeat for 0000141147 particles. (took 0.0166249 sec)
SO iteration 6: need to repeat for 0000141147 particles. (took 0.0163171 sec)
SO iteration 7: need to repeat for 0000141147 particles. (took 0.016145 sec)
SO iteration 8: need to repeat for 0000141147 particles. (took 0.016263 sec)
SO iteration 9: need to repeat for 0000141147 particles. (took 0.0161161 sec)
SO iteration 10: need to repeat for 0000141147 particles. (took 0.016151 sec)
SO iteration 11: need to repeat for 0000141147 particles. (took 0.0160699 sec)
SO iteration 12: need to repeat for 0000141147 particles. (took 0.0162001 sec)
SO iteration 13: need to repeat for 0000141147 particles. (took 0.016089 sec)
SO iteration 14: need to repeat for 0000141147 particles. (took 0.0161428 sec)
SO iteration 15: need to repeat for 0000141142 particles. (took 0.016197 sec)
SO iteration 16: need to repeat for 0000140745 particles. (took 0.0161691 sec)
SO iteration 17: need to repeat for 0000134691 particles. (took 0.016016 sec)
SO iteration 18: need to repeat for 0000003541 particles. (took 0.0158451 sec)
SO iteration 19: need to repeat for 0000000135 particles. (took 0.00217891 sec)
SO iteration 20: need to repeat for 0000000009 particles. (took 0.000559807 sec)
determining spherical overdensity masses took 2.44549 sec
finding spherical overdensity particles took 0.341857 sec
determining contamination of halos took 0.204446 sec
Global sort of Groups took 0.041714 sec
Global sort of SubGroups took 0.12128 sec
Global sort of IDs took 0.671751 sec
Writing block 0 (GLEN), n=974, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3896d
Writing block 1 (GOFF), n=974, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3896d
Writing block 2 (MTOT), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 3 (GPOS), n=974, ptype=0, dtype=1, ndim=3, bpb=4 bytes=11688d
Writing block 4 (MMEA), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 5 (RMEA), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 6 (MCRI), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 7 (RCRI), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 8 (MTOP), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 9 (RTOP), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 17 (NCON), n=974, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3896d
Writing block 18 (MCON), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 22 (NSUB), n=974, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3896d
Writing block 23 (FSUB), n=974, ptype=0, dtype=0, ndim=1, bpb=4 bytes=3896d
Writing block 24 (SLEN), n=7880, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31520d
Writing block 25 (SOFF), n=7880, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31520d
Writing block 26 (SSUB), n=7880, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31520d
Writing block 27 (MSUB), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 28 (SPOS), n=7880, ptype=1, dtype=1, ndim=3, bpb=4 bytes=94560d
Writing block 29 (SVEL), n=7880, ptype=1, dtype=1, ndim=3, bpb=4 bytes=94560d
Writing block 30 (SCM ), n=7880, ptype=1, dtype=1, ndim=3, bpb=4 bytes=94560d
Writing block 33 (VMAX), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 34 (RMAX), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 35 (RHMS), n=7880, ptype=1, dtype=1, ndim=6, bpb=4 bytes=189120d
Writing block 36 (MTRH), n=7880, ptype=1, dtype=1, ndim=6, bpb=4 bytes=189120d
Writing block 37 (MBID), n=7880, ptype=1, dtype=2, ndim=1, bpb=8 bytes=63040d
Writing block 38 (GRNR), n=7880, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31520d
Writing block 39 (SUBN), n=7880, ptype=1, dtype=0, ndim=1, bpb=4 bytes=31520d
Writing block 40 (SMST), n=7880, ptype=1, dtype=1, ndim=6, bpb=4 bytes=189120d
Writing block 53 (PID ), n=1054057, ptype=2, dtype=2, ndim=1, bpb=8 bytes=8432456d
Writing block 54 (SLEN), n=7880, ptype=1, dtype=0, ndim=6, bpb=4 bytes=189120d
Writing block 55 (STEN), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 56 (SKEN), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 57 (SUEN), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 58 (SUIT), n=7880, ptype=1, dtype=1, ndim=9, bpb=4 bytes=283680d
Writing block 59 (BHMA), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 60 (BHMD), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 61 (SVD ), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 62 (SVDH), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 63 (HMPR), n=7880, ptype=1, dtype=1, ndim=6, bpb=4 bytes=189120d
Writing block 64 (SSFR), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 65 (SSA ), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 66 (SSBZ), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 67 (SSIM), n=7880, ptype=1, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 68 (SSPI), n=7880, ptype=4, dtype=1, ndim=3, bpb=4 bytes=94560d
Writing block 69 (GSPI), n=7880, ptype=1, dtype=1, ndim=3, bpb=4 bytes=94560d
Writing block 70 (FSPI), n=7880, ptype=5, dtype=1, ndim=3, bpb=4 bytes=94560d
Writing block 71 (SFM ), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 72 (SFMT), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 73 (SFME), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 74 (SFAE), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 75 (SFKE), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 76 (SFTE), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 77 (SMWP), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 78 (SMM ), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 79 (SMMS), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 80 (SFZ ), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 81 (SFZS), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 82 (SSIA), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 83 (SIAS), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 84 (SMET), n=7880, ptype=5, dtype=1, ndim=9, bpb=4 bytes=283680d
Writing block 85 (SMTS), n=7880, ptype=5, dtype=1, ndim=9, bpb=4 bytes=283680d
Writing block 86 (MF1 ), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 87 (MeF1), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 88 (MF  ), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 89 (MeF2), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 90 (MFA ), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 91 (MeFA), n=7880, ptype=5, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 92 (NSPI), n=7880, ptype=6, dtype=1, ndim=3, bpb=4 bytes=94560d
Writing block 93 (NFM ), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 94 (NFMT), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 95 (NFME), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 96 (NFAE), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 97 (NFKE), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 98 (NFTE), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 99 (SMWP), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 100 (SMM ), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 101 (SMMS), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 102 (SSIA), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 103 (SIAS), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 104 (SMET), n=7880, ptype=6, dtype=1, ndim=9, bpb=4 bytes=283680d
Writing block 105 (SMTS), n=7880, ptype=6, dtype=1, ndim=9, bpb=4 bytes=283680d
Writing block 106 (MF1 ), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 107 (MeF1), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 108 (MF2 ), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 109 (MeF2), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 110 (MFA ), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 111 (MeFA), n=7880, ptype=6, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 112 (SM  ), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 113 (SFKE), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 114 (SFAE), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 115 (SMWP), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 116 (SMM ), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 117 (SMMS), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 118 (SSIA), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 119 (SIAS), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 120 (SMET), n=7880, ptype=4, dtype=1, ndim=9, bpb=4 bytes=283680d
Writing block 121 (SMTS), n=7880, ptype=4, dtype=1, ndim=9, bpb=4 bytes=283680d
Writing block 122 (MF1 ), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 123 (MeF1), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 124 (MF2 ), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 125 (MeF2), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 126 (MFA ), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 127 (MeFA), n=7880, ptype=4, dtype=1, ndim=1, bpb=4 bytes=31520d
Writing block 128 (MMe5), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 129 (RMe5), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 130 (MCr5), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 131 (RCr5), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 132 (MMe2), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 133 (RMe2), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 134 (MCr2), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 135 (RCr2), n=974, ptype=0, dtype=1, ndim=1, bpb=4 bytes=3896d
Writing block 136 (MAPT), n=7880, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1891200d
Writing block 137 (SAPT), n=7880, ptype=8, dtype=1, ndim=10, bpb=4 bytes=315200d
Writing block 138 (VAPT), n=7880, ptype=9, dtype=1, ndim=10, bpb=4 bytes=315200d
Writing block 139 (BEGY), n=1054057, ptype=2, dtype=1, ndim=1, bpb=4 bytes=4216228d
Subgroup catalogues saved. took = 10.9642 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 6.857171e-01
 eagle_ph_key_ort: type= 1 timed by volker 7.821760e-01
 eagle_ph_key_ort: type= 2 timed by volker 9.697795e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.351497e-02
 eagle_ph_key_ort: type= 4 timed by volker 9.457994e-02
 eagle_ph_key_ort: type= 5 timed by volker 2.472186e-02
 eagle_ph_key_ort: timing parallel sort = 1.838814e+00
 eagle_fetch_elements: we are using 1874409798 bytes of memory, FreeBytes= 2343012248

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 11765.5 Mbyte (on task=0), Smallest = 8040.78 Mbyte, Average = 8111.75 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8427      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8427     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8427     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4121    4068.1689  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2901.1608    6969.3297  allocate_memory()/allocate.c/85
   0 2971 0              MetP    674.7598    7644.0895  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.6802    7717.7697  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8706    7724.7281  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.6045    7798.3327  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6742    7921.0069  fof_fof()/fof.c/337
   0 2978 0             Group      1.2679    7922.2748  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3770.2966   11692.5714  subfind()/subfind.c/376
   0 2980 0   sort_index_data     72.9580   11765.5294  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1278402 number of bytes = 409088640

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 13533.2 Mbyte (on task=0), Smallest = 9798.33 Mbyte, Average = 9883.51 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.1236       2.0182  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag     12.2107      14.2289  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     48.8427      63.0715  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     48.8427     111.9142  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     48.8427     160.7568  allocate_memory()/allocate.c/61
   0 2969 0                 P   3907.4121    4068.1689  allocate_memory()/allocate.c/67
   0 2970 0              SphP   2901.1608    6969.3297  allocate_memory()/allocate.c/85
   0 2971 0              MetP    674.7598    7644.0895  allocate_memory()/allocate.c/105
   0 2972 0               BHP     73.6802    7717.7697  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes      6.8706    7724.7281  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     73.6045    7798.3327  fof_fof()/fof.c/249
   0 2977 0         FOF_GList    122.6742    7921.0069  fof_fof()/fof.c/337
   0 2978 0             Group      1.2679    7922.2748  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3770.2966   11692.5714  subfind()/subfind.c/376
   0 2980 0   sort_index_data     72.9580   11765.5294  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      4.8767   11770.4061  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      4.8767   11775.2828  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      4.8767   11780.1595  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    390.1373   12170.2969  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    390.1373   12560.4342  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    972.7734   13533.2076  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 4.940915e+00
 eagle_fetch_elements: we are using 1874409798 bytes of memory, FreeBytes= 2343012248
 eagle_fetch_elements: max_bytes= 504, max_elements= 1080770 number of bytes = 544708080
 eagle_ph_key_ort: timing parallel SphP exchange = 3.730761e+00
 eagle_fetch_elements: we are using 1874409798 bytes of memory, FreeBytes= 2343012248
 eagle_fetch_elements: max_bytes= 384, max_elements= 2310013 number of bytes = 887044992
 eagle_ph_key_ort: timing parallel MetP exchange = 3.643820e-01
 eagle_fetch_elements: we are using 1874409798 bytes of memory, FreeBytes= 2343012248
 eagle_fetch_elements: max_bytes= 256, max_elements= 3577014 number of bytes = 915715584
 eagle_ph_key_ort: timing parallel BHP exchange = 8.141994e-03
Sorting particle-data by peano-hilbert key took = 11.4965 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1874409798 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1278402 number of bytes= 409088640
 eagle_ph_restore: timing parallel P exchange = 5.212574e+00
 eagle_send_elements: we are using 1874409798 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1080770 number of bytes= 544708080
 eagle_ph_restore: timing parallel SphP exchange = 3.849431e+00
 eagle_send_elements: we are using 1874409798 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2310013 number of bytes= 887044992
 eagle_ph_restore: timing parallel MetP exchange = 3.794389e-01
 eagle_send_elements: we are using 1874409798 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3577014 number of bytes= 915715584
 eagle_ph_restore: timing parallel BHP exchange = 8.045197e-03
Restoring original order after ph key sorting took = 9.48613 sec

finished writing particle file...

Finished with SUBFIND.  (total time=4286.37 sec)

Finished computing FoF groups.  (presently allocated=7724.73 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7717.77 MB)
Allocated 8.6725 MByte for top-level domain structure
use of 110.906 MB of temporary storage for domain decomposition... (presently allocated=7837.35 MB)
Before=125129
After=138585
NTopleaves= 121262  NTopnodes=138585 (space for 173108)
gravity work-load balance=1.01427   memory-balance=1.01427   SPH work-load balance=1.01083
iter=0 exchange of 0572591945 particles (ret=0)
domain decomposition done. (took 10.2906 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 1.58034 MByte in top-level domain structure
Tree construction.
task 22: endrun called with an error level of 124


task 33: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 33:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 33
task 22: endrun called with an error level of 124


Finished FOF, total time doing fof/subfind = 4372.1 s
task 157: endrun called with an error level of 124


task 67: endrun called with an error level of 124


task 168: endrun called with an error level of 124


task 39: endrun called with an error level of 124


task 78: endrun called with an error level of 124


task 33: endrun called with an error level of 124


task 112: endrun called with an error level of 124


task 129: endrun called with an error level of 124


task 90: endrun called with an error level of 124


task 123: endrun called with an error level of 124


task 45: endrun called with an error level of 124


task 174: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 84:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 168:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 168
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 168:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 168
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 39:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 39
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 78:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 78
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 78:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 78
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 129:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 129
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 129:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 129
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 123:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 123
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 123:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 123
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 174:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 174
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 174:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 174
task 84: endrun called with an error level of 124


task 84: endrun called with an error level of 124


task 135: endrun called with an error level of 124


task 135: endrun called with an error level of 124


task 0: endrun called with an error level of 124


task 157: endrun called with an error level of 124


task 67: endrun called with an error level of 124


task 168: endrun called with an error level of 124


task 39: endrun called with an error level of 124


task 78: endrun called with an error level of 124


task 112: endrun called with an error level of 124


task 129: endrun called with an error level of 124


task 90: endrun called with an error level of 124


task 123: endrun called with an error level of 124


task 45: endrun called with an error level of 124


task 174: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 84
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 84:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 84
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62930.50 Mb (on task=112), Smallest =   62720.40 Mb (on task=0), Average =   62874.61 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=88), Smallest =   64531.71 Mb (on task=112), Average =   64532.01 Mb
Committed_AS:	 Largest =    1811.59 Mb (on task=0), Smallest =    1601.20 Mb (on task=112), Average =    1657.40 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=16), Smallest =   16266.06 Mb (on task=48), Average =   16310.51 Mb
AllocMem:	 Largest =    1811.59 Mb (on task=0), Smallest =    1601.20 Mb (on task=112), Average =    1657.40 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 360 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N8':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         7500
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 2033.08 MByte for particle storage.

Allocated 1451.69 MByte for storage of SPH data.

Allocated 336.747 MByte for storage of MET data.

Allocated 36.8682 MByte for storage of BH data.


reading file `data//snapshot_018_z000p411/snap_018_z000p411.0.hdf5' on task=0 (contains 36243232 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   16884068  (tot=     0271823183) masstab=0
Type 1 (halo):  17691429  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     26435  (tot=     0000254233) masstab=0
Type 3 (bulge):   200915  (tot=     0002602064) masstab=0
Type 4 (stars):  1438588  (tot=     0014803495) masstab=0
Type 5 (bndry):     1797  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.9.hdf5' on task=202 (contains 35944056 particles.)
distributing this file to tasks 202-224
Type 0 (gas):   16927976  (tot=     0271823183) masstab=0
Type 1 (halo):  18028134  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18219  (tot=     0000254233) masstab=0
Type 3 (bulge):   157916  (tot=     0002602064) masstab=0
Type 4 (stars):   810131  (tot=     0014803495) masstab=0
Type 5 (bndry):     1680  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.13.hdf5' on task=292 (contains 35790392 particles.)
distributing this file to tasks 292-314
Type 0 (gas):   17090964  (tot=     0271823183) masstab=0
Type 1 (halo):  17683000  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18936  (tot=     0000254233) masstab=0
Type 3 (bulge):   167493  (tot=     0002602064) masstab=0
Type 4 (stars):   828199  (tot=     0014803495) masstab=0
Type 5 (bndry):     1800  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.4.hdf5' on task=90 (contains 36052277 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   17073390  (tot=     0271823183) masstab=0
Type 1 (halo):  17778472  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9261  (tot=     0000254233) masstab=0
Type 3 (bulge):   166325  (tot=     0002602064) masstab=0
Type 4 (stars):  1023178  (tot=     0014803495) masstab=0
Type 5 (bndry):     1651  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.8.hdf5' on task=180 (contains 35887431 particles.)
distributing this file to tasks 180-201
Type 0 (gas):   16986744  (tot=     0271823183) masstab=0
Type 1 (halo):  17924324  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17197  (tot=     0000254233) masstab=0
Type 3 (bulge):    95166  (tot=     0002602064) masstab=0
Type 4 (stars):   862342  (tot=     0014803495) masstab=0
Type 5 (bndry):     1658  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.15.hdf5' on task=337 (contains 35912089 particles.)
distributing this file to tasks 337-359
Type 0 (gas):   16949379  (tot=     0271823183) masstab=0
Type 1 (halo):  18001020  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8254  (tot=     0000254233) masstab=0
Type 3 (bulge):   199669  (tot=     0002602064) masstab=0
Type 4 (stars):   752032  (tot=     0014803495) masstab=0
Type 5 (bndry):     1735  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.3.hdf5' on task=67 (contains 36373517 particles.)
distributing this file to tasks 67-89
Type 0 (gas):   16884639  (tot=     0271823183) masstab=0
Type 1 (halo):  18186239  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11927  (tot=     0000254233) masstab=0
Type 3 (bulge):   263888  (tot=     0002602064) masstab=0
Type 4 (stars):  1024990  (tot=     0014803495) masstab=0
Type 5 (bndry):     1834  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.10.hdf5' on task=225 (contains 35876352 particles.)
distributing this file to tasks 225-246
Type 0 (gas):   17041789  (tot=     0271823183) masstab=0
Type 1 (halo):  17907279  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13696  (tot=     0000254233) masstab=0
Type 3 (bulge):   123431  (tot=     0002602064) masstab=0
Type 4 (stars):   788427  (tot=     0014803495) masstab=0
Type 5 (bndry):     1730  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.6.hdf5' on task=135 (contains 36012919 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   17036068  (tot=     0271823183) masstab=0
Type 1 (halo):  17877660  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     23999  (tot=     0000254233) masstab=0
Type 3 (bulge):   263367  (tot=     0002602064) masstab=0
Type 4 (stars):   810085  (tot=     0014803495) masstab=0
Type 5 (bndry):     1740  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.12.hdf5' on task=270 (contains 35882948 particles.)
distributing this file to tasks 270-291
Type 0 (gas):   17068516  (tot=     0271823183) masstab=0
Type 1 (halo):  17793136  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20158  (tot=     0000254233) masstab=0
Type 3 (bulge):   198834  (tot=     0002602064) masstab=0
Type 4 (stars):   800586  (tot=     0014803495) masstab=0
Type 5 (bndry):     1718  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.1.hdf5' on task=22 (contains 36217981 particles.)
distributing this file to tasks 22-44
Type 0 (gas):   16895132  (tot=     0271823183) masstab=0
Type 1 (halo):  18000369  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14870  (tot=     0000254233) masstab=0
Type 3 (bulge):   204698  (tot=     0002602064) masstab=0
Type 4 (stars):  1101151  (tot=     0014803495) masstab=0
Type 5 (bndry):     1761  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.14.hdf5' on task=315 (contains 35918477 particles.)
distributing this file to tasks 315-336
Type 0 (gas):   16967921  (tot=     0271823183) masstab=0
Type 1 (halo):  17993186  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11553  (tot=     0000254233) masstab=0
Type 3 (bulge):    80966  (tot=     0002602064) masstab=0
Type 4 (stars):   863023  (tot=     0014803495) masstab=0
Type 5 (bndry):     1828  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.2.hdf5' on task=45 (contains 36073712 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   17031904  (tot=     0271823183) masstab=0
Type 1 (halo):  18019811  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20720  (tot=     0000254233) masstab=0
Type 3 (bulge):    19621  (tot=     0002602064) masstab=0
Type 4 (stars):   979747  (tot=     0014803495) masstab=0
Type 5 (bndry):     1909  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.11.hdf5' on task=247 (contains 36099147 particles.)
distributing this file to tasks 247-269
Type 0 (gas):   16980357  (tot=     0271823183) masstab=0
Type 1 (halo):  18031805  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15576  (tot=     0000254233) masstab=0
Type 3 (bulge):   206917  (tot=     0002602064) masstab=0
Type 4 (stars):   862849  (tot=     0014803495) masstab=0
Type 5 (bndry):     1643  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.7.hdf5' on task=157 (contains 36031872 particles.)
distributing this file to tasks 157-179
Type 0 (gas):   16922545  (tot=     0271823183) masstab=0
Type 1 (halo):  17957144  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9359  (tot=     0000254233) masstab=0
Type 3 (bulge):   240956  (tot=     0002602064) masstab=0
Type 4 (stars):   900119  (tot=     0014803495) masstab=0
Type 5 (bndry):     1749  (tot=     0000027951) masstab=0


reading file `data//snapshot_018_z000p411/snap_018_z000p411.5.hdf5' on task=112 (contains 35855254 particles.)
distributing this file to tasks 112-134
Type 0 (gas):   17081791  (tot=     0271823183) masstab=0
Type 1 (halo):  17787722  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14073  (tot=     0000254233) masstab=0
Type 3 (bulge):    11902  (tot=     0002602064) masstab=0
Type 4 (stars):   958048  (tot=     0014803495) masstab=0
Type 5 (bndry):     1718  (tot=     0000027951) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576171656


Setting next time for grid output file to Time_next= 0.719693

Setting next time for line of sight file to Time_next= 0.712998

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.8408 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3860.78 MB)
Allocated 2.71564 MByte for top-level domain structure
use of 52.7776 MB of temporary storage for domain decomposition... (presently allocated=3916.27 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3916.27 Mbyte (on task=1), Smallest = 3916.27 Mbyte, Average = 3916.27 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     24.4213      32.9215  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     24.4213      57.3428  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     24.4213      81.7642  allocate_memory()/allocate.c/61
   1 2969 0                 P   1953.7061    2035.4702  allocate_memory()/allocate.c/67
   1 2970 0              SphP   1451.6917    3487.1619  allocate_memory()/allocate.c/85
   1 2971 0              MetP    336.7471    3823.9089  allocate_memory()/allocate.c/105
   1 2972 0               BHP     36.8682    3860.7771  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      2.5399    3863.4927  domain_allocate()/domain.c/570
   1 2976 0        domain_key     48.8427    3912.3354  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.1954    3912.5472  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.1954    3912.7426  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.1954    3912.9380  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.1954    3913.1334  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.1954    3913.3342  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.1954    3913.5351  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      2.7352    3916.2703  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 3.47755 MByte for top-level domain structure
use of 53.9498 MB of temporary storage for domain decomposition... (presently allocated=3918.2 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 4.46809 MByte for top-level domain structure
use of 55.4737 MB of temporary storage for domain decomposition... (presently allocated=3920.72 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 5.75577 MByte for top-level domain structure
use of 57.4547 MB of temporary storage for domain decomposition... (presently allocated=3923.99 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 7.42976 MByte for top-level domain structure
use of 60.0301 MB of temporary storage for domain decomposition... (presently allocated=3928.24 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 9.60597 MByte for top-level domain structure
use of 63.3781 MB of temporary storage for domain decomposition... (presently allocated=3933.76 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 12.435 MByte for top-level domain structure
use of 67.7305 MB of temporary storage for domain decomposition... (presently allocated=3940.94 MB)
Before=192401
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 16.1128 MByte for top-level domain structure
use of 73.3885 MB of temporary storage for domain decomposition... (presently allocated=3950.28 MB)
Before=192401
After=258073
NTopleaves= 225814  NTopnodes=258073 (space for 321368)
gravity work-load balance=1.0291   memory-balance=1.0291   SPH work-load balance=1.0278
iter=0 exchange of 0574463528 particles (ret=0)
domain decomposition done. (took 15.7188 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.89742 MByte in top-level domain structure

Allocated 845.321 MByte for BH-tree, and 0.861412 Mbyte for top-leaves.  (presently allocted 4719.93 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 5157.65 Mbyte (on task=1), Smallest = 5112.08 Mbyte, Average = 5138.79 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     24.4213      32.9215  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     24.4213      57.3428  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     24.4213      81.7642  allocate_memory()/allocate.c/61
   1 2969 0                 P   1953.7061    2035.4702  allocate_memory()/allocate.c/67
   1 2970 0              SphP   1451.6917    3487.1619  allocate_memory()/allocate.c/85
   1 2971 0              MetP    336.7471    3823.9089  allocate_memory()/allocate.c/105
   1 2972 0               BHP     36.8682    3860.7771  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes     12.7981    3873.7510  domain_allocate()/domain.c/570
   1 2976 0   DomainNodeIndex      0.8614    3874.6124  force_treeallocate()/forcetree.c/4800
   1 2977 0        Nodes_base    433.9056    4308.5180  force_treeallocate()/forcetree.c/4803
   1 2978 0     Extnodes_base    361.5880    4670.1060  force_treeallocate()/forcetree.c/4811
   1 2979 0          Nextnode     25.4058    4695.5118  force_treeallocate()/forcetree.c/4820
   1 2980 0            Father     24.4213    4719.9331  force_treeallocate()/forcetree.c/4827
   1 2981 0           Ngblist      5.9520    4725.8851  density()/density.c/690
   1 2982 0              Left     11.9040    4737.7890  density()/density.c/692
   1 2983 0             Right     11.9040    4749.6930  density()/density.c/693
   1 2984 0    DataIndexTable      7.0175    4756.7105  density()/density.c/738
   1 2985 0      DataNodeList     18.7134    4775.4240  density()/density.c/740
   1 2986 0       DensDataGet    106.3574    4881.7814  density()/density.c/893
   1 2987 0    DensDataResult    140.1984    5021.9797  density()/density.c/931
   1 2988 0       DensDataOut    135.6724    5157.6522  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0002489576 particles.
ngb iteration 2: need to repeat for 0000001610 particles.
ngb iteration 3: need to repeat for 0000000454 particles.
ngb iteration 4: need to repeat for 0000000412 particles.
ngb iteration 5: need to repeat for 0000000208 particles.
ngb iteration 6: need to repeat for 0000000149 particles.
ngb iteration 7: need to repeat for 0000000071 particles.
ngb iteration 8: need to repeat for 0000000008 particles.
ngb iteration 9: need to repeat for 0000000006 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.399.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.468.hdf5

Begin to compute FoF group catalogues...  (presently allocated=4719.93 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3860.78 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3885 MB of temporary storage for domain decomposition... (presently allocated=3950.28 MB)
Before=242201
After=270273
NTopleaves= 236489  NTopnodes=270273 (space for 321368)
gravity work-load balance=1.01652   memory-balance=1.01652   SPH work-load balance=1.01515
iter=0 exchange of 0574846603 particles (ret=0)
domain decomposition done. (took 8.01611 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.33894 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=3874.35 MB)
Tree construction.

Start linking particles (presently allocated=4796.35 MB)
links on local processor done (took 5.4315 sec).
Marked=0057985383 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=4905.64 MB) 
have done 0001078834 cross links (processed 0057985383, took 2.94513 sec)
have done 0000463835 cross links (processed 0042123554, took 2.66596 sec)
have done 0000330077 cross links (processed 0035213239, took 2.01707 sec)
have done 0000221515 cross links (processed 0022576513, took 2.17831 sec)
have done 0000145879 cross links (processed 0014677072, took 2.07525 sec)
have done 0000096578 cross links (processed 0010466160, took 1.83559 sec)
have done 0000067200 cross links (processed 0007899043, took 1.46749 sec)
have done 0000050928 cross links (processed 0005783354, took 1.25257 sec)
have done 0000038027 cross links (processed 0003749716, took 1.38735 sec)
have done 0000027500 cross links (processed 0001788312, took 1.12016 sec)
have done 0000016111 cross links (processed 0000853325, took 1.03222 sec)
have done 0000008469 cross links (processed 0000382172, took 0.160082 sec)
have done 0000003750 cross links (processed 0000276808, took 0.996693 sec)
have done 0000001907 cross links (processed 0000039076, took 0.042165 sec)
have done 0000001026 cross links (processed 0000027006, took 0.04896 sec)
have done 0000000527 cross links (processed 0000020267, took 0.048943 sec)
have done 0000000295 cross links (processed 0000005241, took 0.0364969 sec)
have done 0000000252 cross links (processed 0000015998, took 0.0488591 sec)
have done 0000000086 cross links (processed 0000001165, took 0.0343182 sec)
have done 0000000037 cross links (processed 0000000462, took 0.0339632 sec)
have done 0000000019 cross links (processed 0000000156, took 0.0337648 sec)
have done 0000000007 cross links (processed 0000000057, took 0.033807 sec)
have done 0000000002 cross links (processed 0000000017, took 0.033525 sec)
have done 0000000002 cross links (processed 0000000011, took 0.0344391 sec)
have done 0000000001 cross links (processed 0000000003, took 0.0334752 sec)
have done 0000000000 cross links (processed 0000000002, took 0.033447 sec)
Local groups found.

group finding took = 27.1902 sec
Start finding nearest dm-particle (presently allocated=4796.35 MB)
still finding nearest... (presently allocated=4894.33 MB)
fof-nearest iteration 1: need to repeat for 258532136 particles.
still finding nearest... (presently allocated=4895.99 MB)
fof-nearest iteration 2: need to repeat for 245794547 particles.
still finding nearest... (presently allocated=4898.13 MB)
fof-nearest iteration 3: need to repeat for 226192511 particles.
still finding nearest... (presently allocated=4901.83 MB)
fof-nearest iteration 4: need to repeat for 188191862 particles.
still finding nearest... (presently allocated=4905.34 MB)
fof-nearest iteration 5: need to repeat for 130855129 particles.
still finding nearest... (presently allocated=4907.64 MB)
fof-nearest iteration 6: need to repeat for 62506311 particles.
still finding nearest... (presently allocated=4904.21 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 6.80421 sec
compiling local group data and catalogue took = 0.688353 sec

Total number of groups with at least 32 particles: 177416
Largest group has 32862649 particles.
Total number of particles in groups: 0190596259

group properties are now allocated.. (presently allocated=3973.29 MB)
computation of group properties took = 0.10923 sec
start global sorting of group catalogues number 18
LargestGroup = 13746.047604; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0490129 sec
Group catalogues globally sorted. took = 0.820214 sec
starting saving of group catalogue number 18
data//groups_018_z000p411
Group catalogues number 18 saved. took = 3.63334 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (271823183).
tree build for species 0 took 0.57123 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0201453758 particles. (took 10.7478 sec)
ngb iteration 2: need to repeat for 0162984172 particles. (took 7.50044 sec)
ngb iteration 3: need to repeat for 0149093716 particles. (took 5.55599 sec)
ngb iteration 4: need to repeat for 0138328982 particles. (took 4.87207 sec)
ngb iteration 5: need to repeat for 0124021249 particles. (took 4.43955 sec)
ngb iteration 6: need to repeat for 0102116244 particles. (took 3.97644 sec)
ngb iteration 7: need to repeat for 0074593258 particles. (took 3.31444 sec)
ngb iteration 8: need to repeat for 0048566742 particles. (took 2.54247 sec)
ngb iteration 9: need to repeat for 0028936420 particles. (took 1.83456 sec)
ngb iteration 10: need to repeat for 0016234996 particles. (took 1.2187 sec)
ngb iteration 11: need to repeat for 0008779030 particles. (took 0.724679 sec)
ngb iteration 12: need to repeat for 0004651249 particles. (took 0.419408 sec)
ngb iteration 13: need to repeat for 0002440543 particles. (took 0.26006 sec)
ngb iteration 14: need to repeat for 0001156881 particles. (took 0.174906 sec)
ngb iteration 15: need to repeat for 0000359896 particles. (took 0.119016 sec)
ngb iteration 16: need to repeat for 0000126108 particles. (took 0.0783801 sec)
ngb iteration 17: need to repeat for 0000056041 particles. (took 0.0621841 sec)
ngb iteration 18: need to repeat for 0000031180 particles. (took 0.0552349 sec)
ngb iteration 19: need to repeat for 0000019598 particles. (took 0.0520301 sec)
ngb iteration 20: need to repeat for 0000013267 particles. (took 0.0501549 sec)
ngb iteration 21: need to repeat for 0000009397 particles. (took 0.0493069 sec)
ngb iteration 22: need to repeat for 0000006795 particles. (took 0.049875 sec)
ngb iteration 23: need to repeat for 0000004909 particles. (took 0.049078 sec)
ngb iteration 24: need to repeat for 0000003497 particles. (took 0.048372 sec)
ngb iteration 25: need to repeat for 0000002513 particles. (took 0.0483699 sec)
ngb iteration 26: need to repeat for 0000001763 particles. (took 0.0485241 sec)
ngb iteration 27: need to repeat for 0000001196 particles. (took 0.048264 sec)
ngb iteration 28: need to repeat for 0000000780 particles. (took 0.048033 sec)
ngb iteration 29: need to repeat for 0000000450 particles. (took 0.0485752 sec)
ngb iteration 30: need to repeat for 0000000288 particles. (took 0.0482512 sec)
ngb iteration 31: need to repeat for 0000000163 particles. (took 0.0482371 sec)
ngb iteration 32: need to repeat for 0000000084 particles. (took 0.0490251 sec)
ngb iteration 33: need to repeat for 0000000049 particles. (took 0.0490801 sec)
ngb iteration 34: need to repeat for 0000000030 particles. (took 0.048336 sec)
ngb iteration 35: need to repeat for 0000000018 particles. (took 0.0483358 sec)
ngb iteration 36: need to repeat for 0000000011 particles. (took 0.048105 sec)
ngb iteration 37: need to repeat for 0000000003 particles. (took 0.047848 sec)
ngb iteration 38: need to repeat for 0000000001 particles. (took 0.0484672 sec)
ngb iteration 39: need to repeat for 0000000001 particles. (took 0.0481331 sec)
final operations ... 
density and smoothing length for species 0 took 49.2294 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.616611 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0205584035 particles. (took 15.6746 sec)
ngb iteration 2: need to repeat for 0162954565 particles. (took 8.17031 sec)
ngb iteration 3: need to repeat for 0143249094 particles. (took 5.99229 sec)
ngb iteration 4: need to repeat for 0130551274 particles. (took 4.94036 sec)
ngb iteration 5: need to repeat for 0116972758 particles. (took 4.32595 sec)
ngb iteration 6: need to repeat for 0098056766 particles. (took 3.83024 sec)
ngb iteration 7: need to repeat for 0074585983 particles. (took 3.26847 sec)
ngb iteration 8: need to repeat for 0051529627 particles. (took 2.64938 sec)
ngb iteration 9: need to repeat for 0032970189 particles. (took 1.95752 sec)
ngb iteration 10: need to repeat for 0019987139 particles. (took 1.34122 sec)
ngb iteration 11: need to repeat for 0011717089 particles. (took 0.864837 sec)
ngb iteration 12: need to repeat for 0006744321 particles. (took 0.535203 sec)
ngb iteration 13: need to repeat for 0003853706 particles. (took 0.336462 sec)
ngb iteration 14: need to repeat for 0002098283 particles. (took 0.224414 sec)
ngb iteration 15: need to repeat for 0000997226 particles. (took 0.152913 sec)
ngb iteration 16: need to repeat for 0000502063 particles. (took 0.102957 sec)
ngb iteration 17: need to repeat for 0000265281 particles. (took 0.0805659 sec)
ngb iteration 18: need to repeat for 0000144062 particles. (took 0.0680861 sec)
ngb iteration 19: need to repeat for 0000078449 particles. (took 0.0602641 sec)
ngb iteration 20: need to repeat for 0000042065 particles. (took 0.05564 sec)
ngb iteration 21: need to repeat for 0000021606 particles. (took 0.0551829 sec)
ngb iteration 22: need to repeat for 0000010748 particles. (took 0.050375 sec)
ngb iteration 23: need to repeat for 0000005186 particles. (took 0.04919 sec)
ngb iteration 24: need to repeat for 0000002348 particles. (took 0.0484412 sec)
ngb iteration 25: need to repeat for 0000000988 particles. (took 0.04812 sec)
ngb iteration 26: need to repeat for 0000000392 particles. (took 0.0477471 sec)
ngb iteration 27: need to repeat for 0000000152 particles. (took 0.0480089 sec)
ngb iteration 28: need to repeat for 0000000053 particles. (took 0.0478921 sec)
ngb iteration 29: need to repeat for 0000000017 particles. (took 0.0478249 sec)
ngb iteration 30: need to repeat for 0000000007 particles. (took 0.0476701 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.047616 sec)
final operations ... 
density and smoothing length for species 1 took 55.4874 sec
Tree construction for species 4 (14803495).
tree build for species 4 took 0.206869 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0010506112 particles. (took 4.3067 sec)
ngb iteration 2: need to repeat for 0008635529 particles. (took 2.15634 sec)
ngb iteration 3: need to repeat for 0007419863 particles. (took 1.45155 sec)
ngb iteration 4: need to repeat for 0006649925 particles. (took 1.09348 sec)
ngb iteration 5: need to repeat for 0006008775 particles. (took 0.892638 sec)
ngb iteration 6: need to repeat for 0005279755 particles. (took 0.767202 sec)
ngb iteration 7: need to repeat for 0004404858 particles. (took 0.667195 sec)
ngb iteration 8: need to repeat for 0003484130 particles. (took 0.571144 sec)
ngb iteration 9: need to repeat for 0002633608 particles. (took 0.470637 sec)
ngb iteration 10: need to repeat for 0001928689 particles. (took 0.376884 sec)
ngb iteration 11: need to repeat for 0001386373 particles. (took 0.317591 sec)
ngb iteration 12: need to repeat for 0000989508 particles. (took 0.264413 sec)
ngb iteration 13: need to repeat for 0000703773 particles. (took 0.21766 sec)
ngb iteration 14: need to repeat for 0000498804 particles. (took 0.172797 sec)
ngb iteration 15: need to repeat for 0000351311 particles. (took 0.139489 sec)
ngb iteration 16: need to repeat for 0000249899 particles. (took 0.122879 sec)
ngb iteration 17: need to repeat for 0000179882 particles. (took 0.108151 sec)
ngb iteration 18: need to repeat for 0000131692 particles. (took 0.089824 sec)
ngb iteration 19: need to repeat for 0000096747 particles. (took 0.0909059 sec)
ngb iteration 20: need to repeat for 0000071426 particles. (took 0.0840619 sec)
ngb iteration 21: need to repeat for 0000053497 particles. (took 0.0838261 sec)
ngb iteration 22: need to repeat for 0000040355 particles. (took 0.0735638 sec)
ngb iteration 23: need to repeat for 0000030400 particles. (took 0.071353 sec)
ngb iteration 24: need to repeat for 0000022663 particles. (took 0.0683019 sec)
ngb iteration 25: need to repeat for 0000016750 particles. (took 0.0654268 sec)
ngb iteration 26: need to repeat for 0000012332 particles. (took 0.064395 sec)
ngb iteration 27: need to repeat for 0000008998 particles. (took 0.063004 sec)
ngb iteration 28: need to repeat for 0000006433 particles. (took 0.0632241 sec)
ngb iteration 29: need to repeat for 0000004431 particles. (took 0.062953 sec)
ngb iteration 30: need to repeat for 0000002955 particles. (took 0.0632489 sec)
ngb iteration 31: need to repeat for 0000001914 particles. (took 0.06268 sec)
ngb iteration 32: need to repeat for 0000001142 particles. (took 0.06271 sec)
ngb iteration 33: need to repeat for 0000000604 particles. (took 0.062093 sec)
ngb iteration 34: need to repeat for 0000000321 particles. (took 0.062403 sec)
ngb iteration 35: need to repeat for 0000000155 particles. (took 0.0620489 sec)
ngb iteration 36: need to repeat for 0000000076 particles. (took 0.0620821 sec)
ngb iteration 37: need to repeat for 0000000033 particles. (took 0.0617869 sec)
ngb iteration 38: need to repeat for 0000000017 particles. (took 0.0618899 sec)
ngb iteration 39: need to repeat for 0000000011 particles. (took 0.0621581 sec)
ngb iteration 40: need to repeat for 0000000003 particles. (took 0.0627329 sec)
ngb iteration 41: need to repeat for 0000000001 particles. (took 0.0645499 sec)
ngb iteration 42: need to repeat for 0000000001 particles. (took 0.0648639 sec)
final operations ... 
density and smoothing length for species 4 took 16.0616 sec
Tree construction.
tree build took 1.11455 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000020568 particles. (took 0.0871511 sec)
ngb iteration 2: need to repeat for 0000018485 particles. (took 0.07269 sec)
ngb iteration 3: need to repeat for 0000013529 particles. (took 0.072381 sec)
ngb iteration 4: need to repeat for 0000010183 particles. (took 0.0725191 sec)
ngb iteration 5: need to repeat for 0000008900 particles. (took 0.071444 sec)
ngb iteration 6: need to repeat for 0000007726 particles. (took 0.071599 sec)
ngb iteration 7: need to repeat for 0000006420 particles. (took 0.0708389 sec)
ngb iteration 8: need to repeat for 0000004943 particles. (took 0.0700831 sec)
ngb iteration 9: need to repeat for 0000003473 particles. (took 0.0690229 sec)
ngb iteration 10: need to repeat for 0000002339 particles. (took 0.068496 sec)
ngb iteration 11: need to repeat for 0000001492 particles. (took 0.067709 sec)
ngb iteration 12: need to repeat for 0000000953 particles. (took 0.066983 sec)
ngb iteration 13: need to repeat for 0000000585 particles. (took 0.067714 sec)
ngb iteration 14: need to repeat for 0000000392 particles. (took 0.067939 sec)
ngb iteration 15: need to repeat for 0000000246 particles. (took 0.0651851 sec)
ngb iteration 16: need to repeat for 0000000151 particles. (took 0.0646641 sec)
ngb iteration 17: need to repeat for 0000000088 particles. (took 0.0645089 sec)
ngb iteration 18: need to repeat for 0000000061 particles. (took 0.0637178 sec)
ngb iteration 19: need to repeat for 0000000045 particles. (took 0.064167 sec)
ngb iteration 20: need to repeat for 0000000032 particles. (took 0.063951 sec)
ngb iteration 21: need to repeat for 0000000023 particles. (took 0.0642719 sec)
ngb iteration 22: need to repeat for 0000000014 particles. (took 0.0635371 sec)
ngb iteration 23: need to repeat for 0000000007 particles. (took 0.0636542 sec)
ngb iteration 24: need to repeat for 0000000006 particles. (took 0.0639541 sec)
ngb iteration 25: need to repeat for 0000000005 particles. (took 0.0633099 sec)
ngb iteration 26: need to repeat for 0000000003 particles. (took 0.0635622 sec)
ngb iteration 27: need to repeat for 0000000003 particles. (took 0.063354 sec)
ngb iteration 28: need to repeat for 0000000003 particles. (took 0.0629652 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.0630958 sec)
ngb iteration 30: need to repeat for 0000000001 particles. (took 0.0626812 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.062572 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0626111 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.0627651 sec)
ngb iteration 34: need to repeat for 0000000001 particles. (took 0.0626009 sec)
ngb iteration 35: need to repeat for 0000000001 particles. (took 0.062695 sec)
ngb iteration 36: need to repeat for 0000000001 particles. (took 0.064085 sec)
final operations ... 
density and smoothing length for species 5 took 2.66197 sec
Tree construction for species 0 (271823183).
tree build for species 0 took 0.568086 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 23.1129 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.615245 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 11.2091 sec
Tree construction for species 4 (14803495).
tree build for species 4 took 0.209179 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 5.31057 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.156501 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.12248 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.0928 sec
saving densities took 2.86631 sec

Number of FOF halos treated with collective SubFind code = 2
(the adopted size-limit for the collective algorithm was 4481332 particles.)
the other 177414 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 15170 - 98045418 

subfind_exchange()() took 2.95271 sec
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4991  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4213      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4213      57.3418  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4213      81.7631  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7061    2035.4692  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1451.6917    3487.1608  allocate_memory()/allocate.c/85
   0 2971 0              MetP    336.7471    3823.9079  allocate_memory()/allocate.c/105
   0 2972 0               BHP     36.8682    3860.7761  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.4031    3874.3550  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.8371    3911.1921  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     61.3952    3972.5873  fof_fof()/fof.c/337
   0 2978 0             Group      0.6983    3973.2856  fof_fof()/fof.c/380
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 3593.12 MB for variable 'SubGroup' at subfind()/subfind.c/line 376 (FreeBytes=3526.71 MB).
task 0: endrun called with an error level of 812


application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
task 0: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62930.72 Mb (on task=112), Smallest =   62720.01 Mb (on task=0), Average =   62874.61 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=88), Smallest =   64531.71 Mb (on task=112), Average =   64532.01 Mb
Committed_AS:	 Largest =    1811.98 Mb (on task=0), Smallest =    1600.98 Mb (on task=112), Average =    1657.40 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=16), Smallest =   16266.07 Mb (on task=48), Average =   16310.55 Mb
AllocMem:	 Largest =    1811.98 Mb (on task=0), Smallest =    1600.98 Mb (on task=112), Average =    1657.40 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 360 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N8':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         7500
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 2033.08 MByte for particle storage.

Allocated 1453.32 MByte for storage of SPH data.

Allocated 335.821 MByte for storage of MET data.

Allocated 36.9097 MByte for storage of BH data.


reading file `data//snapshot_017_z000p474/snap_017_z000p474.0.hdf5' on task=0 (contains 36382672 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   16933933  (tot=     0272128100) masstab=0
Type 1 (halo):  18041318  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10539  (tot=     0000254233) masstab=0
Type 3 (bulge):   177809  (tot=     0002602064) masstab=0
Type 4 (stars):  1217321  (tot=     0014499448) masstab=0
Type 5 (bndry):     1752  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.2.hdf5' on task=45 (contains 36021374 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   17021317  (tot=     0272128100) masstab=0
Type 1 (halo):  17832110  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18089  (tot=     0000254233) masstab=0
Type 3 (bulge):   162802  (tot=     0002602064) masstab=0
Type 4 (stars):   985385  (tot=     0014499448) masstab=0
Type 5 (bndry):     1671  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.13.hdf5' on task=292 (contains 36288777 particles.)
distributing this file to tasks 292-314
Type 0 (gas):   16998100  (tot=     0272128100) masstab=0
Type 1 (halo):  18018317  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20746  (tot=     0000254233) masstab=0
Type 3 (bulge):   313245  (tot=     0002602064) masstab=0
Type 4 (stars):   936650  (tot=     0014499448) masstab=0
Type 5 (bndry):     1719  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.12.hdf5' on task=270 (contains 35970185 particles.)
distributing this file to tasks 270-291
Type 0 (gas):   17069195  (tot=     0272128100) masstab=0
Type 1 (halo):  17657352  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18089  (tot=     0000254233) masstab=0
Type 3 (bulge):   380761  (tot=     0002602064) masstab=0
Type 4 (stars):   843070  (tot=     0014499448) masstab=0
Type 5 (bndry):     1718  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.3.hdf5' on task=67 (contains 35786982 particles.)
distributing this file to tasks 67-89
Type 0 (gas):   16919146  (tot=     0272128100) masstab=0
Type 1 (halo):  17849008  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11728  (tot=     0000254233) masstab=0
Type 3 (bulge):     3825  (tot=     0002602064) masstab=0
Type 4 (stars):  1001558  (tot=     0014499448) masstab=0
Type 5 (bndry):     1717  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.8.hdf5' on task=180 (contains 35948249 particles.)
distributing this file to tasks 180-201
Type 0 (gas):   17072710  (tot=     0272128100) masstab=0
Type 1 (halo):  17854762  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18629  (tot=     0000254233) masstab=0
Type 3 (bulge):   169874  (tot=     0002602064) masstab=0
Type 4 (stars):   830476  (tot=     0014499448) masstab=0
Type 5 (bndry):     1798  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.4.hdf5' on task=90 (contains 36039431 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   16961621  (tot=     0272128100) masstab=0
Type 1 (halo):  18076813  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15501  (tot=     0000254233) masstab=0
Type 3 (bulge):    27605  (tot=     0002602064) masstab=0
Type 4 (stars):   956200  (tot=     0014499448) masstab=0
Type 5 (bndry):     1691  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.1.hdf5' on task=22 (contains 36098944 particles.)
distributing this file to tasks 22-44
Type 0 (gas):   16954789  (tot=     0272128100) masstab=0
Type 1 (halo):  18044973  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      7358  (tot=     0000254233) masstab=0
Type 3 (bulge):    87216  (tot=     0002602064) masstab=0
Type 4 (stars):  1002860  (tot=     0014499448) masstab=0
Type 5 (bndry):     1748  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.11.hdf5' on task=247 (contains 36044187 particles.)
distributing this file to tasks 247-269
Type 0 (gas):   17045685  (tot=     0272128100) masstab=0
Type 1 (halo):  18072831  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9383  (tot=     0000254233) masstab=0
Type 3 (bulge):    83714  (tot=     0002602064) masstab=0
Type 4 (stars):   830894  (tot=     0014499448) masstab=0
Type 5 (bndry):     1680  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.5.hdf5' on task=112 (contains 35981780 particles.)
distributing this file to tasks 112-134
Type 0 (gas):   16973360  (tot=     0272128100) masstab=0
Type 1 (halo):  17973503  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     23018  (tot=     0000254233) masstab=0
Type 3 (bulge):   186137  (tot=     0002602064) masstab=0
Type 4 (stars):   824083  (tot=     0014499448) masstab=0
Type 5 (bndry):     1679  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.9.hdf5' on task=202 (contains 36111794 particles.)
distributing this file to tasks 202-224
Type 0 (gas):   16953198  (tot=     0272128100) masstab=0
Type 1 (halo):  18056377  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18983  (tot=     0000254233) masstab=0
Type 3 (bulge):   176278  (tot=     0002602064) masstab=0
Type 4 (stars):   905275  (tot=     0014499448) masstab=0
Type 5 (bndry):     1683  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.10.hdf5' on task=225 (contains 35998139 particles.)
distributing this file to tasks 225-246
Type 0 (gas):   16923237  (tot=     0272128100) masstab=0
Type 1 (halo):  17904302  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12917  (tot=     0000254233) masstab=0
Type 3 (bulge):    63458  (tot=     0002602064) masstab=0
Type 4 (stars):  1092637  (tot=     0014499448) masstab=0
Type 5 (bndry):     1588  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.14.hdf5' on task=315 (contains 35651938 particles.)
distributing this file to tasks 315-336
Type 0 (gas):   17038419  (tot=     0272128100) masstab=0
Type 1 (halo):  17760785  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13656  (tot=     0000254233) masstab=0
Type 3 (bulge):    64653  (tot=     0002602064) masstab=0
Type 4 (stars):   772737  (tot=     0014499448) masstab=0
Type 5 (bndry):     1688  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.15.hdf5' on task=337 (contains 35941355 particles.)
distributing this file to tasks 337-359
Type 0 (gas):   16972837  (tot=     0272128100) masstab=0
Type 1 (halo):  18057236  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14819  (tot=     0000254233) masstab=0
Type 3 (bulge):   139706  (tot=     0002602064) masstab=0
Type 4 (stars):   755104  (tot=     0014499448) masstab=0
Type 5 (bndry):     1653  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.6.hdf5' on task=135 (contains 35858183 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   17104557  (tot=     0272128100) masstab=0
Type 1 (halo):  17792157  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     28871  (tot=     0000254233) masstab=0
Type 3 (bulge):   215009  (tot=     0002602064) masstab=0
Type 4 (stars):   715808  (tot=     0014499448) masstab=0
Type 5 (bndry):     1781  (tot=     0000027262) masstab=0


reading file `data//snapshot_017_z000p474/snap_017_z000p474.7.hdf5' on task=157 (contains 36047847 particles.)
distributing this file to tasks 157-179
Type 0 (gas):   17185996  (tot=     0272128100) masstab=0
Type 1 (halo):  17668886  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11907  (tot=     0000254233) masstab=0
Type 3 (bulge):   349972  (tot=     0002602064) masstab=0
Type 4 (stars):   829390  (tot=     0014499448) masstab=0
Type 5 (bndry):     1696  (tot=     0000027262) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576171837


Setting next time for grid output file to Time_next= 0.685014

Setting next time for line of sight file to Time_next= 0.678393

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.84933 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3861.52 MB)
Allocated 2.71564 MByte for top-level domain structure
use of 52.7776 MB of temporary storage for domain decomposition... (presently allocated=3917.01 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3917.02 Mbyte (on task=1), Smallest = 3917.02 Mbyte, Average = 3917.02 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     24.4213      32.9215  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     24.4213      57.3429  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     24.4213      81.7642  allocate_memory()/allocate.c/61
   1 2969 0                 P   1953.7073    2035.4715  allocate_memory()/allocate.c/67
   1 2970 0              SphP   1453.3201    3488.7916  allocate_memory()/allocate.c/85
   1 2971 0              MetP    335.8209    3824.6125  allocate_memory()/allocate.c/105
   1 2972 0               BHP     36.9097    3861.5222  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      2.5399    3864.2378  domain_allocate()/domain.c/570
   1 2976 0        domain_key     48.8427    3913.0805  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.1954    3913.2924  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.1954    3913.4877  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.1954    3913.6831  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.1954    3913.8785  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.1954    3914.0793  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.1954    3914.2802  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      2.7352    3917.0154  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 3.47755 MByte for top-level domain structure
use of 53.9498 MB of temporary storage for domain decomposition... (presently allocated=3918.95 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 4.46809 MByte for top-level domain structure
use of 55.4737 MB of temporary storage for domain decomposition... (presently allocated=3921.46 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 5.75577 MByte for top-level domain structure
use of 57.4547 MB of temporary storage for domain decomposition... (presently allocated=3924.73 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 7.42976 MByte for top-level domain structure
use of 60.0301 MB of temporary storage for domain decomposition... (presently allocated=3928.98 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 9.60597 MByte for top-level domain structure
use of 63.3781 MB of temporary storage for domain decomposition... (presently allocated=3934.51 MB)
Before=187033
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 12.435 MByte for top-level domain structure
use of 67.7305 MB of temporary storage for domain decomposition... (presently allocated=3941.69 MB)
Before=187033
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3951.02 MB)
Before=187033
After=257857
NTopleaves= 225625  NTopnodes=257857 (space for 321369)
gravity work-load balance=1.02327   memory-balance=1.02327   SPH work-load balance=1.02255
iter=0 exchange of 0574527543 particles (ret=0)
domain decomposition done. (took 15.4789 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.90735 MByte in top-level domain structure

Allocated 845.284 MByte for BH-tree, and 0.860691 Mbyte for top-leaves.  (presently allocted 4720.63 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...

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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 5159.5 Mbyte (on task=207), Smallest = 5111.33 Mbyte, Average = 5138.95 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 207 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
 207 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
 207 2966 0  NextActiveParticle     24.4213      32.9215  allocate_memory()/allocate.c/55
 207 2967 0     NextInTimeBin     24.4213      57.3429  allocate_memory()/allocate.c/58
 207 2968 0     PrevInTimeBin     24.4213      81.7642  allocate_memory()/allocate.c/61
 207 2969 0                 P   1953.7073    2035.4715  allocate_memory()/allocate.c/67
 207 2970 0              SphP   1453.3201    3488.7916  allocate_memory()/allocate.c/85
 207 2971 0              MetP    335.8209    3824.6125  allocate_memory()/allocate.c/105
 207 2972 0               BHP     36.9097    3861.5222  allocate_memory()/allocate.c/126
 207 2975 0          TopNodes     12.7874    3874.4854  domain_allocate()/domain.c/570
 207 2976 0   DomainNodeIndex      0.8607    3875.3461  force_treeallocate()/forcetree.c/4800
 207 2977 0        Nodes_base    433.8861    4309.2321  force_treeallocate()/forcetree.c/4803
 207 2978 0     Extnodes_base    361.5717    4670.8039  force_treeallocate()/forcetree.c/4811
 207 2979 0          Nextnode     25.4050    4696.2089  force_treeallocate()/forcetree.c/4820
 207 2980 0            Father     24.4213    4720.6302  force_treeallocate()/forcetree.c/4827
 207 2981 0           Ngblist      6.0205    4726.6507  density()/density.c/690
 207 2982 0              Left     12.0410    4738.6917  density()/density.c/692
 207 2983 0             Right     12.0410    4750.7327  density()/density.c/693
 207 2984 0    DataIndexTable      7.0175    4757.7503  density()/density.c/738
 207 2985 0      DataNodeList     18.7134    4776.4637  density()/density.c/740
 207 2986 0       DensDataGet    106.7028    4883.1665  density()/density.c/893
 207 2987 0    DensDataResult    140.6537    5023.8202  density()/density.c/931
 207 2988 0       DensDataOut    135.6724    5159.4927  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0002506174 particles.
ngb iteration 2: need to repeat for 0000001104 particles.
ngb iteration 3: need to repeat for 0000000432 particles.
ngb iteration 4: need to repeat for 0000000355 particles.
ngb iteration 5: need to repeat for 0000000075 particles.
ngb iteration 6: need to repeat for 0000000050 particles.
ngb iteration 7: need to repeat for 0000000028 particles.
ngb iteration 8: need to repeat for 0000000003 particles.
ngb iteration 9: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.468.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.540.hdf5

Begin to compute FoF group catalogues...  (presently allocated=4720.63 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3861.52 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3951.02 MB)
Before=242025
After=270105
NTopleaves= 236342  NTopnodes=270105 (space for 321369)
gravity work-load balance=1.02016   memory-balance=1.02016   SPH work-load balance=1.01996
iter=0 exchange of 0574759333 particles (ret=0)
domain decomposition done. (took 7.96251 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.34668 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=3875.09 MB)
Tree construction.

Start linking particles (presently allocated=4797.35 MB)
links on local processor done (took 4.95276 sec).
Marked=0056361012 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=4906.74 MB) 
have done 0001077178 cross links (processed 0056361012, took 2.48426 sec)
have done 0000462103 cross links (processed 0040450016, took 2.31589 sec)
have done 0000328548 cross links (processed 0033779692, took 2.26888 sec)
have done 0000219000 cross links (processed 0022231430, took 1.97236 sec)
have done 0000136267 cross links (processed 0011924749, took 2.03245 sec)
have done 0000084041 cross links (processed 0007966604, took 1.72552 sec)
have done 0000054558 cross links (processed 0006168336, took 1.18395 sec)
have done 0000035469 cross links (processed 0004418348, took 1.55536 sec)
have done 0000022965 cross links (processed 0003068032, took 1.20513 sec)
have done 0000017904 cross links (processed 0002613942, took 1.46552 sec)
have done 0000013717 cross links (processed 0000916781, took 0.396668 sec)
have done 0000009696 cross links (processed 0000661235, took 0.732598 sec)
have done 0000005183 cross links (processed 0000321297, took 0.169492 sec)
have done 0000002779 cross links (processed 0000376546, took 0.785001 sec)
have done 0000001987 cross links (processed 0000095680, took 0.065985 sec)
have done 0000001729 cross links (processed 0000311396, took 0.146251 sec)
have done 0000002073 cross links (processed 0000262312, took 0.724673 sec)
have done 0000001323 cross links (processed 0000049506, took 0.0937369 sec)
have done 0000000615 cross links (processed 0000028969, took 0.0921419 sec)
have done 0000000210 cross links (processed 0000003921, took 0.0346491 sec)
have done 0000000065 cross links (processed 0000000982, took 0.0335071 sec)
have done 0000000019 cross links (processed 0000000385, took 0.0336461 sec)
have done 0000000004 cross links (processed 0000000076, took 0.0335882 sec)
have done 0000000001 cross links (processed 0000000018, took 0.033427 sec)
have done 0000000000 cross links (processed 0000000003, took 0.0336652 sec)
Local groups found.

group finding took = 26.6959 sec
Start finding nearest dm-particle (presently allocated=4797.35 MB)
still finding nearest... (presently allocated=4894.84 MB)
fof-nearest iteration 1: need to repeat for 258694923 particles.
still finding nearest... (presently allocated=4896.52 MB)
fof-nearest iteration 2: need to repeat for 245667525 particles.
still finding nearest... (presently allocated=4899.31 MB)
fof-nearest iteration 3: need to repeat for 226772008 particles.
still finding nearest... (presently allocated=4902.63 MB)
fof-nearest iteration 4: need to repeat for 189243197 particles.
still finding nearest... (presently allocated=4905.06 MB)
fof-nearest iteration 5: need to repeat for 131959105 particles.
still finding nearest... (presently allocated=4906.79 MB)
fof-nearest iteration 6: need to repeat for 62961494 particles.
still finding nearest... (presently allocated=4903.98 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 6.82448 sec
compiling local group data and catalogue took = 0.993759 sec

Total number of groups with at least 32 particles: 178946
Largest group has 31694266 particles.
Total number of particles in groups: 0186830131

group properties are now allocated.. (presently allocated=3974.37 MB)
computation of group properties took = 0.108405 sec
start global sorting of group catalogues number 17
LargestGroup = 13357.694967; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0532551 sec
Group catalogues globally sorted. took = 0.829509 sec
starting saving of group catalogue number 17
data//groups_017_z000p474
Group catalogues number 17 saved. took = 3.58402 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (272128100).
tree build for species 0 took 0.568257 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0201385157 particles. (took 10.9117 sec)
ngb iteration 2: need to repeat for 0162984833 particles. (took 7.42249 sec)
ngb iteration 3: need to repeat for 0148980040 particles. (took 5.50601 sec)
ngb iteration 4: need to repeat for 0138202609 particles. (took 4.79546 sec)
ngb iteration 5: need to repeat for 0123956580 particles. (took 4.39209 sec)
ngb iteration 6: need to repeat for 0102173854 particles. (took 3.94525 sec)
ngb iteration 7: need to repeat for 0074757330 particles. (took 3.29281 sec)
ngb iteration 8: need to repeat for 0048762051 particles. (took 2.53461 sec)
ngb iteration 9: need to repeat for 0029106542 particles. (took 1.84637 sec)
ngb iteration 10: need to repeat for 0016359338 particles. (took 1.23834 sec)
ngb iteration 11: need to repeat for 0008861974 particles. (took 0.732244 sec)
ngb iteration 12: need to repeat for 0004700437 particles. (took 0.426546 sec)
ngb iteration 13: need to repeat for 0002471452 particles. (took 0.26808 sec)
ngb iteration 14: need to repeat for 0001179378 particles. (took 0.180896 sec)
ngb iteration 15: need to repeat for 0000377465 particles. (took 0.124847 sec)
ngb iteration 16: need to repeat for 0000136261 particles. (took 0.0810812 sec)
ngb iteration 17: need to repeat for 0000063930 particles. (took 0.0631089 sec)
ngb iteration 18: need to repeat for 0000037022 particles. (took 0.0554919 sec)
ngb iteration 19: need to repeat for 0000024044 particles. (took 0.0527539 sec)
ngb iteration 20: need to repeat for 0000016569 particles. (took 0.050586 sec)
ngb iteration 21: need to repeat for 0000011729 particles. (took 0.049758 sec)
ngb iteration 22: need to repeat for 0000008405 particles. (took 0.048938 sec)
ngb iteration 23: need to repeat for 0000006001 particles. (took 0.049206 sec)
ngb iteration 24: need to repeat for 0000004310 particles. (took 0.0492818 sec)
ngb iteration 25: need to repeat for 0000002988 particles. (took 0.0486982 sec)
ngb iteration 26: need to repeat for 0000001990 particles. (took 0.0482008 sec)
ngb iteration 27: need to repeat for 0000001286 particles. (took 0.048537 sec)
ngb iteration 28: need to repeat for 0000000766 particles. (took 0.048506 sec)
ngb iteration 29: need to repeat for 0000000441 particles. (took 0.048454 sec)
ngb iteration 30: need to repeat for 0000000252 particles. (took 0.048857 sec)
ngb iteration 31: need to repeat for 0000000131 particles. (took 0.0492141 sec)
ngb iteration 32: need to repeat for 0000000075 particles. (took 0.0488589 sec)
ngb iteration 33: need to repeat for 0000000034 particles. (took 0.048784 sec)
ngb iteration 34: need to repeat for 0000000013 particles. (took 0.0486052 sec)
ngb iteration 35: need to repeat for 0000000004 particles. (took 0.0495079 sec)
ngb iteration 36: need to repeat for 0000000002 particles. (took 0.0484941 sec)
ngb iteration 37: need to repeat for 0000000001 particles. (took 0.048789 sec)
final operations ... 
density and smoothing length for species 0 took 49.0561 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.619701 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0205285634 particles. (took 15.7778 sec)
ngb iteration 2: need to repeat for 0162870414 particles. (took 8.29802 sec)
ngb iteration 3: need to repeat for 0143091158 particles. (took 6.02749 sec)
ngb iteration 4: need to repeat for 0130384523 particles. (took 4.96844 sec)
ngb iteration 5: need to repeat for 0116883891 particles. (took 4.37835 sec)
ngb iteration 6: need to repeat for 0098083440 particles. (took 3.88807 sec)
ngb iteration 7: need to repeat for 0074726311 particles. (took 3.32093 sec)
ngb iteration 8: need to repeat for 0051720978 particles. (took 2.67923 sec)
ngb iteration 9: need to repeat for 0033140618 particles. (took 1.9831 sec)
ngb iteration 10: need to repeat for 0020115901 particles. (took 1.36224 sec)
ngb iteration 11: need to repeat for 0011798897 particles. (took 0.877335 sec)
ngb iteration 12: need to repeat for 0006794153 particles. (took 0.543011 sec)
ngb iteration 13: need to repeat for 0003882574 particles. (took 0.346378 sec)
ngb iteration 14: need to repeat for 0002117285 particles. (took 0.226673 sec)
ngb iteration 15: need to repeat for 0001010228 particles. (took 0.151695 sec)
ngb iteration 16: need to repeat for 0000508091 particles. (took 0.101652 sec)
ngb iteration 17: need to repeat for 0000268124 particles. (took 0.0796149 sec)
ngb iteration 18: need to repeat for 0000144922 particles. (took 0.065907 sec)
ngb iteration 19: need to repeat for 0000078397 particles. (took 0.058403 sec)
ngb iteration 20: need to repeat for 0000041446 particles. (took 0.0541449 sec)
ngb iteration 21: need to repeat for 0000021410 particles. (took 0.051723 sec)
ngb iteration 22: need to repeat for 0000010504 particles. (took 0.049813 sec)
ngb iteration 23: need to repeat for 0000004985 particles. (took 0.04866 sec)
ngb iteration 24: need to repeat for 0000002219 particles. (took 0.0478711 sec)
ngb iteration 25: need to repeat for 0000000942 particles. (took 0.0478811 sec)
ngb iteration 26: need to repeat for 0000000351 particles. (took 0.0485811 sec)
ngb iteration 27: need to repeat for 0000000138 particles. (took 0.0529358 sec)
ngb iteration 28: need to repeat for 0000000044 particles. (took 0.0481081 sec)
ngb iteration 29: need to repeat for 0000000018 particles. (took 0.047658 sec)
ngb iteration 30: need to repeat for 0000000003 particles. (took 0.0493541 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.0479591 sec)
final operations ... 
density and smoothing length for species 1 took 56.0496 sec
Tree construction for species 4 (14499448).
tree build for species 4 took 0.206235 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0010294524 particles. (took 4.67365 sec)
ngb iteration 2: need to repeat for 0008490752 particles. (took 2.61467 sec)
ngb iteration 3: need to repeat for 0007315227 particles. (took 1.82097 sec)
ngb iteration 4: need to repeat for 0006560682 particles. (took 1.2463 sec)
ngb iteration 5: need to repeat for 0005933023 particles. (took 1.08048 sec)
ngb iteration 6: need to repeat for 0005227632 particles. (took 0.950297 sec)
ngb iteration 7: need to repeat for 0004370069 particles. (took 0.816708 sec)
ngb iteration 8: need to repeat for 0003457893 particles. (took 0.675697 sec)
ngb iteration 9: need to repeat for 0002617426 particles. (took 0.545829 sec)
ngb iteration 10: need to repeat for 0001916876 particles. (took 0.392308 sec)
ngb iteration 11: need to repeat for 0001380820 particles. (took 0.312836 sec)
ngb iteration 12: need to repeat for 0000985934 particles. (took 0.260782 sec)
ngb iteration 13: need to repeat for 0000703457 particles. (took 0.206975 sec)
ngb iteration 14: need to repeat for 0000497482 particles. (took 0.160568 sec)
ngb iteration 15: need to repeat for 0000347433 particles. (took 0.123291 sec)
ngb iteration 16: need to repeat for 0000245108 particles. (took 0.107635 sec)
ngb iteration 17: need to repeat for 0000174364 particles. (took 0.095407 sec)
ngb iteration 18: need to repeat for 0000127206 particles. (took 0.0886438 sec)
ngb iteration 19: need to repeat for 0000093669 particles. (took 0.0851121 sec)
ngb iteration 20: need to repeat for 0000069725 particles. (took 0.0774591 sec)
ngb iteration 21: need to repeat for 0000052722 particles. (took 0.074522 sec)
ngb iteration 22: need to repeat for 0000039809 particles. (took 0.0707769 sec)
ngb iteration 23: need to repeat for 0000030051 particles. (took 0.068485 sec)
ngb iteration 24: need to repeat for 0000022738 particles. (took 0.0666509 sec)
ngb iteration 25: need to repeat for 0000017120 particles. (took 0.0648968 sec)
ngb iteration 26: need to repeat for 0000012724 particles. (took 0.0638969 sec)
ngb iteration 27: need to repeat for 0000009387 particles. (took 0.0637059 sec)
ngb iteration 28: need to repeat for 0000006884 particles. (took 0.0628181 sec)
ngb iteration 29: need to repeat for 0000004955 particles. (took 0.0630841 sec)
ngb iteration 30: need to repeat for 0000003442 particles. (took 0.063185 sec)
ngb iteration 31: need to repeat for 0000002310 particles. (took 0.0631371 sec)
ngb iteration 32: need to repeat for 0000001488 particles. (took 0.0628951 sec)
ngb iteration 33: need to repeat for 0000000885 particles. (took 0.062242 sec)
ngb iteration 34: need to repeat for 0000000509 particles. (took 0.0625782 sec)
ngb iteration 35: need to repeat for 0000000272 particles. (took 0.0621729 sec)
ngb iteration 36: need to repeat for 0000000148 particles. (took 0.062176 sec)
ngb iteration 37: need to repeat for 0000000078 particles. (took 0.062043 sec)
ngb iteration 38: need to repeat for 0000000031 particles. (took 0.062187 sec)
ngb iteration 39: need to repeat for 0000000013 particles. (took 0.0623291 sec)
ngb iteration 40: need to repeat for 0000000004 particles. (took 0.062109 sec)
ngb iteration 41: need to repeat for 0000000001 particles. (took 0.0632679 sec)
ngb iteration 42: need to repeat for 0000000001 particles. (took 0.063663 sec)
final operations ... 
density and smoothing length for species 4 took 18.0224 sec
Tree construction.
tree build took 1.12022 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000019749 particles. (took 0.076941 sec)
ngb iteration 2: need to repeat for 0000017679 particles. (took 0.0724261 sec)
ngb iteration 3: need to repeat for 0000012951 particles. (took 0.0724602 sec)
ngb iteration 4: need to repeat for 0000009750 particles. (took 0.0713301 sec)
ngb iteration 5: need to repeat for 0000008484 particles. (took 0.07231 sec)
ngb iteration 6: need to repeat for 0000007362 particles. (took 0.0705431 sec)
ngb iteration 7: need to repeat for 0000006100 particles. (took 0.070224 sec)
ngb iteration 8: need to repeat for 0000004690 particles. (took 0.0699069 sec)
ngb iteration 9: need to repeat for 0000003267 particles. (took 0.069814 sec)
ngb iteration 10: need to repeat for 0000002166 particles. (took 0.0718019 sec)
ngb iteration 11: need to repeat for 0000001384 particles. (took 0.068058 sec)
ngb iteration 12: need to repeat for 0000000849 particles. (took 0.0674 sec)
ngb iteration 13: need to repeat for 0000000516 particles. (took 0.0662601 sec)
ngb iteration 14: need to repeat for 0000000334 particles. (took 0.0653169 sec)
ngb iteration 15: need to repeat for 0000000195 particles. (took 0.0646429 sec)
ngb iteration 16: need to repeat for 0000000117 particles. (took 0.0650251 sec)
ngb iteration 17: need to repeat for 0000000083 particles. (took 0.064785 sec)
ngb iteration 18: need to repeat for 0000000063 particles. (took 0.064045 sec)
ngb iteration 19: need to repeat for 0000000044 particles. (took 0.0638881 sec)
ngb iteration 20: need to repeat for 0000000030 particles. (took 0.0675261 sec)
ngb iteration 21: need to repeat for 0000000022 particles. (took 0.064451 sec)
ngb iteration 22: need to repeat for 0000000019 particles. (took 0.064168 sec)
ngb iteration 23: need to repeat for 0000000013 particles. (took 0.063427 sec)
ngb iteration 24: need to repeat for 0000000010 particles. (took 0.0632901 sec)
ngb iteration 25: need to repeat for 0000000008 particles. (took 0.0637412 sec)
ngb iteration 26: need to repeat for 0000000008 particles. (took 0.0628741 sec)
ngb iteration 27: need to repeat for 0000000006 particles. (took 0.062789 sec)
ngb iteration 28: need to repeat for 0000000004 particles. (took 0.0633788 sec)
ngb iteration 29: need to repeat for 0000000002 particles. (took 0.062762 sec)
ngb iteration 30: need to repeat for 0000000002 particles. (took 0.0623128 sec)
ngb iteration 31: need to repeat for 0000000002 particles. (took 0.062746 sec)
ngb iteration 32: need to repeat for 0000000002 particles. (took 0.062912 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.0627241 sec)
final operations ... 
density and smoothing length for species 5 took 2.46614 sec
Tree construction for species 0 (272128100).
tree build for species 0 took 0.571007 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 23.5301 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.61603 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 11.0289 sec
Tree construction for species 4 (14499448).
tree build for species 4 took 0.204592 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 5.03214 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.157048 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.1033 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.0799 sec
saving densities took 3.19572 sec

Number of FOF halos treated with collective SubFind code = 2
(the adopted size-limit for the collective algorithm was 4481335 particles.)
the other 178944 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 14824 - 93667342 

subfind_exchange()() took 2.9222 sec

collectively doing halo 1, num=17
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7440.64 MB)
Allocated 16.1128 MByte for top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4213      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4213      57.3418  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4213      81.7632  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7073    2035.4705  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1453.3201    3488.7906  allocate_memory()/allocate.c/85
   0 2971 0              MetP    335.8209    3824.6115  allocate_memory()/allocate.c/105
   0 2972 0               BHP     36.9097    3861.5211  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.3948    3875.0917  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.9855    3912.0772  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     61.6425    3973.7197  fof_fof()/fof.c/337
   0 2978 0             Group      0.6537    3974.3733  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3466.2686    7440.6419  subfind()/subfind.c/376
   0 2982 0          TopNodes     15.9370    7456.7547  domain_allocate()/domain.c/570
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 48.8427 MB for variable 'domain_key' at domain_Decomposition()/domain.c/line 231 (FreeBytes=43.2453 MB).
task 0: endrun called with an error level of 812


application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62930.46 Mb (on task=112), Smallest =   62719.83 Mb (on task=0), Average =   62874.71 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=88), Smallest =   64531.71 Mb (on task=112), Average =   64532.01 Mb
Committed_AS:	 Largest =    1812.16 Mb (on task=0), Smallest =    1601.25 Mb (on task=112), Average =    1657.31 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=16), Smallest =   16266.07 Mb (on task=48), Average =   16310.58 Mb
AllocMem:	 Largest =    1812.16 Mb (on task=0), Smallest =    1601.25 Mb (on task=112), Average =    1657.31 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 360 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N8':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         7500
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 2033.08 MByte for particle storage.

Allocated 1455.28 MByte for storage of SPH data.

Allocated 334.705 MByte for storage of MET data.

Allocated 36.9595 MByte for storage of BH data.


reading file `data//snapshot_016_z000p543/snap_016_z000p543.0.hdf5' on task=0 (contains 36093398 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   17131694  (tot=     0272495362) masstab=0
Type 1 (halo):  17766671  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18457  (tot=     0000254233) masstab=0
Type 3 (bulge):   340185  (tot=     0002602064) masstab=0
Type 4 (stars):   834733  (tot=     0014133261) masstab=0
Type 5 (bndry):     1658  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.15.hdf5' on task=337 (contains 36143443 particles.)
distributing this file to tasks 337-359
Type 0 (gas):   16923759  (tot=     0272495362) masstab=0
Type 1 (halo):  18156265  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13868  (tot=     0000254233) masstab=0
Type 3 (bulge):   163663  (tot=     0002602064) masstab=0
Type 4 (stars):   884231  (tot=     0014133261) masstab=0
Type 5 (bndry):     1657  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.3.hdf5' on task=67 (contains 35831850 particles.)
distributing this file to tasks 67-89
Type 0 (gas):   17094380  (tot=     0272495362) masstab=0
Type 1 (halo):  17846144  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18919  (tot=     0000254233) masstab=0
Type 3 (bulge):    17935  (tot=     0002602064) masstab=0
Type 4 (stars):   852831  (tot=     0014133261) masstab=0
Type 5 (bndry):     1641  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.10.hdf5' on task=225 (contains 36007246 particles.)
distributing this file to tasks 225-246
Type 0 (gas):   16969886  (tot=     0272495362) masstab=0
Type 1 (halo):  18078658  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13324  (tot=     0000254233) masstab=0
Type 3 (bulge):      854  (tot=     0002602064) masstab=0
Type 4 (stars):   942842  (tot=     0014133261) masstab=0
Type 5 (bndry):     1682  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.2.hdf5' on task=45 (contains 36049139 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   16900327  (tot=     0272495362) masstab=0
Type 1 (halo):  18016864  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18131  (tot=     0000254233) masstab=0
Type 3 (bulge):   201502  (tot=     0002602064) masstab=0
Type 4 (stars):   910593  (tot=     0014133261) masstab=0
Type 5 (bndry):     1722  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.6.hdf5' on task=135 (contains 36245474 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   17074104  (tot=     0272495362) masstab=0
Type 1 (halo):  18216943  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13419  (tot=     0000254233) masstab=0
Type 3 (bulge):   202466  (tot=     0002602064) masstab=0
Type 4 (stars):   736810  (tot=     0014133261) masstab=0
Type 5 (bndry):     1732  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.5.hdf5' on task=112 (contains 36181260 particles.)
distributing this file to tasks 112-134
Type 0 (gas):   17103657  (tot=     0272495362) masstab=0
Type 1 (halo):  17935641  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18049  (tot=     0000254233) masstab=0
Type 3 (bulge):   138437  (tot=     0002602064) masstab=0
Type 4 (stars):   983901  (tot=     0014133261) masstab=0
Type 5 (bndry):     1575  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.4.hdf5' on task=90 (contains 36068798 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   17049554  (tot=     0272495362) masstab=0
Type 1 (halo):  17886086  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13900  (tot=     0000254233) masstab=0
Type 3 (bulge):   305381  (tot=     0002602064) masstab=0
Type 4 (stars):   812166  (tot=     0014133261) masstab=0
Type 5 (bndry):     1711  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.1.hdf5' on task=22 (contains 35993817 particles.)
distributing this file to tasks 22-44
Type 0 (gas):   17070745  (tot=     0272495362) masstab=0
Type 1 (halo):  17849871  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12083  (tot=     0000254233) masstab=0
Type 3 (bulge):   192309  (tot=     0002602064) masstab=0
Type 4 (stars):   867124  (tot=     0014133261) masstab=0
Type 5 (bndry):     1685  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.8.hdf5' on task=180 (contains 35829819 particles.)
distributing this file to tasks 180-201
Type 0 (gas):   16963688  (tot=     0272495362) masstab=0
Type 1 (halo):  17893854  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16018  (tot=     0000254233) masstab=0
Type 3 (bulge):    52761  (tot=     0002602064) masstab=0
Type 4 (stars):   901875  (tot=     0014133261) masstab=0
Type 5 (bndry):     1623  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.14.hdf5' on task=315 (contains 35948673 particles.)
distributing this file to tasks 315-336
Type 0 (gas):   17098391  (tot=     0272495362) masstab=0
Type 1 (halo):  17667119  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21207  (tot=     0000254233) masstab=0
Type 3 (bulge):   220805  (tot=     0002602064) masstab=0
Type 4 (stars):   939517  (tot=     0014133261) masstab=0
Type 5 (bndry):     1634  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.11.hdf5' on task=247 (contains 35893510 particles.)
distributing this file to tasks 247-269
Type 0 (gas):   17156432  (tot=     0272495362) masstab=0
Type 1 (halo):  17555281  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20719  (tot=     0000254233) masstab=0
Type 3 (bulge):   284970  (tot=     0002602064) masstab=0
Type 4 (stars):   874500  (tot=     0014133261) masstab=0
Type 5 (bndry):     1608  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.13.hdf5' on task=292 (contains 35898521 particles.)
distributing this file to tasks 292-314
Type 0 (gas):   16963823  (tot=     0272495362) masstab=0
Type 1 (halo):  17943779  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10672  (tot=     0000254233) masstab=0
Type 3 (bulge):    17237  (tot=     0002602064) masstab=0
Type 4 (stars):   961377  (tot=     0014133261) masstab=0
Type 5 (bndry):     1633  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.9.hdf5' on task=202 (contains 35968584 particles.)
distributing this file to tasks 202-224
Type 0 (gas):   16964310  (tot=     0272495362) masstab=0
Type 1 (halo):  17883596  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15849  (tot=     0000254233) masstab=0
Type 3 (bulge):   128203  (tot=     0002602064) masstab=0
Type 4 (stars):   974942  (tot=     0014133261) masstab=0
Type 5 (bndry):     1684  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.12.hdf5' on task=270 (contains 36001307 particles.)
distributing this file to tasks 270-291
Type 0 (gas):   17013352  (tot=     0272495362) masstab=0
Type 1 (halo):  18025971  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15856  (tot=     0000254233) masstab=0
Type 3 (bulge):    92363  (tot=     0002602064) masstab=0
Type 4 (stars):   852107  (tot=     0014133261) masstab=0
Type 5 (bndry):     1658  (tot=     0000026492) masstab=0


reading file `data//snapshot_016_z000p543/snap_016_z000p543.7.hdf5' on task=157 (contains 36017303 particles.)
distributing this file to tasks 157-179
Type 0 (gas):   17017260  (tot=     0272495362) masstab=0
Type 1 (halo):  17937987  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13762  (tot=     0000254233) masstab=0
Type 3 (bulge):   242993  (tot=     0002602064) masstab=0
Type 4 (stars):   803712  (tot=     0014133261) masstab=0
Type 5 (bndry):     1589  (tot=     0000026492) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576172142


Setting next time for grid output file to Time_next= 0.652007

Setting next time for line of sight file to Time_next= 0.651922

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.68896 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3862.42 MB)
Allocated 2.71564 MByte for top-level domain structure
use of 52.7776 MB of temporary storage for domain decomposition... (presently allocated=3917.91 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3917.91 Mbyte (on task=1), Smallest = 3917.91 Mbyte, Average = 3917.91 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     24.4214      57.3429  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     24.4214      81.7643  allocate_memory()/allocate.c/61
   1 2969 0                 P   1953.7085    2035.4728  allocate_memory()/allocate.c/67
   1 2970 0              SphP   1455.2812    3490.7539  allocate_memory()/allocate.c/85
   1 2971 0              MetP    334.7047    3825.4586  allocate_memory()/allocate.c/105
   1 2972 0               BHP     36.9595    3862.4181  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      2.5399    3865.1337  domain_allocate()/domain.c/570
   1 2976 0        domain_key     48.8427    3913.9765  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.1954    3914.1883  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.1954    3914.3837  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.1954    3914.5791  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.1954    3914.7744  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.1954    3914.9753  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.1954    3915.1762  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      2.7352    3917.9114  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 3.47755 MByte for top-level domain structure
use of 53.9498 MB of temporary storage for domain decomposition... (presently allocated=3919.84 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 4.46809 MByte for top-level domain structure
use of 55.4737 MB of temporary storage for domain decomposition... (presently allocated=3922.36 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 5.75582 MByte for top-level domain structure
use of 57.4548 MB of temporary storage for domain decomposition... (presently allocated=3925.63 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 7.42981 MByte for top-level domain structure
use of 60.0302 MB of temporary storage for domain decomposition... (presently allocated=3929.88 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 9.60597 MByte for top-level domain structure
use of 63.3782 MB of temporary storage for domain decomposition... (presently allocated=3935.4 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 12.435 MByte for top-level domain structure
use of 67.7306 MB of temporary storage for domain decomposition... (presently allocated=3942.58 MB)
Before=207353
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3951.92 MB)
Before=207353
After=260113
NTopleaves= 227599  NTopnodes=260113 (space for 321369)
gravity work-load balance=1.02069   memory-balance=1.02069   SPH work-load balance=1.0191
iter=0 exchange of 0574557302 particles (ret=0)
domain decomposition done. (took 15.4922 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.80408 MByte in top-level domain structure

Allocated 845.672 MByte for BH-tree, and 0.868221 Mbyte for top-leaves.  (presently allocted 4722.03 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 predicted entropy from the internal energies read in the file...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 5162.72 Mbyte (on task=289), Smallest = 5117.05 Mbyte, Average = 5139.8 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 289 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
 289 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
 289 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
 289 2967 0     NextInTimeBin     24.4214      57.3429  allocate_memory()/allocate.c/58
 289 2968 0     PrevInTimeBin     24.4214      81.7643  allocate_memory()/allocate.c/61
 289 2969 0                 P   1953.7085    2035.4728  allocate_memory()/allocate.c/67
 289 2970 0              SphP   1455.2812    3490.7539  allocate_memory()/allocate.c/85
 289 2971 0              MetP    334.7047    3825.4586  allocate_memory()/allocate.c/105
 289 2972 0               BHP     36.9595    3862.4181  allocate_memory()/allocate.c/126
 289 2975 0          TopNodes     12.8993    3875.4932  domain_allocate()/domain.c/570
 289 2976 0   DomainNodeIndex      0.8682    3876.3614  force_treeallocate()/forcetree.c/4800
 289 2977 0        Nodes_base    434.0929    4310.4543  force_treeallocate()/forcetree.c/4803
 289 2978 0     Extnodes_base    361.7441    4672.1984  force_treeallocate()/forcetree.c/4811
 289 2979 0          Nextnode     25.4136    4697.6120  force_treeallocate()/forcetree.c/4820
 289 2980 0            Father     24.4214    4722.0333  force_treeallocate()/forcetree.c/4827
 289 2981 0           Ngblist      6.0023    4728.0356  density()/density.c/690
 289 2982 0              Left     12.0045    4740.0401  density()/density.c/692
 289 2983 0             Right     12.0045    4752.0446  density()/density.c/693
 289 2984 0    DataIndexTable      7.0175    4759.0622  density()/density.c/738
 289 2985 0      DataNodeList     18.7134    4777.7756  density()/density.c/740
 289 2986 0       DensDataGet    107.5288    4885.3044  density()/density.c/893
 289 2987 0    DensDataResult    141.7425    5027.0469  density()/density.c/931
 289 2988 0       DensDataOut    135.6724    5162.7193  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0003489104 particles.
ngb iteration 2: need to repeat for 0000002623 particles.
ngb iteration 3: need to repeat for 0000000912 particles.
ngb iteration 4: need to repeat for 0000000812 particles.
ngb iteration 5: need to repeat for 0000000382 particles.
ngb iteration 6: need to repeat for 0000000286 particles.
ngb iteration 7: need to repeat for 0000000130 particles.
ngb iteration 8: need to repeat for 0000000008 particles.
ngb iteration 9: need to repeat for 0000000003 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.540.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.615.hdf5

Begin to compute FoF group catalogues...  (presently allocated=4722.03 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3862.42 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3951.92 MB)
Before=243609
After=271385
NTopleaves= 237462  NTopnodes=271385 (space for 321369)
gravity work-load balance=1.01815   memory-balance=1.01815   SPH work-load balance=1.01437
iter=0 exchange of 0574630002 particles (ret=0)
domain decomposition done. (took 7.97428 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.28809 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=3876.05 MB)
Tree construction.

Start linking particles (presently allocated=4797.58 MB)
links on local processor done (took 4.362 sec).
Marked=0054860025 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=4906.67 MB) 
have done 0001054420 cross links (processed 0054860025, took 2.45174 sec)
have done 0000440459 cross links (processed 0039000664, took 2.231 sec)
have done 0000307753 cross links (processed 0032664813, took 2.2455 sec)
have done 0000205402 cross links (processed 0021786801, took 2.02846 sec)
have done 0000129399 cross links (processed 0012572891, took 1.65073 sec)
have done 0000074907 cross links (processed 0007169553, took 1.81016 sec)
have done 0000045108 cross links (processed 0003201630, took 1.02524 sec)
have done 0000027549 cross links (processed 0001637421, took 0.529533 sec)
have done 0000015161 cross links (processed 0001122489, took 0.859646 sec)
have done 0000007879 cross links (processed 0000534448, took 0.665543 sec)
have done 0000004673 cross links (processed 0000277825, took 0.224442 sec)
have done 0000003348 cross links (processed 0000380975, took 0.732284 sec)
have done 0000002559 cross links (processed 0000241591, took 0.636784 sec)
have done 0000001636 cross links (processed 0000052681, took 0.106059 sec)
have done 0000000641 cross links (processed 0000010380, took 0.0351291 sec)
have done 0000000199 cross links (processed 0000002576, took 0.0341339 sec)
have done 0000000074 cross links (processed 0000000844, took 0.0339339 sec)
have done 0000000025 cross links (processed 0000000309, took 0.0335529 sec)
have done 0000000013 cross links (processed 0000000095, took 0.0341139 sec)
have done 0000000008 cross links (processed 0000000051, took 0.0338371 sec)
have done 0000000002 cross links (processed 0000000027, took 0.0334759 sec)
have done 0000000000 cross links (processed 0000000010, took 0.0334828 sec)
Local groups found.

group finding took = 21.9414 sec
Start finding nearest dm-particle (presently allocated=4797.58 MB)
still finding nearest... (presently allocated=4900.76 MB)
fof-nearest iteration 1: need to repeat for 258825413 particles.
still finding nearest... (presently allocated=4895.59 MB)
fof-nearest iteration 2: need to repeat for 245141358 particles.
still finding nearest... (presently allocated=4897.72 MB)
fof-nearest iteration 3: need to repeat for 226444672 particles.
still finding nearest... (presently allocated=4901.43 MB)
fof-nearest iteration 4: need to repeat for 190340249 particles.
still finding nearest... (presently allocated=4906.46 MB)
fof-nearest iteration 5: need to repeat for 133177702 particles.
still finding nearest... (presently allocated=4910.41 MB)
fof-nearest iteration 6: need to repeat for 63492569 particles.
still finding nearest... (presently allocated=4908.09 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 6.7831 sec
compiling local group data and catalogue took = 0.696877 sec

Total number of groups with at least 32 particles: 180844
Largest group has 27992540 particles.
Total number of particles in groups: 0182612649

group properties are now allocated.. (presently allocated=3974.05 MB)
computation of group properties took = 0.106232 sec
start global sorting of group catalogues number 16
LargestGroup = 11801.677033; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.046284 sec
Group catalogues globally sorted. took = 0.806979 sec
starting saving of group catalogue number 16
data//groups_016_z000p543
Group catalogues number 16 saved. took = 3.56591 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (272495362).
tree build for species 0 took 0.573572 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0201630195 particles. (took 10.8585 sec)
ngb iteration 2: need to repeat for 0163392057 particles. (took 7.43974 sec)
ngb iteration 3: need to repeat for 0149215693 particles. (took 5.49814 sec)
ngb iteration 4: need to repeat for 0138405195 particles. (took 4.78791 sec)
ngb iteration 5: need to repeat for 0124179007 particles. (took 4.38158 sec)
ngb iteration 6: need to repeat for 0102457998 particles. (took 3.93446 sec)
ngb iteration 7: need to repeat for 0075081581 particles. (took 3.30241 sec)
ngb iteration 8: need to repeat for 0049055360 particles. (took 2.53499 sec)
ngb iteration 9: need to repeat for 0029329884 particles. (took 1.83937 sec)
ngb iteration 10: need to repeat for 0016508820 particles. (took 1.22608 sec)
ngb iteration 11: need to repeat for 0008949161 particles. (took 0.728035 sec)
ngb iteration 12: need to repeat for 0004751454 particles. (took 0.418498 sec)
ngb iteration 13: need to repeat for 0002496460 particles. (took 0.258868 sec)
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ngb iteration 15: need to repeat for 0000382077 particles. (took 0.121358 sec)
ngb iteration 16: need to repeat for 0000134978 particles. (took 0.078655 sec)
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ngb iteration 20: need to repeat for 0000014949 particles. (took 0.0511861 sec)
ngb iteration 21: need to repeat for 0000010477 particles. (took 0.049413 sec)
ngb iteration 22: need to repeat for 0000007400 particles. (took 0.049861 sec)
ngb iteration 23: need to repeat for 0000005282 particles. (took 0.048471 sec)
ngb iteration 24: need to repeat for 0000003758 particles. (took 0.0483201 sec)
ngb iteration 25: need to repeat for 0000002593 particles. (took 0.048543 sec)
ngb iteration 26: need to repeat for 0000001801 particles. (took 0.048933 sec)
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ngb iteration 28: need to repeat for 0000000745 particles. (took 0.0488219 sec)
ngb iteration 29: need to repeat for 0000000444 particles. (took 0.048208 sec)
ngb iteration 30: need to repeat for 0000000255 particles. (took 0.048099 sec)
ngb iteration 31: need to repeat for 0000000132 particles. (took 0.048187 sec)
ngb iteration 32: need to repeat for 0000000069 particles. (took 0.048152 sec)
ngb iteration 33: need to repeat for 0000000037 particles. (took 0.04843 sec)
ngb iteration 34: need to repeat for 0000000014 particles. (took 0.0479591 sec)
ngb iteration 35: need to repeat for 0000000006 particles. (took 0.0484409 sec)
ngb iteration 36: need to repeat for 0000000002 particles. (took 0.047725 sec)
ngb iteration 37: need to repeat for 0000000002 particles. (took 0.0479419 sec)
ngb iteration 38: need to repeat for 0000000001 particles. (took 0.0483561 sec)
final operations ... 
density and smoothing length for species 0 took 48.9907 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.617438 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0204636873 particles. (took 16.7438 sec)
ngb iteration 2: need to repeat for 0162523670 particles. (took 7.99978 sec)
ngb iteration 3: need to repeat for 0142703485 particles. (took 5.93908 sec)
ngb iteration 4: need to repeat for 0130043440 particles. (took 4.95171 sec)
ngb iteration 5: need to repeat for 0116623410 particles. (took 4.3818 sec)
ngb iteration 6: need to repeat for 0097959760 particles. (took 3.88958 sec)
ngb iteration 7: need to repeat for 0074735789 particles. (took 3.30037 sec)
ngb iteration 8: need to repeat for 0051799375 particles. (took 2.65307 sec)
ngb iteration 9: need to repeat for 0033234152 particles. (took 1.96434 sec)
ngb iteration 10: need to repeat for 0020183387 particles. (took 1.34108 sec)
ngb iteration 11: need to repeat for 0011836141 particles. (took 0.863191 sec)
ngb iteration 12: need to repeat for 0006810231 particles. (took 0.536456 sec)
ngb iteration 13: need to repeat for 0003883366 particles. (took 0.334207 sec)
ngb iteration 14: need to repeat for 0002112582 particles. (took 0.222544 sec)
ngb iteration 15: need to repeat for 0001002967 particles. (took 0.149809 sec)
ngb iteration 16: need to repeat for 0000499194 particles. (took 0.100487 sec)
ngb iteration 17: need to repeat for 0000259262 particles. (took 0.077147 sec)
ngb iteration 18: need to repeat for 0000137792 particles. (took 0.0656118 sec)
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ngb iteration 20: need to repeat for 0000038500 particles. (took 0.0535738 sec)
ngb iteration 21: need to repeat for 0000019488 particles. (took 0.051084 sec)
ngb iteration 22: need to repeat for 0000009512 particles. (took 0.0494289 sec)
ngb iteration 23: need to repeat for 0000004417 particles. (took 0.0486841 sec)
ngb iteration 24: need to repeat for 0000001967 particles. (took 0.0510201 sec)
ngb iteration 25: need to repeat for 0000000853 particles. (took 0.0480819 sec)
ngb iteration 26: need to repeat for 0000000337 particles. (took 0.0480301 sec)
ngb iteration 27: need to repeat for 0000000115 particles. (took 0.0476611 sec)
ngb iteration 28: need to repeat for 0000000038 particles. (took 0.0476322 sec)
ngb iteration 29: need to repeat for 0000000012 particles. (took 0.0477769 sec)
ngb iteration 30: need to repeat for 0000000002 particles. (took 0.048079 sec)
final operations ... 
density and smoothing length for species 1 took 56.4253 sec
Tree construction for species 4 (14133261).
tree build for species 4 took 0.197376 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0009929906 particles. (took 4.24815 sec)
ngb iteration 2: need to repeat for 0008191329 particles. (took 1.9032 sec)
ngb iteration 3: need to repeat for 0007050368 particles. (took 1.50758 sec)
ngb iteration 4: need to repeat for 0006313865 particles. (took 1.15847 sec)
ngb iteration 5: need to repeat for 0005700532 particles. (took 0.967799 sec)
ngb iteration 6: need to repeat for 0005026082 particles. (took 0.738727 sec)
ngb iteration 7: need to repeat for 0004223229 particles. (took 0.619188 sec)
ngb iteration 8: need to repeat for 0003357673 particles. (took 0.504157 sec)
ngb iteration 9: need to repeat for 0002561842 particles. (took 0.427912 sec)
ngb iteration 10: need to repeat for 0001893861 particles. (took 0.323546 sec)
ngb iteration 11: need to repeat for 0001372246 particles. (took 0.252919 sec)
ngb iteration 12: need to repeat for 0000989245 particles. (took 0.217291 sec)
ngb iteration 13: need to repeat for 0000707269 particles. (took 0.192415 sec)
ngb iteration 14: need to repeat for 0000507498 particles. (took 0.167977 sec)
ngb iteration 15: need to repeat for 0000359784 particles. (took 0.147444 sec)
ngb iteration 16: need to repeat for 0000257867 particles. (took 0.12311 sec)
ngb iteration 17: need to repeat for 0000187363 particles. (took 0.107594 sec)
ngb iteration 18: need to repeat for 0000137184 particles. (took 0.0993061 sec)
ngb iteration 19: need to repeat for 0000102071 particles. (took 0.0913022 sec)
ngb iteration 20: need to repeat for 0000076636 particles. (took 0.0881839 sec)
ngb iteration 21: need to repeat for 0000058388 particles. (took 0.0849559 sec)
ngb iteration 22: need to repeat for 0000044986 particles. (took 0.075556 sec)
ngb iteration 23: need to repeat for 0000034410 particles. (took 0.071281 sec)
ngb iteration 24: need to repeat for 0000026143 particles. (took 0.0681899 sec)
ngb iteration 25: need to repeat for 0000019766 particles. (took 0.0652061 sec)
ngb iteration 26: need to repeat for 0000014949 particles. (took 0.0640421 sec)
ngb iteration 27: need to repeat for 0000011195 particles. (took 0.063612 sec)
ngb iteration 28: need to repeat for 0000008128 particles. (took 0.0633709 sec)
ngb iteration 29: need to repeat for 0000005741 particles. (took 0.064738 sec)
ngb iteration 30: need to repeat for 0000003963 particles. (took 0.0642159 sec)
ngb iteration 31: need to repeat for 0000002555 particles. (took 0.0627451 sec)
ngb iteration 32: need to repeat for 0000001557 particles. (took 0.062587 sec)
ngb iteration 33: need to repeat for 0000000928 particles. (took 0.0624361 sec)
ngb iteration 34: need to repeat for 0000000521 particles. (took 0.062747 sec)
ngb iteration 35: need to repeat for 0000000282 particles. (took 0.0625181 sec)
ngb iteration 36: need to repeat for 0000000136 particles. (took 0.0621998 sec)
ngb iteration 37: need to repeat for 0000000062 particles. (took 0.063288 sec)
ngb iteration 38: need to repeat for 0000000032 particles. (took 0.0624418 sec)
ngb iteration 39: need to repeat for 0000000014 particles. (took 0.062243 sec)
ngb iteration 40: need to repeat for 0000000007 particles. (took 0.06689 sec)
ngb iteration 41: need to repeat for 0000000004 particles. (took 0.0627761 sec)
ngb iteration 42: need to repeat for 0000000001 particles. (took 0.062392 sec)
final operations ... 
density and smoothing length for species 4 took 15.5962 sec
Tree construction.
tree build took 1.12735 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000018932 particles. (took 0.095695 sec)
ngb iteration 2: need to repeat for 0000016893 particles. (took 0.0706081 sec)
ngb iteration 3: need to repeat for 0000012320 particles. (took 0.0706611 sec)
ngb iteration 4: need to repeat for 0000009205 particles. (took 0.073256 sec)
ngb iteration 5: need to repeat for 0000007991 particles. (took 0.0703471 sec)
ngb iteration 6: need to repeat for 0000006991 particles. (took 0.069797 sec)
ngb iteration 7: need to repeat for 0000005725 particles. (took 0.0692408 sec)
ngb iteration 8: need to repeat for 0000004372 particles. (took 0.0688491 sec)
ngb iteration 9: need to repeat for 0000003095 particles. (took 0.06844 sec)
ngb iteration 10: need to repeat for 0000002056 particles. (took 0.0673511 sec)
ngb iteration 11: need to repeat for 0000001346 particles. (took 0.0677519 sec)
ngb iteration 12: need to repeat for 0000000817 particles. (took 0.066139 sec)
ngb iteration 13: need to repeat for 0000000517 particles. (took 0.0658851 sec)
ngb iteration 14: need to repeat for 0000000346 particles. (took 0.065155 sec)
ngb iteration 15: need to repeat for 0000000185 particles. (took 0.065284 sec)
ngb iteration 16: need to repeat for 0000000110 particles. (took 0.0646238 sec)
ngb iteration 17: need to repeat for 0000000062 particles. (took 0.0653121 sec)
ngb iteration 18: need to repeat for 0000000044 particles. (took 0.063853 sec)
ngb iteration 19: need to repeat for 0000000032 particles. (took 0.063916 sec)
ngb iteration 20: need to repeat for 0000000026 particles. (took 0.0636959 sec)
ngb iteration 21: need to repeat for 0000000016 particles. (took 0.064364 sec)
ngb iteration 22: need to repeat for 0000000010 particles. (took 0.0636721 sec)
ngb iteration 23: need to repeat for 0000000006 particles. (took 0.0632029 sec)
ngb iteration 24: need to repeat for 0000000005 particles. (took 0.0628281 sec)
ngb iteration 25: need to repeat for 0000000004 particles. (took 0.062928 sec)
ngb iteration 26: need to repeat for 0000000003 particles. (took 0.062851 sec)
ngb iteration 27: need to repeat for 0000000003 particles. (took 0.0629039 sec)
ngb iteration 28: need to repeat for 0000000002 particles. (took 0.0629699 sec)
final operations ... 
density and smoothing length for species 5 took 2.1465 sec
Tree construction for species 0 (272495362).
tree build for species 0 took 0.571862 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 22.2703 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.62492 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 11.2239 sec
Tree construction for species 4 (14133261).
tree build for species 4 took 0.196912 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 4.92275 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.158433 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.05525 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.07979 sec
saving densities took 3.2559 sec

Number of FOF halos treated with collective SubFind code = 2
(the adopted size-limit for the collective algorithm was 4481338 particles.)
the other 180842 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 14382 - 93994471 

subfind_exchange()() took 2.60934 sec

collectively doing halo 1, num=16
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=7038.27 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=7127.78 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 7127.78 Mbyte (on task=0), Smallest = 4084.05 Mbyte, Average = 4119.1 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7632  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7085    2035.4717  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1455.2812    3490.7529  allocate_memory()/allocate.c/85
   0 2971 0              MetP    334.7047    3825.4576  allocate_memory()/allocate.c/105
   0 2972 0               BHP     36.9595    3862.4171  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.4583    3876.0511  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.5074    3912.5585  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     60.8457    3973.4042  fof_fof()/fof.c/337
   0 2978 0             Group      0.6475    3974.0517  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3064.2218    7038.2735  subfind()/subfind.c/376
   0 2982 0          TopNodes     15.9370    7054.3863  domain_allocate()/domain.c/570
   0 2983 0        domain_key     48.8427    7103.2290  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.2259    7104.4714  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.2259    7105.6974  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.2259    7106.9233  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.2259    7108.1492  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.2259    7109.3807  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.2259    7110.6121  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     17.1630    7127.7750  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=181921
After=231961
NTopleaves= 202966  NTopnodes=231961 (space for 321369)
gravity work-load balance=1.02202   memory-balance=1.02202   SPH work-load balance=1.02138
iter=0 exchange of 0027926197 particles (ret=0)
domain decomposition done. (took 2.06124 sec)
Freed 4.09277 MByte in top-level domain structure
------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7632  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7085    2035.4717  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1455.2812    3490.7529  allocate_memory()/allocate.c/85
   0 2971 0              MetP    334.7047    3825.4576  allocate_memory()/allocate.c/105
   0 2972 0               BHP     36.9595    3862.4171  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.4583    3876.0511  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.5074    3912.5585  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     60.8457    3973.4042  fof_fof()/fof.c/337
   0 2978 0             Group      0.6475    3974.0517  fof_fof()/fof.c/380
   0 2979 0          SubGroup   3064.2218    7038.2735  subfind()/subfind.c/376
   0 2982 0          TopNodes     11.5032    7049.9525  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.7743    7050.7267  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    431.5155    7482.2422  force_treeallocate()/forcetree.c/4803
----------------------------------------------------------------------------------------

Task=0: Not enough memory in mymalloc_fullinfo() to allocate 359.596 MB for variable 'Extnodes_base' at force_treeallocate()/forcetree.c/line 4811 (FreeBytes=17.7578 MB).
task 0: endrun called with an error level of 812


application called MPI_Abort(MPI_COMM_WORLD, 812) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
task 0: endrun called with an error level of 124


/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62930.64 Mb (on task=112), Smallest =   62719.94 Mb (on task=0), Average =   62874.63 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=88), Smallest =   64531.71 Mb (on task=112), Average =   64532.01 Mb
Committed_AS:	 Largest =    1812.05 Mb (on task=0), Smallest =    1601.07 Mb (on task=112), Average =    1657.38 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=16), Smallest =   16266.07 Mb (on task=48), Average =   16310.62 Mb
AllocMem:	 Largest =    1812.05 Mb (on task=0), Smallest =    1601.07 Mb (on task=112), Average =    1657.38 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 360 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N8':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         7500
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 2033.08 MByte for particle storage.

Allocated 1457.47 MByte for storage of SPH data.

Allocated 333.458 MByte for storage of MET data.

Allocated 37.0151 MByte for storage of BH data.


reading file `data//snapshot_015_z000p619/snap_015_z000p619.0.hdf5' on task=0 (contains 36264223 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   17082548  (tot=     0272905209) masstab=0
Type 1 (halo):  17708650  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13275  (tot=     0000254233) masstab=0
Type 3 (bulge):   277771  (tot=     0002602064) masstab=0
Type 4 (stars):  1180348  (tot=     0013724355) masstab=0
Type 5 (bndry):     1631  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.5.hdf5' on task=112 (contains 36057817 particles.)
distributing this file to tasks 112-134
Type 0 (gas):   17049267  (tot=     0272905209) masstab=0
Type 1 (halo):  17930055  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14599  (tot=     0000254233) masstab=0
Type 3 (bulge):   163652  (tot=     0002602064) masstab=0
Type 4 (stars):   898576  (tot=     0013724355) masstab=0
Type 5 (bndry):     1668  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.2.hdf5' on task=45 (contains 36130320 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   16960025  (tot=     0272905209) masstab=0
Type 1 (halo):  17998508  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21293  (tot=     0000254233) masstab=0
Type 3 (bulge):   124909  (tot=     0002602064) masstab=0
Type 4 (stars):  1023956  (tot=     0013724355) masstab=0
Type 5 (bndry):     1629  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.14.hdf5' on task=315 (contains 36070162 particles.)
distributing this file to tasks 315-336
Type 0 (gas):   17081701  (tot=     0272905209) masstab=0
Type 1 (halo):  17872874  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     25035  (tot=     0000254233) masstab=0
Type 3 (bulge):   270960  (tot=     0002602064) masstab=0
Type 4 (stars):   818000  (tot=     0013724355) masstab=0
Type 5 (bndry):     1592  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.13.hdf5' on task=292 (contains 35963740 particles.)
distributing this file to tasks 292-314
Type 0 (gas):   17020023  (tot=     0272905209) masstab=0
Type 1 (halo):  18075100  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19842  (tot=     0000254233) masstab=0
Type 3 (bulge):    59836  (tot=     0002602064) masstab=0
Type 4 (stars):   787276  (tot=     0013724355) masstab=0
Type 5 (bndry):     1663  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.15.hdf5' on task=337 (contains 35893747 particles.)
distributing this file to tasks 337-359
Type 0 (gas):   17160673  (tot=     0272905209) masstab=0
Type 1 (halo):  17959436  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10689  (tot=     0000254233) masstab=0
Type 3 (bulge):    54651  (tot=     0002602064) masstab=0
Type 4 (stars):   706631  (tot=     0013724355) masstab=0
Type 5 (bndry):     1667  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.11.hdf5' on task=247 (contains 35783910 particles.)
distributing this file to tasks 247-269
Type 0 (gas):   17016212  (tot=     0272905209) masstab=0
Type 1 (halo):  17900929  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20554  (tot=     0000254233) masstab=0
Type 3 (bulge):    59051  (tot=     0002602064) masstab=0
Type 4 (stars):   785563  (tot=     0013724355) masstab=0
Type 5 (bndry):     1601  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.8.hdf5' on task=180 (contains 35911388 particles.)
distributing this file to tasks 180-201
Type 0 (gas):   17121685  (tot=     0272905209) masstab=0
Type 1 (halo):  17780538  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11367  (tot=     0000254233) masstab=0
Type 3 (bulge):   248573  (tot=     0002602064) masstab=0
Type 4 (stars):   747644  (tot=     0013724355) masstab=0
Type 5 (bndry):     1581  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.4.hdf5' on task=90 (contains 36044267 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   17016832  (tot=     0272905209) masstab=0
Type 1 (halo):  17896671  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13957  (tot=     0000254233) masstab=0
Type 3 (bulge):   184175  (tot=     0002602064) masstab=0
Type 4 (stars):   931101  (tot=     0013724355) masstab=0
Type 5 (bndry):     1531  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.9.hdf5' on task=202 (contains 36285513 particles.)
distributing this file to tasks 202-224
Type 0 (gas):   17031815  (tot=     0272905209) masstab=0
Type 1 (halo):  18001237  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11690  (tot=     0000254233) masstab=0
Type 3 (bulge):   395891  (tot=     0002602064) masstab=0
Type 4 (stars):   843236  (tot=     0013724355) masstab=0
Type 5 (bndry):     1644  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.1.hdf5' on task=22 (contains 36026612 particles.)
distributing this file to tasks 22-44
Type 0 (gas):   17111407  (tot=     0272905209) masstab=0
Type 1 (halo):  17818541  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19234  (tot=     0000254233) masstab=0
Type 3 (bulge):   183878  (tot=     0002602064) masstab=0
Type 4 (stars):   891975  (tot=     0013724355) masstab=0
Type 5 (bndry):     1577  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.10.hdf5' on task=225 (contains 36097971 particles.)
distributing this file to tasks 225-246
Type 0 (gas):   17029400  (tot=     0272905209) masstab=0
Type 1 (halo):  17820288  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16050  (tot=     0000254233) masstab=0
Type 3 (bulge):   398105  (tot=     0002602064) masstab=0
Type 4 (stars):   832565  (tot=     0013724355) masstab=0
Type 5 (bndry):     1563  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.6.hdf5' on task=135 (contains 35795790 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   17061304  (tot=     0272905209) masstab=0
Type 1 (halo):  17826957  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13202  (tot=     0000254233) masstab=0
Type 3 (bulge):    13517  (tot=     0002602064) masstab=0
Type 4 (stars):   879236  (tot=     0013724355) masstab=0
Type 5 (bndry):     1574  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.3.hdf5' on task=67 (contains 36083504 particles.)
distributing this file to tasks 67-89
Type 0 (gas):   17001450  (tot=     0272905209) masstab=0
Type 1 (halo):  18156538  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15999  (tot=     0000254233) masstab=0
Type 3 (bulge):    26787  (tot=     0002602064) masstab=0
Type 4 (stars):   881121  (tot=     0013724355) masstab=0
Type 5 (bndry):     1609  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.12.hdf5' on task=270 (contains 35823281 particles.)
distributing this file to tasks 270-291
Type 0 (gas):   17074722  (tot=     0272905209) masstab=0
Type 1 (halo):  17899872  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17496  (tot=     0000254233) masstab=0
Type 3 (bulge):   123127  (tot=     0002602064) masstab=0
Type 4 (stars):   706444  (tot=     0013724355) masstab=0
Type 5 (bndry):     1620  (tot=     0000025750) masstab=0


reading file `data//snapshot_015_z000p619/snap_015_z000p619.7.hdf5' on task=157 (contains 35940096 particles.)
distributing this file to tasks 157-179
Type 0 (gas):   17086145  (tot=     0272905209) masstab=0
Type 1 (halo):  18014536  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9951  (tot=     0000254233) masstab=0
Type 3 (bulge):    17181  (tot=     0002602064) masstab=0
Type 4 (stars):   810683  (tot=     0013724355) masstab=0
Type 5 (bndry):     1600  (tot=     0000025750) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576172341


Setting next time for grid output file to Time_next= 0.620589

Setting next time for line of sight file to Time_next= 0.620282

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.71109 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3863.42 MB)
Allocated 2.71564 MByte for top-level domain structure
use of 52.7776 MB of temporary storage for domain decomposition... (presently allocated=3918.91 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3918.91 Mbyte (on task=1), Smallest = 3918.91 Mbyte, Average = 3918.91 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     24.4214      57.3429  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     24.4214      81.7643  allocate_memory()/allocate.c/61
   1 2969 0                 P   1953.7085    2035.4728  allocate_memory()/allocate.c/67
   1 2970 0              SphP   1457.4710    3492.9438  allocate_memory()/allocate.c/85
   1 2971 0              MetP    333.4578    3826.4015  allocate_memory()/allocate.c/105
   1 2972 0               BHP     37.0151    3863.4167  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      2.5399    3866.1323  domain_allocate()/domain.c/570
   1 2976 0        domain_key     48.8427    3914.9750  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.1954    3915.1869  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.1954    3915.3822  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.1954    3915.5776  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.1954    3915.7730  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.1954    3915.9739  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.1954    3916.1747  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      2.7352    3918.9100  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 3.47755 MByte for top-level domain structure
use of 53.9498 MB of temporary storage for domain decomposition... (presently allocated=3920.84 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 4.46809 MByte for top-level domain structure
use of 55.4737 MB of temporary storage for domain decomposition... (presently allocated=3923.36 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 5.75582 MByte for top-level domain structure
use of 57.4548 MB of temporary storage for domain decomposition... (presently allocated=3926.63 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 7.42981 MByte for top-level domain structure
use of 60.0302 MB of temporary storage for domain decomposition... (presently allocated=3930.88 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 9.60597 MByte for top-level domain structure
use of 63.3782 MB of temporary storage for domain decomposition... (presently allocated=3936.4 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 12.435 MByte for top-level domain structure
use of 67.7306 MB of temporary storage for domain decomposition... (presently allocated=3943.58 MB)
Before=211033
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3952.92 MB)
Before=211033
After=260417
NTopleaves= 227865  NTopnodes=260417 (space for 321369)
gravity work-load balance=1.01635   memory-balance=1.01636   SPH work-load balance=1.01496
iter=0 exchange of 0574613919 particles (ret=0)
domain decomposition done. (took 15.4089 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.79016 MByte in top-level domain structure

Allocated 845.724 MByte for BH-tree, and 0.869236 Mbyte for top-leaves.  (presently allocted 4723.1 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 5157.07 Mbyte (on task=282), Smallest = 5119.6 Mbyte, Average = 5140.05 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 282 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
 282 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
 282 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
 282 2967 0     NextInTimeBin     24.4214      57.3429  allocate_memory()/allocate.c/58
 282 2968 0     PrevInTimeBin     24.4214      81.7643  allocate_memory()/allocate.c/61
 282 2969 0                 P   1953.7085    2035.4728  allocate_memory()/allocate.c/67
 282 2970 0              SphP   1457.4710    3492.9438  allocate_memory()/allocate.c/85
 282 2971 0              MetP    333.4578    3826.4015  allocate_memory()/allocate.c/105
 282 2972 0               BHP     37.0151    3863.4167  allocate_memory()/allocate.c/126
 282 2975 0          TopNodes     12.9144    3876.5068  domain_allocate()/domain.c/570
 282 2976 0   DomainNodeIndex      0.8692    3877.3761  force_treeallocate()/forcetree.c/4800
 282 2977 0        Nodes_base    434.1207    4311.4968  force_treeallocate()/forcetree.c/4803
 282 2978 0     Extnodes_base    361.7673    4673.2641  force_treeallocate()/forcetree.c/4811
 282 2979 0          Nextnode     25.4148    4698.6788  force_treeallocate()/forcetree.c/4820
 282 2980 0            Father     24.4214    4723.1002  force_treeallocate()/forcetree.c/4827
 282 2981 0           Ngblist      6.0512    4729.1514  density()/density.c/690
 282 2982 0              Left     12.1025    4741.2539  density()/density.c/692
 282 2983 0             Right     12.1025    4753.3564  density()/density.c/693
 282 2984 0    DataIndexTable      7.0175    4760.3740  density()/density.c/738
 282 2985 0      DataNodeList     18.7134    4779.0874  density()/density.c/740
 282 2986 0       DensDataGet    104.5242    4883.6116  density()/density.c/893
 282 2987 0    DensDataResult    137.7819    5021.3934  density()/density.c/931
 282 2988 0       DensDataOut    135.6724    5157.0659  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0002744603 particles.
ngb iteration 2: need to repeat for 0000004767 particles.
ngb iteration 3: need to repeat for 0000001904 particles.
ngb iteration 4: need to repeat for 0000001598 particles.
ngb iteration 5: need to repeat for 0000000593 particles.
ngb iteration 6: need to repeat for 0000000415 particles.
ngb iteration 7: need to repeat for 0000000175 particles.
ngb iteration 8: need to repeat for 0000000011 particles.
ngb iteration 9: need to repeat for 0000000003 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.615.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.695.hdf5

Begin to compute FoF group catalogues...  (presently allocated=4723.1 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3863.42 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3952.92 MB)
Before=243361
After=271105
NTopleaves= 237217  NTopnodes=271105 (space for 321369)
gravity work-load balance=1.02705   memory-balance=1.02706   SPH work-load balance=1.0275
iter=0 exchange of 0574703441 particles (ret=0)
domain decomposition done. (took 8.07495 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.3009 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=3877.04 MB)
Tree construction.

Start linking particles (presently allocated=4798.12 MB)
links on local processor done (took 4.01304 sec).
Marked=0053226036 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=4907.09 MB) 
have done 0001053160 cross links (processed 0053226036, took 2.04093 sec)
have done 0000429044 cross links (processed 0037404949, took 1.94734 sec)
have done 0000290233 cross links (processed 0030235500, took 1.7978 sec)
have done 0000186953 cross links (processed 0019502074, took 1.61603 sec)
have done 0000113396 cross links (processed 0012022778, took 1.47445 sec)
have done 0000069848 cross links (processed 0006434953, took 1.30202 sec)
have done 0000040789 cross links (processed 0003311485, took 0.970627 sec)
have done 0000023099 cross links (processed 0001031742, took 0.458196 sec)
have done 0000011618 cross links (processed 0000418042, took 0.378219 sec)
have done 0000004897 cross links (processed 0000143449, took 0.176687 sec)
have done 0000001959 cross links (processed 0000049408, took 0.061517 sec)
have done 0000000792 cross links (processed 0000010035, took 0.0346539 sec)
have done 0000000351 cross links (processed 0000004352, took 0.0344791 sec)
have done 0000000144 cross links (processed 0000001536, took 0.03407 sec)
have done 0000000054 cross links (processed 0000000545, took 0.0337942 sec)
have done 0000000018 cross links (processed 0000000208, took 0.033597 sec)
have done 0000000014 cross links (processed 0000000049, took 0.033865 sec)
have done 0000000012 cross links (processed 0000000058, took 0.0336919 sec)
have done 0000000012 cross links (processed 0000000050, took 0.0337322 sec)
have done 0000000007 cross links (processed 0000000051, took 0.0338008 sec)
have done 0000000003 cross links (processed 0000000021, took 0.0339131 sec)
have done 0000000000 cross links (processed 0000000011, took 0.033694 sec)
Local groups found.

group finding took = 16.7189 sec
Start finding nearest dm-particle (presently allocated=4798.12 MB)
still finding nearest... (presently allocated=4894.91 MB)
fof-nearest iteration 1: need to repeat for 259136183 particles.
still finding nearest... (presently allocated=4896.25 MB)
fof-nearest iteration 2: need to repeat for 244589039 particles.
still finding nearest... (presently allocated=4898.69 MB)
fof-nearest iteration 3: need to repeat for 226163305 particles.
still finding nearest... (presently allocated=4902.51 MB)
fof-nearest iteration 4: need to repeat for 191436990 particles.
still finding nearest... (presently allocated=4906.9 MB)
fof-nearest iteration 5: need to repeat for 134314509 particles.
still finding nearest... (presently allocated=4909.87 MB)
fof-nearest iteration 6: need to repeat for 64055536 particles.
still finding nearest... (presently allocated=4906.45 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 6.76271 sec
compiling local group data and catalogue took = 1.00087 sec

Total number of groups with at least 32 particles: 183858
Largest group has 22247538 particles.
Total number of particles in groups: 0177485502

group properties are now allocated.. (presently allocated=3974.63 MB)
computation of group properties took = 0.103159 sec
start global sorting of group catalogues number 15
LargestGroup = 9425.161167; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.044059 sec
Group catalogues globally sorted. took = 0.79423 sec
starting saving of group catalogue number 15
data//groups_015_z000p619
Group catalogues number 15 saved. took = 3.56473 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (272905209).
tree build for species 0 took 0.587888 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0201514276 particles. (took 11.0795 sec)
ngb iteration 2: need to repeat for 0163373150 particles. (took 7.44115 sec)
ngb iteration 3: need to repeat for 0149045893 particles. (took 5.49122 sec)
ngb iteration 4: need to repeat for 0138219712 particles. (took 4.78898 sec)
ngb iteration 5: need to repeat for 0124069132 particles. (took 4.36631 sec)
ngb iteration 6: need to repeat for 0102485106 particles. (took 3.92018 sec)
ngb iteration 7: need to repeat for 0075243725 particles. (took 3.2835 sec)
ngb iteration 8: need to repeat for 0049277476 particles. (took 2.53231 sec)
ngb iteration 9: need to repeat for 0029525339 particles. (took 1.85282 sec)
ngb iteration 10: need to repeat for 0016652286 particles. (took 1.22108 sec)
ngb iteration 11: need to repeat for 0009046202 particles. (took 0.725573 sec)
ngb iteration 12: need to repeat for 0004813973 particles. (took 0.419103 sec)
ngb iteration 13: need to repeat for 0002539107 particles. (took 0.261815 sec)
ngb iteration 14: need to repeat for 0001220490 particles. (took 0.17599 sec)
ngb iteration 15: need to repeat for 0000403931 particles. (took 0.121548 sec)
ngb iteration 16: need to repeat for 0000147857 particles. (took 0.0799749 sec)
ngb iteration 17: need to repeat for 0000068507 particles. (took 0.0654001 sec)
ngb iteration 18: need to repeat for 0000039288 particles. (took 0.0566201 sec)
ngb iteration 19: need to repeat for 0000025390 particles. (took 0.0527999 sec)
ngb iteration 20: need to repeat for 0000017180 particles. (took 0.0513868 sec)
ngb iteration 21: need to repeat for 0000011960 particles. (took 0.05002 sec)
ngb iteration 22: need to repeat for 0000008351 particles. (took 0.0493019 sec)
ngb iteration 23: need to repeat for 0000005859 particles. (took 0.0487561 sec)
ngb iteration 24: need to repeat for 0000004114 particles. (took 0.0489361 sec)
ngb iteration 25: need to repeat for 0000002823 particles. (took 0.0491688 sec)
ngb iteration 26: need to repeat for 0000001853 particles. (took 0.0493698 sec)
ngb iteration 27: need to repeat for 0000001193 particles. (took 0.0486102 sec)
ngb iteration 28: need to repeat for 0000000738 particles. (took 0.0484099 sec)
ngb iteration 29: need to repeat for 0000000440 particles. (took 0.048171 sec)
ngb iteration 30: need to repeat for 0000000252 particles. (took 0.0482221 sec)
ngb iteration 31: need to repeat for 0000000154 particles. (took 0.048135 sec)
ngb iteration 32: need to repeat for 0000000081 particles. (took 0.0488911 sec)
ngb iteration 33: need to repeat for 0000000031 particles. (took 0.049041 sec)
ngb iteration 34: need to repeat for 0000000016 particles. (took 0.0482099 sec)
ngb iteration 35: need to repeat for 0000000004 particles. (took 0.0482731 sec)
ngb iteration 36: need to repeat for 0000000002 particles. (took 0.0482919 sec)
ngb iteration 37: need to repeat for 0000000001 particles. (took 0.0479228 sec)
final operations ... 
density and smoothing length for species 0 took 49.1226 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.628316 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0203963489 particles. (took 15.3084 sec)
ngb iteration 2: need to repeat for 0162036412 particles. (took 8.12811 sec)
ngb iteration 3: need to repeat for 0142178211 particles. (took 5.94091 sec)
ngb iteration 4: need to repeat for 0129555237 particles. (took 4.86506 sec)
ngb iteration 5: need to repeat for 0116234894 particles. (took 4.26488 sec)
ngb iteration 6: need to repeat for 0097736303 particles. (took 3.79889 sec)
ngb iteration 7: need to repeat for 0074696820 particles. (took 3.26407 sec)
ngb iteration 8: need to repeat for 0051869350 particles. (took 2.6467 sec)
ngb iteration 9: need to repeat for 0033334479 particles. (took 1.96656 sec)
ngb iteration 10: need to repeat for 0020265976 particles. (took 1.34698 sec)
ngb iteration 11: need to repeat for 0011887277 particles. (took 0.865439 sec)
ngb iteration 12: need to repeat for 0006834852 particles. (took 0.534751 sec)
ngb iteration 13: need to repeat for 0003895074 particles. (took 0.335709 sec)
ngb iteration 14: need to repeat for 0002114603 particles. (took 0.223634 sec)
ngb iteration 15: need to repeat for 0001001541 particles. (took 0.151673 sec)
ngb iteration 16: need to repeat for 0000490688 particles. (took 0.103905 sec)
ngb iteration 17: need to repeat for 0000250537 particles. (took 0.0770788 sec)
ngb iteration 18: need to repeat for 0000131277 particles. (took 0.064687 sec)
ngb iteration 19: need to repeat for 0000068623 particles. (took 0.0581939 sec)
ngb iteration 20: need to repeat for 0000035236 particles. (took 0.053318 sec)
ngb iteration 21: need to repeat for 0000017566 particles. (took 0.051049 sec)
ngb iteration 22: need to repeat for 0000008443 particles. (took 0.0493951 sec)
ngb iteration 23: need to repeat for 0000003812 particles. (took 0.0488229 sec)
ngb iteration 24: need to repeat for 0000001660 particles. (took 0.0494621 sec)
ngb iteration 25: need to repeat for 0000000666 particles. (took 0.0487981 sec)
ngb iteration 26: need to repeat for 0000000257 particles. (took 0.0478189 sec)
ngb iteration 27: need to repeat for 0000000093 particles. (took 0.0481288 sec)
ngb iteration 28: need to repeat for 0000000026 particles. (took 0.047688 sec)
ngb iteration 29: need to repeat for 0000000005 particles. (took 0.0476029 sec)
ngb iteration 30: need to repeat for 0000000002 particles. (took 0.047663 sec)
final operations ... 
density and smoothing length for species 1 took 54.8044 sec
Tree construction for species 4 (13724355).
tree build for species 4 took 0.205849 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0009584275 particles. (took 4.09361 sec)
ngb iteration 2: need to repeat for 0007900562 particles. (took 2.02662 sec)
ngb iteration 3: need to repeat for 0006804041 particles. (took 1.30054 sec)
ngb iteration 4: need to repeat for 0006097704 particles. (took 0.941032 sec)
ngb iteration 5: need to repeat for 0005509258 particles. (took 0.814145 sec)
ngb iteration 6: need to repeat for 0004856510 particles. (took 0.709377 sec)
ngb iteration 7: need to repeat for 0004087045 particles. (took 0.606473 sec)
ngb iteration 8: need to repeat for 0003271598 particles. (took 0.501481 sec)
ngb iteration 9: need to repeat for 0002510052 particles. (took 0.387138 sec)
ngb iteration 10: need to repeat for 0001865371 particles. (took 0.312005 sec)
ngb iteration 11: need to repeat for 0001356250 particles. (took 0.255938 sec)
ngb iteration 12: need to repeat for 0000978354 particles. (took 0.206512 sec)
ngb iteration 13: need to repeat for 0000700741 particles. (took 0.171425 sec)
ngb iteration 14: need to repeat for 0000498365 particles. (took 0.140384 sec)
ngb iteration 15: need to repeat for 0000351324 particles. (took 0.119439 sec)
ngb iteration 16: need to repeat for 0000251845 particles. (took 0.104293 sec)
ngb iteration 17: need to repeat for 0000183900 particles. (took 0.097043 sec)
ngb iteration 18: need to repeat for 0000135712 particles. (took 0.0928919 sec)
ngb iteration 19: need to repeat for 0000101031 particles. (took 0.084497 sec)
ngb iteration 20: need to repeat for 0000076421 particles. (took 0.0795631 sec)
ngb iteration 21: need to repeat for 0000058369 particles. (took 0.073519 sec)
ngb iteration 22: need to repeat for 0000044639 particles. (took 0.0702531 sec)
ngb iteration 23: need to repeat for 0000033840 particles. (took 0.0688291 sec)
ngb iteration 24: need to repeat for 0000025504 particles. (took 0.066818 sec)
ngb iteration 25: need to repeat for 0000018947 particles. (took 0.065294 sec)
ngb iteration 26: need to repeat for 0000014008 particles. (took 0.0649781 sec)
ngb iteration 27: need to repeat for 0000010318 particles. (took 0.064749 sec)
ngb iteration 28: need to repeat for 0000007339 particles. (took 0.0639229 sec)
ngb iteration 29: need to repeat for 0000005032 particles. (took 0.0629699 sec)
ngb iteration 30: need to repeat for 0000003303 particles. (took 0.0627739 sec)
ngb iteration 31: need to repeat for 0000002107 particles. (took 0.0628211 sec)
ngb iteration 32: need to repeat for 0000001290 particles. (took 0.0623059 sec)
ngb iteration 33: need to repeat for 0000000728 particles. (took 0.0621629 sec)
ngb iteration 34: need to repeat for 0000000395 particles. (took 0.062629 sec)
ngb iteration 35: need to repeat for 0000000196 particles. (took 0.0625739 sec)
ngb iteration 36: need to repeat for 0000000097 particles. (took 0.0624959 sec)
ngb iteration 37: need to repeat for 0000000043 particles. (took 0.0650539 sec)
ngb iteration 38: need to repeat for 0000000023 particles. (took 0.0640872 sec)
ngb iteration 39: need to repeat for 0000000008 particles. (took 0.0679998 sec)
ngb iteration 40: need to repeat for 0000000003 particles. (took 0.0654922 sec)
final operations ... 
density and smoothing length for species 4 took 14.6168 sec
Tree construction.
tree build took 1.14195 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000018072 particles. (took 0.0826271 sec)
ngb iteration 2: need to repeat for 0000016010 particles. (took 0.0760849 sec)
ngb iteration 3: need to repeat for 0000011731 particles. (took 0.0752909 sec)
ngb iteration 4: need to repeat for 0000008617 particles. (took 0.0737329 sec)
ngb iteration 5: need to repeat for 0000007468 particles. (took 0.0731649 sec)
ngb iteration 6: need to repeat for 0000006506 particles. (took 0.072432 sec)
ngb iteration 7: need to repeat for 0000005339 particles. (took 0.071636 sec)
ngb iteration 8: need to repeat for 0000004098 particles. (took 0.069551 sec)
ngb iteration 9: need to repeat for 0000002850 particles. (took 0.0686152 sec)
ngb iteration 10: need to repeat for 0000001887 particles. (took 0.068516 sec)
ngb iteration 11: need to repeat for 0000001208 particles. (took 0.0673759 sec)
ngb iteration 12: need to repeat for 0000000736 particles. (took 0.0662529 sec)
ngb iteration 13: need to repeat for 0000000448 particles. (took 0.066097 sec)
ngb iteration 14: need to repeat for 0000000287 particles. (took 0.0670509 sec)
ngb iteration 15: need to repeat for 0000000176 particles. (took 0.0649009 sec)
ngb iteration 16: need to repeat for 0000000106 particles. (took 0.064796 sec)
ngb iteration 17: need to repeat for 0000000062 particles. (took 0.0646799 sec)
ngb iteration 18: need to repeat for 0000000046 particles. (took 0.064729 sec)
ngb iteration 19: need to repeat for 0000000031 particles. (took 0.063838 sec)
ngb iteration 20: need to repeat for 0000000025 particles. (took 0.063947 sec)
ngb iteration 21: need to repeat for 0000000013 particles. (took 0.063822 sec)
ngb iteration 22: need to repeat for 0000000011 particles. (took 0.0643971 sec)
ngb iteration 23: need to repeat for 0000000009 particles. (took 0.063184 sec)
ngb iteration 24: need to repeat for 0000000007 particles. (took 0.063272 sec)
ngb iteration 25: need to repeat for 0000000006 particles. (took 0.0633411 sec)
ngb iteration 26: need to repeat for 0000000004 particles. (took 0.0632291 sec)
ngb iteration 27: need to repeat for 0000000004 particles. (took 0.0631931 sec)
ngb iteration 28: need to repeat for 0000000002 particles. (took 0.0629542 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.062696 sec)
ngb iteration 30: need to repeat for 0000000001 particles. (took 0.0628109 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.062973 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0633352 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.0630231 sec)
final operations ... 
density and smoothing length for species 5 took 2.47104 sec
Tree construction for species 0 (272905209).
tree build for species 0 took 0.586647 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 22.6123 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.627547 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 11.2713 sec
Tree construction for species 4 (13724355).
tree build for species 4 took 0.205455 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 4.73838 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.167998 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.06659 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.08371 sec
saving densities took 2.7911 sec

Number of FOF halos treated with collective SubFind code = 2
(the adopted size-limit for the collective algorithm was 4481338 particles.)
the other 183856 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 14883 - 96369987 

subfind_exchange()() took 2.72535 sec

collectively doing halo 1, num=15
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=6414.65 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=6504.15 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 6504.16 Mbyte (on task=0), Smallest = 4084.09 Mbyte, Average = 4118.55 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7632  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7085    2035.4717  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1457.4710    3492.9427  allocate_memory()/allocate.c/85
   0 2971 0              MetP    333.4578    3826.4005  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.0151    3863.4156  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.4444    3877.0358  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.3103    3913.3461  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     60.5172    3973.8634  fof_fof()/fof.c/337
   0 2978 0             Group      0.7709    3974.6343  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2440.0190    6414.6533  subfind()/subfind.c/376
   0 2982 0          TopNodes     15.9370    6430.7661  domain_allocate()/domain.c/570
   0 2983 0        domain_key     48.8427    6479.6088  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.2259    6480.8512  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.2259    6482.0771  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.2259    6483.3031  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.2259    6484.5290  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.2259    6485.7604  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.2259    6486.9918  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     17.1630    6504.1548  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=183673
After=234041
NTopleaves= 204786  NTopnodes=234041 (space for 321369)
gravity work-load balance=1.01829   memory-balance=1.01829   SPH work-load balance=1.0181
iter=0 exchange of 0022188687 particles (ret=0)
domain decomposition done. (took 2.10973 sec)
Freed 3.99756 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 7268.42 Mbyte (on task=0), Smallest = 4848.35 Mbyte, Average = 4882.81 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7632  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7085    2035.4717  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1457.4710    3492.9427  allocate_memory()/allocate.c/85
   0 2971 0              MetP    333.4578    3826.4005  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.0151    3863.4156  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.4444    3877.0358  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.3103    3913.3461  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     60.5172    3973.8634  fof_fof()/fof.c/337
   0 2978 0             Group      0.7709    3974.6343  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2440.0190    6414.6533  subfind()/subfind.c/376
   0 2982 0          TopNodes     11.6063    6426.4354  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.7812    6427.2166  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    431.7059    6858.9225  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    359.7549    7218.6775  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     25.3142    7243.9916  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     24.4214    7268.4130  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 2.56351 sec  (presently allocated=7268.41 MB)
force_treebuild() took 2.69507 sec (presently allocated=7268.41 MB)
Start find_linkngb (61735 particles on task=0)
find linkngb iteration 1: need to repeat for 0021524310 particles. (took 1.68962 sec)
find linkngb iteration 2: need to repeat for 0020341615 particles. (took 1.16525 sec)
find linkngb iteration 3: need to repeat for 0018097927 particles. (took 0.810172 sec)
find linkngb iteration 4: need to repeat for 0016978156 particles. (took 0.595447 sec)
find linkngb iteration 5: need to repeat for 0015138875 particles. (took 0.561757 sec)
find linkngb iteration 6: need to repeat for 0012416164 particles. (took 0.509505 sec)
find linkngb iteration 7: need to repeat for 0009025133 particles. (took 0.405898 sec)
find linkngb iteration 8: need to repeat for 0005835986 particles. (took 0.281826 sec)
find linkngb iteration 9: need to repeat for 0003463792 particles. (took 0.178194 sec)
find linkngb iteration 10: need to repeat for 0001952940 particles. (took 0.110457 sec)
find linkngb iteration 11: need to repeat for 0001068660 particles. (took 0.06863 sec)
find linkngb iteration 12: need to repeat for 0000558584 particles. (took 0.0436668 sec)
find linkngb iteration 13: need to repeat for 0000189740 particles. (took 0.0284281 sec)
find linkngb iteration 14: need to repeat for 0000057276 particles. (took 0.0165761 sec)
find linkngb iteration 15: need to repeat for 0000026171 particles. (took 0.009552 sec)
find linkngb iteration 16: need to repeat for 0000013462 particles. (took 0.00626206 sec)
find linkngb iteration 17: need to repeat for 0000006946 particles. (took 0.00402403 sec)
find linkngb iteration 18: need to repeat for 0000003571 particles. (took 0.00251889 sec)
find linkngb iteration 19: need to repeat for 0000001986 particles. (took 0.00146008 sec)
find linkngb iteration 20: need to repeat for 0000001191 particles. (took 0.000906944 sec)
find linkngb iteration 21: need to repeat for 0000000755 particles. (took 0.000722885 sec)
find linkngb iteration 22: need to repeat for 0000000526 particles. (took 0.000624895 sec)
find linkngb iteration 23: need to repeat for 0000000334 particles. (took 0.000611067 sec)
find linkngb iteration 24: need to repeat for 0000000204 particles. (took 0.000564098 sec)
find linkngb iteration 25: need to repeat for 0000000117 particles. (took 0.000562906 sec)
find linkngb iteration 26: need to repeat for 0000000069 particles. (took 0.000555038 sec)
find linkngb iteration 27: need to repeat for 0000000037 particles. (took 0.000504017 sec)
find linkngb iteration 28: need to repeat for 0000000020 particles. (took 0.000534058 sec)
find linkngb iteration 29: need to repeat for 0000000008 particles. (took 0.000520945 sec)
find linkngb iteration 30: need to repeat for 0000000004 particles. (took 0.000541925 sec)
find linkngb iteration 31: need to repeat for 0000000002 particles. (took 0.000500202 sec)
find_linkngb() took 6.49831 sec
Start finding nearest two (61735 particles on task=0)
find_nearesttwo() took 0.821781 sec (presently allocated=7273.12 MB)
parallel sort of densities done. took 0.109517 sec
building distributed linked list. (presently allocated 7272.51 MB)
identification of primary candidates took 608.418 sec
adding background as candidate took 0.335524 sec
establishing of rank order took 205.105 sec  (p=22247538, grouplen=22247538) presently allocated 7272.51 MB

total number of subhalo candidates=80149

number of subhalo candidates that can be done independently=69510.
(Largest size is 4355, finding them took 0.0230861 sec)
particles are marked (took 128.049)
independent subhalos are assembled on individual CPUs for unbinding (0.18987 sec, (presently allocated=7272.51 MB)
unbinding of independent ones took 0.111791 sec
particles have returned to their original processor (0.250866 sec, presently allocated 7272.51 MB)

number of subhalo candidates that can be done independently=9596.
(Largest size is 23931, finding them took 1.38367 sec)
particles are marked (took 89.0172)
independent subhalos are assembled on individual CPUs for unbinding (0.180142 sec, (presently allocated=7272.51 MB)
unbinding of independent ones took 0.910563 sec
particles have returned to their original processor (0.245363 sec, presently allocated 7272.51 MB)

number of subhalo candidates that can be done independently=949.
(Largest size is 294567, finding them took 1.38574 sec)
particles are marked (took 76.685)
independent subhalos are assembled on individual CPUs for unbinding (0.184906 sec, (presently allocated=7272.51 MB)
unbinding of independent ones took 6.4858 sec
particles have returned to their original processor (0.247566 sec, presently allocated 7272.51 MB)

number of subhalo candidates that can be done independently=85.
(Largest size is 294567, finding them took 1.17266 sec)
particles are marked (took 71.8951)
independent subhalos are assembled on individual CPUs for unbinding (0.174413 sec, (presently allocated=7272.51 MB)
unbinding of independent ones took 7.55775 sec
particles have returned to their original processor (0.240322 sec, presently allocated 7272.51 MB)

number of subhalo candidates that can be done independently=6.
(Largest size is 382963, finding them took 0.771628 sec)
particles are marked (took 60.2058)
independent subhalos are assembled on individual CPUs for unbinding (0.165433 sec, (presently allocated=7272.51 MB)
unbinding of independent ones took 6.32481 sec
particles have returned to their original processor (0.231293 sec, presently allocated 7272.51 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 382963, finding them took 0.808415 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=382963 ... maximum alloacted 7272.75 MB
took 6.8937 sec
collective unbinding of nr=1 (3) of length=294567 ... maximum alloacted 7272.75 MB
took 6.12432 sec
collective unbinding of nr=2 (3) of length=22247538 ... maximum alloacted 7272.75 MB
took 468.736 sec

the collective unbinding of remaining halos took 535.236 sec

found 4434 bound substructures in FoF group of length 22247538
determination of parent subhalo took 0.056463 sec (presently allocated 7272.75 MB)
determining substructure properties took 447.375 sec (presently allocated 7272.75 MB)

collectively doing halo 2, num=15
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=6414.65 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=6504.15 MB)
Before=200633
After=229649
NTopleaves= 200943  NTopnodes=229649 (space for 321369)
gravity work-load balance=1.02449   memory-balance=1.02449   SPH work-load balance=1.02763
iter=0 exchange of 0004480885 particles (ret=0)
domain decomposition done. (took 1.83414 sec)
Freed 4.19861 MByte in top-level domain structure
coldomain_Decomposition() took 2.28895 sec  (presently allocated=7267.43 MB)
force_treebuild() took 2.67963 sec (presently allocated=7267.43 MB)
Start find_linkngb (12275 particles on task=0)
find linkngb iteration 1: need to repeat for 0004486205 particles. (took 0.358403 sec)
find linkngb iteration 2: need to repeat for 0004468221 particles. (took 0.224194 sec)
find linkngb iteration 3: need to repeat for 0004253413 particles. (took 0.145673 sec)
find linkngb iteration 4: need to repeat for 0004086950 particles. (took 0.105944 sec)
find linkngb iteration 5: need to repeat for 0003718614 particles. (took 0.103528 sec)
find linkngb iteration 6: need to repeat for 0003105011 particles. (took 0.0916982 sec)
find linkngb iteration 7: need to repeat for 0002290127 particles. (took 0.0763929 sec)
find linkngb iteration 8: need to repeat for 0001497845 particles. (took 0.0590751 sec)
find linkngb iteration 9: need to repeat for 0000896577 particles. (took 0.0427959 sec)
find linkngb iteration 10: need to repeat for 0000507897 particles. (took 0.030503 sec)
find linkngb iteration 11: need to repeat for 0000278518 particles. (took 0.021693 sec)
find linkngb iteration 12: need to repeat for 0000146480 particles. (took 0.0162542 sec)
find linkngb iteration 13: need to repeat for 0000050622 particles. (took 0.012815 sec)
find linkngb iteration 14: need to repeat for 0000015026 particles. (took 0.00916505 sec)
find linkngb iteration 15: need to repeat for 0000006578 particles. (took 0.00532603 sec)
find linkngb iteration 16: need to repeat for 0000003226 particles. (took 0.00315619 sec)
find linkngb iteration 17: need to repeat for 0000001610 particles. (took 0.00174499 sec)
find linkngb iteration 18: need to repeat for 0000000882 particles. (took 0.000949144 sec)
find linkngb iteration 19: need to repeat for 0000000505 particles. (took 0.000628948 sec)
find linkngb iteration 20: need to repeat for 0000000323 particles. (took 0.000482082 sec)
find linkngb iteration 21: need to repeat for 0000000228 particles. (took 0.000408888 sec)
find linkngb iteration 22: need to repeat for 0000000134 particles. (took 0.000390053 sec)
find linkngb iteration 23: need to repeat for 0000000082 particles. (took 0.00039196 sec)
find linkngb iteration 24: need to repeat for 0000000039 particles. (took 0.000369072 sec)
find linkngb iteration 25: need to repeat for 0000000023 particles. (took 0.000375032 sec)
find linkngb iteration 26: need to repeat for 0000000012 particles. (took 0.000359058 sec)
find linkngb iteration 27: need to repeat for 0000000004 particles. (took 0.000364065 sec)
find linkngb iteration 28: need to repeat for 0000000001 particles. (took 0.000371933 sec)
find_linkngb() took 1.31423 sec
Start finding nearest two (12275 particles on task=0)
find_nearesttwo() took 0.177 sec (presently allocated=7268.36 MB)
parallel sort of densities done. took 0.0498011 sec
building distributed linked list. (presently allocated 7268.24 MB)
identification of primary candidates took 128.98 sec
adding background as candidate took 0.329087 sec
establishing of rank order took 44.3483 sec  (p=4493973, grouplen=4493973) presently allocated 7268.24 MB

total number of subhalo candidates=15868

number of subhalo candidates that can be done independently=13849.
(Largest size is 2318, finding them took 0.00490689 sec)
particles are marked (took 25.9894)
independent subhalos are assembled on individual CPUs for unbinding (0.153609 sec, (presently allocated=7268.24 MB)
unbinding of independent ones took 0.0518701 sec
particles have returned to their original processor (0.217913 sec, presently allocated 7268.24 MB)

number of subhalo candidates that can be done independently=1854.
(Largest size is 35745, finding them took 1.14626 sec)
particles are marked (took 18.4603)
independent subhalos are assembled on individual CPUs for unbinding (0.157394 sec, (presently allocated=7268.24 MB)
unbinding of independent ones took 0.871802 sec
particles have returned to their original processor (0.225948 sec, presently allocated 7268.24 MB)

number of subhalo candidates that can be done independently=151.
(Largest size is 144016, finding them took 0.886831 sec)
particles are marked (took 16.9677)
independent subhalos are assembled on individual CPUs for unbinding (0.166838 sec, (presently allocated=7268.24 MB)
unbinding of independent ones took 3.22543 sec
particles have returned to their original processor (0.24242 sec, presently allocated 7268.24 MB)

number of subhalo candidates that can be done independently=13.
(Largest size is 31112, finding them took 0.762422 sec)
particles are marked (took 12.4596)
independent subhalos are assembled on individual CPUs for unbinding (0.156034 sec, (presently allocated=7268.24 MB)
unbinding of independent ones took 1.04615 sec
particles have returned to their original processor (0.22667 sec, presently allocated 7268.24 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 4493973, finding them took 0.762206 sec)
too few, I do the rest of 1 collectively

collective unbinding of nr=0 (1) of length=4493973 ... maximum alloacted 7268.29 MB
took 102.688 sec

the collective unbinding of remaining halos took 113.308 sec

found 572 bound substructures in FoF group of length 4493973
determination of parent subhalo took 0.0366979 sec (presently allocated 7268.29 MB)
determining substructure properties took 82.7948 sec (presently allocated 7268.29 MB)
processing of collective halos took 2746.82 sec
sort of local particles()() took 0.808371 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 717.294 sec

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unsorting of local particles()() took 0.713643 sec
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subfind_exchange() (for return to original CPU)  took 5.09183 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=6414.65 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=6504.15 MB)
Before=248209
After=274121
NTopleaves= 239856  NTopnodes=274121 (space for 321369)
gravity work-load balance=1.02486   memory-balance=1.02486   SPH work-load balance=1.0256
iter=0 exchange of 0574588847 particles (ret=0)
domain decomposition done. (took 8.0934 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.16284 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000150933 particles. (took 0.025104 sec)
SO iteration 2: need to repeat for 0000150933 particles. (took 0.021709 sec)
SO iteration 3: need to repeat for 0000150933 particles. (took 0.0224071 sec)
SO iteration 4: need to repeat for 0000150933 particles. (took 0.022552 sec)
SO iteration 5: need to repeat for 0000150933 particles. (took 0.02232 sec)
SO iteration 6: need to repeat for 0000150933 particles. (took 0.022409 sec)
SO iteration 7: need to repeat for 0000150933 particles. (took 0.0223811 sec)
SO iteration 8: need to repeat for 0000150933 particles. (took 0.0224319 sec)
SO iteration 9: need to repeat for 0000150933 particles. (took 0.0223019 sec)
SO iteration 10: need to repeat for 0000150933 particles. (took 0.022352 sec)
SO iteration 11: need to repeat for 0000150933 particles. (took 0.0223401 sec)
SO iteration 12: need to repeat for 0000150933 particles. (took 0.0222259 sec)
SO iteration 13: need to repeat for 0000150933 particles. (took 0.022285 sec)
SO iteration 14: need to repeat for 0000150933 particles. (took 0.022182 sec)
SO iteration 15: need to repeat for 0000148803 particles. (took 0.0223901 sec)
SO iteration 16: need to repeat for 0000000841 particles. (took 0.021816 sec)
SO iteration 17: need to repeat for 0000000049 particles. (took 0.00148511 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000837088 sec)
SO iteration 1: need to repeat for 0000150933 particles. (took 0.0226681 sec)
SO iteration 2: need to repeat for 0000150933 particles. (took 0.019377 sec)
SO iteration 3: need to repeat for 0000150933 particles. (took 0.0206811 sec)
SO iteration 4: need to repeat for 0000150933 particles. (took 0.0205491 sec)
SO iteration 5: need to repeat for 0000150933 particles. (took 0.0204229 sec)
SO iteration 6: need to repeat for 0000150933 particles. (took 0.0202632 sec)
SO iteration 7: need to repeat for 0000150933 particles. (took 0.0203259 sec)
SO iteration 8: need to repeat for 0000150933 particles. (took 0.020551 sec)
SO iteration 9: need to repeat for 0000150933 particles. (took 0.0205729 sec)
SO iteration 10: need to repeat for 0000150933 particles. (took 0.020417 sec)
SO iteration 11: need to repeat for 0000150933 particles. (took 0.0204921 sec)
SO iteration 12: need to repeat for 0000150933 particles. (took 0.020401 sec)
SO iteration 13: need to repeat for 0000150933 particles. (took 0.0204661 sec)
SO iteration 14: need to repeat for 0000150933 particles. (took 0.0204961 sec)
SO iteration 15: need to repeat for 0000150123 particles. (took 0.020503 sec)
SO iteration 16: need to repeat for 0000029814 particles. (took 0.0201499 sec)
SO iteration 17: need to repeat for 0000000390 particles. (took 0.00824499 sec)
SO iteration 18: need to repeat for 0000000032 particles. (took 0.001055 sec)
SO iteration 1: need to repeat for 0000150933 particles. (took 0.0226419 sec)
SO iteration 2: need to repeat for 0000150933 particles. (took 0.0191462 sec)
SO iteration 3: need to repeat for 0000150933 particles. (took 0.0173259 sec)
SO iteration 4: need to repeat for 0000150933 particles. (took 0.0180259 sec)
SO iteration 5: need to repeat for 0000150933 particles. (took 0.0177071 sec)
SO iteration 6: need to repeat for 0000150933 particles. (took 0.0175872 sec)
SO iteration 7: need to repeat for 0000150933 particles. (took 0.017868 sec)
SO iteration 8: need to repeat for 0000150933 particles. (took 0.017601 sec)
SO iteration 9: need to repeat for 0000150933 particles. (took 0.0177212 sec)
SO iteration 10: need to repeat for 0000150933 particles. (took 0.0179191 sec)
SO iteration 11: need to repeat for 0000150933 particles. (took 0.0177951 sec)
SO iteration 12: need to repeat for 0000150933 particles. (took 0.017947 sec)
SO iteration 13: need to repeat for 0000150933 particles. (took 0.0179391 sec)
SO iteration 14: need to repeat for 0000150933 particles. (took 0.0178831 sec)
SO iteration 15: need to repeat for 0000150914 particles. (took 0.0177362 sec)
SO iteration 16: need to repeat for 0000149567 particles. (took 0.0177021 sec)
SO iteration 17: need to repeat for 0000046052 particles. (took 0.0175591 sec)
SO iteration 18: need to repeat for 0000000810 particles. (took 0.00993419 sec)
SO iteration 19: need to repeat for 0000000064 particles. (took 0.00127602 sec)
SO iteration 20: need to repeat for 0000000001 particles. (took 0.000840902 sec)
SO iteration 1: need to repeat for 0000150933 particles. (took 0.0227911 sec)
SO iteration 2: need to repeat for 0000150933 particles. (took 0.0196161 sec)
SO iteration 3: need to repeat for 0000150933 particles. (took 0.0211799 sec)
SO iteration 4: need to repeat for 0000150933 particles. (took 0.0218899 sec)
SO iteration 5: need to repeat for 0000150933 particles. (took 0.0221601 sec)
SO iteration 6: need to repeat for 0000150933 particles. (took 0.0221019 sec)
SO iteration 7: need to repeat for 0000150933 particles. (took 0.0222669 sec)
SO iteration 8: need to repeat for 0000150933 particles. (took 0.0224261 sec)
SO iteration 9: need to repeat for 0000150933 particles. (took 0.0223322 sec)
SO iteration 10: need to repeat for 0000150933 particles. (took 0.0223949 sec)
SO iteration 11: need to repeat for 0000150933 particles. (took 0.0222099 sec)
SO iteration 12: need to repeat for 0000150933 particles. (took 0.024483 sec)
SO iteration 13: need to repeat for 0000150933 particles. (took 0.0221 sec)
SO iteration 14: need to repeat for 0000150933 particles. (took 0.0220709 sec)
SO iteration 15: need to repeat for 0000148865 particles. (took 0.0219929 sec)
SO iteration 16: need to repeat for 0000001257 particles. (took 0.021554 sec)
SO iteration 17: need to repeat for 0000000064 particles. (took 0.00169921 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000845909 sec)
SO iteration 1: need to repeat for 0000150933 particles. (took 0.0225558 sec)
SO iteration 2: need to repeat for 0000150933 particles. (took 0.0196939 sec)
SO iteration 3: need to repeat for 0000150933 particles. (took 0.0213189 sec)
SO iteration 4: need to repeat for 0000150933 particles. (took 0.0215311 sec)
SO iteration 5: need to repeat for 0000150933 particles. (took 0.0213661 sec)
SO iteration 6: need to repeat for 0000150933 particles. (took 0.021414 sec)
SO iteration 7: need to repeat for 0000150933 particles. (took 0.021373 sec)
SO iteration 8: need to repeat for 0000150933 particles. (took 0.0212591 sec)
SO iteration 9: need to repeat for 0000150933 particles. (took 0.0213749 sec)
SO iteration 10: need to repeat for 0000150933 particles. (took 0.021291 sec)
SO iteration 11: need to repeat for 0000150933 particles. (took 0.0213492 sec)
SO iteration 12: need to repeat for 0000150933 particles. (took 0.021368 sec)
SO iteration 13: need to repeat for 0000150933 particles. (took 0.0211921 sec)
SO iteration 14: need to repeat for 0000150933 particles. (took 0.0212381 sec)
SO iteration 15: need to repeat for 0000149130 particles. (took 0.0214319 sec)
SO iteration 16: need to repeat for 0000004551 particles. (took 0.02074 sec)
SO iteration 17: need to repeat for 0000000140 particles. (took 0.00253105 sec)
SO iteration 18: need to repeat for 0000000008 particles. (took 0.000908136 sec)
SO iteration 1: need to repeat for 0000150933 particles. (took 0.0226722 sec)
SO iteration 2: need to repeat for 0000150933 particles. (took 0.019377 sec)
SO iteration 3: need to repeat for 0000150933 particles. (took 0.0203109 sec)
SO iteration 4: need to repeat for 0000150933 particles. (took 0.0200682 sec)
SO iteration 5: need to repeat for 0000150933 particles. (took 0.019506 sec)
SO iteration 6: need to repeat for 0000150933 particles. (took 0.019608 sec)
SO iteration 7: need to repeat for 0000150933 particles. (took 0.0195129 sec)
SO iteration 8: need to repeat for 0000150933 particles. (took 0.0195801 sec)
SO iteration 9: need to repeat for 0000150933 particles. (took 0.0196531 sec)
SO iteration 10: need to repeat for 0000150933 particles. (took 0.0197251 sec)
SO iteration 11: need to repeat for 0000150933 particles. (took 0.019737 sec)
SO iteration 12: need to repeat for 0000150933 particles. (took 0.0196002 sec)
SO iteration 13: need to repeat for 0000150933 particles. (took 0.0197031 sec)
SO iteration 14: need to repeat for 0000150933 particles. (took 0.019752 sec)
SO iteration 15: need to repeat for 0000150629 particles. (took 0.0195081 sec)
SO iteration 16: need to repeat for 0000145405 particles. (took 0.01948 sec)
SO iteration 17: need to repeat for 0000001241 particles. (took 0.0192699 sec)
SO iteration 18: need to repeat for 0000000085 particles. (took 0.00143218 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000838995 sec)
SO iteration 1: need to repeat for 0000150933 particles. (took 0.022764 sec)
SO iteration 2: need to repeat for 0000150933 particles. (took 0.0192211 sec)
SO iteration 3: need to repeat for 0000150933 particles. (took 0.0171809 sec)
SO iteration 4: need to repeat for 0000150933 particles. (took 0.017272 sec)
SO iteration 5: need to repeat for 0000150933 particles. (took 0.017118 sec)
SO iteration 6: need to repeat for 0000150933 particles. (took 0.017153 sec)
SO iteration 7: need to repeat for 0000150933 particles. (took 0.017066 sec)
SO iteration 8: need to repeat for 0000150933 particles. (took 0.017087 sec)
SO iteration 9: need to repeat for 0000150933 particles. (took 0.0171008 sec)
SO iteration 10: need to repeat for 0000150933 particles. (took 0.0170619 sec)
SO iteration 11: need to repeat for 0000150933 particles. (took 0.0170841 sec)
SO iteration 12: need to repeat for 0000150933 particles. (took 0.0171912 sec)
SO iteration 13: need to repeat for 0000150933 particles. (took 0.0169489 sec)
SO iteration 14: need to repeat for 0000150933 particles. (took 0.0169551 sec)
SO iteration 15: need to repeat for 0000150922 particles. (took 0.0170169 sec)
SO iteration 16: need to repeat for 0000150355 particles. (took 0.0170929 sec)
SO iteration 17: need to repeat for 0000132050 particles. (took 0.0172582 sec)
SO iteration 18: need to repeat for 0000003202 particles. (took 0.016279 sec)
SO iteration 19: need to repeat for 0000000125 particles. (took 0.00186896 sec)
SO iteration 20: need to repeat for 0000000004 particles. (took 0.000850201 sec)
determining spherical overdensity masses took 2.38434 sec
finding spherical overdensity particles took 0.336988 sec
determining contamination of halos took 0.291579 sec
Global sort of Groups took 0.0817859 sec
Global sort of SubGroups took 0.19627 sec
Global sort of IDs took 0.426352 sec
Writing block 0 (GLEN), n=511, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2044d
Writing block 1 (GOFF), n=511, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2044d
Writing block 2 (MTOT), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 3 (GPOS), n=511, ptype=0, dtype=1, ndim=3, bpb=4 bytes=6132d
Writing block 4 (MMEA), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 5 (RMEA), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 6 (MCRI), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 7 (RCRI), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 8 (MTOP), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 9 (RTOP), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 17 (NCON), n=511, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2044d
Writing block 18 (MCON), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 22 (NSUB), n=511, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2044d
Writing block 23 (FSUB), n=511, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2044d
Writing block 24 (SLEN), n=4921, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19684d
Writing block 25 (SOFF), n=4921, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19684d
Writing block 26 (SSUB), n=4921, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19684d
Writing block 27 (MSUB), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 28 (SPOS), n=4921, ptype=1, dtype=1, ndim=3, bpb=4 bytes=59052d
Writing block 29 (SVEL), n=4921, ptype=1, dtype=1, ndim=3, bpb=4 bytes=59052d
Writing block 30 (SCM ), n=4921, ptype=1, dtype=1, ndim=3, bpb=4 bytes=59052d
Writing block 33 (VMAX), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 34 (RMAX), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 35 (RHMS), n=4921, ptype=1, dtype=1, ndim=6, bpb=4 bytes=118104d
Writing block 36 (MTRH), n=4921, ptype=1, dtype=1, ndim=6, bpb=4 bytes=118104d
Writing block 37 (MBID), n=4921, ptype=1, dtype=2, ndim=1, bpb=8 bytes=39368d
Writing block 38 (GRNR), n=4921, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19684d
Writing block 39 (SUBN), n=4921, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19684d
Writing block 40 (SMST), n=4921, ptype=1, dtype=1, ndim=6, bpb=4 bytes=118104d
Writing block 53 (PID ), n=451066, ptype=2, dtype=2, ndim=1, bpb=8 bytes=3608528d
Writing block 54 (SLEN), n=4921, ptype=1, dtype=0, ndim=6, bpb=4 bytes=118104d
Writing block 55 (STEN), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 56 (SKEN), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 57 (SUEN), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 58 (SUIT), n=4921, ptype=1, dtype=1, ndim=9, bpb=4 bytes=177156d
Writing block 59 (BHMA), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 60 (BHMD), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 61 (SVD ), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 62 (SVDH), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 63 (HMPR), n=4921, ptype=1, dtype=1, ndim=6, bpb=4 bytes=118104d
Writing block 64 (SSFR), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 65 (SSA ), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 66 (SSBZ), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 67 (SSIM), n=4921, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 68 (SSPI), n=4921, ptype=4, dtype=1, ndim=3, bpb=4 bytes=59052d
Writing block 69 (GSPI), n=4921, ptype=1, dtype=1, ndim=3, bpb=4 bytes=59052d
Writing block 70 (FSPI), n=4921, ptype=5, dtype=1, ndim=3, bpb=4 bytes=59052d
Writing block 71 (SFM ), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 72 (SFMT), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 73 (SFME), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 74 (SFAE), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 75 (SFKE), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 76 (SFTE), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 77 (SMWP), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 78 (SMM ), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 79 (SMMS), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 80 (SFZ ), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 81 (SFZS), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 82 (SSIA), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 83 (SIAS), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 84 (SMET), n=4921, ptype=5, dtype=1, ndim=9, bpb=4 bytes=177156d
Writing block 85 (SMTS), n=4921, ptype=5, dtype=1, ndim=9, bpb=4 bytes=177156d
Writing block 86 (MF1 ), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 87 (MeF1), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 88 (MF  ), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 89 (MeF2), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 90 (MFA ), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 91 (MeFA), n=4921, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 92 (NSPI), n=4921, ptype=6, dtype=1, ndim=3, bpb=4 bytes=59052d
Writing block 93 (NFM ), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 94 (NFMT), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 95 (NFME), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 96 (NFAE), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 97 (NFKE), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 98 (NFTE), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 99 (SMWP), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 100 (SMM ), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 101 (SMMS), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 102 (SSIA), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 103 (SIAS), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 104 (SMET), n=4921, ptype=6, dtype=1, ndim=9, bpb=4 bytes=177156d
Writing block 105 (SMTS), n=4921, ptype=6, dtype=1, ndim=9, bpb=4 bytes=177156d
Writing block 106 (MF1 ), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 107 (MeF1), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 108 (MF2 ), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 109 (MeF2), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 110 (MFA ), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 111 (MeFA), n=4921, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 112 (SM  ), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 113 (SFKE), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 114 (SFAE), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 115 (SMWP), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 116 (SMM ), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 117 (SMMS), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 118 (SSIA), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 119 (SIAS), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 120 (SMET), n=4921, ptype=4, dtype=1, ndim=9, bpb=4 bytes=177156d
Writing block 121 (SMTS), n=4921, ptype=4, dtype=1, ndim=9, bpb=4 bytes=177156d
Writing block 122 (MF1 ), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 123 (MeF1), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 124 (MF2 ), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 125 (MeF2), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 126 (MFA ), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 127 (MeFA), n=4921, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19684d
Writing block 128 (MMe5), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 129 (RMe5), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 130 (MCr5), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 131 (RCr5), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 132 (MMe2), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 133 (RMe2), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 134 (MCr2), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 135 (RCr2), n=511, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2044d
Writing block 136 (MAPT), n=4921, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1181040d
Writing block 137 (SAPT), n=4921, ptype=8, dtype=1, ndim=10, bpb=4 bytes=196840d
Writing block 138 (VAPT), n=4921, ptype=9, dtype=1, ndim=10, bpb=4 bytes=196840d
Writing block 139 (BEGY), n=451066, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1804264d
Subgroup catalogues saved. took = 10.3548 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 4.492888e-01
 eagle_ph_key_ort: type= 1 timed by volker 4.791319e-01
 eagle_ph_key_ort: type= 2 timed by volker 7.782412e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.222487e-02
 eagle_ph_key_ort: type= 4 timed by volker 8.380008e-02
 eagle_ph_key_ort: type= 5 timed by volker 3.785110e-02
 eagle_ph_key_ort: timing parallel sort = 1.222636e+00
 eagle_fetch_elements: we are using 879988038 bytes of memory, FreeBytes= 1099985048

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 6450.98 Mbyte (on task=0), Smallest = 4031.74 Mbyte, Average = 4065.68 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7632  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7085    2035.4717  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1457.4710    3492.9427  allocate_memory()/allocate.c/85
   0 2971 0              MetP    333.4578    3826.4005  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.0151    3863.4156  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.4444    3877.0358  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.3103    3913.3461  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     60.5172    3973.8634  fof_fof()/fof.c/337
   0 2978 0             Group      0.7709    3974.6343  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2440.0190    6414.6533  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.3192    6450.9725  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 544637 number of bytes = 174283840

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 7273.88 Mbyte (on task=0), Smallest = 4848.98 Mbyte, Average = 4892.76 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7632  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7085    2035.4717  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1457.4710    3492.9427  allocate_memory()/allocate.c/85
   0 2971 0              MetP    333.4578    3826.4005  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.0151    3863.4156  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.4444    3877.0358  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.3103    3913.3461  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     60.5172    3973.8634  fof_fof()/fof.c/337
   0 2978 0             Group      0.7709    3974.6343  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2440.0190    6414.6533  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.3192    6450.9725  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      2.0776    6453.0501  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      2.0776    6455.1278  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      2.0776    6457.2054  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    166.2100    6623.4154  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    166.2100    6789.6254  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    484.2566    7273.8820  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 4.004651e+00
 eagle_fetch_elements: we are using 879988038 bytes of memory, FreeBytes= 1099985048
 eagle_fetch_elements: max_bytes= 504, max_elements= 478567 number of bytes = 241197768
 eagle_ph_key_ort: timing parallel SphP exchange = 2.970028e+00
 eagle_fetch_elements: we are using 879988038 bytes of memory, FreeBytes= 1099985048
 eagle_fetch_elements: max_bytes= 384, max_elements= 1078865 number of bytes = 414284160
 eagle_ph_key_ort: timing parallel MetP exchange = 2.633390e-01
 eagle_fetch_elements: we are using 879988038 bytes of memory, FreeBytes= 1099985048
 eagle_fetch_elements: max_bytes= 256, max_elements= 1679313 number of bytes = 429904128
 eagle_ph_key_ort: timing parallel BHP exchange = 7.957935e-03
Sorting particle-data by peano-hilbert key took = 8.83398 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 879988038 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 544637 number of bytes= 174283840
 eagle_ph_restore: timing parallel P exchange = 4.165758e+00
 eagle_send_elements: we are using 879988038 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 478567 number of bytes= 241197768
 eagle_ph_restore: timing parallel SphP exchange = 3.033771e+00
 eagle_send_elements: we are using 879988038 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1078865 number of bytes= 414284160
 eagle_ph_restore: timing parallel MetP exchange = 2.882841e-01
 eagle_send_elements: we are using 879988038 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 1679313 number of bytes= 429904128
 eagle_ph_restore: timing parallel BHP exchange = 8.112907e-03
Restoring original order after ph key sorting took = 7.5139 sec

finished writing particle file...

Finished with SUBFIND.  (total time=3920.69 sec)

Finished computing FoF groups.  (presently allocated=3877.04 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3863.42 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3952.92 MB)
Before=242665
After=271105
NTopleaves= 237217  NTopnodes=271105 (space for 321369)
gravity work-load balance=1.01333   memory-balance=1.01333   SPH work-load balance=1.01306
iter=0 exchange of 0574338661 particles (ret=0)
domain decomposition done. (took 8.11961 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.3009 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
task 22: endrun called with an error level of 124


task 45: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
task 45: endrun called with an error level of 124


task 22: endrun called with an error level of 124


HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 67: endrun called with an error level of 124


task 67: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
task 90: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
task 90: endrun called with an error level of 124


task 112: endrun called with an error level of 124


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


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
task 135: endrun called with an error level of 124


task 135: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
task 157: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
task 157: endrun called with an error level of 124


task 180: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
task 180: endrun called with an error level of 124


task 202: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
task 202: endrun called with an error level of 124


task 225: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
task 225: endrun called with an error level of 124


task 247: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
task 247: endrun called with an error level of 124


task 270: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
task 270: endrun called with an error level of 124


task 292: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
task 292: endrun called with an error level of 124


task 315: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
task 315: endrun called with an error level of 124


task 337: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
Finished FOF, total time doing fof/subfind = 3969.27 s
task 337: endrun called with an error level of 124


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


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


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62923.91 Mb (on task=112), Smallest =   62719.55 Mb (on task=0), Average =   62874.53 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=88), Smallest =   64531.71 Mb (on task=112), Average =   64532.01 Mb
Committed_AS:	 Largest =    1812.44 Mb (on task=0), Smallest =    1607.80 Mb (on task=112), Average =    1657.49 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=16), Smallest =   16266.07 Mb (on task=48), Average =   16310.68 Mb
AllocMem:	 Largest =    1812.44 Mb (on task=0), Smallest =    1607.80 Mb (on task=112), Average =    1657.49 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 360 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N8':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         7500
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 2033.08 MByte for particle storage.

Allocated 1460.06 MByte for storage of SPH data.

Allocated 331.982 MByte for storage of MET data.

Allocated 37.0808 MByte for storage of BH data.


reading file `data//snapshot_014_z000p703/snap_014_z000p703.0.hdf5' on task=0 (contains 36484441 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   17023936  (tot=     0273390075) masstab=0
Type 1 (halo):  17851660  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10233  (tot=     0000254233) masstab=0
Type 3 (bulge):   521165  (tot=     0002602064) masstab=0
Type 4 (stars):  1075971  (tot=     0013240665) masstab=0
Type 5 (bndry):     1476  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.5.hdf5' on task=112 (contains 36035286 particles.)
distributing this file to tasks 112-134
Type 0 (gas):   17066623  (tot=     0273390075) masstab=0
Type 1 (halo):  18060211  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     22375  (tot=     0000254233) masstab=0
Type 3 (bulge):    58071  (tot=     0002602064) masstab=0
Type 4 (stars):   826463  (tot=     0013240665) masstab=0
Type 5 (bndry):     1543  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.9.hdf5' on task=202 (contains 36053773 particles.)
distributing this file to tasks 202-224
Type 0 (gas):   16974155  (tot=     0273390075) masstab=0
Type 1 (halo):  17987872  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9406  (tot=     0000254233) masstab=0
Type 3 (bulge):   256193  (tot=     0002602064) masstab=0
Type 4 (stars):   824626  (tot=     0013240665) masstab=0
Type 5 (bndry):     1521  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.15.hdf5' on task=337 (contains 35884204 particles.)
distributing this file to tasks 337-359
Type 0 (gas):   17019176  (tot=     0273390075) masstab=0
Type 1 (halo):  17790520  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     23133  (tot=     0000254233) masstab=0
Type 3 (bulge):   169816  (tot=     0002602064) masstab=0
Type 4 (stars):   879996  (tot=     0013240665) masstab=0
Type 5 (bndry):     1563  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.6.hdf5' on task=135 (contains 35934388 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   17036105  (tot=     0273390075) masstab=0
Type 1 (halo):  17866134  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12259  (tot=     0000254233) masstab=0
Type 3 (bulge):   179829  (tot=     0002602064) masstab=0
Type 4 (stars):   838471  (tot=     0013240665) masstab=0
Type 5 (bndry):     1590  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.3.hdf5' on task=67 (contains 35976529 particles.)
distributing this file to tasks 67-89
Type 0 (gas):   16995880  (tot=     0273390075) masstab=0
Type 1 (halo):  17951960  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15627  (tot=     0000254233) masstab=0
Type 3 (bulge):   151820  (tot=     0002602064) masstab=0
Type 4 (stars):   859608  (tot=     0013240665) masstab=0
Type 5 (bndry):     1634  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.13.hdf5' on task=292 (contains 35841738 particles.)
distributing this file to tasks 292-314
Type 0 (gas):   17201742  (tot=     0273390075) masstab=0
Type 1 (halo):  17780150  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     26023  (tot=     0000254233) masstab=0
Type 3 (bulge):   158239  (tot=     0002602064) masstab=0
Type 4 (stars):   674039  (tot=     0013240665) masstab=0
Type 5 (bndry):     1545  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.4.hdf5' on task=90 (contains 35986668 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   16890759  (tot=     0273390075) masstab=0
Type 1 (halo):  18122419  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16458  (tot=     0000254233) masstab=0
Type 3 (bulge):   124303  (tot=     0002602064) masstab=0
Type 4 (stars):   831162  (tot=     0013240665) masstab=0
Type 5 (bndry):     1567  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.10.hdf5' on task=225 (contains 35846529 particles.)
distributing this file to tasks 225-246
Type 0 (gas):   17110277  (tot=     0273390075) masstab=0
Type 1 (halo):  17853028  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13025  (tot=     0000254233) masstab=0
Type 3 (bulge):    70179  (tot=     0002602064) masstab=0
Type 4 (stars):   798503  (tot=     0013240665) masstab=0
Type 5 (bndry):     1517  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.2.hdf5' on task=45 (contains 36180590 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   17104359  (tot=     0273390075) masstab=0
Type 1 (halo):  18047602  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12483  (tot=     0000254233) masstab=0
Type 3 (bulge):   156044  (tot=     0002602064) masstab=0
Type 4 (stars):   858555  (tot=     0013240665) masstab=0
Type 5 (bndry):     1547  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.8.hdf5' on task=180 (contains 35936578 particles.)
distributing this file to tasks 180-201
Type 0 (gas):   17065162  (tot=     0273390075) masstab=0
Type 1 (halo):  18002465  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15641  (tot=     0000254233) masstab=0
Type 3 (bulge):   122311  (tot=     0002602064) masstab=0
Type 4 (stars):   729394  (tot=     0013240665) masstab=0
Type 5 (bndry):     1605  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.14.hdf5' on task=315 (contains 36058413 particles.)
distributing this file to tasks 315-336
Type 0 (gas):   17169869  (tot=     0273390075) masstab=0
Type 1 (halo):  17971969  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14577  (tot=     0000254233) masstab=0
Type 3 (bulge):   155150  (tot=     0002602064) masstab=0
Type 4 (stars):   745314  (tot=     0013240665) masstab=0
Type 5 (bndry):     1534  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.1.hdf5' on task=22 (contains 36263539 particles.)
distributing this file to tasks 22-44
Type 0 (gas):   17271790  (tot=     0273390075) masstab=0
Type 1 (halo):  17719104  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     26007  (tot=     0000254233) masstab=0
Type 3 (bulge):   225669  (tot=     0002602064) masstab=0
Type 4 (stars):  1019501  (tot=     0013240665) masstab=0
Type 5 (bndry):     1468  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.12.hdf5' on task=270 (contains 35952845 particles.)
distributing this file to tasks 270-291
Type 0 (gas):   17270861  (tot=     0273390075) masstab=0
Type 1 (halo):  17812606  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9574  (tot=     0000254233) masstab=0
Type 3 (bulge):   128086  (tot=     0002602064) masstab=0
Type 4 (stars):   730152  (tot=     0013240665) masstab=0
Type 5 (bndry):     1566  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.7.hdf5' on task=157 (contains 35682581 particles.)
distributing this file to tasks 157-179
Type 0 (gas):   17169921  (tot=     0273390075) masstab=0
Type 1 (halo):  17647598  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15859  (tot=     0000254233) masstab=0
Type 3 (bulge):   124313  (tot=     0002602064) masstab=0
Type 4 (stars):   723317  (tot=     0013240665) masstab=0
Type 5 (bndry):     1573  (tot=     0000024784) masstab=0


reading file `data//snapshot_014_z000p703/snap_014_z000p703.11.hdf5' on task=247 (contains 36054449 particles.)
distributing this file to tasks 247-269
Type 0 (gas):   17019460  (tot=     0273390075) masstab=0
Type 1 (halo):  18195432  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11553  (tot=     0000254233) masstab=0
Type 3 (bulge):      876  (tot=     0002602064) masstab=0
Type 4 (stars):   825593  (tot=     0013240665) masstab=0
Type 5 (bndry):     1535  (tot=     0000024784) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576172551


Setting next time for grid output file to Time_next= 0.590686

Setting next time for line of sight file to Time_next= 0.590177

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.72233 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3864.59 MB)
Allocated 2.71564 MByte for top-level domain structure
use of 52.7777 MB of temporary storage for domain decomposition... (presently allocated=3920.09 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3920.09 Mbyte (on task=1), Smallest = 3920.09 Mbyte, Average = 3920.09 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     24.4214      57.3429  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     24.4214      81.7643  allocate_memory()/allocate.c/61
   1 2969 0                 P   1953.7097    2035.4740  allocate_memory()/allocate.c/67
   1 2970 0              SphP   1460.0588    3495.5329  allocate_memory()/allocate.c/85
   1 2971 0              MetP    331.9819    3827.5148  allocate_memory()/allocate.c/105
   1 2972 0               BHP     37.0808    3864.5956  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      2.5399    3867.3113  domain_allocate()/domain.c/570
   1 2976 0        domain_key     48.8427    3916.1540  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.1954    3916.3659  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.1954    3916.5612  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.1954    3916.7566  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.1954    3916.9520  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.1954    3917.1528  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.1954    3917.3537  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      2.7352    3920.0889  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 3.47755 MByte for top-level domain structure
use of 53.9499 MB of temporary storage for domain decomposition... (presently allocated=3922.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 4.46809 MByte for top-level domain structure
use of 55.4738 MB of temporary storage for domain decomposition... (presently allocated=3924.54 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 5.75582 MByte for top-level domain structure
use of 57.4549 MB of temporary storage for domain decomposition... (presently allocated=3927.81 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 7.42981 MByte for top-level domain structure
use of 60.0303 MB of temporary storage for domain decomposition... (presently allocated=3932.05 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 9.60597 MByte for top-level domain structure
use of 63.3782 MB of temporary storage for domain decomposition... (presently allocated=3937.58 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 12.435 MByte for top-level domain structure
use of 67.7306 MB of temporary storage for domain decomposition... (presently allocated=3944.76 MB)
Before=212889
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3954.1 MB)
Before=212889
After=261041
NTopleaves= 228411  NTopnodes=261041 (space for 321369)
gravity work-load balance=1.0198   memory-balance=1.0198   SPH work-load balance=1.02028
iter=0 exchange of 0574490042 particles (ret=0)
domain decomposition done. (took 15.2944 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.7616 MByte in top-level domain structure

Allocated 845.832 MByte for BH-tree, and 0.871319 Mbyte for top-leaves.  (presently allocted 4724.42 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 5160.58 Mbyte (on task=3), Smallest = 5117.27 Mbyte, Average = 5140.9 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   3 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
   3 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
   3 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
   3 2967 0     NextInTimeBin     24.4214      57.3429  allocate_memory()/allocate.c/58
   3 2968 0     PrevInTimeBin     24.4214      81.7643  allocate_memory()/allocate.c/61
   3 2969 0                 P   1953.7097    2035.4740  allocate_memory()/allocate.c/67
   3 2970 0              SphP   1460.0588    3495.5329  allocate_memory()/allocate.c/85
   3 2971 0              MetP    331.9819    3827.5148  allocate_memory()/allocate.c/105
   3 2972 0               BHP     37.0808    3864.5956  allocate_memory()/allocate.c/126
   3 2975 0          TopNodes     12.9453    3877.7167  domain_allocate()/domain.c/570
   3 2976 0   DomainNodeIndex      0.8713    3878.5880  force_treeallocate()/forcetree.c/4800
   3 2977 0        Nodes_base    434.1781    4312.7662  force_treeallocate()/forcetree.c/4803
   3 2978 0     Extnodes_base    361.8151    4674.5813  force_treeallocate()/forcetree.c/4811
   3 2979 0          Nextnode     25.4172    4699.9984  force_treeallocate()/forcetree.c/4820
   3 2980 0            Father     24.4214    4724.4198  force_treeallocate()/forcetree.c/4827
   3 2981 0           Ngblist      6.0060    4730.4258  density()/density.c/690
   3 2982 0              Left     12.0120    4742.4377  density()/density.c/692
   3 2983 0             Right     12.0120    4754.4497  density()/density.c/693
   3 2984 0    DataIndexTable      7.0175    4761.4672  density()/density.c/738
   3 2985 0      DataNodeList     18.7134    4780.1807  density()/density.c/740
   3 2986 0       DensDataGet    105.5673    4885.7480  density()/density.c/893
   3 2987 0    DensDataResult    139.1569    5024.9050  density()/density.c/931
   3 2988 0       DensDataOut    135.6722    5160.5772  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0004388719 particles.
ngb iteration 2: need to repeat for 0000003369 particles.
ngb iteration 3: need to repeat for 0000001037 particles.
ngb iteration 4: need to repeat for 0000000914 particles.
ngb iteration 5: need to repeat for 0000000525 particles.
ngb iteration 6: need to repeat for 0000000403 particles.
ngb iteration 7: need to repeat for 0000000151 particles.
ngb iteration 8: need to repeat for 0000000005 particles.
ngb iteration 9: need to repeat for 0000000003 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.695.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.778.hdf5

Begin to compute FoF group catalogues...  (presently allocated=4724.42 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3864.59 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3954.1 MB)
Before=243897
After=271969
NTopleaves= 237973  NTopnodes=271969 (space for 321369)
gravity work-load balance=1.0184   memory-balance=1.01839   SPH work-load balance=1.01853
iter=0 exchange of 0574381366 particles (ret=0)
domain decomposition done. (took 8.02285 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.26135 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=3878.26 MB)
Tree construction.

Start linking particles (presently allocated=4800.41 MB)
links on local processor done (took 4.62489 sec).
Marked=0051952890 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=4909.67 MB) 
have done 0001061880 cross links (processed 0051952890, took 2.19721 sec)
have done 0000430953 cross links (processed 0036025945, took 1.9875 sec)
have done 0000292924 cross links (processed 0029504359, took 1.98721 sec)
have done 0000187826 cross links (processed 0018546207, took 1.62783 sec)
have done 0000112682 cross links (processed 0010503337, took 1.57688 sec)
have done 0000067668 cross links (processed 0005976405, took 1.14222 sec)
have done 0000041213 cross links (processed 0004733310, took 1.19888 sec)
have done 0000029341 cross links (processed 0002384743, took 0.756061 sec)
have done 0000021594 cross links (processed 0001488770, took 0.366783 sec)
have done 0000014301 cross links (processed 0001190795, took 0.749671 sec)
have done 0000007226 cross links (processed 0000390995, took 0.613217 sec)
have done 0000003248 cross links (processed 0000106304, took 0.157273 sec)
have done 0000001456 cross links (processed 0000025045, took 0.041306 sec)
have done 0000000563 cross links (processed 0000007744, took 0.0348589 sec)
have done 0000000223 cross links (processed 0000003012, took 0.034806 sec)
have done 0000000112 cross links (processed 0000001581, took 0.0348601 sec)
have done 0000000048 cross links (processed 0000000623, took 0.0334971 sec)
have done 0000000023 cross links (processed 0000000270, took 0.033447 sec)
have done 0000000005 cross links (processed 0000000077, took 0.033227 sec)
have done 0000000000 cross links (processed 0000000013, took 0.033376 sec)
Local groups found.

group finding took = 19.3695 sec
Start finding nearest dm-particle (presently allocated=4800.41 MB)
still finding nearest... (presently allocated=4901.48 MB)
fof-nearest iteration 1: need to repeat for 259357910 particles.
still finding nearest... (presently allocated=4899.24 MB)
fof-nearest iteration 2: need to repeat for 244148554 particles.
still finding nearest... (presently allocated=4901.64 MB)
fof-nearest iteration 3: need to repeat for 226692909 particles.
still finding nearest... (presently allocated=4905.85 MB)
fof-nearest iteration 4: need to repeat for 192552369 particles.
still finding nearest... (presently allocated=4910.89 MB)
fof-nearest iteration 5: need to repeat for 135253446 particles.
still finding nearest... (presently allocated=4913.14 MB)
fof-nearest iteration 6: need to repeat for 64557894 particles.
still finding nearest... (presently allocated=4908.07 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 6.63434 sec
compiling local group data and catalogue took = 1.01053 sec

Total number of groups with at least 32 particles: 187787
Largest group has 20414768 particles.
Total number of particles in groups: 0172056917

group properties are now allocated.. (presently allocated=3977.1 MB)
computation of group properties took = 0.0988691 sec
start global sorting of group catalogues number 14
LargestGroup = 8770.711668; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0464389 sec
Group catalogues globally sorted. took = 0.798947 sec
starting saving of group catalogue number 14
data//groups_014_z000p703
Group catalogues number 14 saved. took = 3.6473 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (273390075).
tree build for species 0 took 0.566266 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0201713008 particles. (took 10.9551 sec)
ngb iteration 2: need to repeat for 0163726080 particles. (took 7.52684 sec)
ngb iteration 3: need to repeat for 0149193016 particles. (took 5.49208 sec)
ngb iteration 4: need to repeat for 0138332887 particles. (took 4.75035 sec)
ngb iteration 5: need to repeat for 0124230941 particles. (took 4.3324 sec)
ngb iteration 6: need to repeat for 0102747091 particles. (took 3.90019 sec)
ngb iteration 7: need to repeat for 0075590712 particles. (took 3.27129 sec)
ngb iteration 8: need to repeat for 0049614023 particles. (took 2.52346 sec)
ngb iteration 9: need to repeat for 0029788074 particles. (took 1.83668 sec)
ngb iteration 10: need to repeat for 0016822990 particles. (took 1.23088 sec)
ngb iteration 11: need to repeat for 0009146977 particles. (took 0.735252 sec)
ngb iteration 12: need to repeat for 0004869786 particles. (took 0.420547 sec)
ngb iteration 13: need to repeat for 0002571216 particles. (took 0.261715 sec)
ngb iteration 14: need to repeat for 0001240746 particles. (took 0.177213 sec)
ngb iteration 15: need to repeat for 0000417659 particles. (took 0.121589 sec)
ngb iteration 16: need to repeat for 0000153464 particles. (took 0.0800061 sec)
ngb iteration 17: need to repeat for 0000071478 particles. (took 0.064074 sec)
ngb iteration 18: need to repeat for 0000040703 particles. (took 0.056241 sec)
ngb iteration 19: need to repeat for 0000025902 particles. (took 0.0522602 sec)
ngb iteration 20: need to repeat for 0000017497 particles. (took 0.0502071 sec)
ngb iteration 21: need to repeat for 0000012162 particles. (took 0.0497651 sec)
ngb iteration 22: need to repeat for 0000008565 particles. (took 0.0490808 sec)
ngb iteration 23: need to repeat for 0000005947 particles. (took 0.048712 sec)
ngb iteration 24: need to repeat for 0000003954 particles. (took 0.0488341 sec)
ngb iteration 25: need to repeat for 0000002610 particles. (took 0.0484979 sec)
ngb iteration 26: need to repeat for 0000001630 particles. (took 0.0482781 sec)
ngb iteration 27: need to repeat for 0000000971 particles. (took 0.0482779 sec)
ngb iteration 28: need to repeat for 0000000535 particles. (took 0.04901 sec)
ngb iteration 29: need to repeat for 0000000309 particles. (took 0.0483289 sec)
ngb iteration 30: need to repeat for 0000000154 particles. (took 0.0481262 sec)
ngb iteration 31: need to repeat for 0000000068 particles. (took 0.0482829 sec)
ngb iteration 32: need to repeat for 0000000042 particles. (took 0.047971 sec)
ngb iteration 33: need to repeat for 0000000014 particles. (took 0.048033 sec)
ngb iteration 34: need to repeat for 0000000009 particles. (took 0.0479581 sec)
ngb iteration 35: need to repeat for 0000000004 particles. (took 0.0479019 sec)
final operations ... 
density and smoothing length for species 0 took 48.8743 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.610285 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0203659641 particles. (took 16.1489 sec)
ngb iteration 2: need to repeat for 0162089148 particles. (took 8.04711 sec)
ngb iteration 3: need to repeat for 0142186290 particles. (took 5.9536 sec)
ngb iteration 4: need to repeat for 0129577710 particles. (took 4.84362 sec)
ngb iteration 5: need to repeat for 0116309564 particles. (took 4.23502 sec)
ngb iteration 6: need to repeat for 0097919116 particles. (took 3.75707 sec)
ngb iteration 7: need to repeat for 0074978354 particles. (took 3.21061 sec)
ngb iteration 8: need to repeat for 0052184328 particles. (took 2.6016 sec)
ngb iteration 9: need to repeat for 0033600615 particles. (took 1.94041 sec)
ngb iteration 10: need to repeat for 0020470116 particles. (took 1.33794 sec)
ngb iteration 11: need to repeat for 0012041654 particles. (took 0.868003 sec)
ngb iteration 12: need to repeat for 0006939792 particles. (took 0.541901 sec)
ngb iteration 13: need to repeat for 0003961484 particles. (took 0.342463 sec)
ngb iteration 14: need to repeat for 0002158502 particles. (took 0.227131 sec)
ngb iteration 15: need to repeat for 0001030925 particles. (took 0.154732 sec)
ngb iteration 16: need to repeat for 0000508882 particles. (took 0.104307 sec)
ngb iteration 17: need to repeat for 0000260662 particles. (took 0.0790761 sec)
ngb iteration 18: need to repeat for 0000135776 particles. (took 0.0670078 sec)
ngb iteration 19: need to repeat for 0000071156 particles. (took 0.059438 sec)
ngb iteration 20: need to repeat for 0000036442 particles. (took 0.054359 sec)
ngb iteration 21: need to repeat for 0000017998 particles. (took 0.0514128 sec)
ngb iteration 22: need to repeat for 0000008581 particles. (took 0.049547 sec)
ngb iteration 23: need to repeat for 0000003928 particles. (took 0.048645 sec)
ngb iteration 24: need to repeat for 0000001717 particles. (took 0.048243 sec)
ngb iteration 25: need to repeat for 0000000712 particles. (took 0.047622 sec)
ngb iteration 26: need to repeat for 0000000277 particles. (took 0.047606 sec)
ngb iteration 27: need to repeat for 0000000107 particles. (took 0.0475299 sec)
ngb iteration 28: need to repeat for 0000000027 particles. (took 0.047564 sec)
ngb iteration 29: need to repeat for 0000000005 particles. (took 0.0474129 sec)
ngb iteration 30: need to repeat for 0000000001 particles. (took 0.0473471 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.047652 sec)
final operations ... 
density and smoothing length for species 1 took 55.4188 sec
Tree construction for species 4 (13240665).
tree build for species 4 took 0.200938 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0009137640 particles. (took 5.05111 sec)
ngb iteration 2: need to repeat for 0007523662 particles. (took 1.99384 sec)
ngb iteration 3: need to repeat for 0006483534 particles. (took 1.5931 sec)
ngb iteration 4: need to repeat for 0005813609 particles. (took 1.3133 sec)
ngb iteration 5: need to repeat for 0005257123 particles. (took 1.07713 sec)
ngb iteration 6: need to repeat for 0004647150 particles. (took 0.923206 sec)
ngb iteration 7: need to repeat for 0003921771 particles. (took 0.771146 sec)
ngb iteration 8: need to repeat for 0003144966 particles. (took 0.596911 sec)
ngb iteration 9: need to repeat for 0002417590 particles. (took 0.484452 sec)
ngb iteration 10: need to repeat for 0001802862 particles. (took 0.387192 sec)
ngb iteration 11: need to repeat for 0001322107 particles. (took 0.311015 sec)
ngb iteration 12: need to repeat for 0000956552 particles. (took 0.257423 sec)
ngb iteration 13: need to repeat for 0000687829 particles. (took 0.219169 sec)
ngb iteration 14: need to repeat for 0000495368 particles. (took 0.174089 sec)
ngb iteration 15: need to repeat for 0000354015 particles. (took 0.140948 sec)
ngb iteration 16: need to repeat for 0000254897 particles. (took 0.109002 sec)
ngb iteration 17: need to repeat for 0000185173 particles. (took 0.0953879 sec)
ngb iteration 18: need to repeat for 0000134990 particles. (took 0.0870919 sec)
ngb iteration 19: need to repeat for 0000099087 particles. (took 0.0821321 sec)
ngb iteration 20: need to repeat for 0000074384 particles. (took 0.0806241 sec)
ngb iteration 21: need to repeat for 0000055931 particles. (took 0.077558 sec)
ngb iteration 22: need to repeat for 0000042208 particles. (took 0.0705619 sec)
ngb iteration 23: need to repeat for 0000031941 particles. (took 0.067482 sec)
ngb iteration 24: need to repeat for 0000024129 particles. (took 0.0656061 sec)
ngb iteration 25: need to repeat for 0000018137 particles. (took 0.0646479 sec)
ngb iteration 26: need to repeat for 0000013557 particles. (took 0.0641971 sec)
ngb iteration 27: need to repeat for 0000009896 particles. (took 0.0633411 sec)
ngb iteration 28: need to repeat for 0000006983 particles. (took 0.0632861 sec)
ngb iteration 29: need to repeat for 0000004767 particles. (took 0.0634739 sec)
ngb iteration 30: need to repeat for 0000003146 particles. (took 0.0659239 sec)
ngb iteration 31: need to repeat for 0000002018 particles. (took 0.0634608 sec)
ngb iteration 32: need to repeat for 0000001216 particles. (took 0.0626111 sec)
ngb iteration 33: need to repeat for 0000000725 particles. (took 0.063267 sec)
ngb iteration 34: need to repeat for 0000000391 particles. (took 0.0625691 sec)
ngb iteration 35: need to repeat for 0000000204 particles. (took 0.0626171 sec)
ngb iteration 36: need to repeat for 0000000103 particles. (took 0.0624938 sec)
ngb iteration 37: need to repeat for 0000000038 particles. (took 0.062325 sec)
ngb iteration 38: need to repeat for 0000000019 particles. (took 0.0627551 sec)
ngb iteration 39: need to repeat for 0000000005 particles. (took 0.062346 sec)
ngb iteration 40: need to repeat for 0000000003 particles. (took 0.0678341 sec)
final operations ... 
density and smoothing length for species 4 took 17.3163 sec
Tree construction.
tree build took 1.11111 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000017067 particles. (took 0.0777481 sec)
ngb iteration 2: need to repeat for 0000014968 particles. (took 0.07496 sec)
ngb iteration 3: need to repeat for 0000010916 particles. (took 0.0750608 sec)
ngb iteration 4: need to repeat for 0000008065 particles. (took 0.0754361 sec)
ngb iteration 5: need to repeat for 0000006916 particles. (took 0.0744531 sec)
ngb iteration 6: need to repeat for 0000006012 particles. (took 0.0741351 sec)
ngb iteration 7: need to repeat for 0000004924 particles. (took 0.0735371 sec)
ngb iteration 8: need to repeat for 0000003725 particles. (took 0.0725522 sec)
ngb iteration 9: need to repeat for 0000002641 particles. (took 0.072093 sec)
ngb iteration 10: need to repeat for 0000001703 particles. (took 0.0704169 sec)
ngb iteration 11: need to repeat for 0000001080 particles. (took 0.068435 sec)
ngb iteration 12: need to repeat for 0000000690 particles. (took 0.0674911 sec)
ngb iteration 13: need to repeat for 0000000420 particles. (took 0.0662301 sec)
ngb iteration 14: need to repeat for 0000000261 particles. (took 0.0656071 sec)
ngb iteration 15: need to repeat for 0000000162 particles. (took 0.0649781 sec)
ngb iteration 16: need to repeat for 0000000110 particles. (took 0.0654998 sec)
ngb iteration 17: need to repeat for 0000000073 particles. (took 0.0646291 sec)
ngb iteration 18: need to repeat for 0000000054 particles. (took 0.0636859 sec)
ngb iteration 19: need to repeat for 0000000037 particles. (took 0.0633931 sec)
ngb iteration 20: need to repeat for 0000000021 particles. (took 0.0654731 sec)
ngb iteration 21: need to repeat for 0000000017 particles. (took 0.0631771 sec)
ngb iteration 22: need to repeat for 0000000014 particles. (took 0.063071 sec)
ngb iteration 23: need to repeat for 0000000009 particles. (took 0.0630481 sec)
ngb iteration 24: need to repeat for 0000000006 particles. (took 0.0628929 sec)
ngb iteration 25: need to repeat for 0000000006 particles. (took 0.0631161 sec)
ngb iteration 26: need to repeat for 0000000004 particles. (took 0.0629909 sec)
ngb iteration 27: need to repeat for 0000000004 particles. (took 0.0628371 sec)
ngb iteration 28: need to repeat for 0000000004 particles. (took 0.063513 sec)
ngb iteration 29: need to repeat for 0000000003 particles. (took 0.0626678 sec)
ngb iteration 30: need to repeat for 0000000001 particles. (took 0.0632231 sec)
final operations ... 
density and smoothing length for species 5 took 2.2939 sec
Tree construction for species 0 (273390075).
tree build for species 0 took 0.561289 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 23.4548 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.60591 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 11.1935 sec
Tree construction for species 4 (13240665).
tree build for species 4 took 0.200726 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 4.74108 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.155501 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.04927 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.08624 sec
saving densities took 3.08393 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 4481341 particles.)
the other 187786 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 15708 - 96096357 

subfind_exchange()() took 2.9434 sec

collectively doing halo 1, num=14
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=6218.58 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=6308.08 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 6308.09 Mbyte (on task=0), Smallest = 4086.93 Mbyte, Average = 4118.15 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7097    2035.4730  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1460.0588    3495.5318  allocate_memory()/allocate.c/85
   0 2971 0              MetP    331.9819    3827.5138  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.0808    3864.5946  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.4872    3878.2576  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.7695    3915.0270  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     61.2824    3976.3095  fof_fof()/fof.c/337
   0 2978 0             Group      0.7865    3977.0960  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2241.4853    6218.5812  subfind()/subfind.c/376
   0 2982 0          TopNodes     15.9370    6234.6940  domain_allocate()/domain.c/570
   0 2983 0        domain_key     48.8427    6283.5368  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.2259    6284.7792  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.2259    6286.0051  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.2259    6287.2310  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.2259    6288.4570  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.2259    6289.6884  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.2259    6290.9198  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     17.1630    6308.0828  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=188969
After=234097
NTopleaves= 204835  NTopnodes=234097 (space for 321369)
gravity work-load balance=1.02722   memory-balance=1.02722   SPH work-load balance=1.02127
iter=0 exchange of 0020362315 particles (ret=0)
domain decomposition done. (took 2.14311 sec)
Freed 3.995 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 7072.36 Mbyte (on task=0), Smallest = 4851.2 Mbyte, Average = 4882.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7097    2035.4730  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1460.0588    3495.5318  allocate_memory()/allocate.c/85
   0 2971 0              MetP    331.9819    3827.5138  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.0808    3864.5946  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.4872    3878.2576  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.7695    3915.0270  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     61.2824    3976.3095  fof_fof()/fof.c/337
   0 2978 0             Group      0.7865    3977.0960  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2241.4853    6218.5812  subfind()/subfind.c/376
   0 2982 0          TopNodes     11.6091    6230.3661  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.7814    6231.1475  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    431.7113    6662.8588  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    359.7594    7022.6183  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     25.3144    7047.9327  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     24.4214    7072.3540  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 2.59554 sec  (presently allocated=7072.35 MB)
force_treebuild() took 2.76736 sec (presently allocated=7072.35 MB)
Start find_linkngb (57066 particles on task=0)
find linkngb iteration 1: need to repeat for 0019787994 particles. (took 1.58164 sec)
find linkngb iteration 2: need to repeat for 0018754412 particles. (took 1.0973 sec)
find linkngb iteration 3: need to repeat for 0016774604 particles. (took 0.763995 sec)
find linkngb iteration 4: need to repeat for 0015739089 particles. (took 0.565719 sec)
find linkngb iteration 5: need to repeat for 0014022372 particles. (took 0.532336 sec)
find linkngb iteration 6: need to repeat for 0011470778 particles. (took 0.47033 sec)
find linkngb iteration 7: need to repeat for 0008323000 particles. (took 0.377627 sec)
find linkngb iteration 8: need to repeat for 0005389885 particles. (took 0.266971 sec)
find linkngb iteration 9: need to repeat for 0003208008 particles. (took 0.171695 sec)
find linkngb iteration 10: need to repeat for 0001809791 particles. (took 0.107505 sec)
find linkngb iteration 11: need to repeat for 0000991623 particles. (took 0.0668519 sec)
find linkngb iteration 12: need to repeat for 0000516307 particles. (took 0.0434391 sec)
find linkngb iteration 13: need to repeat for 0000175544 particles. (took 0.0287201 sec)
find linkngb iteration 14: need to repeat for 0000055788 particles. (took 0.016541 sec)
find linkngb iteration 15: need to repeat for 0000025318 particles. (took 0.00984502 sec)
find linkngb iteration 16: need to repeat for 0000012841 particles. (took 0.00668001 sec)
find linkngb iteration 17: need to repeat for 0000006658 particles. (took 0.0044322 sec)
find linkngb iteration 18: need to repeat for 0000003545 particles. (took 0.00275207 sec)
find linkngb iteration 19: need to repeat for 0000002016 particles. (took 0.00176907 sec)
find linkngb iteration 20: need to repeat for 0000001235 particles. (took 0.00114202 sec)
find linkngb iteration 21: need to repeat for 0000000807 particles. (took 0.000887156 sec)
find linkngb iteration 22: need to repeat for 0000000516 particles. (took 0.000734091 sec)
find linkngb iteration 23: need to repeat for 0000000326 particles. (took 0.000658989 sec)
find linkngb iteration 24: need to repeat for 0000000199 particles. (took 0.00060606 sec)
find linkngb iteration 25: need to repeat for 0000000120 particles. (took 0.000544071 sec)
find linkngb iteration 26: need to repeat for 0000000067 particles. (took 0.000535965 sec)
find linkngb iteration 27: need to repeat for 0000000042 particles. (took 0.00051403 sec)
find linkngb iteration 28: need to repeat for 0000000024 particles. (took 0.000535965 sec)
find linkngb iteration 29: need to repeat for 0000000015 particles. (took 0.000543118 sec)
find linkngb iteration 30: need to repeat for 0000000007 particles. (took 0.000515938 sec)
find linkngb iteration 31: need to repeat for 0000000004 particles. (took 0.000512123 sec)
find linkngb iteration 32: need to repeat for 0000000002 particles. (took 0.000484943 sec)
find linkngb iteration 33: need to repeat for 0000000002 particles. (took 0.000491142 sec)
find linkngb iteration 34: need to repeat for 0000000002 particles. (took 0.000515938 sec)
find linkngb iteration 35: need to repeat for 0000000001 particles. (took 0.000487089 sec)
find_linkngb() took 6.12773 sec
Start finding nearest two (57066 particles on task=0)
find_nearesttwo() took 0.765853 sec (presently allocated=7076.71 MB)
parallel sort of densities done. took 0.101646 sec
building distributed linked list. (presently allocated 7076.14 MB)
identification of primary candidates took 562.801 sec
adding background as candidate took 0.336262 sec
establishing of rank order took 190.174 sec  (p=20414768, grouplen=20414768) presently allocated 7076.14 MB

total number of subhalo candidates=73141

number of subhalo candidates that can be done independently=63743.
(Largest size is 3598, finding them took 0.0215712 sec)
particles are marked (took 117.249)
independent subhalos are assembled on individual CPUs for unbinding (0.188091 sec, (presently allocated=7076.14 MB)
unbinding of independent ones took 0.0919371 sec
particles have returned to their original processor (0.251724 sec, presently allocated 7076.14 MB)

number of subhalo candidates that can be done independently=8571.
(Largest size is 20648, finding them took 1.48494 sec)
particles are marked (took 80.4061)
independent subhalos are assembled on individual CPUs for unbinding (0.177133 sec, (presently allocated=7076.14 MB)
unbinding of independent ones took 0.725619 sec
particles have returned to their original processor (0.243628 sec, presently allocated 7076.14 MB)

number of subhalo candidates that can be done independently=762.
(Largest size is 69676, finding them took 1.46904 sec)
particles are marked (took 69.1396)
independent subhalos are assembled on individual CPUs for unbinding (0.168267 sec, (presently allocated=7076.14 MB)
unbinding of independent ones took 3.8707 sec
particles have returned to their original processor (0.235564 sec, presently allocated 7076.14 MB)

number of subhalo candidates that can be done independently=58.
(Largest size is 470117, finding them took 1.35102 sec)
particles are marked (took 69.3567)
independent subhalos are assembled on individual CPUs for unbinding (0.183998 sec, (presently allocated=7076.14 MB)
unbinding of independent ones took 10.2235 sec
particles have returned to their original processor (0.252156 sec, presently allocated 7076.14 MB)

number of subhalo candidates that can be done independently=3.
(Largest size is 568300, finding them took 0.826024 sec)
particles are marked (took 51.2898)
independent subhalos are assembled on individual CPUs for unbinding (0.151656 sec, (presently allocated=7076.14 MB)
unbinding of independent ones took 1.96071 sec
particles have returned to their original processor (0.220359 sec, presently allocated 7076.14 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 568300, finding them took 0.763854 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=470117 ... maximum alloacted 7076.36 MB
took 15.9139 sec
collective unbinding of nr=1 (4) of length=291863 ... maximum alloacted 7076.36 MB
took 7.08929 sec
collective unbinding of nr=2 (4) of length=568300 ... maximum alloacted 7076.36 MB
took 17.0254 sec
collective unbinding of nr=3 (4) of length=20414768 ... maximum alloacted 7076.36 MB
took 441.195 sec

the collective unbinding of remaining halos took 530.001 sec

found 4419 bound substructures in FoF group of length 20414768
determination of parent subhalo took 0.061625 sec (presently allocated 7076.36 MB)
determining substructure properties took 422.419 sec (presently allocated 7076.36 MB)
processing of collective halos took 2142.03 sec
sort of local particles()() took 0.757884 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 687.886 sec

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unsorting of local particles()() took 0.662003 sec
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subfind_exchange() (for return to original CPU)  took 5.51595 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=6218.58 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=6308.08 MB)
Before=248769
After=274857
NTopleaves= 240500  NTopnodes=274857 (space for 321369)
gravity work-load balance=1.0226   memory-balance=1.0226   SPH work-load balance=1.02085
iter=0 exchange of 0574445377 particles (ret=0)
domain decomposition done. (took 8.11005 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.12915 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000154214 particles. (took 0.033596 sec)
SO iteration 2: need to repeat for 0000154214 particles. (took 0.022341 sec)
SO iteration 3: need to repeat for 0000154214 particles. (took 0.0226991 sec)
SO iteration 4: need to repeat for 0000154214 particles. (took 0.0225132 sec)
SO iteration 5: need to repeat for 0000154214 particles. (took 0.0225792 sec)
SO iteration 6: need to repeat for 0000154214 particles. (took 0.022758 sec)
SO iteration 7: need to repeat for 0000154214 particles. (took 0.0227499 sec)
SO iteration 8: need to repeat for 0000154214 particles. (took 0.02263 sec)
SO iteration 9: need to repeat for 0000154214 particles. (took 0.0226111 sec)
SO iteration 10: need to repeat for 0000154214 particles. (took 0.0225761 sec)
SO iteration 11: need to repeat for 0000154214 particles. (took 0.0226362 sec)
SO iteration 12: need to repeat for 0000154214 particles. (took 0.0225151 sec)
SO iteration 13: need to repeat for 0000154214 particles. (took 0.0226161 sec)
SO iteration 14: need to repeat for 0000154214 particles. (took 0.0227661 sec)
SO iteration 15: need to repeat for 0000152027 particles. (took 0.0226531 sec)
SO iteration 16: need to repeat for 0000000924 particles. (took 0.0221312 sec)
SO iteration 17: need to repeat for 0000000041 particles. (took 0.00148606 sec)
SO iteration 1: need to repeat for 0000154214 particles. (took 0.0229571 sec)
SO iteration 2: need to repeat for 0000154214 particles. (took 0.0197852 sec)
SO iteration 3: need to repeat for 0000154214 particles. (took 0.020891 sec)
SO iteration 4: need to repeat for 0000154214 particles. (took 0.0202479 sec)
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SO iteration 6: need to repeat for 0000154214 particles. (took 0.0204201 sec)
SO iteration 7: need to repeat for 0000154214 particles. (took 0.020406 sec)
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SO iteration 11: need to repeat for 0000154214 particles. (took 0.020462 sec)
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SO iteration 14: need to repeat for 0000154214 particles. (took 0.0203681 sec)
SO iteration 15: need to repeat for 0000153381 particles. (took 0.0204608 sec)
SO iteration 16: need to repeat for 0000033415 particles. (took 0.0206039 sec)
SO iteration 17: need to repeat for 0000000429 particles. (took 0.00851297 sec)
SO iteration 18: need to repeat for 0000000035 particles. (took 0.00113416 sec)
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SO iteration 2: need to repeat for 0000154214 particles. (took 0.019825 sec)
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SO iteration 13: need to repeat for 0000154214 particles. (took 0.017581 sec)
SO iteration 14: need to repeat for 0000154214 particles. (took 0.0175619 sec)
SO iteration 15: need to repeat for 0000154197 particles. (took 0.0177422 sec)
SO iteration 16: need to repeat for 0000152828 particles. (took 0.0177381 sec)
SO iteration 17: need to repeat for 0000052530 particles. (took 0.017554 sec)
SO iteration 18: need to repeat for 0000000945 particles. (took 0.0103471 sec)
SO iteration 19: need to repeat for 0000000068 particles. (took 0.00124216 sec)
SO iteration 20: need to repeat for 0000000002 particles. (took 0.000827074 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.00078702 sec)
SO iteration 1: need to repeat for 0000154214 particles. (took 0.022887 sec)
SO iteration 2: need to repeat for 0000154214 particles. (took 0.020268 sec)
SO iteration 3: need to repeat for 0000154214 particles. (took 0.0214241 sec)
SO iteration 4: need to repeat for 0000154214 particles. (took 0.0219419 sec)
SO iteration 5: need to repeat for 0000154214 particles. (took 0.02214 sec)
SO iteration 6: need to repeat for 0000154214 particles. (took 0.022258 sec)
SO iteration 7: need to repeat for 0000154214 particles. (took 0.02231 sec)
SO iteration 8: need to repeat for 0000154214 particles. (took 0.0221529 sec)
SO iteration 9: need to repeat for 0000154214 particles. (took 0.0223172 sec)
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SO iteration 13: need to repeat for 0000154214 particles. (took 0.022584 sec)
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SO iteration 15: need to repeat for 0000152076 particles. (took 0.0228331 sec)
SO iteration 16: need to repeat for 0000001257 particles. (took 0.022001 sec)
SO iteration 17: need to repeat for 0000000052 particles. (took 0.00154686 sec)
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SO iteration 2: need to repeat for 0000154214 particles. (took 0.0200109 sec)
SO iteration 3: need to repeat for 0000154214 particles. (took 0.021332 sec)
SO iteration 4: need to repeat for 0000154214 particles. (took 0.021724 sec)
SO iteration 5: need to repeat for 0000154214 particles. (took 0.021946 sec)
SO iteration 6: need to repeat for 0000154214 particles. (took 0.0217292 sec)
SO iteration 7: need to repeat for 0000154214 particles. (took 0.021914 sec)
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SO iteration 11: need to repeat for 0000154214 particles. (took 0.021477 sec)
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SO iteration 13: need to repeat for 0000154214 particles. (took 0.021656 sec)
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SO iteration 15: need to repeat for 0000152323 particles. (took 0.021626 sec)
SO iteration 16: need to repeat for 0000004179 particles. (took 0.021343 sec)
SO iteration 17: need to repeat for 0000000120 particles. (took 0.00248098 sec)
SO iteration 18: need to repeat for 0000000004 particles. (took 0.000917912 sec)
SO iteration 1: need to repeat for 0000154214 particles. (took 0.0229659 sec)
SO iteration 2: need to repeat for 0000154214 particles. (took 0.019964 sec)
SO iteration 3: need to repeat for 0000154214 particles. (took 0.0208428 sec)
SO iteration 4: need to repeat for 0000154214 particles. (took 0.020093 sec)
SO iteration 5: need to repeat for 0000154214 particles. (took 0.020169 sec)
SO iteration 6: need to repeat for 0000154214 particles. (took 0.0199442 sec)
SO iteration 7: need to repeat for 0000154214 particles. (took 0.020247 sec)
SO iteration 8: need to repeat for 0000154214 particles. (took 0.0205362 sec)
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SO iteration 13: need to repeat for 0000154214 particles. (took 0.0197539 sec)
SO iteration 14: need to repeat for 0000154214 particles. (took 0.019788 sec)
SO iteration 15: need to repeat for 0000153851 particles. (took 0.0197449 sec)
SO iteration 16: need to repeat for 0000143202 particles. (took 0.0198369 sec)
SO iteration 17: need to repeat for 0000001213 particles. (took 0.019259 sec)
SO iteration 18: need to repeat for 0000000082 particles. (took 0.00144887 sec)
SO iteration 19: need to repeat for 0000000002 particles. (took 0.000884056 sec)
SO iteration 1: need to repeat for 0000154214 particles. (took 0.0230331 sec)
SO iteration 2: need to repeat for 0000154214 particles. (took 0.019731 sec)
SO iteration 3: need to repeat for 0000154214 particles. (took 0.0173688 sec)
SO iteration 4: need to repeat for 0000154214 particles. (took 0.0172181 sec)
SO iteration 5: need to repeat for 0000154214 particles. (took 0.0173891 sec)
SO iteration 6: need to repeat for 0000154214 particles. (took 0.019398 sec)
SO iteration 7: need to repeat for 0000154214 particles. (took 0.0172901 sec)
SO iteration 8: need to repeat for 0000154214 particles. (took 0.0172782 sec)
SO iteration 9: need to repeat for 0000154214 particles. (took 0.0172479 sec)
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SO iteration 11: need to repeat for 0000154214 particles. (took 0.018172 sec)
SO iteration 12: need to repeat for 0000154214 particles. (took 0.018455 sec)
SO iteration 13: need to repeat for 0000154214 particles. (took 0.0178208 sec)
SO iteration 14: need to repeat for 0000154214 particles. (took 0.0173709 sec)
SO iteration 15: need to repeat for 0000154205 particles. (took 0.0172491 sec)
SO iteration 16: need to repeat for 0000153523 particles. (took 0.0173628 sec)
SO iteration 17: need to repeat for 0000131639 particles. (took 0.0173008 sec)
SO iteration 18: need to repeat for 0000003363 particles. (took 0.016525 sec)
SO iteration 19: need to repeat for 0000000130 particles. (took 0.00186205 sec)
SO iteration 20: need to repeat for 0000000007 particles. (took 0.000925064 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000804186 sec)
determining spherical overdensity masses took 2.42177 sec
finding spherical overdensity particles took 0.351179 sec
determining contamination of halos took 0.277665 sec
Global sort of Groups took 0.0817959 sec
Global sort of SubGroups took 0.193 sec
Global sort of IDs took 0.421382 sec
Writing block 0 (GLEN), n=522, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2088d
Writing block 1 (GOFF), n=522, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2088d
Writing block 2 (MTOT), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 3 (GPOS), n=522, ptype=0, dtype=1, ndim=3, bpb=4 bytes=6264d
Writing block 4 (MMEA), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 5 (RMEA), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 6 (MCRI), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 7 (RCRI), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 8 (MTOP), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 9 (RTOP), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 17 (NCON), n=522, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2088d
Writing block 18 (MCON), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 22 (NSUB), n=522, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2088d
Writing block 23 (FSUB), n=522, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2088d
Writing block 24 (SLEN), n=4919, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19676d
Writing block 25 (SOFF), n=4919, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19676d
Writing block 26 (SSUB), n=4919, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19676d
Writing block 27 (MSUB), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 28 (SPOS), n=4919, ptype=1, dtype=1, ndim=3, bpb=4 bytes=59028d
Writing block 29 (SVEL), n=4919, ptype=1, dtype=1, ndim=3, bpb=4 bytes=59028d
Writing block 30 (SCM ), n=4919, ptype=1, dtype=1, ndim=3, bpb=4 bytes=59028d
Writing block 33 (VMAX), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 34 (RMAX), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 35 (RHMS), n=4919, ptype=1, dtype=1, ndim=6, bpb=4 bytes=118056d
Writing block 36 (MTRH), n=4919, ptype=1, dtype=1, ndim=6, bpb=4 bytes=118056d
Writing block 37 (MBID), n=4919, ptype=1, dtype=2, ndim=1, bpb=8 bytes=39352d
Writing block 38 (GRNR), n=4919, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19676d
Writing block 39 (SUBN), n=4919, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19676d
Writing block 40 (SMST), n=4919, ptype=1, dtype=1, ndim=6, bpb=4 bytes=118056d
Writing block 53 (PID ), n=458261, ptype=2, dtype=2, ndim=1, bpb=8 bytes=3666088d
Writing block 54 (SLEN), n=4919, ptype=1, dtype=0, ndim=6, bpb=4 bytes=118056d
Writing block 55 (STEN), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 56 (SKEN), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 57 (SUEN), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 58 (SUIT), n=4919, ptype=1, dtype=1, ndim=9, bpb=4 bytes=177084d
Writing block 59 (BHMA), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 60 (BHMD), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 61 (SVD ), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 62 (SVDH), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 63 (HMPR), n=4919, ptype=1, dtype=1, ndim=6, bpb=4 bytes=118056d
Writing block 64 (SSFR), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 65 (SSA ), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 66 (SSBZ), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 67 (SSIM), n=4919, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 68 (SSPI), n=4919, ptype=4, dtype=1, ndim=3, bpb=4 bytes=59028d
Writing block 69 (GSPI), n=4919, ptype=1, dtype=1, ndim=3, bpb=4 bytes=59028d
Writing block 70 (FSPI), n=4919, ptype=5, dtype=1, ndim=3, bpb=4 bytes=59028d
Writing block 71 (SFM ), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 72 (SFMT), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 73 (SFME), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 74 (SFAE), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 75 (SFKE), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 76 (SFTE), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 77 (SMWP), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 78 (SMM ), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 79 (SMMS), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 80 (SFZ ), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 81 (SFZS), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 82 (SSIA), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 83 (SIAS), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 84 (SMET), n=4919, ptype=5, dtype=1, ndim=9, bpb=4 bytes=177084d
Writing block 85 (SMTS), n=4919, ptype=5, dtype=1, ndim=9, bpb=4 bytes=177084d
Writing block 86 (MF1 ), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 87 (MeF1), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 88 (MF  ), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 89 (MeF2), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 90 (MFA ), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 91 (MeFA), n=4919, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 92 (NSPI), n=4919, ptype=6, dtype=1, ndim=3, bpb=4 bytes=59028d
Writing block 93 (NFM ), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 94 (NFMT), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 95 (NFME), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 96 (NFAE), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 97 (NFKE), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 98 (NFTE), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 99 (SMWP), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 100 (SMM ), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 101 (SMMS), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 102 (SSIA), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 103 (SIAS), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 104 (SMET), n=4919, ptype=6, dtype=1, ndim=9, bpb=4 bytes=177084d
Writing block 105 (SMTS), n=4919, ptype=6, dtype=1, ndim=9, bpb=4 bytes=177084d
Writing block 106 (MF1 ), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 107 (MeF1), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 108 (MF2 ), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 109 (MeF2), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 110 (MFA ), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 111 (MeFA), n=4919, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 112 (SM  ), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 113 (SFKE), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 114 (SFAE), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 115 (SMWP), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 116 (SMM ), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 117 (SMMS), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 118 (SSIA), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 119 (SIAS), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 120 (SMET), n=4919, ptype=4, dtype=1, ndim=9, bpb=4 bytes=177084d
Writing block 121 (SMTS), n=4919, ptype=4, dtype=1, ndim=9, bpb=4 bytes=177084d
Writing block 122 (MF1 ), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 123 (MeF1), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 124 (MF2 ), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 125 (MeF2), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 126 (MFA ), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 127 (MeFA), n=4919, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19676d
Writing block 128 (MMe5), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 129 (RMe5), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 130 (MCr5), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 131 (RCr5), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 132 (MMe2), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 133 (RMe2), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 134 (MCr2), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 135 (RCr2), n=522, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2088d
Writing block 136 (MAPT), n=4919, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1180560d
Writing block 137 (SAPT), n=4919, ptype=8, dtype=1, ndim=10, bpb=4 bytes=196760d
Writing block 138 (VAPT), n=4919, ptype=9, dtype=1, ndim=10, bpb=4 bytes=196760d
Writing block 139 (BEGY), n=458261, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1833044d
Subgroup catalogues saved. took = 10.4603 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 4.469121e-01
 eagle_ph_key_ort: type= 1 timed by volker 4.810040e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.623197e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.888201e-02
 eagle_ph_key_ort: type= 4 timed by volker 8.932281e-02
 eagle_ph_key_ort: type= 5 timed by volker 4.179192e-02
 eagle_ph_key_ort: timing parallel sort = 1.221491e+00
 eagle_fetch_elements: we are using 1044280601 bytes of memory, FreeBytes= 1305350752

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 6255.12 Mbyte (on task=0), Smallest = 4034.35 Mbyte, Average = 4065.28 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7097    2035.4730  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1460.0588    3495.5318  allocate_memory()/allocate.c/85
   0 2971 0              MetP    331.9819    3827.5138  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.0808    3864.5946  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.4872    3878.2576  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.7695    3915.0270  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     61.2824    3976.3095  fof_fof()/fof.c/337
   0 2978 0             Group      0.7865    3977.0960  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2241.4853    6218.5812  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.5393    6255.1205  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 798393 number of bytes = 255485760

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 7238.75 Mbyte (on task=0), Smallest = 5010.56 Mbyte, Average = 5050.14 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7097    2035.4730  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1460.0588    3495.5318  allocate_memory()/allocate.c/85
   0 2971 0              MetP    331.9819    3827.5138  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.0808    3864.5946  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.4872    3878.2576  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.7695    3915.0270  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     61.2824    3976.3095  fof_fof()/fof.c/337
   0 2978 0             Group      0.7865    3977.0960  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2241.4853    6218.5812  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.5393    6255.1205  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      3.0456    6258.1661  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      3.0456    6261.2118  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      3.0456    6264.2574  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    243.6502    6507.9076  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    243.6502    6751.5578  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    487.1906    7238.7484  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 3.666971e+00
 eagle_fetch_elements: we are using 1044280601 bytes of memory, FreeBytes= 1305350752
 eagle_fetch_elements: max_bytes= 504, max_elements= 640741 number of bytes = 322933464
 eagle_ph_key_ort: timing parallel SphP exchange = 2.789891e+00
 eagle_fetch_elements: we are using 1044280601 bytes of memory, FreeBytes= 1305350752
 eagle_fetch_elements: max_bytes= 384, max_elements= 1295599 number of bytes = 497510016
 eagle_ph_key_ort: timing parallel MetP exchange = 2.540669e-01
 eagle_fetch_elements: we are using 1044280601 bytes of memory, FreeBytes= 1305350752
 eagle_fetch_elements: max_bytes= 256, max_elements= 1992850 number of bytes = 510169600
 eagle_ph_key_ort: timing parallel BHP exchange = 1.047087e-02
Sorting particle-data by peano-hilbert key took = 8.30507 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1044280601 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 798393 number of bytes= 255485760
 eagle_ph_restore: timing parallel P exchange = 3.800597e+00
 eagle_send_elements: we are using 1044280601 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 640741 number of bytes= 322933464
 eagle_ph_restore: timing parallel SphP exchange = 2.866761e+00
 eagle_send_elements: we are using 1044280601 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1295599 number of bytes= 497510016
 eagle_ph_restore: timing parallel MetP exchange = 2.832849e-01
 eagle_send_elements: we are using 1044280601 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 1992850 number of bytes= 510169600
 eagle_ph_restore: timing parallel BHP exchange = 1.006508e-02
Restoring original order after ph key sorting took = 6.97852 sec

finished writing particle file...

Finished with SUBFIND.  (total time=3290.93 sec)

Finished computing FoF groups.  (presently allocated=3878.26 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3864.59 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3954.1 MB)
Before=243385
After=271993
NTopleaves= 237994  NTopnodes=271993 (space for 321369)
gravity work-load balance=1.01975   memory-balance=1.01975   SPH work-load balance=1.01913
iter=0 exchange of 0574872157 particles (ret=0)
domain decomposition done. (took 7.95713 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.26025 MByte in top-level domain structure
Tree construction.
task 22: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
task 22: endrun called with an error level of 124


task 45: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
task 45: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 67: endrun called with an error level of 124


task 67: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
task 90: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
task 90: endrun called with an error level of 124


task 112: endrun called with an error level of 124


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


task 135: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
task 135: endrun called with an error level of 124


task 157: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
task 157: endrun called with an error level of 124


task 180: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
task 180: endrun called with an error level of 124


task 202: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
task 202: endrun called with an error level of 124


task 225: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
task 225: endrun called with an error level of 124


task 247: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
task 247: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 270: endrun called with an error level of 124


task 270: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
task 292: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
task 292: endrun called with an error level of 124


task 315: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
task 315: endrun called with an error level of 124


task 337: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
task 337: endrun called with an error level of 124


Finished FOF, total time doing fof/subfind = 3341.96 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
task 0: endrun called with an error level of 124


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


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62920.23 Mb (on task=200), Smallest =   62719.34 Mb (on task=0), Average =   62874.21 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=88), Smallest =   64531.71 Mb (on task=112), Average =   64532.01 Mb
Committed_AS:	 Largest =    1812.65 Mb (on task=0), Smallest =    1611.77 Mb (on task=200), Average =    1657.80 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=16), Smallest =   16266.08 Mb (on task=48), Average =   16310.73 Mb
AllocMem:	 Largest =    1812.65 Mb (on task=0), Smallest =    1611.77 Mb (on task=200), Average =    1657.80 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 360 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N8':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         7500
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 2033.08 MByte for particle storage.

Allocated 1463.08 MByte for storage of SPH data.

Allocated 330.262 MByte for storage of MET data.

Allocated 37.1575 MByte for storage of BH data.


reading file `data//snapshot_013_z000p795/snap_013_z000p795.0.hdf5' on task=0 (contains 36246049 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   17060791  (tot=     0273955432) masstab=0
Type 1 (halo):  17889000  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8246  (tot=     0000254233) masstab=0
Type 3 (bulge):   311627  (tot=     0002602064) masstab=0
Type 4 (stars):   974853  (tot=     0012676470) masstab=0
Type 5 (bndry):     1532  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.7.hdf5' on task=157 (contains 36134575 particles.)
distributing this file to tasks 157-179
Type 0 (gas):   17035943  (tot=     0273955432) masstab=0
Type 1 (halo):  17976812  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12204  (tot=     0000254233) masstab=0
Type 3 (bulge):   289764  (tot=     0002602064) masstab=0
Type 4 (stars):   818437  (tot=     0012676470) masstab=0
Type 5 (bndry):     1415  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.3.hdf5' on task=67 (contains 36165217 particles.)
distributing this file to tasks 67-89
Type 0 (gas):   17056908  (tot=     0273955432) masstab=0
Type 1 (halo):  17980057  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18156  (tot=     0000254233) masstab=0
Type 3 (bulge):   112971  (tot=     0002602064) masstab=0
Type 4 (stars):   995693  (tot=     0012676470) masstab=0
Type 5 (bndry):     1432  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.12.hdf5' on task=270 (contains 35794228 particles.)
distributing this file to tasks 270-291
Type 0 (gas):   17268080  (tot=     0273955432) masstab=0
Type 1 (halo):  17855737  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11170  (tot=     0000254233) masstab=0
Type 3 (bulge):    89239  (tot=     0002602064) masstab=0
Type 4 (stars):   568560  (tot=     0012676470) masstab=0
Type 5 (bndry):     1442  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.5.hdf5' on task=112 (contains 35955998 particles.)
distributing this file to tasks 112-134
Type 0 (gas):   17103052  (tot=     0273955432) masstab=0
Type 1 (halo):  17912613  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12563  (tot=     0000254233) masstab=0
Type 3 (bulge):    96633  (tot=     0002602064) masstab=0
Type 4 (stars):   829726  (tot=     0012676470) masstab=0
Type 5 (bndry):     1411  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.9.hdf5' on task=202 (contains 35905177 particles.)
distributing this file to tasks 202-224
Type 0 (gas):   17301305  (tot=     0273955432) masstab=0
Type 1 (halo):  17776238  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9188  (tot=     0000254233) masstab=0
Type 3 (bulge):   136488  (tot=     0002602064) masstab=0
Type 4 (stars):   680453  (tot=     0012676470) masstab=0
Type 5 (bndry):     1505  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.4.hdf5' on task=90 (contains 35976919 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   17140220  (tot=     0273955432) masstab=0
Type 1 (halo):  17847242  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     28696  (tot=     0000254233) masstab=0
Type 3 (bulge):    70293  (tot=     0002602064) masstab=0
Type 4 (stars):   889010  (tot=     0012676470) masstab=0
Type 5 (bndry):     1458  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.11.hdf5' on task=247 (contains 35874564 particles.)
distributing this file to tasks 247-269
Type 0 (gas):   17100982  (tot=     0273955432) masstab=0
Type 1 (halo):  17883012  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11311  (tot=     0000254233) masstab=0
Type 3 (bulge):   219770  (tot=     0002602064) masstab=0
Type 4 (stars):   657966  (tot=     0012676470) masstab=0
Type 5 (bndry):     1523  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.2.hdf5' on task=45 (contains 36290071 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   17044817  (tot=     0273955432) masstab=0
Type 1 (halo):  18085866  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19103  (tot=     0000254233) masstab=0
Type 3 (bulge):   311262  (tot=     0002602064) masstab=0
Type 4 (stars):   827408  (tot=     0012676470) masstab=0
Type 5 (bndry):     1615  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.6.hdf5' on task=135 (contains 35872055 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   17194517  (tot=     0273955432) masstab=0
Type 1 (halo):  17725226  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12044  (tot=     0000254233) masstab=0
Type 3 (bulge):    48665  (tot=     0002602064) masstab=0
Type 4 (stars):   890095  (tot=     0012676470) masstab=0
Type 5 (bndry):     1508  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.8.hdf5' on task=180 (contains 36124136 particles.)
distributing this file to tasks 180-201
Type 0 (gas):   17009953  (tot=     0273955432) masstab=0
Type 1 (halo):  18219281  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11434  (tot=     0000254233) masstab=0
Type 3 (bulge):   156507  (tot=     0002602064) masstab=0
Type 4 (stars):   725415  (tot=     0012676470) masstab=0
Type 5 (bndry):     1546  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.15.hdf5' on task=337 (contains 35791929 particles.)
distributing this file to tasks 337-359
Type 0 (gas):   17176856  (tot=     0273955432) masstab=0
Type 1 (halo):  17824649  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15384  (tot=     0000254233) masstab=0
Type 3 (bulge):    82409  (tot=     0002602064) masstab=0
Type 4 (stars):   691116  (tot=     0012676470) masstab=0
Type 5 (bndry):     1515  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.14.hdf5' on task=315 (contains 36033805 particles.)
distributing this file to tasks 315-336
Type 0 (gas):   17081513  (tot=     0273955432) masstab=0
Type 1 (halo):  18075129  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     33356  (tot=     0000254233) masstab=0
Type 3 (bulge):   184648  (tot=     0002602064) masstab=0
Type 4 (stars):   657667  (tot=     0012676470) masstab=0
Type 5 (bndry):     1492  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.1.hdf5' on task=22 (contains 36201238 particles.)
distributing this file to tasks 22-44
Type 0 (gas):   16953028  (tot=     0273955432) masstab=0
Type 1 (halo):  17978960  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16223  (tot=     0000254233) masstab=0
Type 3 (bulge):   320595  (tot=     0002602064) masstab=0
Type 4 (stars):   930945  (tot=     0012676470) masstab=0
Type 5 (bndry):     1487  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.13.hdf5' on task=292 (contains 35995613 particles.)
distributing this file to tasks 292-314
Type 0 (gas):   17251335  (tot=     0273955432) masstab=0
Type 1 (halo):  17793968  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21444  (tot=     0000254233) masstab=0
Type 3 (bulge):    95820  (tot=     0002602064) masstab=0
Type 4 (stars):   831563  (tot=     0012676470) masstab=0
Type 5 (bndry):     1483  (tot=     0000023824) masstab=0


reading file `data//snapshot_013_z000p795/snap_013_z000p795.10.hdf5' on task=225 (contains 35811179 particles.)
distributing this file to tasks 225-246
Type 0 (gas):   17176132  (tot=     0273955432) masstab=0
Type 1 (halo):  17836940  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13711  (tot=     0000254233) masstab=0
Type 3 (bulge):    75373  (tot=     0002602064) masstab=0
Type 4 (stars):   707563  (tot=     0012676470) masstab=0
Type 5 (bndry):     1460  (tot=     0000023824) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576172753


Setting next time for grid output file to Time_next= 0.562223

Setting next time for line of sight file to Time_next= 0.561533

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.70979 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3865.97 MB)
Allocated 2.71564 MByte for top-level domain structure
use of 52.7777 MB of temporary storage for domain decomposition... (presently allocated=3921.46 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3921.47 Mbyte (on task=1), Smallest = 3921.47 Mbyte, Average = 3921.47 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     24.4214      57.3429  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     24.4214      81.7643  allocate_memory()/allocate.c/61
   1 2969 0                 P   1953.7097    2035.4740  allocate_memory()/allocate.c/67
   1 2970 0              SphP   1463.0793    3498.5533  allocate_memory()/allocate.c/85
   1 2971 0              MetP    330.2618    3828.8151  allocate_memory()/allocate.c/105
   1 2972 0               BHP     37.1575    3865.9726  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      2.5399    3868.6882  domain_allocate()/domain.c/570
   1 2976 0        domain_key     48.8427    3917.5310  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.1954    3917.7428  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.1954    3917.9382  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.1954    3918.1336  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.1954    3918.3290  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.1954    3918.5298  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.1954    3918.7307  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      2.7352    3921.4659  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 3.47755 MByte for top-level domain structure
use of 53.9499 MB of temporary storage for domain decomposition... (presently allocated=3923.4 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 4.46809 MByte for top-level domain structure
use of 55.4738 MB of temporary storage for domain decomposition... (presently allocated=3925.91 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 5.75582 MByte for top-level domain structure
use of 57.4549 MB of temporary storage for domain decomposition... (presently allocated=3929.18 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 7.42981 MByte for top-level domain structure
use of 60.0303 MB of temporary storage for domain decomposition... (presently allocated=3933.43 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 9.60597 MByte for top-level domain structure
use of 63.3782 MB of temporary storage for domain decomposition... (presently allocated=3938.96 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 12.435 MByte for top-level domain structure
use of 67.7306 MB of temporary storage for domain decomposition... (presently allocated=3946.14 MB)
Before=198921
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3955.47 MB)
Before=198921
After=259137
NTopleaves= 226745  NTopnodes=259137 (space for 321369)
gravity work-load balance=1.02066   memory-balance=1.02065   SPH work-load balance=1.02103
iter=0 exchange of 0574507568 particles (ret=0)
domain decomposition done. (took 15.3178 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.84875 MByte in top-level domain structure

Allocated 845.505 MByte for BH-tree, and 0.864964 Mbyte for top-leaves.  (presently allocted 4725.37 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 predicted entropy from the internal energies read in the file...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 5162.72 Mbyte (on task=358), Smallest = 5117.85 Mbyte, Average = 5140.99 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 358 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
 358 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
 358 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
 358 2967 0     NextInTimeBin     24.4214      57.3429  allocate_memory()/allocate.c/58
 358 2968 0     PrevInTimeBin     24.4214      81.7643  allocate_memory()/allocate.c/61
 358 2969 0                 P   1953.7097    2035.4740  allocate_memory()/allocate.c/67
 358 2970 0              SphP   1463.0793    3498.5533  allocate_memory()/allocate.c/85
 358 2971 0              MetP    330.2618    3828.8151  allocate_memory()/allocate.c/105
 358 2972 0               BHP     37.1575    3865.9726  allocate_memory()/allocate.c/126
 358 2975 0          TopNodes     12.8509    3878.9993  domain_allocate()/domain.c/570
 358 2976 0   DomainNodeIndex      0.8650    3879.8642  force_treeallocate()/forcetree.c/4800
 358 2977 0        Nodes_base    434.0038    4313.8680  force_treeallocate()/forcetree.c/4803
 358 2978 0     Extnodes_base    361.6698    4675.5379  force_treeallocate()/forcetree.c/4811
 358 2979 0          Nextnode     25.4099    4700.9478  force_treeallocate()/forcetree.c/4820
 358 2980 0            Father     24.4214    4725.3692  force_treeallocate()/forcetree.c/4827
 358 2981 0           Ngblist      5.9946    4731.3638  density()/density.c/690
 358 2982 0              Left     11.9893    4743.3531  density()/density.c/692
 358 2983 0             Right     11.9893    4755.3423  density()/density.c/693
 358 2984 0    DataIndexTable      7.0175    4762.3599  density()/density.c/738
 358 2985 0      DataNodeList     18.7134    4781.0733  density()/density.c/740
 358 2986 0       DensDataGet    106.1058    4887.1791  density()/density.c/893
 358 2987 0    DensDataResult    139.8667    5027.0458  density()/density.c/931
 358 2988 0       DensDataOut    135.6724    5162.7183  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0001009291 particles.
ngb iteration 2: need to repeat for 0000002251 particles.
ngb iteration 3: need to repeat for 0000000780 particles.
ngb iteration 4: need to repeat for 0000000707 particles.
ngb iteration 5: need to repeat for 0000000253 particles.
ngb iteration 6: need to repeat for 0000000175 particles.
ngb iteration 7: need to repeat for 0000000068 particles.
ngb iteration 8: need to repeat for 0000000002 particles.
ngb iteration 9: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.778.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.865.hdf5

Begin to compute FoF group catalogues...  (presently allocated=4725.37 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3865.97 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3955.47 MB)
Before=244529
After=272841
NTopleaves= 238736  NTopnodes=272841 (space for 321369)
gravity work-load balance=1.02404   memory-balance=1.02404   SPH work-load balance=1.02572
iter=0 exchange of 0574764904 particles (ret=0)
domain decomposition done. (took 8.17193 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.22144 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=3879.68 MB)
Tree construction.

Start linking particles (presently allocated=4802.9 MB)
links on local processor done (took 4.20131 sec).
Marked=0049783157 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=4912.44 MB) 
have done 0001061125 cross links (processed 0049783157, took 1.87741 sec)
have done 0000427398 cross links (processed 0033911610, took 1.69146 sec)
have done 0000288793 cross links (processed 0027457408, took 1.71775 sec)
have done 0000182257 cross links (processed 0017375878, took 1.4737 sec)
have done 0000110334 cross links (processed 0009917043, took 0.896207 sec)
have done 0000067040 cross links (processed 0006076855, took 1.24389 sec)
have done 0000040793 cross links (processed 0003786780, took 1.0989 sec)
have done 0000024789 cross links (processed 0002058431, took 0.558771 sec)
have done 0000015333 cross links (processed 0000935420, took 0.939091 sec)
have done 0000008985 cross links (processed 0000477368, took 0.397195 sec)
have done 0000004093 cross links (processed 0000153564, took 0.355893 sec)
have done 0000001638 cross links (processed 0000025762, took 0.049305 sec)
have done 0000000770 cross links (processed 0000008985, took 0.0345771 sec)
have done 0000000387 cross links (processed 0000004221, took 0.03458 sec)
have done 0000000174 cross links (processed 0000001916, took 0.033896 sec)
have done 0000000059 cross links (processed 0000000840, took 0.033654 sec)
have done 0000000027 cross links (processed 0000000346, took 0.033797 sec)
have done 0000000015 cross links (processed 0000000194, took 0.0336719 sec)
have done 0000000005 cross links (processed 0000000068, took 0.033793 sec)
have done 0000000000 cross links (processed 0000000012, took 0.034291 sec)
Local groups found.

group finding took = 16.8755 sec
Start finding nearest dm-particle (presently allocated=4802.9 MB)
still finding nearest... (presently allocated=4901.06 MB)
fof-nearest iteration 1: need to repeat for 259913299 particles.
still finding nearest... (presently allocated=4901.38 MB)
fof-nearest iteration 2: need to repeat for 244033536 particles.
still finding nearest... (presently allocated=4903.21 MB)
fof-nearest iteration 3: need to repeat for 226838862 particles.
still finding nearest... (presently allocated=4906.55 MB)
fof-nearest iteration 4: need to repeat for 193276002 particles.
still finding nearest... (presently allocated=4910.89 MB)
fof-nearest iteration 5: need to repeat for 136178270 particles.
still finding nearest... (presently allocated=4914.18 MB)
fof-nearest iteration 6: need to repeat for 65138894 particles.
still finding nearest... (presently allocated=4911.48 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 6.47046 sec
compiling local group data and catalogue took = 0.707226 sec

Total number of groups with at least 32 particles: 190992
Largest group has 18666329 particles.
Total number of particles in groups: 0167192337

group properties are now allocated.. (presently allocated=3979.72 MB)
computation of group properties took = 0.0959771 sec
start global sorting of group catalogues number 13
LargestGroup = 8121.219151; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0454469 sec
Group catalogues globally sorted. took = 0.789893 sec
starting saving of group catalogue number 13
data//groups_013_z000p795
Group catalogues number 13 saved. took = 3.48125 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (273955432).
tree build for species 0 took 0.560557 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0201817956 particles. (took 11.0883 sec)
ngb iteration 2: need to repeat for 0164006369 particles. (took 7.40061 sec)
ngb iteration 3: need to repeat for 0149322429 particles. (took 5.57886 sec)
ngb iteration 4: need to repeat for 0138441436 particles. (took 4.81734 sec)
ngb iteration 5: need to repeat for 0124392890 particles. (took 4.39284 sec)
ngb iteration 6: need to repeat for 0103014798 particles. (took 3.9364 sec)
ngb iteration 7: need to repeat for 0075942692 particles. (took 3.30823 sec)
ngb iteration 8: need to repeat for 0049953431 particles. (took 2.5505 sec)
ngb iteration 9: need to repeat for 0030044040 particles. (took 1.86074 sec)
ngb iteration 10: need to repeat for 0016995148 particles. (took 1.25991 sec)
ngb iteration 11: need to repeat for 0009253639 particles. (took 0.749515 sec)
ngb iteration 12: need to repeat for 0004934676 particles. (took 0.431516 sec)
ngb iteration 13: need to repeat for 0002604439 particles. (took 0.26716 sec)
ngb iteration 14: need to repeat for 0001259382 particles. (took 0.178672 sec)
ngb iteration 15: need to repeat for 0000427588 particles. (took 0.122529 sec)
ngb iteration 16: need to repeat for 0000155293 particles. (took 0.0796578 sec)
ngb iteration 17: need to repeat for 0000070975 particles. (took 0.0628641 sec)
ngb iteration 18: need to repeat for 0000040131 particles. (took 0.0557859 sec)
ngb iteration 19: need to repeat for 0000025574 particles. (took 0.0525441 sec)
ngb iteration 20: need to repeat for 0000017286 particles. (took 0.0519941 sec)
ngb iteration 21: need to repeat for 0000012154 particles. (took 0.0498691 sec)
ngb iteration 22: need to repeat for 0000008602 particles. (took 0.04914 sec)
ngb iteration 23: need to repeat for 0000006153 particles. (took 0.0488391 sec)
ngb iteration 24: need to repeat for 0000004219 particles. (took 0.0485981 sec)
ngb iteration 25: need to repeat for 0000002708 particles. (took 0.048501 sec)
ngb iteration 26: need to repeat for 0000001669 particles. (took 0.0487092 sec)
ngb iteration 27: need to repeat for 0000001019 particles. (took 0.0485389 sec)
ngb iteration 28: need to repeat for 0000000562 particles. (took 0.0484171 sec)
ngb iteration 29: need to repeat for 0000000298 particles. (took 0.0489359 sec)
ngb iteration 30: need to repeat for 0000000156 particles. (took 0.049592 sec)
ngb iteration 31: need to repeat for 0000000077 particles. (took 0.0482681 sec)
ngb iteration 32: need to repeat for 0000000026 particles. (took 0.048738 sec)
ngb iteration 33: need to repeat for 0000000007 particles. (took 0.048604 sec)
ngb iteration 34: need to repeat for 0000000003 particles. (took 0.0485032 sec)
ngb iteration 35: need to repeat for 0000000002 particles. (took 0.0481529 sec)
ngb iteration 36: need to repeat for 0000000001 particles. (took 0.0481861 sec)
final operations ... 
density and smoothing length for species 0 took 49.338 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.604631 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0203032642 particles. (took 15.7049 sec)
ngb iteration 2: need to repeat for 0161816543 particles. (took 8.2616 sec)
ngb iteration 3: need to repeat for 0141843857 particles. (took 6.08074 sec)
ngb iteration 4: need to repeat for 0129284410 particles. (took 4.90839 sec)
ngb iteration 5: need to repeat for 0116112742 particles. (took 4.3056 sec)
ngb iteration 6: need to repeat for 0097848760 particles. (took 3.85228 sec)
ngb iteration 7: need to repeat for 0075033162 particles. (took 3.28836 sec)
ngb iteration 8: need to repeat for 0052299760 particles. (took 2.65345 sec)
ngb iteration 9: need to repeat for 0033709912 particles. (took 1.96549 sec)
ngb iteration 10: need to repeat for 0020536644 particles. (took 1.3504 sec)
ngb iteration 11: need to repeat for 0012067261 particles. (took 0.876373 sec)
ngb iteration 12: need to repeat for 0006941851 particles. (took 0.542237 sec)
ngb iteration 13: need to repeat for 0003950556 particles. (took 0.340862 sec)
ngb iteration 14: need to repeat for 0002144403 particles. (took 0.22452 sec)
ngb iteration 15: need to repeat for 0001016813 particles. (took 0.154069 sec)
ngb iteration 16: need to repeat for 0000493230 particles. (took 0.104382 sec)
ngb iteration 17: need to repeat for 0000248507 particles. (took 0.078408 sec)
ngb iteration 18: need to repeat for 0000127896 particles. (took 0.064893 sec)
ngb iteration 19: need to repeat for 0000066134 particles. (took 0.0575562 sec)
ngb iteration 20: need to repeat for 0000033648 particles. (took 0.0538058 sec)
ngb iteration 21: need to repeat for 0000016482 particles. (took 0.051826 sec)
ngb iteration 22: need to repeat for 0000007864 particles. (took 0.0499589 sec)
ngb iteration 23: need to repeat for 0000003589 particles. (took 0.0488532 sec)
ngb iteration 24: need to repeat for 0000001575 particles. (took 0.0486021 sec)
ngb iteration 25: need to repeat for 0000000659 particles. (took 0.0481081 sec)
ngb iteration 26: need to repeat for 0000000270 particles. (took 0.0478368 sec)
ngb iteration 27: need to repeat for 0000000116 particles. (took 0.047786 sec)
ngb iteration 28: need to repeat for 0000000056 particles. (took 0.047967 sec)
ngb iteration 29: need to repeat for 0000000018 particles. (took 0.0475049 sec)
ngb iteration 30: need to repeat for 0000000010 particles. (took 0.0477371 sec)
ngb iteration 31: need to repeat for 0000000004 particles. (took 0.047718 sec)
ngb iteration 32: need to repeat for 0000000002 particles. (took 0.0473831 sec)
final operations ... 
density and smoothing length for species 1 took 55.7713 sec
Tree construction for species 4 (12676470).
tree build for species 4 took 0.193287 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0008726665 particles. (took 3.2931 sec)
ngb iteration 2: need to repeat for 0007212476 particles. (took 1.89442 sec)
ngb iteration 3: need to repeat for 0006230533 particles. (took 1.33148 sec)
ngb iteration 4: need to repeat for 0005585336 particles. (took 0.956903 sec)
ngb iteration 5: need to repeat for 0005047907 particles. (took 0.725784 sec)
ngb iteration 6: need to repeat for 0004462277 particles. (took 0.600558 sec)
ngb iteration 7: need to repeat for 0003771493 particles. (took 0.548943 sec)
ngb iteration 8: need to repeat for 0003035588 particles. (took 0.49094 sec)
ngb iteration 9: need to repeat for 0002342562 particles. (took 0.452082 sec)
ngb iteration 10: need to repeat for 0001753200 particles. (took 0.392749 sec)
ngb iteration 11: need to repeat for 0001290404 particles. (took 0.33712 sec)
ngb iteration 12: need to repeat for 0000939309 particles. (took 0.277353 sec)
ngb iteration 13: need to repeat for 0000681918 particles. (took 0.218478 sec)
ngb iteration 14: need to repeat for 0000489010 particles. (took 0.174294 sec)
ngb iteration 15: need to repeat for 0000348844 particles. (took 0.137105 sec)
ngb iteration 16: need to repeat for 0000251143 particles. (took 0.121148 sec)
ngb iteration 17: need to repeat for 0000182753 particles. (took 0.107245 sec)
ngb iteration 18: need to repeat for 0000134567 particles. (took 0.0945921 sec)
ngb iteration 19: need to repeat for 0000099786 particles. (took 0.0813541 sec)
ngb iteration 20: need to repeat for 0000074782 particles. (took 0.0774019 sec)
ngb iteration 21: need to repeat for 0000056906 particles. (took 0.0747631 sec)
ngb iteration 22: need to repeat for 0000043372 particles. (took 0.0706978 sec)
ngb iteration 23: need to repeat for 0000033154 particles. (took 0.0687058 sec)
ngb iteration 24: need to repeat for 0000025210 particles. (took 0.0654812 sec)
ngb iteration 25: need to repeat for 0000018931 particles. (took 0.065228 sec)
ngb iteration 26: need to repeat for 0000014045 particles. (took 0.063483 sec)
ngb iteration 27: need to repeat for 0000010146 particles. (took 0.0628631 sec)
ngb iteration 28: need to repeat for 0000007132 particles. (took 0.0631459 sec)
ngb iteration 29: need to repeat for 0000004845 particles. (took 0.0631509 sec)
ngb iteration 30: need to repeat for 0000003125 particles. (took 0.063802 sec)
ngb iteration 31: need to repeat for 0000001936 particles. (took 0.0625529 sec)
ngb iteration 32: need to repeat for 0000001106 particles. (took 0.0630789 sec)
ngb iteration 33: need to repeat for 0000000598 particles. (took 0.062999 sec)
ngb iteration 34: need to repeat for 0000000318 particles. (took 0.062901 sec)
ngb iteration 35: need to repeat for 0000000157 particles. (took 0.062937 sec)
ngb iteration 36: need to repeat for 0000000077 particles. (took 0.061991 sec)
ngb iteration 37: need to repeat for 0000000043 particles. (took 0.0627811 sec)
ngb iteration 38: need to repeat for 0000000017 particles. (took 0.0625188 sec)
ngb iteration 39: need to repeat for 0000000006 particles. (took 0.0622859 sec)
ngb iteration 40: need to repeat for 0000000001 particles. (took 0.0624158 sec)
final operations ... 
density and smoothing length for species 4 took 13.8725 sec
Tree construction.
tree build took 1.10844 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000016017 particles. (took 0.09535 sec)
ngb iteration 2: need to repeat for 0000014006 particles. (took 0.0739491 sec)
ngb iteration 3: need to repeat for 0000010274 particles. (took 0.0736599 sec)
ngb iteration 4: need to repeat for 0000007536 particles. (took 0.073673 sec)
ngb iteration 5: need to repeat for 0000006445 particles. (took 0.0729439 sec)
ngb iteration 6: need to repeat for 0000005609 particles. (took 0.0722539 sec)
ngb iteration 7: need to repeat for 0000004646 particles. (took 0.0714581 sec)
ngb iteration 8: need to repeat for 0000003544 particles. (took 0.070708 sec)
ngb iteration 9: need to repeat for 0000002511 particles. (took 0.070102 sec)
ngb iteration 10: need to repeat for 0000001689 particles. (took 0.06903 sec)
ngb iteration 11: need to repeat for 0000001065 particles. (took 0.06848 sec)
ngb iteration 12: need to repeat for 0000000664 particles. (took 0.0673509 sec)
ngb iteration 13: need to repeat for 0000000414 particles. (took 0.0670838 sec)
ngb iteration 14: need to repeat for 0000000265 particles. (took 0.06566 sec)
ngb iteration 15: need to repeat for 0000000159 particles. (took 0.0652771 sec)
ngb iteration 16: need to repeat for 0000000099 particles. (took 0.0652359 sec)
ngb iteration 17: need to repeat for 0000000064 particles. (took 0.0657909 sec)
ngb iteration 18: need to repeat for 0000000047 particles. (took 0.0644538 sec)
ngb iteration 19: need to repeat for 0000000030 particles. (took 0.0644841 sec)
ngb iteration 20: need to repeat for 0000000024 particles. (took 0.064465 sec)
ngb iteration 21: need to repeat for 0000000020 particles. (took 0.063879 sec)
ngb iteration 22: need to repeat for 0000000017 particles. (took 0.0635221 sec)
ngb iteration 23: need to repeat for 0000000011 particles. (took 0.063983 sec)
ngb iteration 24: need to repeat for 0000000008 particles. (took 0.06335 sec)
ngb iteration 25: need to repeat for 0000000006 particles. (took 0.0632911 sec)
ngb iteration 26: need to repeat for 0000000004 particles. (took 0.06305 sec)
ngb iteration 27: need to repeat for 0000000004 particles. (took 0.0628312 sec)
ngb iteration 28: need to repeat for 0000000004 particles. (took 0.0629361 sec)
ngb iteration 29: need to repeat for 0000000003 particles. (took 0.0638618 sec)
ngb iteration 30: need to repeat for 0000000002 particles. (took 0.062937 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.0631549 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0648901 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.065706 sec)
final operations ... 
density and smoothing length for species 5 took 2.50027 sec
Tree construction for species 0 (273955432).
tree build for species 0 took 0.559272 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 22.5064 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.599911 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 11.0497 sec
Tree construction for species 4 (12676470).
tree build for species 4 took 0.196256 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 4.98429 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.147573 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.07486 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.08694 sec
saving densities took 2.88148 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 4481341 particles.)
the other 190991 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 16946 - 92433906 

subfind_exchange()() took 2.57788 sec

collectively doing halo 1, num=13
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=6031.35 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=6120.85 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 6120.86 Mbyte (on task=0), Smallest = 4088.09 Mbyte, Average = 4118.11 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7097    2035.4730  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1463.0793    3498.5522  allocate_memory()/allocate.c/85
   0 2971 0              MetP    330.2618    3828.8141  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.1575    3865.9716  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5305    3879.6778  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     37.2281    3916.9059  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     62.0469    3978.9528  fof_fof()/fof.c/337
   0 2978 0             Group      0.7709    3979.7237  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2051.6273    6031.3510  subfind()/subfind.c/376
   0 2982 0          TopNodes     15.9370    6047.4638  domain_allocate()/domain.c/570
   0 2983 0        domain_key     48.8427    6096.3066  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.2259    6097.5490  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.2259    6098.7749  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.2259    6100.0009  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.2259    6101.2268  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.2259    6102.4582  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.2259    6103.6896  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     17.1630    6120.8526  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=191745
After=235369
NTopleaves= 205948  NTopnodes=235369 (space for 321369)
gravity work-load balance=1.02353   memory-balance=1.02353   SPH work-load balance=1.01929
iter=0 exchange of 0018616344 particles (ret=0)
domain decomposition done. (took 2.00803 sec)
Freed 3.93677 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 6885.41 Mbyte (on task=0), Smallest = 4852.64 Mbyte, Average = 4882.67 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7097    2035.4730  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1463.0793    3498.5522  allocate_memory()/allocate.c/85
   0 2971 0              MetP    330.2618    3828.8141  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.1575    3865.9716  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5305    3879.6778  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     37.2281    3916.9059  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     62.0469    3978.9528  fof_fof()/fof.c/337
   0 2978 0             Group      0.7709    3979.7237  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2051.6273    6031.3510  subfind()/subfind.c/376
   0 2982 0          TopNodes     11.6722    6043.1990  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.7856    6043.9846  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    431.8278    6475.8124  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    359.8565    6835.6689  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     25.3192    6860.9882  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     24.4214    6885.4095  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 2.41041 sec  (presently allocated=6885.41 MB)
force_treebuild() took 2.2484 sec (presently allocated=6885.41 MB)
Start find_linkngb (52690 particles on task=0)
find linkngb iteration 1: need to repeat for 0018148471 particles. (took 1.43603 sec)
find linkngb iteration 2: need to repeat for 0017291181 particles. (took 0.986408 sec)
find linkngb iteration 3: need to repeat for 0015549891 particles. (took 0.687516 sec)
find linkngb iteration 4: need to repeat for 0014609330 particles. (took 0.517296 sec)
find linkngb iteration 5: need to repeat for 0013004026 particles. (took 0.481308 sec)
find linkngb iteration 6: need to repeat for 0010650046 particles. (took 0.421792 sec)
find linkngb iteration 7: need to repeat for 0007732129 particles. (took 0.341122 sec)
find linkngb iteration 8: need to repeat for 0005005960 particles. (took 0.240456 sec)
find linkngb iteration 9: need to repeat for 0002981064 particles. (took 0.15417 sec)
find linkngb iteration 10: need to repeat for 0001685410 particles. (took 0.0984271 sec)
find linkngb iteration 11: need to repeat for 0000924344 particles. (took 0.0625389 sec)
find linkngb iteration 12: need to repeat for 0000481824 particles. (took 0.042207 sec)
find linkngb iteration 13: need to repeat for 0000164585 particles. (took 0.026432 sec)
find linkngb iteration 14: need to repeat for 0000053165 particles. (took 0.015131 sec)
find linkngb iteration 15: need to repeat for 0000024295 particles. (took 0.00908494 sec)
find linkngb iteration 16: need to repeat for 0000012387 particles. (took 0.00584292 sec)
find linkngb iteration 17: need to repeat for 0000006554 particles. (took 0.00353312 sec)
find linkngb iteration 18: need to repeat for 0000003561 particles. (took 0.00216198 sec)
find linkngb iteration 19: need to repeat for 0000002010 particles. (took 0.00130701 sec)
find linkngb iteration 20: need to repeat for 0000001216 particles. (took 0.000864029 sec)
find linkngb iteration 21: need to repeat for 0000000781 particles. (took 0.000663042 sec)
find linkngb iteration 22: need to repeat for 0000000499 particles. (took 0.000586987 sec)
find linkngb iteration 23: need to repeat for 0000000308 particles. (took 0.000564814 sec)
find linkngb iteration 24: need to repeat for 0000000185 particles. (took 0.000543833 sec)
find linkngb iteration 25: need to repeat for 0000000103 particles. (took 0.00049901 sec)
find linkngb iteration 26: need to repeat for 0000000062 particles. (took 0.000532866 sec)
find linkngb iteration 27: need to repeat for 0000000037 particles. (took 0.000498056 sec)
find linkngb iteration 28: need to repeat for 0000000021 particles. (took 0.000495911 sec)
find linkngb iteration 29: need to repeat for 0000000011 particles. (took 0.000484943 sec)
find linkngb iteration 30: need to repeat for 0000000003 particles. (took 0.000476837 sec)
find linkngb iteration 31: need to repeat for 0000000002 particles. (took 0.000476122 sec)
find linkngb iteration 32: need to repeat for 0000000001 particles. (took 0.000488997 sec)
find_linkngb() took 5.54141 sec
Start finding nearest two (52690 particles on task=0)
find_nearesttwo() took 0.709658 sec (presently allocated=6889.43 MB)
parallel sort of densities done. took 0.0961492 sec
building distributed linked list. (presently allocated 6888.91 MB)
identification of primary candidates took 526.545 sec
adding background as candidate took 0.3383 sec
establishing of rank order took 170.806 sec  (p=18666329, grouplen=18666329) presently allocated 6888.91 MB

total number of subhalo candidates=66284

number of subhalo candidates that can be done independently=57891.
(Largest size is 3502, finding them took 0.0197668 sec)
particles are marked (took 106.674)
independent subhalos are assembled on individual CPUs for unbinding (0.165557 sec, (presently allocated=6888.91 MB)
unbinding of independent ones took 0.0825219 sec
particles have returned to their original processor (0.217827 sec, presently allocated 6888.91 MB)

number of subhalo candidates that can be done independently=7621.
(Largest size is 25226, finding them took 1.20055 sec)
particles are marked (took 73.7423)
independent subhalos are assembled on individual CPUs for unbinding (0.157176 sec, (presently allocated=6888.91 MB)
unbinding of independent ones took 0.657142 sec
particles have returned to their original processor (0.211864 sec, presently allocated 6888.91 MB)

number of subhalo candidates that can be done independently=689.
(Largest size is 54042, finding them took 1.16392 sec)
particles are marked (took 62.0857)
independent subhalos are assembled on individual CPUs for unbinding (0.148254 sec, (presently allocated=6888.91 MB)
unbinding of independent ones took 2.65131 sec
particles have returned to their original processor (0.204669 sec, presently allocated 6888.91 MB)

number of subhalo candidates that can be done independently=64.
(Largest size is 252154, finding them took 1.10191 sec)
particles are marked (took 62.5298)
independent subhalos are assembled on individual CPUs for unbinding (0.156732 sec, (presently allocated=6888.91 MB)
unbinding of independent ones took 8.67573 sec
particles have returned to their original processor (0.214168 sec, presently allocated 6888.91 MB)

number of subhalo candidates that can be done independently=11.
(Largest size is 857228, finding them took 0.374112 sec)
particles are marked (took 50.5699)
independent subhalos are assembled on individual CPUs for unbinding (0.142686 sec, (presently allocated=6888.91 MB)
unbinding of independent ones took 4.8108 sec
particles have returned to their original processor (0.200112 sec, presently allocated 6888.91 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 857228, finding them took 0.707048 sec)
particles are marked (took 45.7921)
independent subhalos are assembled on individual CPUs for unbinding (0.127339 sec, (presently allocated=6888.91 MB)
unbinding of independent ones took 0.143738 sec
particles have returned to their original processor (0.18026 sec, presently allocated 6888.91 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 857228, finding them took 0.608973 sec)
too few, I do the rest of 6 collectively

collective unbinding of nr=0 (6) of length=857228 ... maximum alloacted 6889.11 MB
took 14.5568 sec
collective unbinding of nr=1 (6) of length=313790 ... maximum alloacted 6889.11 MB
took 7.07202 sec
collective unbinding of nr=2 (6) of length=294918 ... maximum alloacted 6889.11 MB
took 8.78635 sec
collective unbinding of nr=3 (6) of length=500594 ... maximum alloacted 6889.11 MB
took 13.1351 sec
collective unbinding of nr=4 (6) of length=252154 ... maximum alloacted 6889.11 MB
took 6.1418 sec
collective unbinding of nr=5 (6) of length=18666329 ... maximum alloacted 6889.11 MB
took 418.074 sec

the collective unbinding of remaining halos took 512.08 sec

found 4258 bound substructures in FoF group of length 18666329
determination of parent subhalo took 0.0562222 sec (presently allocated 6889.11 MB)
determining substructure properties took 404.614 sec (presently allocated 6889.11 MB)
processing of collective halos took 2063.54 sec
sort of local particles()() took 0.802881 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 617.372 sec

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unsorting of local particles()() took 0.69485 sec
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subfind_exchange() (for return to original CPU)  took 4.49053 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=6031.35 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=6120.85 MB)
Before=247377
After=274873
NTopleaves= 240514  NTopnodes=274873 (space for 321369)
gravity work-load balance=1.01964   memory-balance=1.01964   SPH work-load balance=1.02011
iter=0 exchange of 0574388559 particles (ret=0)
domain decomposition done. (took 7.9879 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.12842 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000157205 particles. (took 0.032963 sec)
SO iteration 2: need to repeat for 0000157205 particles. (took 0.021539 sec)
SO iteration 3: need to repeat for 0000157205 particles. (took 0.022162 sec)
SO iteration 4: need to repeat for 0000157205 particles. (took 0.0224309 sec)
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SO iteration 15: need to repeat for 0000154982 particles. (took 0.0226872 sec)
SO iteration 16: need to repeat for 0000001019 particles. (took 0.0221879 sec)
SO iteration 17: need to repeat for 0000000038 particles. (took 0.00154901 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000833035 sec)
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SO iteration 15: need to repeat for 0000156329 particles. (took 0.020551 sec)
SO iteration 16: need to repeat for 0000036981 particles. (took 0.020355 sec)
SO iteration 17: need to repeat for 0000000467 particles. (took 0.00914192 sec)
SO iteration 18: need to repeat for 0000000037 particles. (took 0.00118113 sec)
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SO iteration 13: need to repeat for 0000157205 particles. (took 0.017648 sec)
SO iteration 14: need to repeat for 0000157205 particles. (took 0.017915 sec)
SO iteration 15: need to repeat for 0000157184 particles. (took 0.0178561 sec)
SO iteration 16: need to repeat for 0000155823 particles. (took 0.018065 sec)
SO iteration 17: need to repeat for 0000059388 particles. (took 0.0178041 sec)
SO iteration 18: need to repeat for 0000001140 particles. (took 0.0109069 sec)
SO iteration 19: need to repeat for 0000000070 particles. (took 0.00141096 sec)
SO iteration 20: need to repeat for 0000000004 particles. (took 0.000834942 sec)
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SO iteration 2: need to repeat for 0000157205 particles. (took 0.019876 sec)
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SO iteration 16: need to repeat for 0000001260 particles. (took 0.022233 sec)
SO iteration 17: need to repeat for 0000000047 particles. (took 0.00150704 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000830889 sec)
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SO iteration 2: need to repeat for 0000157205 particles. (took 0.0196209 sec)
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SO iteration 18: need to repeat for 0000000072 particles. (took 0.00141478 sec)
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SO iteration 15: need to repeat for 0000157191 particles. (took 0.0172312 sec)
SO iteration 16: need to repeat for 0000156441 particles. (took 0.0172739 sec)
SO iteration 17: need to repeat for 0000130773 particles. (took 0.0172138 sec)
SO iteration 18: need to repeat for 0000003546 particles. (took 0.0162849 sec)
SO iteration 19: need to repeat for 0000000115 particles. (took 0.00190306 sec)
SO iteration 20: need to repeat for 0000000006 particles. (took 0.000797033 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000803947 sec)
determining spherical overdensity masses took 2.4216 sec
finding spherical overdensity particles took 0.385949 sec
determining contamination of halos took 0.261871 sec
Global sort of Groups took 0.081274 sec
Global sort of SubGroups took 0.212844 sec
Global sort of IDs took 0.405543 sec
Writing block 0 (GLEN), n=531, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2124d
Writing block 1 (GOFF), n=531, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2124d
Writing block 2 (MTOT), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 3 (GPOS), n=531, ptype=0, dtype=1, ndim=3, bpb=4 bytes=6372d
Writing block 4 (MMEA), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 5 (RMEA), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 6 (MCRI), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 7 (RCRI), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 8 (MTOP), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 9 (RTOP), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 17 (NCON), n=531, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2124d
Writing block 18 (MCON), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 22 (NSUB), n=531, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2124d
Writing block 23 (FSUB), n=531, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2124d
Writing block 24 (SLEN), n=4759, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19036d
Writing block 25 (SOFF), n=4759, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19036d
Writing block 26 (SSUB), n=4759, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19036d
Writing block 27 (MSUB), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 28 (SPOS), n=4759, ptype=1, dtype=1, ndim=3, bpb=4 bytes=57108d
Writing block 29 (SVEL), n=4759, ptype=1, dtype=1, ndim=3, bpb=4 bytes=57108d
Writing block 30 (SCM ), n=4759, ptype=1, dtype=1, ndim=3, bpb=4 bytes=57108d
Writing block 33 (VMAX), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 34 (RMAX), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 35 (RHMS), n=4759, ptype=1, dtype=1, ndim=6, bpb=4 bytes=114216d
Writing block 36 (MTRH), n=4759, ptype=1, dtype=1, ndim=6, bpb=4 bytes=114216d
Writing block 37 (MBID), n=4759, ptype=1, dtype=2, ndim=1, bpb=8 bytes=38072d
Writing block 38 (GRNR), n=4759, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19036d
Writing block 39 (SUBN), n=4759, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19036d
Writing block 40 (SMST), n=4759, ptype=1, dtype=1, ndim=6, bpb=4 bytes=114216d
Writing block 53 (PID ), n=455901, ptype=2, dtype=2, ndim=1, bpb=8 bytes=3647208d
Writing block 54 (SLEN), n=4759, ptype=1, dtype=0, ndim=6, bpb=4 bytes=114216d
Writing block 55 (STEN), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 56 (SKEN), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 57 (SUEN), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 58 (SUIT), n=4759, ptype=1, dtype=1, ndim=9, bpb=4 bytes=171324d
Writing block 59 (BHMA), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 60 (BHMD), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 61 (SVD ), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 62 (SVDH), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 63 (HMPR), n=4759, ptype=1, dtype=1, ndim=6, bpb=4 bytes=114216d
Writing block 64 (SSFR), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 65 (SSA ), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 66 (SSBZ), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 67 (SSIM), n=4759, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 68 (SSPI), n=4759, ptype=4, dtype=1, ndim=3, bpb=4 bytes=57108d
Writing block 69 (GSPI), n=4759, ptype=1, dtype=1, ndim=3, bpb=4 bytes=57108d
Writing block 70 (FSPI), n=4759, ptype=5, dtype=1, ndim=3, bpb=4 bytes=57108d
Writing block 71 (SFM ), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 72 (SFMT), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 73 (SFME), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 74 (SFAE), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 75 (SFKE), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 76 (SFTE), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 77 (SMWP), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 78 (SMM ), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 79 (SMMS), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 80 (SFZ ), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 81 (SFZS), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 82 (SSIA), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 83 (SIAS), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 84 (SMET), n=4759, ptype=5, dtype=1, ndim=9, bpb=4 bytes=171324d
Writing block 85 (SMTS), n=4759, ptype=5, dtype=1, ndim=9, bpb=4 bytes=171324d
Writing block 86 (MF1 ), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 87 (MeF1), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 88 (MF  ), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 89 (MeF2), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 90 (MFA ), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 91 (MeFA), n=4759, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 92 (NSPI), n=4759, ptype=6, dtype=1, ndim=3, bpb=4 bytes=57108d
Writing block 93 (NFM ), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 94 (NFMT), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 95 (NFME), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 96 (NFAE), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 97 (NFKE), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 98 (NFTE), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 99 (SMWP), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 100 (SMM ), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 101 (SMMS), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 102 (SSIA), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 103 (SIAS), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 104 (SMET), n=4759, ptype=6, dtype=1, ndim=9, bpb=4 bytes=171324d
Writing block 105 (SMTS), n=4759, ptype=6, dtype=1, ndim=9, bpb=4 bytes=171324d
Writing block 106 (MF1 ), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 107 (MeF1), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 108 (MF2 ), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 109 (MeF2), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 110 (MFA ), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 111 (MeFA), n=4759, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 112 (SM  ), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 113 (SFKE), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 114 (SFAE), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 115 (SMWP), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 116 (SMM ), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 117 (SMMS), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 118 (SSIA), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 119 (SIAS), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 120 (SMET), n=4759, ptype=4, dtype=1, ndim=9, bpb=4 bytes=171324d
Writing block 121 (SMTS), n=4759, ptype=4, dtype=1, ndim=9, bpb=4 bytes=171324d
Writing block 122 (MF1 ), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 123 (MeF1), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 124 (MF2 ), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 125 (MeF2), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 126 (MFA ), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 127 (MeFA), n=4759, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19036d
Writing block 128 (MMe5), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 129 (RMe5), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 130 (MCr5), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 131 (RCr5), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 132 (MMe2), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 133 (RMe2), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 134 (MCr2), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 135 (RCr2), n=531, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2124d
Writing block 136 (MAPT), n=4759, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1142160d
Writing block 137 (SAPT), n=4759, ptype=8, dtype=1, ndim=10, bpb=4 bytes=190360d
Writing block 138 (VAPT), n=4759, ptype=9, dtype=1, ndim=10, bpb=4 bytes=190360d
Writing block 139 (BEGY), n=455901, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1823604d
Subgroup catalogues saved. took = 10.2059 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 4.527969e-01
 eagle_ph_key_ort: type= 1 timed by volker 4.948580e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.588817e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.259514e-02
 eagle_ph_key_ort: type= 4 timed by volker 9.268403e-02
 eagle_ph_key_ort: type= 5 timed by volker 3.998613e-02
 eagle_ph_key_ort: timing parallel sort = 1.243235e+00
 eagle_fetch_elements: we are using 1201146118 bytes of memory, FreeBytes= 1501432648

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 6068.12 Mbyte (on task=0), Smallest = 4035.23 Mbyte, Average = 4065.24 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7097    2035.4730  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1463.0793    3498.5522  allocate_memory()/allocate.c/85
   0 2971 0              MetP    330.2618    3828.8141  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.1575    3865.9716  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5305    3879.6778  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     37.2281    3916.9059  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     62.0469    3978.9528  fof_fof()/fof.c/337
   0 2978 0             Group      0.7709    3979.7237  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2051.6273    6031.3510  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.7712    6068.1222  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1041311 number of bytes = 333219520

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 7205.89 Mbyte (on task=0), Smallest = 5163.34 Mbyte, Average = 5201.15 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7097    2035.4730  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1463.0793    3498.5522  allocate_memory()/allocate.c/85
   0 2971 0              MetP    330.2618    3828.8141  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.1575    3865.9716  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5305    3879.6778  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     37.2281    3916.9059  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     62.0469    3978.9528  fof_fof()/fof.c/337
   0 2978 0             Group      0.7709    3979.7237  fof_fof()/fof.c/380
   0 2979 0          SubGroup   2051.6273    6031.3510  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.7712    6068.1222  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      3.9723    6072.0945  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      3.9723    6076.0668  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      3.9723    6080.0391  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    317.7829    6397.8220  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    317.7829    6715.6049  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    490.2829    7205.8878  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 3.549925e+00
 eagle_fetch_elements: we are using 1201146118 bytes of memory, FreeBytes= 1501432648
 eagle_fetch_elements: max_bytes= 504, max_elements= 794013 number of bytes = 400182552
 eagle_ph_key_ort: timing parallel SphP exchange = 2.495154e+00
 eagle_fetch_elements: we are using 1201146118 bytes of memory, FreeBytes= 1501432648
 eagle_fetch_elements: max_bytes= 384, max_elements= 1494232 number of bytes = 573785088
 eagle_ph_key_ort: timing parallel MetP exchange = 2.371690e-01
 eagle_fetch_elements: we are using 1201146118 bytes of memory, FreeBytes= 1501432648
 eagle_fetch_elements: max_bytes= 256, max_elements= 2292216 number of bytes = 586807296
 eagle_ph_key_ort: timing parallel BHP exchange = 9.037018e-03
Sorting particle-data by peano-hilbert key took = 7.90179 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1201146118 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1041311 number of bytes= 333219520
 eagle_ph_restore: timing parallel P exchange = 3.699145e+00
 eagle_send_elements: we are using 1201146118 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 794013 number of bytes= 400182552
 eagle_ph_restore: timing parallel SphP exchange = 2.555390e+00
 eagle_send_elements: we are using 1201146118 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1494232 number of bytes= 573785088
 eagle_ph_restore: timing parallel MetP exchange = 2.565560e-01
 eagle_send_elements: we are using 1201146118 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2292216 number of bytes= 586807296
 eagle_ph_restore: timing parallel BHP exchange = 8.920908e-03
Restoring original order after ph key sorting took = 6.53781 sec

finished writing particle file...

Finished with SUBFIND.  (total time=3127 sec)

Finished computing FoF groups.  (presently allocated=3879.68 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3865.97 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3955.47 MB)
Before=243529
After=272681
NTopleaves= 238596  NTopnodes=272681 (space for 321369)
gravity work-load balance=1.02101   memory-balance=1.02101   SPH work-load balance=1.02054
iter=0 exchange of 0574619246 particles (ret=0)
domain decomposition done. (took 8.12016 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.22876 MByte in top-level domain structure
Tree construction.
task 22: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
task 45: endrun called with an error level of 124


task 22: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
task 45: endrun called with an error level of 124


task 67: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
task 67: endrun called with an error level of 124


task 90: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
task 90: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
Finished FOF, total time doing fof/subfind = 3175.19 s
task 225: endrun called with an error level of 124


task 135: endrun called with an error level of 124


task 157: endrun called with an error level of 124


task 337: endrun called with an error level of 124


task 270: endrun called with an error level of 124


task 292: endrun called with an error level of 124


task 247: endrun called with an error level of 124


task 202: endrun called with an error level of 124


task 112: endrun called with an error level of 124


task 112: endrun called with an error level of 124


task 315: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
task 180: endrun called with an error level of 124


task 180: endrun called with an error level of 124


task 0: endrun called with an error level of 124


task 225: endrun called with an error level of 124


task 135: endrun called with an error level of 124


task 157: endrun called with an error level of 124


task 337: endrun called with an error level of 124


task 270: endrun called with an error level of 124


task 292: endrun called with an error level of 124


task 247: endrun called with an error level of 124


task 202: endrun called with an error level of 124


task 315: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
task 0: endrun called with an error level of 124


    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62920.21 Mb (on task=200), Smallest =   62719.55 Mb (on task=0), Average =   62874.11 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=88), Smallest =   64531.71 Mb (on task=112), Average =   64532.01 Mb
Committed_AS:	 Largest =    1812.43 Mb (on task=0), Smallest =    1611.79 Mb (on task=200), Average =    1657.90 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=16), Smallest =   16266.08 Mb (on task=48), Average =   16310.80 Mb
AllocMem:	 Largest =    1812.43 Mb (on task=0), Smallest =    1611.79 Mb (on task=200), Average =    1657.90 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 360 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N8':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         7500
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 2033.08 MByte for particle storage.

Allocated 1466.58 MByte for storage of SPH data.

Allocated 328.263 MByte for storage of MET data.

Allocated 37.2466 MByte for storage of BH data.


reading file `data//snapshot_012_z000p899/snap_012_z000p899.0.hdf5' on task=0 (contains 36315678 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   17060233  (tot=     0274611953) masstab=0
Type 1 (halo):  17893496  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     25269  (tot=     0000254233) masstab=0
Type 3 (bulge):   354035  (tot=     0002602064) masstab=0
Type 4 (stars):   981305  (tot=     0012021148) masstab=0
Type 5 (bndry):     1340  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.4.hdf5' on task=90 (contains 36256197 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   17003282  (tot=     0274611953) masstab=0
Type 1 (halo):  18179601  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17868  (tot=     0000254233) masstab=0
Type 3 (bulge):   157489  (tot=     0002602064) masstab=0
Type 4 (stars):   896537  (tot=     0012021148) masstab=0
Type 5 (bndry):     1420  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.10.hdf5' on task=225 (contains 35830764 particles.)
distributing this file to tasks 225-246
Type 0 (gas):   17182959  (tot=     0274611953) masstab=0
Type 1 (halo):  17867712  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11119  (tot=     0000254233) masstab=0
Type 3 (bulge):    64281  (tot=     0002602064) masstab=0
Type 4 (stars):   703281  (tot=     0012021148) masstab=0
Type 5 (bndry):     1412  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.3.hdf5' on task=67 (contains 36108586 particles.)
distributing this file to tasks 67-89
Type 0 (gas):   17223259  (tot=     0274611953) masstab=0
Type 1 (halo):  17755324  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20631  (tot=     0000254233) masstab=0
Type 3 (bulge):   267966  (tot=     0002602064) masstab=0
Type 4 (stars):   839973  (tot=     0012021148) masstab=0
Type 5 (bndry):     1433  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.9.hdf5' on task=202 (contains 35836522 particles.)
distributing this file to tasks 202-224
Type 0 (gas):   17309589  (tot=     0274611953) masstab=0
Type 1 (halo):  17785939  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13231  (tot=     0000254233) masstab=0
Type 3 (bulge):   172282  (tot=     0002602064) masstab=0
Type 4 (stars):   554080  (tot=     0012021148) masstab=0
Type 5 (bndry):     1401  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.11.hdf5' on task=247 (contains 36295737 particles.)
distributing this file to tasks 247-269
Type 0 (gas):   17265806  (tot=     0274611953) masstab=0
Type 1 (halo):  18223674  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11735  (tot=     0000254233) masstab=0
Type 3 (bulge):   107845  (tot=     0002602064) masstab=0
Type 4 (stars):   685229  (tot=     0012021148) masstab=0
Type 5 (bndry):     1448  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.8.hdf5' on task=180 (contains 36044271 particles.)
distributing this file to tasks 180-201
Type 0 (gas):   17135522  (tot=     0274611953) masstab=0
Type 1 (halo):  17942620  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17468  (tot=     0000254233) masstab=0
Type 3 (bulge):   175673  (tot=     0002602064) masstab=0
Type 4 (stars):   771469  (tot=     0012021148) masstab=0
Type 5 (bndry):     1519  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.5.hdf5' on task=112 (contains 36036467 particles.)
distributing this file to tasks 112-134
Type 0 (gas):   17079523  (tot=     0274611953) masstab=0
Type 1 (halo):  18097863  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11173  (tot=     0000254233) masstab=0
Type 3 (bulge):    72425  (tot=     0002602064) masstab=0
Type 4 (stars):   774057  (tot=     0012021148) masstab=0
Type 5 (bndry):     1426  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.12.hdf5' on task=270 (contains 35840882 particles.)
distributing this file to tasks 270-291
Type 0 (gas):   17136640  (tot=     0274611953) masstab=0
Type 1 (halo):  17875391  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14035  (tot=     0000254233) masstab=0
Type 3 (bulge):   143547  (tot=     0002602064) masstab=0
Type 4 (stars):   669781  (tot=     0012021148) masstab=0
Type 5 (bndry):     1488  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.6.hdf5' on task=135 (contains 36044659 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   17155007  (tot=     0274611953) masstab=0
Type 1 (halo):  18006944  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20723  (tot=     0000254233) masstab=0
Type 3 (bulge):   212152  (tot=     0002602064) masstab=0
Type 4 (stars):   648335  (tot=     0012021148) masstab=0
Type 5 (bndry):     1498  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.14.hdf5' on task=315 (contains 35690684 particles.)
distributing this file to tasks 315-336
Type 0 (gas):   17119824  (tot=     0274611953) masstab=0
Type 1 (halo):  17729532  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11955  (tot=     0000254233) masstab=0
Type 3 (bulge):   147362  (tot=     0002602064) masstab=0
Type 4 (stars):   680623  (tot=     0012021148) masstab=0
Type 5 (bndry):     1388  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.2.hdf5' on task=45 (contains 36131449 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   17267262  (tot=     0274611953) masstab=0
Type 1 (halo):  18002477  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      6352  (tot=     0000254233) masstab=0
Type 3 (bulge):     6714  (tot=     0002602064) masstab=0
Type 4 (stars):   847203  (tot=     0012021148) masstab=0
Type 5 (bndry):     1441  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.1.hdf5' on task=22 (contains 36117385 particles.)
distributing this file to tasks 22-44
Type 0 (gas):   17184517  (tot=     0274611953) masstab=0
Type 1 (halo):  17804662  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19735  (tot=     0000254233) masstab=0
Type 3 (bulge):   262148  (tot=     0002602064) masstab=0
Type 4 (stars):   844973  (tot=     0012021148) masstab=0
Type 5 (bndry):     1350  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.13.hdf5' on task=292 (contains 35897557 particles.)
distributing this file to tasks 292-314
Type 0 (gas):   17145783  (tot=     0274611953) masstab=0
Type 1 (halo):  17769079  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12206  (tot=     0000254233) masstab=0
Type 3 (bulge):   270490  (tot=     0002602064) masstab=0
Type 4 (stars):   698637  (tot=     0012021148) masstab=0
Type 5 (bndry):     1362  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.15.hdf5' on task=337 (contains 35937155 particles.)
distributing this file to tasks 337-359
Type 0 (gas):   17184049  (tot=     0274611953) masstab=0
Type 1 (halo):  17958119  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16491  (tot=     0000254233) masstab=0
Type 3 (bulge):   105218  (tot=     0002602064) masstab=0
Type 4 (stars):   671777  (tot=     0012021148) masstab=0
Type 5 (bndry):     1501  (tot=     0000022877) masstab=0


reading file `data//snapshot_012_z000p899/snap_012_z000p899.7.hdf5' on task=157 (contains 35789012 particles.)
distributing this file to tasks 157-179
Type 0 (gas):   17158698  (tot=     0274611953) masstab=0
Type 1 (halo):  17768297  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     24242  (tot=     0000254233) masstab=0
Type 3 (bulge):    82437  (tot=     0002602064) masstab=0
Type 4 (stars):   753888  (tot=     0012021148) masstab=0
Type 5 (bndry):     1450  (tot=     0000022877) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576173005


Setting next time for grid output file to Time_next= 0.535132

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

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.72812 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3867.57 MB)
Allocated 2.71564 MByte for top-level domain structure
use of 52.7777 MB of temporary storage for domain decomposition... (presently allocated=3923.06 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3923.07 Mbyte (on task=1), Smallest = 3923.06 Mbyte, Average = 3923.07 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     24.4214      57.3430  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     24.4214      81.7644  allocate_memory()/allocate.c/61
   1 2969 0                 P   1953.7109    2035.4753  allocate_memory()/allocate.c/67
   1 2970 0              SphP   1466.5842    3502.0595  allocate_memory()/allocate.c/85
   1 2971 0              MetP    328.2634    3830.3229  allocate_memory()/allocate.c/105
   1 2972 0               BHP     37.2466    3867.5695  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      2.5399    3870.2851  domain_allocate()/domain.c/570
   1 2976 0        domain_key     48.8428    3919.1279  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.1954    3919.3397  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.1954    3919.5351  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.1954    3919.7305  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.1954    3919.9259  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.1954    3920.1267  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.1954    3920.3276  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      2.7352    3923.0628  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 3.47755 MByte for top-level domain structure
use of 53.9499 MB of temporary storage for domain decomposition... (presently allocated=3925 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 4.46809 MByte for top-level domain structure
use of 55.4738 MB of temporary storage for domain decomposition... (presently allocated=3927.51 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 5.75582 MByte for top-level domain structure
use of 57.4549 MB of temporary storage for domain decomposition... (presently allocated=3930.78 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 7.42981 MByte for top-level domain structure
use of 60.0303 MB of temporary storage for domain decomposition... (presently allocated=3935.03 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 9.60602 MByte for top-level domain structure
use of 63.3783 MB of temporary storage for domain decomposition... (presently allocated=3940.55 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 12.435 MByte for top-level domain structure
use of 67.7306 MB of temporary storage for domain decomposition... (presently allocated=3947.73 MB)
Before=199713
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3957.07 MB)
Before=199713
After=259441
NTopleaves= 227011  NTopnodes=259441 (space for 321369)
gravity work-load balance=1.0291   memory-balance=1.0291   SPH work-load balance=1.02628
iter=0 exchange of 0574616008 particles (ret=0)
domain decomposition done. (took 15.4428 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.83484 MByte in top-level domain structure

Allocated 845.558 MByte for BH-tree, and 0.865978 Mbyte for top-leaves.  (presently allocted 4727.03 MB)

Begin Ngb-tree construction.
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 5161.71 Mbyte (on task=266), Smallest = 5118.7 Mbyte, Average = 5141.46 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 266 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
 266 2965 0     ProcessedFlag      6.1053       8.5002  allocate_memory()/allocate.c/52
 266 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
 266 2967 0     NextInTimeBin     24.4214      57.3430  allocate_memory()/allocate.c/58
 266 2968 0     PrevInTimeBin     24.4214      81.7644  allocate_memory()/allocate.c/61
 266 2969 0                 P   1953.7109    2035.4753  allocate_memory()/allocate.c/67
 266 2970 0              SphP   1466.5842    3502.0595  allocate_memory()/allocate.c/85
 266 2971 0              MetP    328.2634    3830.3229  allocate_memory()/allocate.c/105
 266 2972 0               BHP     37.2466    3867.5695  allocate_memory()/allocate.c/126
 266 2975 0          TopNodes     12.8660    3880.6112  domain_allocate()/domain.c/570
 266 2976 0   DomainNodeIndex      0.8660    3881.4772  force_treeallocate()/forcetree.c/4800
 266 2977 0        Nodes_base    434.0319    4315.5091  force_treeallocate()/forcetree.c/4803
 266 2978 0     Extnodes_base    361.6933    4677.2024  force_treeallocate()/forcetree.c/4811
 266 2979 0          Nextnode     25.4111    4702.6135  force_treeallocate()/forcetree.c/4820
 266 2980 0            Father     24.4214    4727.0349  force_treeallocate()/forcetree.c/4827
 266 2981 0           Ngblist      6.0032    4733.0381  density()/density.c/690
 266 2982 0              Left     12.0064    4745.0445  density()/density.c/692
 266 2983 0             Right     12.0064    4757.0509  density()/density.c/693
 266 2984 0    DataIndexTable      7.0175    4764.0685  density()/density.c/738
 266 2985 0      DataNodeList     18.7134    4782.7819  density()/density.c/740
 266 2986 0       DensDataGet    104.9335    4887.7154  density()/density.c/893
 266 2987 0    DensDataResult    138.3215    5026.0369  density()/density.c/931
 266 2988 0       DensDataOut    135.6724    5161.7094  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0003042818 particles.
ngb iteration 2: need to repeat for 0000001232 particles.
ngb iteration 3: need to repeat for 0000000341 particles.
ngb iteration 4: need to repeat for 0000000308 particles.
ngb iteration 5: need to repeat for 0000000092 particles.
ngb iteration 6: need to repeat for 0000000065 particles.
ngb iteration 7: need to repeat for 0000000032 particles.
ngb iteration 8: need to repeat for 0000000002 particles.
ngb iteration 9: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.865.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.957.hdf5

Begin to compute FoF group catalogues...  (presently allocated=4727.03 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3867.57 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3957.07 MB)
Before=246137
After=273585
NTopleaves= 239387  NTopnodes=273585 (space for 321369)
gravity work-load balance=1.0205   memory-balance=1.0205   SPH work-load balance=1.01985
iter=0 exchange of 0574508682 particles (ret=0)
domain decomposition done. (took 7.94735 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.18738 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=3881.31 MB)
Tree construction.

Start linking particles (presently allocated=4803.46 MB)
links on local processor done (took 3.62391 sec).
Marked=0047826228 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=4912.63 MB) 
have done 0001044558 cross links (processed 0047826228, took 2.00343 sec)
have done 0000419869 cross links (processed 0032030293, took 1.7541 sec)
have done 0000283883 cross links (processed 0026125794, took 1.3345 sec)
have done 0000180696 cross links (processed 0015999372, took 1.6663 sec)
have done 0000106996 cross links (processed 0008925590, took 1.53108 sec)
have done 0000061294 cross links (processed 0004898880, took 1.29145 sec)
have done 0000038397 cross links (processed 0003472165, took 0.626624 sec)
have done 0000027475 cross links (processed 0002301996, took 1.12951 sec)
have done 0000021077 cross links (processed 0001544095, took 0.504171 sec)
have done 0000014095 cross links (processed 0001165358, took 0.569105 sec)
have done 0000009615 cross links (processed 0001403196, took 0.571483 sec)
have done 0000008249 cross links (processed 0001067155, took 1.18614 sec)
have done 0000006249 cross links (processed 0000248854, took 0.203921 sec)
have done 0000004338 cross links (processed 0000257553, took 0.307843 sec)
have done 0000003033 cross links (processed 0000220497, took 0.283998 sec)
have done 0000001902 cross links (processed 0000062846, took 0.071686 sec)
have done 0000001293 cross links (processed 0000060710, took 0.064625 sec)
have done 0000001358 cross links (processed 0000173317, took 0.305312 sec)
have done 0000001189 cross links (processed 0000097046, took 0.281033 sec)
have done 0000000569 cross links (processed 0000020619, took 0.0718591 sec)
have done 0000000185 cross links (processed 0000003371, took 0.0336401 sec)
have done 0000000066 cross links (processed 0000000924, took 0.033505 sec)
have done 0000000019 cross links (processed 0000000263, took 0.0334661 sec)
have done 0000000005 cross links (processed 0000000070, took 0.0336092 sec)
have done 0000000003 cross links (processed 0000000022, took 0.0333822 sec)
have done 0000000000 cross links (processed 0000000009, took 0.0338111 sec)
Local groups found.

group finding took = 19.7095 sec
Start finding nearest dm-particle (presently allocated=4803.46 MB)
still finding nearest... (presently allocated=4906.37 MB)
fof-nearest iteration 1: need to repeat for 260421797 particles.
still finding nearest... (presently allocated=4901.47 MB)
fof-nearest iteration 2: need to repeat for 243549925 particles.
still finding nearest... (presently allocated=4903.47 MB)
fof-nearest iteration 3: need to repeat for 226379326 particles.
still finding nearest... (presently allocated=4907.1 MB)
fof-nearest iteration 4: need to repeat for 193784285 particles.
still finding nearest... (presently allocated=4911.63 MB)
fof-nearest iteration 5: need to repeat for 137337261 particles.
still finding nearest... (presently allocated=4914.55 MB)
fof-nearest iteration 6: need to repeat for 65865745 particles.
still finding nearest... (presently allocated=4912.17 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 6.57353 sec
compiling local group data and catalogue took = 0.718854 sec

Total number of groups with at least 32 particles: 192449
Largest group has 17066902 particles.
Total number of particles in groups: 0162911764

group properties are now allocated.. (presently allocated=3979.82 MB)
computation of group properties took = 0.0948629 sec
start global sorting of group catalogues number 12
LargestGroup = 7561.821139; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.048352 sec
Group catalogues globally sorted. took = 0.727064 sec
starting saving of group catalogue number 12
data//groups_012_z000p899
Group catalogues number 12 saved. took = 3.42365 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (274611953).
tree build for species 0 took 0.562277 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0202000763 particles. (took 11.49 sec)
ngb iteration 2: need to repeat for 0164329340 particles. (took 7.27861 sec)
ngb iteration 3: need to repeat for 0149425709 particles. (took 5.52577 sec)
ngb iteration 4: need to repeat for 0138493670 particles. (took 4.82467 sec)
ngb iteration 5: need to repeat for 0124481309 particles. (took 4.39085 sec)
ngb iteration 6: need to repeat for 0103208427 particles. (took 3.94547 sec)
ngb iteration 7: need to repeat for 0076249962 particles. (took 3.29979 sec)
ngb iteration 8: need to repeat for 0050265603 particles. (took 2.54588 sec)
ngb iteration 9: need to repeat for 0030293055 particles. (took 1.85489 sec)
ngb iteration 10: need to repeat for 0017173441 particles. (took 1.24668 sec)
ngb iteration 11: need to repeat for 0009368455 particles. (took 0.742022 sec)
ngb iteration 12: need to repeat for 0005003835 particles. (took 0.42656 sec)
ngb iteration 13: need to repeat for 0002649903 particles. (took 0.265863 sec)
ngb iteration 14: need to repeat for 0001290719 particles. (took 0.180313 sec)
ngb iteration 15: need to repeat for 0000450437 particles. (took 0.124643 sec)
ngb iteration 16: need to repeat for 0000169471 particles. (took 0.085927 sec)
ngb iteration 17: need to repeat for 0000080787 particles. (took 0.0663211 sec)
ngb iteration 18: need to repeat for 0000047323 particles. (took 0.0573871 sec)
ngb iteration 19: need to repeat for 0000031032 particles. (took 0.0533879 sec)
ngb iteration 20: need to repeat for 0000021573 particles. (took 0.0515931 sec)
ngb iteration 21: need to repeat for 0000015561 particles. (took 0.0503421 sec)
ngb iteration 22: need to repeat for 0000011211 particles. (took 0.049305 sec)
ngb iteration 23: need to repeat for 0000007931 particles. (took 0.0486519 sec)
ngb iteration 24: need to repeat for 0000005565 particles. (took 0.0490191 sec)
ngb iteration 25: need to repeat for 0000003713 particles. (took 0.0484099 sec)
ngb iteration 26: need to repeat for 0000002442 particles. (took 0.0489199 sec)
ngb iteration 27: need to repeat for 0000001570 particles. (took 0.0483432 sec)
ngb iteration 28: need to repeat for 0000000958 particles. (took 0.0484629 sec)
ngb iteration 29: need to repeat for 0000000551 particles. (took 0.048311 sec)
ngb iteration 30: need to repeat for 0000000310 particles. (took 0.0479569 sec)
ngb iteration 31: need to repeat for 0000000162 particles. (took 0.0477772 sec)
ngb iteration 32: need to repeat for 0000000088 particles. (took 0.048326 sec)
ngb iteration 33: need to repeat for 0000000038 particles. (took 0.048245 sec)
ngb iteration 34: need to repeat for 0000000019 particles. (took 0.0483701 sec)
ngb iteration 35: need to repeat for 0000000010 particles. (took 0.048079 sec)
ngb iteration 36: need to repeat for 0000000003 particles. (took 0.048353 sec)
final operations ... 
density and smoothing length for species 0 took 49.5423 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.597821 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0202474485 particles. (took 16.4414 sec)
ngb iteration 2: need to repeat for 0161558283 particles. (took 7.86949 sec)
ngb iteration 3: need to repeat for 0141538324 particles. (took 5.85741 sec)
ngb iteration 4: need to repeat for 0128987301 particles. (took 4.76843 sec)
ngb iteration 5: need to repeat for 0115901097 particles. (took 4.19353 sec)
ngb iteration 6: need to repeat for 0097796964 particles. (took 3.74767 sec)
ngb iteration 7: need to repeat for 0075133040 particles. (took 3.22714 sec)
ngb iteration 8: need to repeat for 0052476216 particles. (took 2.62659 sec)
ngb iteration 9: need to repeat for 0033895348 particles. (took 1.96378 sec)
ngb iteration 10: need to repeat for 0020682276 particles. (took 1.35401 sec)
ngb iteration 11: need to repeat for 0012165956 particles. (took 0.874318 sec)
ngb iteration 12: need to repeat for 0007003455 particles. (took 0.547658 sec)
ngb iteration 13: need to repeat for 0003984293 particles. (took 0.333938 sec)
ngb iteration 14: need to repeat for 0002163783 particles. (took 0.218539 sec)
ngb iteration 15: need to repeat for 0001030743 particles. (took 0.148815 sec)
ngb iteration 16: need to repeat for 0000500162 particles. (took 0.102143 sec)
ngb iteration 17: need to repeat for 0000251758 particles. (took 0.0774209 sec)
ngb iteration 18: need to repeat for 0000130372 particles. (took 0.065114 sec)
ngb iteration 19: need to repeat for 0000067990 particles. (took 0.057584 sec)
ngb iteration 20: need to repeat for 0000034816 particles. (took 0.053426 sec)
ngb iteration 21: need to repeat for 0000017547 particles. (took 0.0508111 sec)
ngb iteration 22: need to repeat for 0000008544 particles. (took 0.049696 sec)
ngb iteration 23: need to repeat for 0000003978 particles. (took 0.0481541 sec)
ngb iteration 24: need to repeat for 0000001748 particles. (took 0.047787 sec)
ngb iteration 25: need to repeat for 0000000753 particles. (took 0.0484591 sec)
ngb iteration 26: need to repeat for 0000000315 particles. (took 0.0474241 sec)
ngb iteration 27: need to repeat for 0000000129 particles. (took 0.047523 sec)
ngb iteration 28: need to repeat for 0000000050 particles. (took 0.047457 sec)
ngb iteration 29: need to repeat for 0000000019 particles. (took 0.0474341 sec)
ngb iteration 30: need to repeat for 0000000004 particles. (took 0.0479739 sec)
final operations ... 
density and smoothing length for species 1 took 55.3234 sec
Tree construction for species 4 (12021148).
tree build for species 4 took 0.198463 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0008305340 particles. (took 3.80045 sec)
ngb iteration 2: need to repeat for 0006898823 particles. (took 1.9303 sec)
ngb iteration 3: need to repeat for 0005974194 particles. (took 1.49607 sec)
ngb iteration 4: need to repeat for 0005366245 particles. (took 1.1886 sec)
ngb iteration 5: need to repeat for 0004855791 particles. (took 1.01551 sec)
ngb iteration 6: need to repeat for 0004302186 particles. (took 0.893976 sec)
ngb iteration 7: need to repeat for 0003653754 particles. (took 0.766494 sec)
ngb iteration 8: need to repeat for 0002965160 particles. (took 0.621529 sec)
ngb iteration 9: need to repeat for 0002307012 particles. (took 0.493214 sec)
ngb iteration 10: need to repeat for 0001739329 particles. (took 0.367345 sec)
ngb iteration 11: need to repeat for 0001292728 particles. (took 0.259868 sec)
ngb iteration 12: need to repeat for 0000947394 particles. (took 0.205681 sec)
ngb iteration 13: need to repeat for 0000689969 particles. (took 0.174223 sec)
ngb iteration 14: need to repeat for 0000500019 particles. (took 0.146818 sec)
ngb iteration 15: need to repeat for 0000360168 particles. (took 0.132492 sec)
ngb iteration 16: need to repeat for 0000261737 particles. (took 0.116957 sec)
ngb iteration 17: need to repeat for 0000193469 particles. (took 0.104591 sec)
ngb iteration 18: need to repeat for 0000143079 particles. (took 0.093708 sec)
ngb iteration 19: need to repeat for 0000107040 particles. (took 0.0865281 sec)
ngb iteration 20: need to repeat for 0000081634 particles. (took 0.0797369 sec)
ngb iteration 21: need to repeat for 0000062863 particles. (took 0.0776591 sec)
ngb iteration 22: need to repeat for 0000048237 particles. (took 0.075763 sec)
ngb iteration 23: need to repeat for 0000037146 particles. (took 0.07394 sec)
ngb iteration 24: need to repeat for 0000028296 particles. (took 0.0709801 sec)
ngb iteration 25: need to repeat for 0000021392 particles. (took 0.0678771 sec)
ngb iteration 26: need to repeat for 0000015734 particles. (took 0.065798 sec)
ngb iteration 27: need to repeat for 0000011493 particles. (took 0.0646901 sec)
ngb iteration 28: need to repeat for 0000008099 particles. (took 0.0641072 sec)
ngb iteration 29: need to repeat for 0000005401 particles. (took 0.063333 sec)
ngb iteration 30: need to repeat for 0000003538 particles. (took 0.063478 sec)
ngb iteration 31: need to repeat for 0000002189 particles. (took 0.063174 sec)
ngb iteration 32: need to repeat for 0000001296 particles. (took 0.062628 sec)
ngb iteration 33: need to repeat for 0000000744 particles. (took 0.062613 sec)
ngb iteration 34: need to repeat for 0000000427 particles. (took 0.0630841 sec)
ngb iteration 35: need to repeat for 0000000234 particles. (took 0.063374 sec)
ngb iteration 36: need to repeat for 0000000112 particles. (took 0.0639 sec)
ngb iteration 37: need to repeat for 0000000063 particles. (took 0.063323 sec)
ngb iteration 38: need to repeat for 0000000025 particles. (took 0.062784 sec)
ngb iteration 39: need to repeat for 0000000010 particles. (took 0.0627201 sec)
ngb iteration 40: need to repeat for 0000000004 particles. (took 0.062026 sec)
ngb iteration 41: need to repeat for 0000000003 particles. (took 0.062206 sec)
final operations ... 
density and smoothing length for species 4 took 15.624 sec
Tree construction.
tree build took 1.09491 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000015045 particles. (took 0.0927629 sec)
ngb iteration 2: need to repeat for 0000012996 particles. (took 0.071656 sec)
ngb iteration 3: need to repeat for 0000009600 particles. (took 0.0708661 sec)
ngb iteration 4: need to repeat for 0000007106 particles. (took 0.070792 sec)
ngb iteration 5: need to repeat for 0000006071 particles. (took 0.0705519 sec)
ngb iteration 6: need to repeat for 0000005257 particles. (took 0.0696759 sec)
ngb iteration 7: need to repeat for 0000004320 particles. (took 0.06967 sec)
ngb iteration 8: need to repeat for 0000003284 particles. (took 0.068692 sec)
ngb iteration 9: need to repeat for 0000002303 particles. (took 0.068635 sec)
ngb iteration 10: need to repeat for 0000001523 particles. (took 0.0697899 sec)
ngb iteration 11: need to repeat for 0000000982 particles. (took 0.0667381 sec)
ngb iteration 12: need to repeat for 0000000611 particles. (took 0.066112 sec)
ngb iteration 13: need to repeat for 0000000379 particles. (took 0.066226 sec)
ngb iteration 14: need to repeat for 0000000244 particles. (took 0.065937 sec)
ngb iteration 15: need to repeat for 0000000145 particles. (took 0.0680459 sec)
ngb iteration 16: need to repeat for 0000000088 particles. (took 0.0653331 sec)
ngb iteration 17: need to repeat for 0000000053 particles. (took 0.0650401 sec)
ngb iteration 18: need to repeat for 0000000034 particles. (took 0.0647261 sec)
ngb iteration 19: need to repeat for 0000000029 particles. (took 0.064841 sec)
ngb iteration 20: need to repeat for 0000000026 particles. (took 0.065655 sec)
ngb iteration 21: need to repeat for 0000000023 particles. (took 0.0642161 sec)
ngb iteration 22: need to repeat for 0000000015 particles. (took 0.064806 sec)
ngb iteration 23: need to repeat for 0000000012 particles. (took 0.0646029 sec)
ngb iteration 24: need to repeat for 0000000009 particles. (took 0.065105 sec)
ngb iteration 25: need to repeat for 0000000006 particles. (took 0.0634379 sec)
ngb iteration 26: need to repeat for 0000000006 particles. (took 0.0636609 sec)
ngb iteration 27: need to repeat for 0000000006 particles. (took 0.063473 sec)
ngb iteration 28: need to repeat for 0000000004 particles. (took 0.0629461 sec)
ngb iteration 29: need to repeat for 0000000004 particles. (took 0.063194 sec)
ngb iteration 30: need to repeat for 0000000004 particles. (took 0.0627351 sec)
ngb iteration 31: need to repeat for 0000000003 particles. (took 0.0627069 sec)
ngb iteration 32: need to repeat for 0000000003 particles. (took 0.06248 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.0634451 sec)
ngb iteration 34: need to repeat for 0000000001 particles. (took 0.066906 sec)
ngb iteration 35: need to repeat for 0000000001 particles. (took 0.06339 sec)
ngb iteration 36: need to repeat for 0000000001 particles. (took 0.0634089 sec)
final operations ... 
density and smoothing length for species 5 took 2.66931 sec
Tree construction for species 0 (274611953).
tree build for species 0 took 0.561709 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 22.6926 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.613265 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 11.0135 sec
Tree construction for species 4 (12021148).
tree build for species 4 took 0.200684 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 4.79255 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.159672 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.0913 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.06214 sec
saving densities took 2.98282 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 4481344 particles.)
the other 192448 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 15447 - 89493798 

subfind_exchange()() took 2.69853 sec

collectively doing halo 1, num=12
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=5857.69 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=5947.19 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 5947.2 Mbyte (on task=0), Smallest = 4090.26 Mbyte, Average = 4118.45 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7109    2035.4743  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1466.5842    3502.0584  allocate_memory()/allocate.c/85
   0 2971 0              MetP    328.2634    3830.3219  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.2466    3867.5684  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5674    3881.3116  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.6260    3917.9376  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     61.0434    3978.9810  fof_fof()/fof.c/337
   0 2978 0             Group      0.8405    3979.8214  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1877.8706    5857.6921  subfind()/subfind.c/376
   0 2982 0          TopNodes     15.9370    5873.8049  domain_allocate()/domain.c/570
   0 2983 0        domain_key     48.8428    5922.6476  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.2259    5923.8901  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.2259    5925.1160  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.2259    5926.3419  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.2259    5927.5678  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.2259    5928.7993  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.2259    5930.0307  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     17.1630    5947.1936  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=191449
After=229873
NTopleaves= 201139  NTopnodes=229873 (space for 321369)
gravity work-load balance=1.02314   memory-balance=1.02314   SPH work-load balance=1.02731
iter=0 exchange of 0017023629 particles (ret=0)
domain decomposition done. (took 2.00079 sec)
Freed 4.18835 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 6710.52 Mbyte (on task=0), Smallest = 4853.58 Mbyte, Average = 4881.78 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7109    2035.4743  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1466.5842    3502.0584  allocate_memory()/allocate.c/85
   0 2971 0              MetP    328.2634    3830.3219  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.2466    3867.5684  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5674    3881.3116  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.6260    3917.9376  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     61.0434    3978.9810  fof_fof()/fof.c/337
   0 2978 0             Group      0.8405    3979.8214  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1877.8706    5857.6921  subfind()/subfind.c/376
   0 2982 0          TopNodes     11.3997    5869.2675  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.7673    5870.0348  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    431.3249    6301.3597  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    359.4374    6660.7971  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     25.2983    6686.0954  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     24.4214    6710.5167  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 2.42744 sec  (presently allocated=6710.52 MB)
force_treebuild() took 2.43277 sec (presently allocated=6710.52 MB)
Start find_linkngb (47819 particles on task=0)
find linkngb iteration 1: need to repeat for 0016632225 particles. (took 1.24557 sec)
find linkngb iteration 2: need to repeat for 0015894641 particles. (took 0.869276 sec)
find linkngb iteration 3: need to repeat for 0014359049 particles. (took 0.610275 sec)
find linkngb iteration 4: need to repeat for 0013495586 particles. (took 0.459043 sec)
find linkngb iteration 5: need to repeat for 0012003664 particles. (took 0.430676 sec)
find linkngb iteration 6: need to repeat for 0009810861 particles. (took 0.376298 sec)
find linkngb iteration 7: need to repeat for 0007118007 particles. (took 0.303087 sec)
find linkngb iteration 8: need to repeat for 0004610598 particles. (took 0.213709 sec)
find linkngb iteration 9: need to repeat for 0002751744 particles. (took 0.138419 sec)
find linkngb iteration 10: need to repeat for 0001558017 particles. (took 0.089045 sec)
find linkngb iteration 11: need to repeat for 0000855209 particles. (took 0.057317 sec)
find linkngb iteration 12: need to repeat for 0000444090 particles. (took 0.037648 sec)
find linkngb iteration 13: need to repeat for 0000152726 particles. (took 0.0252938 sec)
find linkngb iteration 14: need to repeat for 0000050996 particles. (took 0.0148718 sec)
find linkngb iteration 15: need to repeat for 0000023160 particles. (took 0.00885105 sec)
find linkngb iteration 16: need to repeat for 0000011679 particles. (took 0.00576091 sec)
find linkngb iteration 17: need to repeat for 0000006113 particles. (took 0.00370002 sec)
find linkngb iteration 18: need to repeat for 0000003308 particles. (took 0.002177 sec)
find linkngb iteration 19: need to repeat for 0000001895 particles. (took 0.00136209 sec)
find linkngb iteration 20: need to repeat for 0000001185 particles. (took 0.000998974 sec)
find linkngb iteration 21: need to repeat for 0000000746 particles. (took 0.000849009 sec)
find linkngb iteration 22: need to repeat for 0000000489 particles. (took 0.000703096 sec)
find linkngb iteration 23: need to repeat for 0000000301 particles. (took 0.000751019 sec)
find linkngb iteration 24: need to repeat for 0000000168 particles. (took 0.000541925 sec)
find linkngb iteration 25: need to repeat for 0000000100 particles. (took 0.000534058 sec)
find linkngb iteration 26: need to repeat for 0000000051 particles. (took 0.000485897 sec)
find linkngb iteration 27: need to repeat for 0000000021 particles. (took 0.000504017 sec)
find linkngb iteration 28: need to repeat for 0000000012 particles. (took 0.000481129 sec)
find linkngb iteration 29: need to repeat for 0000000006 particles. (took 0.000489235 sec)
find linkngb iteration 30: need to repeat for 0000000002 particles. (took 0.000475168 sec)
find linkngb iteration 31: need to repeat for 0000000002 particles. (took 0.000510931 sec)
find linkngb iteration 32: need to repeat for 0000000001 particles. (took 0.000463963 sec)
find linkngb iteration 33: need to repeat for 0000000001 particles. (took 0.000648022 sec)
find linkngb iteration 34: need to repeat for 0000000001 particles. (took 0.000469208 sec)
find_linkngb() took 4.90307 sec
Start finding nearest two (47819 particles on task=0)
find_nearesttwo() took 0.626324 sec (presently allocated=6714.17 MB)
parallel sort of densities done. took 0.0884409 sec
building distributed linked list. (presently allocated 6713.69 MB)
identification of primary candidates took 499.751 sec
adding background as candidate took 0.336859 sec
establishing of rank order took 153.599 sec  (p=17066902, grouplen=17066902) presently allocated 6713.69 MB

total number of subhalo candidates=60014

number of subhalo candidates that can be done independently=52725.
(Largest size is 1917, finding them took 0.017766 sec)
particles are marked (took 97.2536)
independent subhalos are assembled on individual CPUs for unbinding (0.168643 sec, (presently allocated=6713.69 MB)
unbinding of independent ones took 0.055295 sec
particles have returned to their original processor (0.228164 sec, presently allocated 6713.69 MB)

number of subhalo candidates that can be done independently=6604.
(Largest size is 17177, finding them took 1.31743 sec)
particles are marked (took 66.5509)
independent subhalos are assembled on individual CPUs for unbinding (0.164009 sec, (presently allocated=6713.69 MB)
unbinding of independent ones took 0.476669 sec
particles have returned to their original processor (0.223827 sec, presently allocated 6713.69 MB)

number of subhalo candidates that can be done independently=606.
(Largest size is 53232, finding them took 1.32223 sec)
particles are marked (took 57.4863)
independent subhalos are assembled on individual CPUs for unbinding (0.157708 sec, (presently allocated=6713.69 MB)
unbinding of independent ones took 1.81923 sec
particles have returned to their original processor (0.218553 sec, presently allocated 6713.69 MB)

number of subhalo candidates that can be done independently=67.
(Largest size is 277365, finding them took 1.25348 sec)
particles are marked (took 63.5469)
independent subhalos are assembled on individual CPUs for unbinding (0.167814 sec, (presently allocated=6713.69 MB)
unbinding of independent ones took 9.99084 sec
particles have returned to their original processor (0.234835 sec, presently allocated 6713.69 MB)

number of subhalo candidates that can be done independently=4.
(Largest size is 380315, finding them took 0.692718 sec)
particles are marked (took 43.9949)
independent subhalos are assembled on individual CPUs for unbinding (0.145974 sec, (presently allocated=6713.69 MB)
unbinding of independent ones took 4.63795 sec
particles have returned to their original processor (0.206521 sec, presently allocated 6713.69 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 380315, finding them took 0.680009 sec)
particles are marked (took 42.5528)
independent subhalos are assembled on individual CPUs for unbinding (0.143641 sec, (presently allocated=6713.69 MB)
unbinding of independent ones took 2.52213 sec
particles have returned to their original processor (0.206038 sec, presently allocated 6713.69 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 380315, finding them took 0.619645 sec)
too few, I do the rest of 7 collectively

collective unbinding of nr=0 (7) of length=277365 ... maximum alloacted 6713.87 MB
took 7.89836 sec
collective unbinding of nr=1 (7) of length=1414995 ... maximum alloacted 6713.87 MB
took 26.0936 sec
collective unbinding of nr=2 (7) of length=308819 ... maximum alloacted 6713.87 MB
took 7.86099 sec
collective unbinding of nr=3 (7) of length=1107471 ... maximum alloacted 6713.87 MB
took 22.9034 sec
collective unbinding of nr=4 (7) of length=240622 ... maximum alloacted 6713.87 MB
took 5.66856 sec
collective unbinding of nr=5 (7) of length=380315 ... maximum alloacted 6713.87 MB
took 8.85227 sec
collective unbinding of nr=6 (7) of length=17066902 ... maximum alloacted 6713.87 MB
took 380.615 sec

the collective unbinding of remaining halos took 499.993 sec

found 4227 bound substructures in FoF group of length 17066902
determination of parent subhalo took 0.0535948 sec (presently allocated 6713.87 MB)
determining substructure properties took 398.649 sec (presently allocated 6713.87 MB)
processing of collective halos took 1974.22 sec
sort of local particles()() took 0.777852 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 785.81 sec

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unsorting of local particles()() took 0.670958 sec
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Task 26: testing particles ...
Task 23: testing particles ...
Task 22: testing particles ...
Task 24: testing particles ...
Task 19: testing particles ...
Task 21: testing particles ...
Task 17: testing particles ...
Task 20: testing particles ...
Task 18: testing particles ...
Task 16: testing particles ...
Task 15: testing particles ...
Task 14: testing particles ...
Task 12: testing particles ...
Task 11: testing particles ...
Task 10: testing particles ...
Task 13: testing particles ...
Task 9: testing particles ...
Task 8: testing particles ...
Task 7: testing particles ...
Task 6: testing particles ...
Task 5: testing particles ...
Task 4: testing particles ...
Task 3: testing particles ...
Task 2: testing particles ...
Task 1: testing particles ...
subfind_exchange() (for return to original CPU)  took 4.89754 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=5857.69 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=5947.19 MB)
Before=248585
After=275313
NTopleaves= 240899  NTopnodes=275313 (space for 321369)
gravity work-load balance=1.01824   memory-balance=1.01824   SPH work-load balance=1.01767
iter=0 exchange of 0574850827 particles (ret=0)
domain decomposition done. (took 8.04469 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.10828 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000160136 particles. (took 0.0336299 sec)
SO iteration 2: need to repeat for 0000160136 particles. (took 0.0217979 sec)
SO iteration 3: need to repeat for 0000160136 particles. (took 0.0221159 sec)
SO iteration 4: need to repeat for 0000160136 particles. (took 0.022722 sec)
SO iteration 5: need to repeat for 0000160136 particles. (took 0.0229301 sec)
SO iteration 6: need to repeat for 0000160136 particles. (took 0.0228992 sec)
SO iteration 7: need to repeat for 0000160136 particles. (took 0.0230129 sec)
SO iteration 8: need to repeat for 0000160136 particles. (took 0.0245469 sec)
SO iteration 9: need to repeat for 0000160136 particles. (took 0.022938 sec)
SO iteration 10: need to repeat for 0000160136 particles. (took 0.0229299 sec)
SO iteration 11: need to repeat for 0000160136 particles. (took 0.0229852 sec)
SO iteration 12: need to repeat for 0000160136 particles. (took 0.023052 sec)
SO iteration 13: need to repeat for 0000160136 particles. (took 0.0230842 sec)
SO iteration 14: need to repeat for 0000160136 particles. (took 0.022929 sec)
SO iteration 15: need to repeat for 0000157961 particles. (took 0.0229988 sec)
SO iteration 16: need to repeat for 0000001052 particles. (took 0.0222731 sec)
SO iteration 17: need to repeat for 0000000057 particles. (took 0.00153303 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000870943 sec)
SO iteration 1: need to repeat for 0000160136 particles. (took 0.0234919 sec)
SO iteration 2: need to repeat for 0000160136 particles. (took 0.0198948 sec)
SO iteration 3: need to repeat for 0000160136 particles. (took 0.021276 sec)
SO iteration 4: need to repeat for 0000160136 particles. (took 0.020402 sec)
SO iteration 5: need to repeat for 0000160136 particles. (took 0.0207541 sec)
SO iteration 6: need to repeat for 0000160136 particles. (took 0.0204589 sec)
SO iteration 7: need to repeat for 0000160136 particles. (took 0.0204768 sec)
SO iteration 8: need to repeat for 0000160136 particles. (took 0.0205939 sec)
SO iteration 9: need to repeat for 0000160136 particles. (took 0.0205481 sec)
SO iteration 10: need to repeat for 0000160136 particles. (took 0.020654 sec)
SO iteration 11: need to repeat for 0000160136 particles. (took 0.02074 sec)
SO iteration 12: need to repeat for 0000160136 particles. (took 0.020561 sec)
SO iteration 13: need to repeat for 0000160136 particles. (took 0.020829 sec)
SO iteration 14: need to repeat for 0000160136 particles. (took 0.0207641 sec)
SO iteration 15: need to repeat for 0000159265 particles. (took 0.0205302 sec)
SO iteration 16: need to repeat for 0000041050 particles. (took 0.020468 sec)
SO iteration 17: need to repeat for 0000000484 particles. (took 0.010175 sec)
SO iteration 18: need to repeat for 0000000039 particles. (took 0.00121403 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000900984 sec)
SO iteration 1: need to repeat for 0000160136 particles. (took 0.023808 sec)
SO iteration 2: need to repeat for 0000160136 particles. (took 0.0198641 sec)
SO iteration 3: need to repeat for 0000160136 particles. (took 0.017906 sec)
SO iteration 4: need to repeat for 0000160136 particles. (took 0.018292 sec)
SO iteration 5: need to repeat for 0000160136 particles. (took 0.0178001 sec)
SO iteration 6: need to repeat for 0000160136 particles. (took 0.017976 sec)
SO iteration 7: need to repeat for 0000160136 particles. (took 0.017817 sec)
SO iteration 8: need to repeat for 0000160136 particles. (took 0.017926 sec)
SO iteration 9: need to repeat for 0000160136 particles. (took 0.0177941 sec)
SO iteration 10: need to repeat for 0000160136 particles. (took 0.017746 sec)
SO iteration 11: need to repeat for 0000160136 particles. (took 0.017925 sec)
SO iteration 12: need to repeat for 0000160136 particles. (took 0.0179188 sec)
SO iteration 13: need to repeat for 0000160136 particles. (took 0.0178101 sec)
SO iteration 14: need to repeat for 0000160136 particles. (took 0.017837 sec)
SO iteration 15: need to repeat for 0000160127 particles. (took 0.0176661 sec)
SO iteration 16: need to repeat for 0000158778 particles. (took 0.0177882 sec)
SO iteration 17: need to repeat for 0000067754 particles. (took 0.0176921 sec)
SO iteration 18: need to repeat for 0000001384 particles. (took 0.0116129 sec)
SO iteration 19: need to repeat for 0000000079 particles. (took 0.001333 sec)
SO iteration 20: need to repeat for 0000000002 particles. (took 0.000822067 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000779867 sec)
SO iteration 1: need to repeat for 0000160136 particles. (took 0.0236371 sec)
SO iteration 2: need to repeat for 0000160136 particles. (took 0.0211859 sec)
SO iteration 3: need to repeat for 0000160136 particles. (took 0.02209 sec)
SO iteration 4: need to repeat for 0000160136 particles. (took 0.022604 sec)
SO iteration 5: need to repeat for 0000160136 particles. (took 0.0229959 sec)
SO iteration 6: need to repeat for 0000160136 particles. (took 0.0230291 sec)
SO iteration 7: need to repeat for 0000160136 particles. (took 0.022964 sec)
SO iteration 8: need to repeat for 0000160136 particles. (took 0.0229609 sec)
SO iteration 9: need to repeat for 0000160136 particles. (took 0.0229561 sec)
SO iteration 10: need to repeat for 0000160136 particles. (took 0.0229959 sec)
SO iteration 11: need to repeat for 0000160136 particles. (took 0.0228441 sec)
SO iteration 12: need to repeat for 0000160136 particles. (took 0.0229959 sec)
SO iteration 13: need to repeat for 0000160136 particles. (took 0.0228829 sec)
SO iteration 14: need to repeat for 0000160136 particles. (took 0.022923 sec)
SO iteration 15: need to repeat for 0000157977 particles. (took 0.022948 sec)
SO iteration 16: need to repeat for 0000001187 particles. (took 0.02212 sec)
SO iteration 17: need to repeat for 0000000059 particles. (took 0.00156498 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.000818968 sec)
SO iteration 1: need to repeat for 0000160136 particles. (took 0.02351 sec)
SO iteration 2: need to repeat for 0000160136 particles. (took 0.0204191 sec)
SO iteration 3: need to repeat for 0000160136 particles. (took 0.021342 sec)
SO iteration 4: need to repeat for 0000160136 particles. (took 0.0223289 sec)
SO iteration 5: need to repeat for 0000160136 particles. (took 0.0219848 sec)
SO iteration 6: need to repeat for 0000160136 particles. (took 0.022028 sec)
SO iteration 7: need to repeat for 0000160136 particles. (took 0.021982 sec)
SO iteration 8: need to repeat for 0000160136 particles. (took 0.0219262 sec)
SO iteration 9: need to repeat for 0000160136 particles. (took 0.02197 sec)
SO iteration 10: need to repeat for 0000160136 particles. (took 0.022078 sec)
SO iteration 11: need to repeat for 0000160136 particles. (took 0.021965 sec)
SO iteration 12: need to repeat for 0000160136 particles. (took 0.021842 sec)
SO iteration 13: need to repeat for 0000160136 particles. (took 0.021847 sec)
SO iteration 14: need to repeat for 0000160136 particles. (took 0.022059 sec)
SO iteration 15: need to repeat for 0000158146 particles. (took 0.0220251 sec)
SO iteration 16: need to repeat for 0000003527 particles. (took 0.0217159 sec)
SO iteration 17: need to repeat for 0000000104 particles. (took 0.00213194 sec)
SO iteration 18: need to repeat for 0000000009 particles. (took 0.00090003 sec)
SO iteration 1: need to repeat for 0000160136 particles. (took 0.0235751 sec)
SO iteration 2: need to repeat for 0000160136 particles. (took 0.0197511 sec)
SO iteration 3: need to repeat for 0000160136 particles. (took 0.021064 sec)
SO iteration 4: need to repeat for 0000160136 particles. (took 0.020381 sec)
SO iteration 5: need to repeat for 0000160136 particles. (took 0.0203209 sec)
SO iteration 6: need to repeat for 0000160136 particles. (took 0.0202038 sec)
SO iteration 7: need to repeat for 0000160136 particles. (took 0.0202529 sec)
SO iteration 8: need to repeat for 0000160136 particles. (took 0.020128 sec)
SO iteration 9: need to repeat for 0000160136 particles. (took 0.02016 sec)
SO iteration 10: need to repeat for 0000160136 particles. (took 0.0200379 sec)
SO iteration 11: need to repeat for 0000160136 particles. (took 0.020036 sec)
SO iteration 12: need to repeat for 0000160136 particles. (took 0.020277 sec)
SO iteration 13: need to repeat for 0000160136 particles. (took 0.0200861 sec)
SO iteration 14: need to repeat for 0000160136 particles. (took 0.0201221 sec)
SO iteration 15: need to repeat for 0000159688 particles. (took 0.020221 sec)
SO iteration 16: need to repeat for 0000130221 particles. (took 0.0198381 sec)
SO iteration 17: need to repeat for 0000001161 particles. (took 0.017756 sec)
SO iteration 18: need to repeat for 0000000079 particles. (took 0.00150299 sec)
SO iteration 19: need to repeat for 0000000003 particles. (took 0.000838041 sec)
SO iteration 1: need to repeat for 0000160136 particles. (took 0.0235291 sec)
SO iteration 2: need to repeat for 0000160136 particles. (took 0.0197031 sec)
SO iteration 3: need to repeat for 0000160136 particles. (took 0.017549 sec)
SO iteration 4: need to repeat for 0000160136 particles. (took 0.0176001 sec)
SO iteration 5: need to repeat for 0000160136 particles. (took 0.0173399 sec)
SO iteration 6: need to repeat for 0000160136 particles. (took 0.017329 sec)
SO iteration 7: need to repeat for 0000160136 particles. (took 0.0173461 sec)
SO iteration 8: need to repeat for 0000160136 particles. (took 0.0173841 sec)
SO iteration 9: need to repeat for 0000160136 particles. (took 0.0174341 sec)
SO iteration 10: need to repeat for 0000160136 particles. (took 0.017339 sec)
SO iteration 11: need to repeat for 0000160136 particles. (took 0.0174921 sec)
SO iteration 12: need to repeat for 0000160136 particles. (took 0.017534 sec)
SO iteration 13: need to repeat for 0000160136 particles. (took 0.017431 sec)
SO iteration 14: need to repeat for 0000160136 particles. (took 0.0174911 sec)
SO iteration 15: need to repeat for 0000160129 particles. (took 0.0174649 sec)
SO iteration 16: need to repeat for 0000159290 particles. (took 0.0173259 sec)
SO iteration 17: need to repeat for 0000130736 particles. (took 0.0174799 sec)
SO iteration 18: need to repeat for 0000003749 particles. (took 0.0158911 sec)
SO iteration 19: need to repeat for 0000000142 particles. (took 0.00196719 sec)
SO iteration 20: need to repeat for 0000000008 particles. (took 0.000818014 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.000825882 sec)
determining spherical overdensity masses took 2.44958 sec
finding spherical overdensity particles took 0.401015 sec
determining contamination of halos took 0.248219 sec
Global sort of Groups took 0.0811651 sec
Global sort of SubGroups took 0.212701 sec
Global sort of IDs took 0.41396 sec
Writing block 0 (GLEN), n=535, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2140d
Writing block 1 (GOFF), n=535, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2140d
Writing block 2 (MTOT), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 3 (GPOS), n=535, ptype=0, dtype=1, ndim=3, bpb=4 bytes=6420d
Writing block 4 (MMEA), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 5 (RMEA), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 6 (MCRI), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 7 (RCRI), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 8 (MTOP), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 9 (RTOP), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 17 (NCON), n=535, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2140d
Writing block 18 (MCON), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 22 (NSUB), n=535, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2140d
Writing block 23 (FSUB), n=535, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2140d
Writing block 24 (SLEN), n=4784, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19136d
Writing block 25 (SOFF), n=4784, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19136d
Writing block 26 (SSUB), n=4784, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19136d
Writing block 27 (MSUB), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 28 (SPOS), n=4784, ptype=1, dtype=1, ndim=3, bpb=4 bytes=57408d
Writing block 29 (SVEL), n=4784, ptype=1, dtype=1, ndim=3, bpb=4 bytes=57408d
Writing block 30 (SCM ), n=4784, ptype=1, dtype=1, ndim=3, bpb=4 bytes=57408d
Writing block 33 (VMAX), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 34 (RMAX), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 35 (RHMS), n=4784, ptype=1, dtype=1, ndim=6, bpb=4 bytes=114816d
Writing block 36 (MTRH), n=4784, ptype=1, dtype=1, ndim=6, bpb=4 bytes=114816d
Writing block 37 (MBID), n=4784, ptype=1, dtype=2, ndim=1, bpb=8 bytes=38272d
Writing block 38 (GRNR), n=4784, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19136d
Writing block 39 (SUBN), n=4784, ptype=1, dtype=0, ndim=1, bpb=4 bytes=19136d
Writing block 40 (SMST), n=4784, ptype=1, dtype=1, ndim=6, bpb=4 bytes=114816d
Writing block 53 (PID ), n=459780, ptype=2, dtype=2, ndim=1, bpb=8 bytes=3678240d
Writing block 54 (SLEN), n=4784, ptype=1, dtype=0, ndim=6, bpb=4 bytes=114816d
Writing block 55 (STEN), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 56 (SKEN), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 57 (SUEN), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 58 (SUIT), n=4784, ptype=1, dtype=1, ndim=9, bpb=4 bytes=172224d
Writing block 59 (BHMA), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 60 (BHMD), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 61 (SVD ), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 62 (SVDH), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 63 (HMPR), n=4784, ptype=1, dtype=1, ndim=6, bpb=4 bytes=114816d
Writing block 64 (SSFR), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 65 (SSA ), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 66 (SSBZ), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 67 (SSIM), n=4784, ptype=1, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 68 (SSPI), n=4784, ptype=4, dtype=1, ndim=3, bpb=4 bytes=57408d
Writing block 69 (GSPI), n=4784, ptype=1, dtype=1, ndim=3, bpb=4 bytes=57408d
Writing block 70 (FSPI), n=4784, ptype=5, dtype=1, ndim=3, bpb=4 bytes=57408d
Writing block 71 (SFM ), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 72 (SFMT), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 73 (SFME), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 74 (SFAE), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 75 (SFKE), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 76 (SFTE), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 77 (SMWP), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 78 (SMM ), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 79 (SMMS), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 80 (SFZ ), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 81 (SFZS), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 82 (SSIA), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 83 (SIAS), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 84 (SMET), n=4784, ptype=5, dtype=1, ndim=9, bpb=4 bytes=172224d
Writing block 85 (SMTS), n=4784, ptype=5, dtype=1, ndim=9, bpb=4 bytes=172224d
Writing block 86 (MF1 ), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 87 (MeF1), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 88 (MF  ), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 89 (MeF2), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 90 (MFA ), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 91 (MeFA), n=4784, ptype=5, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 92 (NSPI), n=4784, ptype=6, dtype=1, ndim=3, bpb=4 bytes=57408d
Writing block 93 (NFM ), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 94 (NFMT), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 95 (NFME), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 96 (NFAE), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 97 (NFKE), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 98 (NFTE), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 99 (SMWP), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 100 (SMM ), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 101 (SMMS), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 102 (SSIA), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 103 (SIAS), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 104 (SMET), n=4784, ptype=6, dtype=1, ndim=9, bpb=4 bytes=172224d
Writing block 105 (SMTS), n=4784, ptype=6, dtype=1, ndim=9, bpb=4 bytes=172224d
Writing block 106 (MF1 ), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 107 (MeF1), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 108 (MF2 ), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 109 (MeF2), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 110 (MFA ), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 111 (MeFA), n=4784, ptype=6, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 112 (SM  ), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 113 (SFKE), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 114 (SFAE), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 115 (SMWP), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 116 (SMM ), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 117 (SMMS), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 118 (SSIA), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 119 (SIAS), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 120 (SMET), n=4784, ptype=4, dtype=1, ndim=9, bpb=4 bytes=172224d
Writing block 121 (SMTS), n=4784, ptype=4, dtype=1, ndim=9, bpb=4 bytes=172224d
Writing block 122 (MF1 ), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 123 (MeF1), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 124 (MF2 ), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 125 (MeF2), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 126 (MFA ), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 127 (MeFA), n=4784, ptype=4, dtype=1, ndim=1, bpb=4 bytes=19136d
Writing block 128 (MMe5), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 129 (RMe5), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 130 (MCr5), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 131 (RCr5), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 132 (MMe2), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 133 (RMe2), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 134 (MCr2), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 135 (RCr2), n=535, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2140d
Writing block 136 (MAPT), n=4784, ptype=7, dtype=1, ndim=60, bpb=4 bytes=1148160d
Writing block 137 (SAPT), n=4784, ptype=8, dtype=1, ndim=10, bpb=4 bytes=191360d
Writing block 138 (VAPT), n=4784, ptype=9, dtype=1, ndim=10, bpb=4 bytes=191360d
Writing block 139 (BEGY), n=459780, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1839120d
Subgroup catalogues saved. took = 10.5295 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 4.623609e-01
 eagle_ph_key_ort: type= 1 timed by volker 4.885011e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.487298e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.814100e-02
 eagle_ph_key_ort: type= 4 timed by volker 8.933091e-02
 eagle_ph_key_ort: type= 5 timed by volker 3.251696e-02
 eagle_ph_key_ort: timing parallel sort = 1.222931e+00
 eagle_fetch_elements: we are using 1346830425 bytes of memory, FreeBytes= 1683538032

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 5894.46 Mbyte (on task=0), Smallest = 4037.28 Mbyte, Average = 4065.58 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7109    2035.4743  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1466.5842    3502.0584  allocate_memory()/allocate.c/85
   0 2971 0              MetP    328.2634    3830.3219  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.2466    3867.5684  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5674    3881.3116  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.6260    3917.9376  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     61.0434    3978.9810  fof_fof()/fof.c/337
   0 2978 0             Group      0.8405    3979.8214  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1877.8706    5857.6921  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.7610    5894.4530  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1265848 number of bytes = 405071360

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 7171.7 Mbyte (on task=0), Smallest = 5305.84 Mbyte, Average = 5341.11 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1053       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9205  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3419  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7633  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7109    2035.4743  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1466.5842    3502.0584  allocate_memory()/allocate.c/85
   0 2971 0              MetP    328.2634    3830.3219  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.2466    3867.5684  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5674    3881.3116  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.6260    3917.9376  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     61.0434    3978.9810  fof_fof()/fof.c/337
   0 2978 0             Group      0.8405    3979.8214  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1877.8706    5857.6921  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.7610    5894.4530  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      4.8288    5899.2818  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      4.8288    5904.1107  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      4.8288    5908.9395  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    386.3062    6295.2457  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    386.3062    6681.5518  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    490.1462    7171.6980  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 3.630591e+00
 eagle_fetch_elements: we are using 1346830425 bytes of memory, FreeBytes= 1683538032
 eagle_fetch_elements: max_bytes= 504, max_elements= 936844 number of bytes = 472169376
 eagle_ph_key_ort: timing parallel SphP exchange = 2.437384e+00
 eagle_fetch_elements: we are using 1346830425 bytes of memory, FreeBytes= 1683538032
 eagle_fetch_elements: max_bytes= 384, max_elements= 1677239 number of bytes = 644059776
 eagle_ph_key_ort: timing parallel MetP exchange = 2.493830e-01
 eagle_fetch_elements: we are using 1346830425 bytes of memory, FreeBytes= 1683538032
 eagle_fetch_elements: max_bytes= 256, max_elements= 2570236 number of bytes = 657980416
 eagle_ph_key_ort: timing parallel BHP exchange = 6.813049e-03
Sorting particle-data by peano-hilbert key took = 7.92277 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1346830425 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1265848 number of bytes= 405071360
 eagle_ph_restore: timing parallel P exchange = 3.696159e+00
 eagle_send_elements: we are using 1346830425 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 936844 number of bytes= 472169376
 eagle_ph_restore: timing parallel SphP exchange = 2.548271e+00
 eagle_send_elements: we are using 1346830425 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1677239 number of bytes= 644059776
 eagle_ph_restore: timing parallel MetP exchange = 2.695620e-01
 eagle_send_elements: we are using 1346830425 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2570236 number of bytes= 657980416
 eagle_ph_restore: timing parallel BHP exchange = 6.516933e-03
Restoring original order after ph key sorting took = 6.54052 sec

finished writing particle file...

Finished with SUBFIND.  (total time=3185.54 sec)

Finished computing FoF groups.  (presently allocated=3881.31 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3867.57 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3887 MB of temporary storage for domain decomposition... (presently allocated=3957.07 MB)
Before=244585
After=273529
NTopleaves= 239338  NTopnodes=273529 (space for 321369)
gravity work-load balance=1.01794   memory-balance=1.01795   SPH work-load balance=1.01789
iter=0 exchange of 0574696533 particles (ret=0)
domain decomposition done. (took 8.03263 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.18994 MByte in top-level domain structure
Tree construction.
task 22: endrun called with an error level of 124


task 45: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
task 22: endrun called with an error level of 124


task 45: endrun called with an error level of 124


task 67: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
task 67: endrun called with an error level of 124


task 90: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
task 90: endrun called with an error level of 124


task 112: endrun called with an error level of 124


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


task 135: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
task 135: endrun called with an error level of 124


task 157: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
task 157: endrun called with an error level of 124


task 180: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
task 180: endrun called with an error level of 124


task 202: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
task 202: endrun called with an error level of 124


task 225: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
task 225: endrun called with an error level of 124


task 247: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
task 247: endrun called with an error level of 124


task 270: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
task 270: endrun called with an error level of 124


task 292: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
task 292: endrun called with an error level of 124


task 315: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
task 315: endrun called with an error level of 124


task 337: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
task 337: endrun called with an error level of 124


Finished FOF, total time doing fof/subfind = 3236.22 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


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


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62920.39 Mb (on task=200), Smallest =   62720.18 Mb (on task=0), Average =   62874.11 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=88), Smallest =   64531.71 Mb (on task=112), Average =   64532.01 Mb
Committed_AS:	 Largest =    1811.80 Mb (on task=0), Smallest =    1611.61 Mb (on task=200), Average =    1657.90 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=16), Smallest =   16266.08 Mb (on task=48), Average =   16310.83 Mb
AllocMem:	 Largest =    1811.80 Mb (on task=0), Smallest =    1611.61 Mb (on task=200), Average =    1657.90 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 360 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N8':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         7500
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 2033.08 MByte for particle storage.

Allocated 1470.53 MByte for storage of SPH data.

Allocated 326.017 MByte for storage of MET data.

Allocated 37.3467 MByte for storage of BH data.


reading file `data//snapshot_011_z001p017/snap_011_z001p017.0.hdf5' on task=0 (contains 36428887 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   17150393  (tot=     0275349611) masstab=0
Type 1 (halo):  18022014  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18262  (tot=     0000254233) masstab=0
Type 3 (bulge):   203769  (tot=     0002602064) masstab=0
Type 4 (stars):  1033042  (tot=     0011284877) masstab=0
Type 5 (bndry):     1407  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.10.hdf5' on task=225 (contains 36036408 particles.)
distributing this file to tasks 225-246
Type 0 (gas):   17193065  (tot=     0275349611) masstab=0
Type 1 (halo):  17972449  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16672  (tot=     0000254233) masstab=0
Type 3 (bulge):   208335  (tot=     0002602064) masstab=0
Type 4 (stars):   644512  (tot=     0011284877) masstab=0
Type 5 (bndry):     1375  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.11.hdf5' on task=247 (contains 36119632 particles.)
distributing this file to tasks 247-269
Type 0 (gas):   17144975  (tot=     0275349611) masstab=0
Type 1 (halo):  18107941  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16603  (tot=     0000254233) masstab=0
Type 3 (bulge):   139232  (tot=     0002602064) masstab=0
Type 4 (stars):   709558  (tot=     0011284877) masstab=0
Type 5 (bndry):     1323  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.15.hdf5' on task=337 (contains 35762905 particles.)
distributing this file to tasks 337-359
Type 0 (gas):   17312585  (tot=     0275349611) masstab=0
Type 1 (halo):  17758977  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18454  (tot=     0000254233) masstab=0
Type 3 (bulge):   119437  (tot=     0002602064) masstab=0
Type 4 (stars):   552062  (tot=     0011284877) masstab=0
Type 5 (bndry):     1390  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.8.hdf5' on task=180 (contains 35876174 particles.)
distributing this file to tasks 180-201
Type 0 (gas):   17147387  (tot=     0275349611) masstab=0
Type 1 (halo):  17890563  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     28437  (tot=     0000254233) masstab=0
Type 3 (bulge):   135652  (tot=     0002602064) masstab=0
Type 4 (stars):   672761  (tot=     0011284877) masstab=0
Type 5 (bndry):     1374  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.13.hdf5' on task=292 (contains 35790067 particles.)
distributing this file to tasks 292-314
Type 0 (gas):   17178676  (tot=     0275349611) masstab=0
Type 1 (halo):  17990783  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10571  (tot=     0000254233) masstab=0
Type 3 (bulge):    32390  (tot=     0002602064) masstab=0
Type 4 (stars):   576260  (tot=     0011284877) masstab=0
Type 5 (bndry):     1387  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.9.hdf5' on task=202 (contains 35738034 particles.)
distributing this file to tasks 202-224
Type 0 (gas):   17272992  (tot=     0275349611) masstab=0
Type 1 (halo):  17722947  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15763  (tot=     0000254233) masstab=0
Type 3 (bulge):    14842  (tot=     0002602064) masstab=0
Type 4 (stars):   710118  (tot=     0011284877) masstab=0
Type 5 (bndry):     1372  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.3.hdf5' on task=67 (contains 36109241 particles.)
distributing this file to tasks 67-89
Type 0 (gas):   17212147  (tot=     0275349611) masstab=0
Type 1 (halo):  17959543  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13956  (tot=     0000254233) masstab=0
Type 3 (bulge):   156511  (tot=     0002602064) masstab=0
Type 4 (stars):   765731  (tot=     0011284877) masstab=0
Type 5 (bndry):     1353  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.12.hdf5' on task=270 (contains 35930055 particles.)
distributing this file to tasks 270-291
Type 0 (gas):   17147808  (tot=     0275349611) masstab=0
Type 1 (halo):  18022122  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8450  (tot=     0000254233) masstab=0
Type 3 (bulge):    62783  (tot=     0002602064) masstab=0
Type 4 (stars):   687530  (tot=     0011284877) masstab=0
Type 5 (bndry):     1362  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.5.hdf5' on task=112 (contains 35785732 particles.)
distributing this file to tasks 112-134
Type 0 (gas):   17216378  (tot=     0275349611) masstab=0
Type 1 (halo):  17733243  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10904  (tot=     0000254233) masstab=0
Type 3 (bulge):   130711  (tot=     0002602064) masstab=0
Type 4 (stars):   693196  (tot=     0011284877) masstab=0
Type 5 (bndry):     1300  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.2.hdf5' on task=45 (contains 36273540 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   17258060  (tot=     0275349611) masstab=0
Type 1 (halo):  17788194  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21441  (tot=     0000254233) masstab=0
Type 3 (bulge):   472019  (tot=     0002602064) masstab=0
Type 4 (stars):   732428  (tot=     0011284877) masstab=0
Type 5 (bndry):     1398  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.6.hdf5' on task=135 (contains 36201080 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   17211784  (tot=     0275349611) masstab=0
Type 1 (halo):  18200341  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16255  (tot=     0000254233) masstab=0
Type 3 (bulge):   170769  (tot=     0002602064) masstab=0
Type 4 (stars):   600519  (tot=     0011284877) masstab=0
Type 5 (bndry):     1412  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.7.hdf5' on task=157 (contains 36018593 particles.)
distributing this file to tasks 157-179
Type 0 (gas):   17182714  (tot=     0275349611) masstab=0
Type 1 (halo):  18078455  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12286  (tot=     0000254233) masstab=0
Type 3 (bulge):    55760  (tot=     0002602064) masstab=0
Type 4 (stars):   687995  (tot=     0011284877) masstab=0
Type 5 (bndry):     1383  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.14.hdf5' on task=315 (contains 36038435 particles.)
distributing this file to tasks 315-336
Type 0 (gas):   17215037  (tot=     0275349611) masstab=0
Type 1 (halo):  17804903  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8494  (tot=     0000254233) masstab=0
Type 3 (bulge):   335435  (tot=     0002602064) masstab=0
Type 4 (stars):   673217  (tot=     0011284877) masstab=0
Type 5 (bndry):     1349  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.4.hdf5' on task=90 (contains 36130424 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   17219288  (tot=     0275349611) masstab=0
Type 1 (halo):  17841983  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21824  (tot=     0000254233) masstab=0
Type 3 (bulge):   265377  (tot=     0002602064) masstab=0
Type 4 (stars):   780626  (tot=     0011284877) masstab=0
Type 5 (bndry):     1326  (tot=     0000021811) masstab=0


reading file `data//snapshot_011_z001p017/snap_011_z001p017.1.hdf5' on task=22 (contains 35934119 particles.)
distributing this file to tasks 22-44
Type 0 (gas):   17286322  (tot=     0275349611) masstab=0
Type 1 (halo):  17766272  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15861  (tot=     0000254233) masstab=0
Type 3 (bulge):    99042  (tot=     0002602064) masstab=0
Type 4 (stars):   765322  (tot=     0011284877) masstab=0
Type 5 (bndry):     1300  (tot=     0000021811) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576173326


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= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.654 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3869.36 MB)
Allocated 2.71564 MByte for top-level domain structure
use of 52.7777 MB of temporary storage for domain decomposition... (presently allocated=3924.86 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3924.86 Mbyte (on task=1), Smallest = 3924.86 Mbyte, Average = 3924.86 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      6.1054       8.5002  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     24.4214      57.3430  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     24.4214      81.7644  allocate_memory()/allocate.c/61
   1 2969 0                 P   1953.7122    2035.4766  allocate_memory()/allocate.c/67
   1 2970 0              SphP   1470.5255    3506.0021  allocate_memory()/allocate.c/85
   1 2971 0              MetP    326.0171    3832.0192  allocate_memory()/allocate.c/105
   1 2972 0               BHP     37.3467    3869.3659  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      2.5399    3872.0815  domain_allocate()/domain.c/570
   1 2976 0        domain_key     48.8428    3920.9243  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.1954    3921.1362  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.1954    3921.3315  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.1954    3921.5269  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.1954    3921.7223  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.1954    3921.9231  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.1954    3922.1240  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      2.7352    3924.8592  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 3.4776 MByte for top-level domain structure
use of 53.95 MB of temporary storage for domain decomposition... (presently allocated=3926.79 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 4.46814 MByte for top-level domain structure
use of 55.4739 MB of temporary storage for domain decomposition... (presently allocated=3929.31 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 5.75582 MByte for top-level domain structure
use of 57.4549 MB of temporary storage for domain decomposition... (presently allocated=3932.58 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 7.42981 MByte for top-level domain structure
use of 60.0303 MB of temporary storage for domain decomposition... (presently allocated=3936.82 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 9.60602 MByte for top-level domain structure
use of 63.3783 MB of temporary storage for domain decomposition... (presently allocated=3942.35 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 12.435 MByte for top-level domain structure
use of 67.7307 MB of temporary storage for domain decomposition... (presently allocated=3949.53 MB)
Before=194977
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 16.1128 MByte for top-level domain structure
use of 73.3888 MB of temporary storage for domain decomposition... (presently allocated=3958.87 MB)
Before=194977
After=258801
NTopleaves= 226451  NTopnodes=258801 (space for 321369)
gravity work-load balance=1.02268   memory-balance=1.02268   SPH work-load balance=1.02277
iter=0 exchange of 0574849540 particles (ret=0)
domain decomposition done. (took 15.2689 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.86414 MByte in top-level domain structure

Allocated 845.448 MByte for BH-tree, and 0.863842 Mbyte for top-leaves.  (presently allocted 4728.69 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 5164.65 Mbyte (on task=81), Smallest = 5118.57 Mbyte, Average = 5142.42 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
  81 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
  81 2965 0     ProcessedFlag      6.1054       8.5002  allocate_memory()/allocate.c/52
  81 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
  81 2967 0     NextInTimeBin     24.4214      57.3430  allocate_memory()/allocate.c/58
  81 2968 0     PrevInTimeBin     24.4214      81.7644  allocate_memory()/allocate.c/61
  81 2969 0                 P   1953.7122    2035.4766  allocate_memory()/allocate.c/67
  81 2970 0              SphP   1470.5255    3506.0021  allocate_memory()/allocate.c/85
  81 2971 0              MetP    326.0171    3832.0192  allocate_memory()/allocate.c/105
  81 2972 0               BHP     37.3467    3869.3659  allocate_memory()/allocate.c/126
  81 2975 0          TopNodes     12.8342    3882.3759  domain_allocate()/domain.c/570
  81 2976 0   DomainNodeIndex      0.8638    3883.2397  force_treeallocate()/forcetree.c/4800
  81 2977 0        Nodes_base    433.9735    4317.2132  force_treeallocate()/forcetree.c/4803
  81 2978 0     Extnodes_base    361.6446    4678.8578  force_treeallocate()/forcetree.c/4811
  81 2979 0          Nextnode     25.4087    4704.2665  force_treeallocate()/forcetree.c/4820
  81 2980 0            Father     24.4214    4728.6879  force_treeallocate()/forcetree.c/4827
  81 2981 0           Ngblist      6.1498    4734.8377  density()/density.c/690
  81 2982 0              Left     12.2997    4747.1374  density()/density.c/692
  81 2983 0             Right     12.2997    4759.4370  density()/density.c/693
  81 2984 0    DataIndexTable      7.0175    4766.4546  density()/density.c/738
  81 2985 0      DataNodeList     18.7134    4785.1680  density()/density.c/740
  81 2986 0       DensDataGet    105.1714    4890.3394  density()/density.c/893
  81 2987 0    DensDataResult    138.6350    5028.9744  density()/density.c/931
  81 2988 0       DensDataOut    135.6724    5164.6468  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0005842294 particles.
ngb iteration 2: need to repeat for 0000004281 particles.
ngb iteration 3: need to repeat for 0000001292 particles.
ngb iteration 4: need to repeat for 0000001116 particles.
ngb iteration 5: need to repeat for 0000000445 particles.
ngb iteration 6: need to repeat for 0000000328 particles.
ngb iteration 7: need to repeat for 0000000115 particles.
ngb iteration 8: need to repeat for 0000000006 particles.
ngb iteration 9: need to repeat for 0000000006 particles.
ngb iteration 10: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_0.957.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.053.hdf5

Begin to compute FoF group catalogues...  (presently allocated=4728.69 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3869.36 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3888 MB of temporary storage for domain decomposition... (presently allocated=3958.87 MB)
Before=245225
After=273985
NTopleaves= 239737  NTopnodes=273985 (space for 321369)
gravity work-load balance=1.01952   memory-balance=1.01952   SPH work-load balance=1.019
iter=0 exchange of 0574399244 particles (ret=0)
domain decomposition done. (took 7.99426 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.16907 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=3883.13 MB)
Tree construction.

Start linking particles (presently allocated=4806.73 MB)
links on local processor done (took 3.61822 sec).
Marked=0046166915 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=4916.32 MB) 
have done 0001021863 cross links (processed 0046166915, took 1.51479 sec)
have done 0000400230 cross links (processed 0030632056, took 1.40086 sec)
have done 0000263868 cross links (processed 0024580402, took 1.15971 sec)
have done 0000164202 cross links (processed 0014699683, took 1.13184 sec)
have done 0000095239 cross links (processed 0008143016, took 0.811251 sec)
have done 0000055092 cross links (processed 0005056312, took 0.767054 sec)
have done 0000034316 cross links (processed 0003669056, took 0.841039 sec)
have done 0000022229 cross links (processed 0002361470, took 0.889427 sec)
have done 0000014953 cross links (processed 0001180684, took 0.85663 sec)
have done 0000010447 cross links (processed 0000465023, took 0.49115 sec)
have done 0000006358 cross links (processed 0000326151, took 0.292616 sec)
have done 0000002912 cross links (processed 0000083564, took 0.203637 sec)
have done 0000001218 cross links (processed 0000020503, took 0.036911 sec)
have done 0000000658 cross links (processed 0000016514, took 0.038728 sec)
have done 0000000270 cross links (processed 0000006530, took 0.0367131 sec)
have done 0000000071 cross links (processed 0000001038, took 0.0337172 sec)
have done 0000000032 cross links (processed 0000000309, took 0.033437 sec)
have done 0000000016 cross links (processed 0000000145, took 0.0334859 sec)
have done 0000000021 cross links (processed 0000000261, took 0.0336709 sec)
have done 0000000006 cross links (processed 0000000198, took 0.0336909 sec)
have done 0000000013 cross links (processed 0000000263, took 0.0336642 sec)
have done 0000000018 cross links (processed 0000000218, took 0.0338299 sec)
have done 0000000004 cross links (processed 0000000068, took 0.0336809 sec)
have done 0000000003 cross links (processed 0000000014, took 0.0335891 sec)
have done 0000000003 cross links (processed 0000000012, took 0.0333431 sec)
have done 0000000002 cross links (processed 0000000015, took 0.033731 sec)
have done 0000000001 cross links (processed 0000000006, took 0.0332918 sec)
have done 0000000000 cross links (processed 0000000002, took 0.0333488 sec)
Local groups found.

group finding took = 14.6684 sec
Start finding nearest dm-particle (presently allocated=4806.73 MB)
still finding nearest... (presently allocated=4905.02 MB)
fof-nearest iteration 1: need to repeat for 261061959 particles.
still finding nearest... (presently allocated=4905.74 MB)
fof-nearest iteration 2: need to repeat for 242834705 particles.
still finding nearest... (presently allocated=4908.1 MB)
fof-nearest iteration 3: need to repeat for 225508831 particles.
still finding nearest... (presently allocated=4911.76 MB)
fof-nearest iteration 4: need to repeat for 194180492 particles.
still finding nearest... (presently allocated=4915.83 MB)
fof-nearest iteration 5: need to repeat for 138389077 particles.
still finding nearest... (presently allocated=4918.03 MB)
fof-nearest iteration 6: need to repeat for 66564178 particles.
still finding nearest... (presently allocated=4915.13 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 6.65376 sec
compiling local group data and catalogue took = 1.03773 sec

Total number of groups with at least 32 particles: 195505
Largest group has 13277089 particles.
Total number of particles in groups: 0157756861

group properties are now allocated.. (presently allocated=3983.34 MB)
computation of group properties took = 0.102638 sec
start global sorting of group catalogues number 11
LargestGroup = 5903.192935; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0469332 sec
Group catalogues globally sorted. took = 0.744506 sec
starting saving of group catalogue number 11
data//groups_011_z001p017
Group catalogues number 11 saved. took = 3.13475 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (275349611).
tree build for species 0 took 0.567734 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0202110999 particles. (took 11.4024 sec)
ngb iteration 2: need to repeat for 0164638535 particles. (took 7.33952 sec)
ngb iteration 3: need to repeat for 0149518952 particles. (took 5.54286 sec)
ngb iteration 4: need to repeat for 0138565923 particles. (took 4.81776 sec)
ngb iteration 5: need to repeat for 0124600115 particles. (took 4.37389 sec)
ngb iteration 6: need to repeat for 0103434452 particles. (took 3.92728 sec)
ngb iteration 7: need to repeat for 0076563215 particles. (took 3.29153 sec)
ngb iteration 8: need to repeat for 0050591775 particles. (took 2.54214 sec)
ngb iteration 9: need to repeat for 0030556039 particles. (took 1.85141 sec)
ngb iteration 10: need to repeat for 0017347772 particles. (took 1.25014 sec)
ngb iteration 11: need to repeat for 0009478693 particles. (took 0.751233 sec)
ngb iteration 12: need to repeat for 0005067737 particles. (took 0.434788 sec)
ngb iteration 13: need to repeat for 0002684367 particles. (took 0.271229 sec)
ngb iteration 14: need to repeat for 0001313334 particles. (took 0.178692 sec)
ngb iteration 15: need to repeat for 0000467040 particles. (took 0.123518 sec)
ngb iteration 16: need to repeat for 0000175701 particles. (took 0.0811839 sec)
ngb iteration 17: need to repeat for 0000083397 particles. (took 0.0646238 sec)
ngb iteration 18: need to repeat for 0000048624 particles. (took 0.0562701 sec)
ngb iteration 19: need to repeat for 0000031831 particles. (took 0.0528269 sec)
ngb iteration 20: need to repeat for 0000021760 particles. (took 0.0510449 sec)
ngb iteration 21: need to repeat for 0000015156 particles. (took 0.050211 sec)
ngb iteration 22: need to repeat for 0000010352 particles. (took 0.049618 sec)
ngb iteration 23: need to repeat for 0000006947 particles. (took 0.049031 sec)
ngb iteration 24: need to repeat for 0000004560 particles. (took 0.0522771 sec)
ngb iteration 25: need to repeat for 0000002867 particles. (took 0.048563 sec)
ngb iteration 26: need to repeat for 0000001770 particles. (took 0.048219 sec)
ngb iteration 27: need to repeat for 0000001074 particles. (took 0.0483549 sec)
ngb iteration 28: need to repeat for 0000000659 particles. (took 0.048388 sec)
ngb iteration 29: need to repeat for 0000000373 particles. (took 0.0484948 sec)
ngb iteration 30: need to repeat for 0000000201 particles. (took 0.0486062 sec)
ngb iteration 31: need to repeat for 0000000096 particles. (took 0.047894 sec)
ngb iteration 32: need to repeat for 0000000055 particles. (took 0.048907 sec)
ngb iteration 33: need to repeat for 0000000029 particles. (took 0.0509109 sec)
ngb iteration 34: need to repeat for 0000000017 particles. (took 0.048156 sec)
ngb iteration 35: need to repeat for 0000000008 particles. (took 0.0483561 sec)
ngb iteration 36: need to repeat for 0000000004 particles. (took 0.047909 sec)
ngb iteration 37: need to repeat for 0000000001 particles. (took 0.0487218 sec)
final operations ... 
density and smoothing length for species 0 took 49.545 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.606727 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0201579708 particles. (took 15.53 sec)
ngb iteration 2: need to repeat for 0161072775 particles. (took 7.87705 sec)
ngb iteration 3: need to repeat for 0141099217 particles. (took 5.9102 sec)
ngb iteration 4: need to repeat for 0128621293 particles. (took 4.79542 sec)
ngb iteration 5: need to repeat for 0115622440 particles. (took 4.18354 sec)
ngb iteration 6: need to repeat for 0097669530 particles. (took 3.72043 sec)
ngb iteration 7: need to repeat for 0075176568 particles. (took 3.22302 sec)
ngb iteration 8: need to repeat for 0052611485 particles. (took 2.61644 sec)
ngb iteration 9: need to repeat for 0034046369 particles. (took 1.97016 sec)
ngb iteration 10: need to repeat for 0020799725 particles. (took 1.36981 sec)
ngb iteration 11: need to repeat for 0012239252 particles. (took 0.888658 sec)
ngb iteration 12: need to repeat for 0007043129 particles. (took 0.556168 sec)
ngb iteration 13: need to repeat for 0004003554 particles. (took 0.348605 sec)
ngb iteration 14: need to repeat for 0002170190 particles. (took 0.231724 sec)
ngb iteration 15: need to repeat for 0001031228 particles. (took 0.163329 sec)
ngb iteration 16: need to repeat for 0000495204 particles. (took 0.111281 sec)
ngb iteration 17: need to repeat for 0000245532 particles. (took 0.0837181 sec)
ngb iteration 18: need to repeat for 0000124953 particles. (took 0.069175 sec)
ngb iteration 19: need to repeat for 0000063274 particles. (took 0.0610111 sec)
ngb iteration 20: need to repeat for 0000031411 particles. (took 0.0541799 sec)
ngb iteration 21: need to repeat for 0000015149 particles. (took 0.051569 sec)
ngb iteration 22: need to repeat for 0000006994 particles. (took 0.0503089 sec)
ngb iteration 23: need to repeat for 0000002967 particles. (took 0.048671 sec)
ngb iteration 24: need to repeat for 0000001253 particles. (took 0.0480969 sec)
ngb iteration 25: need to repeat for 0000000486 particles. (took 0.047658 sec)
ngb iteration 26: need to repeat for 0000000176 particles. (took 0.047652 sec)
ngb iteration 27: need to repeat for 0000000051 particles. (took 0.0475161 sec)
ngb iteration 28: need to repeat for 0000000015 particles. (took 0.0477791 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.0476131 sec)
final operations ... 
density and smoothing length for species 1 took 54.5195 sec
Tree construction for species 4 (11284877).
tree build for species 4 took 0.226177 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0007762601 particles. (took 4.64021 sec)
ngb iteration 2: need to repeat for 0006464773 particles. (took 1.96285 sec)
ngb iteration 3: need to repeat for 0005608472 particles. (took 1.47163 sec)
ngb iteration 4: need to repeat for 0005030215 particles. (took 1.18807 sec)
ngb iteration 5: need to repeat for 0004554078 particles. (took 0.998648 sec)
ngb iteration 6: need to repeat for 0004040519 particles. (took 0.846552 sec)
ngb iteration 7: need to repeat for 0003435456 particles. (took 0.758402 sec)
ngb iteration 8: need to repeat for 0002785285 particles. (took 0.643437 sec)
ngb iteration 9: need to repeat for 0002177897 particles. (took 0.549369 sec)
ngb iteration 10: need to repeat for 0001659789 particles. (took 0.450658 sec)
ngb iteration 11: need to repeat for 0001240135 particles. (took 0.383012 sec)
ngb iteration 12: need to repeat for 0000914554 particles. (took 0.310377 sec)
ngb iteration 13: need to repeat for 0000670411 particles. (took 0.262359 sec)
ngb iteration 14: need to repeat for 0000486385 particles. (took 0.217759 sec)
ngb iteration 15: need to repeat for 0000348047 particles. (took 0.175751 sec)
ngb iteration 16: need to repeat for 0000250830 particles. (took 0.135854 sec)
ngb iteration 17: need to repeat for 0000183728 particles. (took 0.108117 sec)
ngb iteration 18: need to repeat for 0000135964 particles. (took 0.0925791 sec)
ngb iteration 19: need to repeat for 0000101337 particles. (took 0.083209 sec)
ngb iteration 20: need to repeat for 0000076178 particles. (took 0.0784841 sec)
ngb iteration 21: need to repeat for 0000057630 particles. (took 0.0733809 sec)
ngb iteration 22: need to repeat for 0000044015 particles. (took 0.069505 sec)
ngb iteration 23: need to repeat for 0000033634 particles. (took 0.067049 sec)
ngb iteration 24: need to repeat for 0000025495 particles. (took 0.0660691 sec)
ngb iteration 25: need to repeat for 0000019149 particles. (took 0.065047 sec)
ngb iteration 26: need to repeat for 0000014043 particles. (took 0.063916 sec)
ngb iteration 27: need to repeat for 0000010065 particles. (took 0.0635269 sec)
ngb iteration 28: need to repeat for 0000007051 particles. (took 0.0634761 sec)
ngb iteration 29: need to repeat for 0000004701 particles. (took 0.063051 sec)
ngb iteration 30: need to repeat for 0000003019 particles. (took 0.0630138 sec)
ngb iteration 31: need to repeat for 0000001772 particles. (took 0.062983 sec)
ngb iteration 32: need to repeat for 0000001036 particles. (took 0.0625021 sec)
ngb iteration 33: need to repeat for 0000000587 particles. (took 0.0632961 sec)
ngb iteration 34: need to repeat for 0000000300 particles. (took 0.0654309 sec)
ngb iteration 35: need to repeat for 0000000147 particles. (took 0.0641608 sec)
ngb iteration 36: need to repeat for 0000000073 particles. (took 0.063081 sec)
ngb iteration 37: need to repeat for 0000000030 particles. (took 0.062593 sec)
ngb iteration 38: need to repeat for 0000000013 particles. (took 0.0626121 sec)
ngb iteration 39: need to repeat for 0000000004 particles. (took 0.062901 sec)
ngb iteration 40: need to repeat for 0000000001 particles. (took 0.0629621 sec)
final operations ... 
density and smoothing length for species 4 took 16.9204 sec
Tree construction.
tree build took 1.11405 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000014102 particles. (took 0.0757699 sec)
ngb iteration 2: need to repeat for 0000012028 particles. (took 0.076596 sec)
ngb iteration 3: need to repeat for 0000008834 particles. (took 0.07618 sec)
ngb iteration 4: need to repeat for 0000006517 particles. (took 0.0757589 sec)
ngb iteration 5: need to repeat for 0000005569 particles. (took 0.0748041 sec)
ngb iteration 6: need to repeat for 0000004790 particles. (took 0.0737491 sec)
ngb iteration 7: need to repeat for 0000003924 particles. (took 0.0769141 sec)
ngb iteration 8: need to repeat for 0000002980 particles. (took 0.0712509 sec)
ngb iteration 9: need to repeat for 0000002111 particles. (took 0.0691361 sec)
ngb iteration 10: need to repeat for 0000001427 particles. (took 0.06778 sec)
ngb iteration 11: need to repeat for 0000000907 particles. (took 0.066889 sec)
ngb iteration 12: need to repeat for 0000000563 particles. (took 0.0662081 sec)
ngb iteration 13: need to repeat for 0000000352 particles. (took 0.0654309 sec)
ngb iteration 14: need to repeat for 0000000221 particles. (took 0.0652959 sec)
ngb iteration 15: need to repeat for 0000000130 particles. (took 0.065032 sec)
ngb iteration 16: need to repeat for 0000000077 particles. (took 0.0666142 sec)
ngb iteration 17: need to repeat for 0000000052 particles. (took 0.0651028 sec)
ngb iteration 18: need to repeat for 0000000033 particles. (took 0.065438 sec)
ngb iteration 19: need to repeat for 0000000025 particles. (took 0.0646071 sec)
ngb iteration 20: need to repeat for 0000000017 particles. (took 0.064039 sec)
ngb iteration 21: need to repeat for 0000000012 particles. (took 0.0639629 sec)
ngb iteration 22: need to repeat for 0000000011 particles. (took 0.0636661 sec)
ngb iteration 23: need to repeat for 0000000005 particles. (took 0.063827 sec)
ngb iteration 24: need to repeat for 0000000005 particles. (took 0.0630751 sec)
ngb iteration 25: need to repeat for 0000000004 particles. (took 0.0627561 sec)
ngb iteration 26: need to repeat for 0000000004 particles. (took 0.0629649 sec)
ngb iteration 27: need to repeat for 0000000003 particles. (took 0.062916 sec)
ngb iteration 28: need to repeat for 0000000003 particles. (took 0.063035 sec)
ngb iteration 29: need to repeat for 0000000003 particles. (took 0.0635219 sec)
ngb iteration 30: need to repeat for 0000000001 particles. (took 0.0629351 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.0631471 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0631139 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.063123 sec)
ngb iteration 34: need to repeat for 0000000001 particles. (took 0.0639541 sec)
final operations ... 
density and smoothing length for species 5 took 2.54951 sec
Tree construction for species 0 (275349611).
tree build for species 0 took 0.567651 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 22.0796 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.603615 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 10.867 sec
Tree construction for species 4 (11284877).
tree build for species 4 took 0.216389 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 4.96224 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.158365 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.07632 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.0634 sec
saving densities took 3.03499 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 4481346 particles.)
the other 195504 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 16697 - 84040215 

subfind_exchange()() took 2.50312 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=5449.36 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3888 MB of temporary storage for domain decomposition... (presently allocated=5538.86 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 5538.87 Mbyte (on task=0), Smallest = 4092.53 Mbyte, Average = 4118.72 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1054       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9206  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3420  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7634  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7122    2035.4755  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1470.5255    3506.0010  allocate_memory()/allocate.c/85
   0 2971 0              MetP    326.0171    3832.0181  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.3467    3869.3648  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5872    3883.1278  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     37.3144    3920.4422  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     62.1906    3982.6328  fof_fof()/fof.c/337
   0 2978 0             Group      0.7035    3983.3363  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1466.0262    5449.3625  subfind()/subfind.c/376
   0 2982 0          TopNodes     15.9370    5465.4753  domain_allocate()/domain.c/570
   0 2983 0        domain_key     48.8428    5514.3181  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.2259    5515.5605  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.2259    5516.7864  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.2259    5518.0123  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.2259    5519.2383  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.2259    5520.4697  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.2259    5521.7011  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     17.1630    5538.8641  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=200225
After=231897
NTopleaves= 202910  NTopnodes=231897 (space for 321369)
gravity work-load balance=1.02181   memory-balance=1.02181   SPH work-load balance=1.02305
iter=0 exchange of 0013250221 particles (ret=0)
domain decomposition done. (took 1.88165 sec)
Freed 4.0957 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 6302.64 Mbyte (on task=0), Smallest = 4856.31 Mbyte, Average = 4882.5 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1054       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9206  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3420  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7634  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7122    2035.4755  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1470.5255    3506.0010  allocate_memory()/allocate.c/85
   0 2971 0              MetP    326.0171    3832.0181  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.3467    3869.3648  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5872    3883.1278  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     37.3144    3920.4422  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     62.1906    3982.6328  fof_fof()/fof.c/337
   0 2978 0             Group      0.7035    3983.3363  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1466.0262    5449.3625  subfind()/subfind.c/376
   0 2982 0          TopNodes     11.5000    5461.0383  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.7740    5461.8123  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    431.5104    5893.3227  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    359.5920    6252.9147  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     25.3060    6278.2207  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     24.4214    6302.6421  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 2.2889 sec  (presently allocated=6302.64 MB)
force_treebuild() took 2.13408 sec (presently allocated=6302.64 MB)
Start find_linkngb (37427 particles on task=0)
find linkngb iteration 1: need to repeat for 0013064279 particles. (took 0.993356 sec)
find linkngb iteration 2: need to repeat for 0012631858 particles. (took 0.6901 sec)
find linkngb iteration 3: need to repeat for 0011531712 particles. (took 0.481704 sec)
find linkngb iteration 4: need to repeat for 0010894880 particles. (took 0.363119 sec)
find linkngb iteration 5: need to repeat for 0009730378 particles. (took 0.338688 sec)
find linkngb iteration 6: need to repeat for 0007965216 particles. (took 0.295088 sec)
find linkngb iteration 7: need to repeat for 0005790636 particles. (took 0.236277 sec)
find linkngb iteration 8: need to repeat for 0003763974 particles. (took 0.169044 sec)
find linkngb iteration 9: need to repeat for 0002255346 particles. (took 0.111566 sec)
find linkngb iteration 10: need to repeat for 0001280202 particles. (took 0.073807 sec)
find linkngb iteration 11: need to repeat for 0000705282 particles. (took 0.0481951 sec)
find linkngb iteration 12: need to repeat for 0000366921 particles. (took 0.0325701 sec)
find linkngb iteration 13: need to repeat for 0000127856 particles. (took 0.0218692 sec)
find linkngb iteration 14: need to repeat for 0000043555 particles. (took 0.0133162 sec)
find linkngb iteration 15: need to repeat for 0000019748 particles. (took 0.00830412 sec)
find linkngb iteration 16: need to repeat for 0000009865 particles. (took 0.00521708 sec)
find linkngb iteration 17: need to repeat for 0000005075 particles. (took 0.00325608 sec)
find linkngb iteration 18: need to repeat for 0000002748 particles. (took 0.00187707 sec)
find linkngb iteration 19: need to repeat for 0000001586 particles. (took 0.00110006 sec)
find linkngb iteration 20: need to repeat for 0000000994 particles. (took 0.000742912 sec)
find linkngb iteration 21: need to repeat for 0000000617 particles. (took 0.000605822 sec)
find linkngb iteration 22: need to repeat for 0000000397 particles. (took 0.000556946 sec)
find linkngb iteration 23: need to repeat for 0000000249 particles. (took 0.000518084 sec)
find linkngb iteration 24: need to repeat for 0000000145 particles. (took 0.000496864 sec)
find linkngb iteration 25: need to repeat for 0000000075 particles. (took 0.000470161 sec)
find linkngb iteration 26: need to repeat for 0000000037 particles. (took 0.000443935 sec)
find linkngb iteration 27: need to repeat for 0000000019 particles. (took 0.000457048 sec)
find linkngb iteration 28: need to repeat for 0000000005 particles. (took 0.000418901 sec)
find linkngb iteration 29: need to repeat for 0000000002 particles. (took 0.000431061 sec)
find linkngb iteration 30: need to repeat for 0000000001 particles. (took 0.000432014 sec)
find_linkngb() took 3.89568 sec
Start finding nearest two (37427 particles on task=0)
find_nearesttwo() took 0.510064 sec (presently allocated=6305.5 MB)
parallel sort of densities done. took 0.0774701 sec
building distributed linked list. (presently allocated 6305.13 MB)
identification of primary candidates took 392.704 sec
adding background as candidate took 0.336092 sec
establishing of rank order took 122.773 sec  (p=13277089, grouplen=13277089) presently allocated 6305.13 MB

total number of subhalo candidates=48264

number of subhalo candidates that can be done independently=42459.
(Largest size is 2472, finding them took 0.0144191 sec)
particles are marked (took 78.1568)
independent subhalos are assembled on individual CPUs for unbinding (0.15425 sec, (presently allocated=6305.13 MB)
unbinding of independent ones took 0.0624971 sec
particles have returned to their original processor (0.203002 sec, presently allocated 6305.13 MB)

number of subhalo candidates that can be done independently=5266.
(Largest size is 21104, finding them took 1.15695 sec)
particles are marked (took 53.2899)
independent subhalos are assembled on individual CPUs for unbinding (0.149064 sec, (presently allocated=6305.13 MB)
unbinding of independent ones took 0.891456 sec
particles have returned to their original processor (0.201813 sec, presently allocated 6305.13 MB)

number of subhalo candidates that can be done independently=491.
(Largest size is 115745, finding them took 1.1642 sec)
particles are marked (took 47.543)
independent subhalos are assembled on individual CPUs for unbinding (0.156718 sec, (presently allocated=6305.13 MB)
unbinding of independent ones took 6.08726 sec
particles have returned to their original processor (0.20985 sec, presently allocated 6305.13 MB)

number of subhalo candidates that can be done independently=42.
(Largest size is 205876, finding them took 1.04375 sec)
particles are marked (took 44.0665)
independent subhalos are assembled on individual CPUs for unbinding (0.167706 sec, (presently allocated=6305.13 MB)
unbinding of independent ones took 13.511 sec
particles have returned to their original processor (0.225871 sec, presently allocated 6305.13 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 308685, finding them took 0.630175 sec)
particles are marked (took 33.7071)
independent subhalos are assembled on individual CPUs for unbinding (0.128704 sec, (presently allocated=6305.13 MB)
unbinding of independent ones took 0.343346 sec
particles have returned to their original processor (0.181949 sec, presently allocated 6305.13 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 308685, finding them took 0.568302 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=305949 ... maximum alloacted 6305.27 MB
took 11.7808 sec
collective unbinding of nr=1 (4) of length=308685 ... maximum alloacted 6305.27 MB
took 7.54479 sec
collective unbinding of nr=2 (4) of length=2527350 ... maximum alloacted 6305.27 MB
took 51.2933 sec
collective unbinding of nr=3 (4) of length=13277089 ... maximum alloacted 6305.27 MB
took 294.414 sec

the collective unbinding of remaining halos took 397.313 sec

found 3040 bound substructures in FoF group of length 13277089
determination of parent subhalo took 0.0481331 sec (presently allocated 6305.27 MB)
determining substructure properties took 306.575 sec (presently allocated 6305.27 MB)
processing of collective halos took 1523.07 sec
sort of local particles()() took 0.750671 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 645.164 sec

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unsorting of local particles()() took 0.65158 sec
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Task 1: testing particles ...
subfind_exchange() (for return to original CPU)  took 4.46852 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=5449.36 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3888 MB of temporary storage for domain decomposition... (presently allocated=5538.86 MB)
Before=247433
After=275505
NTopleaves= 241067  NTopnodes=275505 (space for 321369)
gravity work-load balance=1.01907   memory-balance=1.01907   SPH work-load balance=1.01611
iter=0 exchange of 0574526890 particles (ret=0)
domain decomposition done. (took 8.07406 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.09949 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000163970 particles. (took 0.0273569 sec)
SO iteration 2: need to repeat for 0000163970 particles. (took 0.0220749 sec)
SO iteration 3: need to repeat for 0000163970 particles. (took 0.0235941 sec)
SO iteration 4: need to repeat for 0000163970 particles. (took 0.0235419 sec)
SO iteration 5: need to repeat for 0000163970 particles. (took 0.0235281 sec)
SO iteration 6: need to repeat for 0000163970 particles. (took 0.023525 sec)
SO iteration 7: need to repeat for 0000163970 particles. (took 0.0232348 sec)
SO iteration 8: need to repeat for 0000163970 particles. (took 0.0234489 sec)
SO iteration 9: need to repeat for 0000163970 particles. (took 0.02332 sec)
SO iteration 10: need to repeat for 0000163970 particles. (took 0.0234048 sec)
SO iteration 11: need to repeat for 0000163970 particles. (took 0.0233929 sec)
SO iteration 12: need to repeat for 0000163970 particles. (took 0.023314 sec)
SO iteration 13: need to repeat for 0000163970 particles. (took 0.0233109 sec)
SO iteration 14: need to repeat for 0000163970 particles. (took 0.0232871 sec)
SO iteration 15: need to repeat for 0000161809 particles. (took 0.023236 sec)
SO iteration 16: need to repeat for 0000001235 particles. (took 0.022505 sec)
SO iteration 17: need to repeat for 0000000047 particles. (took 0.00153303 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000874996 sec)
SO iteration 1: need to repeat for 0000163970 particles. (took 0.023315 sec)
SO iteration 2: need to repeat for 0000163970 particles. (took 0.01965 sec)
SO iteration 3: need to repeat for 0000163970 particles. (took 0.021245 sec)
SO iteration 4: need to repeat for 0000163970 particles. (took 0.0212111 sec)
SO iteration 5: need to repeat for 0000163970 particles. (took 0.020637 sec)
SO iteration 6: need to repeat for 0000163970 particles. (took 0.0205169 sec)
SO iteration 7: need to repeat for 0000163970 particles. (took 0.020674 sec)
SO iteration 8: need to repeat for 0000163970 particles. (took 0.0207331 sec)
SO iteration 9: need to repeat for 0000163970 particles. (took 0.020601 sec)
SO iteration 10: need to repeat for 0000163970 particles. (took 0.0206389 sec)
SO iteration 11: need to repeat for 0000163970 particles. (took 0.020664 sec)
SO iteration 12: need to repeat for 0000163970 particles. (took 0.020592 sec)
SO iteration 13: need to repeat for 0000163970 particles. (took 0.020555 sec)
SO iteration 14: need to repeat for 0000163970 particles. (took 0.020617 sec)
SO iteration 15: need to repeat for 0000163120 particles. (took 0.0208108 sec)
SO iteration 16: need to repeat for 0000046378 particles. (took 0.020524 sec)
SO iteration 17: need to repeat for 0000000525 particles. (took 0.0102062 sec)
SO iteration 18: need to repeat for 0000000035 particles. (took 0.00115299 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.00079298 sec)
SO iteration 1: need to repeat for 0000163970 particles. (took 0.0233231 sec)
SO iteration 2: need to repeat for 0000163970 particles. (took 0.0194111 sec)
SO iteration 3: need to repeat for 0000163970 particles. (took 0.0173039 sec)
SO iteration 4: need to repeat for 0000163970 particles. (took 0.0183399 sec)
SO iteration 5: need to repeat for 0000163970 particles. (took 0.0178318 sec)
SO iteration 6: need to repeat for 0000163970 particles. (took 0.0178959 sec)
SO iteration 7: need to repeat for 0000163970 particles. (took 0.017601 sec)
SO iteration 8: need to repeat for 0000163970 particles. (took 0.01772 sec)
SO iteration 9: need to repeat for 0000163970 particles. (took 0.0176811 sec)
SO iteration 10: need to repeat for 0000163970 particles. (took 0.0177329 sec)
SO iteration 11: need to repeat for 0000163970 particles. (took 0.017698 sec)
SO iteration 12: need to repeat for 0000163970 particles. (took 0.0177851 sec)
SO iteration 13: need to repeat for 0000163970 particles. (took 0.0175891 sec)
SO iteration 14: need to repeat for 0000163970 particles. (took 0.017591 sec)
SO iteration 15: need to repeat for 0000163956 particles. (took 0.0177741 sec)
SO iteration 16: need to repeat for 0000162635 particles. (took 0.0176799 sec)
SO iteration 17: need to repeat for 0000077438 particles. (took 0.017678 sec)
SO iteration 18: need to repeat for 0000001609 particles. (took 0.0124509 sec)
SO iteration 19: need to repeat for 0000000062 particles. (took 0.00134706 sec)
SO iteration 20: need to repeat for 0000000002 particles. (took 0.000823975 sec)
SO iteration 1: need to repeat for 0000163970 particles. (took 0.02406 sec)
SO iteration 2: need to repeat for 0000163970 particles. (took 0.0220039 sec)
SO iteration 3: need to repeat for 0000163970 particles. (took 0.023423 sec)
SO iteration 4: need to repeat for 0000163970 particles. (took 0.023556 sec)
SO iteration 5: need to repeat for 0000163970 particles. (took 0.023474 sec)
SO iteration 6: need to repeat for 0000163970 particles. (took 0.0234499 sec)
SO iteration 7: need to repeat for 0000163970 particles. (took 0.0234761 sec)
SO iteration 8: need to repeat for 0000163970 particles. (took 0.023632 sec)
SO iteration 9: need to repeat for 0000163970 particles. (took 0.0233879 sec)
SO iteration 10: need to repeat for 0000163970 particles. (took 0.0234032 sec)
SO iteration 11: need to repeat for 0000163970 particles. (took 0.0234411 sec)
SO iteration 12: need to repeat for 0000163970 particles. (took 0.023149 sec)
SO iteration 13: need to repeat for 0000163970 particles. (took 0.0231121 sec)
SO iteration 14: need to repeat for 0000163970 particles. (took 0.0233002 sec)
SO iteration 15: need to repeat for 0000161815 particles. (took 0.0232301 sec)
SO iteration 16: need to repeat for 0000001284 particles. (took 0.022449 sec)
SO iteration 17: need to repeat for 0000000049 particles. (took 0.00152683 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000867128 sec)
SO iteration 1: need to repeat for 0000163970 particles. (took 0.0233121 sec)
SO iteration 2: need to repeat for 0000163970 particles. (took 0.0200081 sec)
SO iteration 3: need to repeat for 0000163970 particles. (took 0.0220931 sec)
SO iteration 4: need to repeat for 0000163970 particles. (took 0.022393 sec)
SO iteration 5: need to repeat for 0000163970 particles. (took 0.0225461 sec)
SO iteration 6: need to repeat for 0000163970 particles. (took 0.022588 sec)
SO iteration 7: need to repeat for 0000163970 particles. (took 0.0225611 sec)
SO iteration 8: need to repeat for 0000163970 particles. (took 0.022481 sec)
SO iteration 9: need to repeat for 0000163970 particles. (took 0.022521 sec)
SO iteration 10: need to repeat for 0000163970 particles. (took 0.022671 sec)
SO iteration 11: need to repeat for 0000163970 particles. (took 0.0225251 sec)
SO iteration 12: need to repeat for 0000163970 particles. (took 0.022536 sec)
SO iteration 13: need to repeat for 0000163970 particles. (took 0.022475 sec)
SO iteration 14: need to repeat for 0000163970 particles. (took 0.022687 sec)
SO iteration 15: need to repeat for 0000161944 particles. (took 0.0228639 sec)
SO iteration 16: need to repeat for 0000003382 particles. (took 0.02492 sec)
SO iteration 17: need to repeat for 0000000095 particles. (took 0.00204706 sec)
SO iteration 18: need to repeat for 0000000004 particles. (took 0.000863791 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.000799894 sec)
SO iteration 1: need to repeat for 0000163970 particles. (took 0.0234969 sec)
SO iteration 2: need to repeat for 0000163970 particles. (took 0.0196352 sec)
SO iteration 3: need to repeat for 0000163970 particles. (took 0.020782 sec)
SO iteration 4: need to repeat for 0000163970 particles. (took 0.0201211 sec)
SO iteration 5: need to repeat for 0000163970 particles. (took 0.020097 sec)
SO iteration 6: need to repeat for 0000163970 particles. (took 0.0200391 sec)
SO iteration 7: need to repeat for 0000163970 particles. (took 0.020097 sec)
SO iteration 8: need to repeat for 0000163970 particles. (took 0.0203581 sec)
SO iteration 9: need to repeat for 0000163970 particles. (took 0.0200059 sec)
SO iteration 10: need to repeat for 0000163970 particles. (took 0.020071 sec)
SO iteration 11: need to repeat for 0000163970 particles. (took 0.0202339 sec)
SO iteration 12: need to repeat for 0000163970 particles. (took 0.0201409 sec)
SO iteration 13: need to repeat for 0000163970 particles. (took 0.0200999 sec)
SO iteration 14: need to repeat for 0000163970 particles. (took 0.020195 sec)
SO iteration 15: need to repeat for 0000163486 particles. (took 0.0201051 sec)
SO iteration 16: need to repeat for 0000123465 particles. (took 0.0200999 sec)
SO iteration 17: need to repeat for 0000001143 particles. (took 0.0174279 sec)
SO iteration 18: need to repeat for 0000000062 particles. (took 0.001369 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.00079608 sec)
SO iteration 1: need to repeat for 0000163970 particles. (took 0.023314 sec)
SO iteration 2: need to repeat for 0000163970 particles. (took 0.019877 sec)
SO iteration 3: need to repeat for 0000163970 particles. (took 0.0173841 sec)
SO iteration 4: need to repeat for 0000163970 particles. (took 0.01759 sec)
SO iteration 5: need to repeat for 0000163970 particles. (took 0.0174141 sec)
SO iteration 6: need to repeat for 0000163970 particles. (took 0.01739 sec)
SO iteration 7: need to repeat for 0000163970 particles. (took 0.017282 sec)
SO iteration 8: need to repeat for 0000163970 particles. (took 0.017293 sec)
SO iteration 9: need to repeat for 0000163970 particles. (took 0.0173199 sec)
SO iteration 10: need to repeat for 0000163970 particles. (took 0.0173669 sec)
SO iteration 11: need to repeat for 0000163970 particles. (took 0.017344 sec)
SO iteration 12: need to repeat for 0000163970 particles. (took 0.017369 sec)
SO iteration 13: need to repeat for 0000163970 particles. (took 0.0172801 sec)
SO iteration 14: need to repeat for 0000163970 particles. (took 0.0172381 sec)
SO iteration 15: need to repeat for 0000163962 particles. (took 0.017313 sec)
SO iteration 16: need to repeat for 0000163088 particles. (took 0.017241 sec)
SO iteration 17: need to repeat for 0000132167 particles. (took 0.0171659 sec)
SO iteration 18: need to repeat for 0000003967 particles. (took 0.0158651 sec)
SO iteration 19: need to repeat for 0000000116 particles. (took 0.00205207 sec)
SO iteration 20: need to repeat for 0000000004 particles. (took 0.000820875 sec)
determining spherical overdensity masses took 2.4618 sec
finding spherical overdensity particles took 0.361549 sec
determining contamination of halos took 0.283831 sec
Global sort of Groups took 0.0813942 sec
Global sort of SubGroups took 0.198384 sec
Global sort of IDs took 0.386024 sec
Writing block 0 (GLEN), n=544, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2176d
Writing block 1 (GOFF), n=544, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2176d
Writing block 2 (MTOT), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 3 (GPOS), n=544, ptype=0, dtype=1, ndim=3, bpb=4 bytes=6528d
Writing block 4 (MMEA), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 5 (RMEA), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 6 (MCRI), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 7 (RCRI), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 8 (MTOP), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 9 (RTOP), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 17 (NCON), n=544, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2176d
Writing block 18 (MCON), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 22 (NSUB), n=544, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2176d
Writing block 23 (FSUB), n=544, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2176d
Writing block 24 (SLEN), n=3586, ptype=1, dtype=0, ndim=1, bpb=4 bytes=14344d
Writing block 25 (SOFF), n=3586, ptype=1, dtype=0, ndim=1, bpb=4 bytes=14344d
Writing block 26 (SSUB), n=3586, ptype=1, dtype=0, ndim=1, bpb=4 bytes=14344d
Writing block 27 (MSUB), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 28 (SPOS), n=3586, ptype=1, dtype=1, ndim=3, bpb=4 bytes=43032d
Writing block 29 (SVEL), n=3586, ptype=1, dtype=1, ndim=3, bpb=4 bytes=43032d
Writing block 30 (SCM ), n=3586, ptype=1, dtype=1, ndim=3, bpb=4 bytes=43032d
Writing block 33 (VMAX), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 34 (RMAX), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 35 (RHMS), n=3586, ptype=1, dtype=1, ndim=6, bpb=4 bytes=86064d
Writing block 36 (MTRH), n=3586, ptype=1, dtype=1, ndim=6, bpb=4 bytes=86064d
Writing block 37 (MBID), n=3586, ptype=1, dtype=2, ndim=1, bpb=8 bytes=28688d
Writing block 38 (GRNR), n=3586, ptype=1, dtype=0, ndim=1, bpb=4 bytes=14344d
Writing block 39 (SUBN), n=3586, ptype=1, dtype=0, ndim=1, bpb=4 bytes=14344d
Writing block 40 (SMST), n=3586, ptype=1, dtype=1, ndim=6, bpb=4 bytes=86064d
Writing block 53 (PID ), n=398593, ptype=2, dtype=2, ndim=1, bpb=8 bytes=3188744d
Writing block 54 (SLEN), n=3586, ptype=1, dtype=0, ndim=6, bpb=4 bytes=86064d
Writing block 55 (STEN), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 56 (SKEN), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 57 (SUEN), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 58 (SUIT), n=3586, ptype=1, dtype=1, ndim=9, bpb=4 bytes=129096d
Writing block 59 (BHMA), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 60 (BHMD), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 61 (SVD ), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 62 (SVDH), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 63 (HMPR), n=3586, ptype=1, dtype=1, ndim=6, bpb=4 bytes=86064d
Writing block 64 (SSFR), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 65 (SSA ), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 66 (SSBZ), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 67 (SSIM), n=3586, ptype=1, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 68 (SSPI), n=3586, ptype=4, dtype=1, ndim=3, bpb=4 bytes=43032d
Writing block 69 (GSPI), n=3586, ptype=1, dtype=1, ndim=3, bpb=4 bytes=43032d
Writing block 70 (FSPI), n=3586, ptype=5, dtype=1, ndim=3, bpb=4 bytes=43032d
Writing block 71 (SFM ), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 72 (SFMT), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 73 (SFME), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 74 (SFAE), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 75 (SFKE), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 76 (SFTE), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 77 (SMWP), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 78 (SMM ), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 79 (SMMS), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 80 (SFZ ), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 81 (SFZS), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 82 (SSIA), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 83 (SIAS), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 84 (SMET), n=3586, ptype=5, dtype=1, ndim=9, bpb=4 bytes=129096d
Writing block 85 (SMTS), n=3586, ptype=5, dtype=1, ndim=9, bpb=4 bytes=129096d
Writing block 86 (MF1 ), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 87 (MeF1), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 88 (MF  ), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 89 (MeF2), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 90 (MFA ), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 91 (MeFA), n=3586, ptype=5, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 92 (NSPI), n=3586, ptype=6, dtype=1, ndim=3, bpb=4 bytes=43032d
Writing block 93 (NFM ), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 94 (NFMT), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 95 (NFME), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 96 (NFAE), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 97 (NFKE), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 98 (NFTE), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 99 (SMWP), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 100 (SMM ), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 101 (SMMS), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 102 (SSIA), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 103 (SIAS), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 104 (SMET), n=3586, ptype=6, dtype=1, ndim=9, bpb=4 bytes=129096d
Writing block 105 (SMTS), n=3586, ptype=6, dtype=1, ndim=9, bpb=4 bytes=129096d
Writing block 106 (MF1 ), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 107 (MeF1), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 108 (MF2 ), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 109 (MeF2), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 110 (MFA ), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 111 (MeFA), n=3586, ptype=6, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 112 (SM  ), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 113 (SFKE), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 114 (SFAE), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 115 (SMWP), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 116 (SMM ), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 117 (SMMS), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 118 (SSIA), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 119 (SIAS), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 120 (SMET), n=3586, ptype=4, dtype=1, ndim=9, bpb=4 bytes=129096d
Writing block 121 (SMTS), n=3586, ptype=4, dtype=1, ndim=9, bpb=4 bytes=129096d
Writing block 122 (MF1 ), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 123 (MeF1), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 124 (MF2 ), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 125 (MeF2), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 126 (MFA ), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 127 (MeFA), n=3586, ptype=4, dtype=1, ndim=1, bpb=4 bytes=14344d
Writing block 128 (MMe5), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 129 (RMe5), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 130 (MCr5), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 131 (RCr5), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 132 (MMe2), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 133 (RMe2), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 134 (MCr2), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 135 (RCr2), n=544, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2176d
Writing block 136 (MAPT), n=3586, ptype=7, dtype=1, ndim=60, bpb=4 bytes=860640d
Writing block 137 (SAPT), n=3586, ptype=8, dtype=1, ndim=10, bpb=4 bytes=143440d
Writing block 138 (VAPT), n=3586, ptype=9, dtype=1, ndim=10, bpb=4 bytes=143440d
Writing block 139 (BEGY), n=398593, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1594372d
Subgroup catalogues saved. took = 9.91605 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 4.660108e-01
 eagle_ph_key_ort: type= 1 timed by volker 4.908409e-01
 eagle_ph_key_ort: type= 2 timed by volker 6.401491e-02
 eagle_ph_key_ort: type= 3 timed by volker 4.974794e-02
 eagle_ph_key_ort: type= 4 timed by volker 8.426785e-02
 eagle_ph_key_ort: type= 5 timed by volker 3.431010e-02
 eagle_ph_key_ort: timing parallel sort = 1.233398e+00
 eagle_fetch_elements: we are using 1689287680 bytes of memory, FreeBytes= 2111609600

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 5486.21 Mbyte (on task=0), Smallest = 4039.3 Mbyte, Average = 4065.85 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1054       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9206  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3420  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7634  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7122    2035.4755  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1470.5255    3506.0010  allocate_memory()/allocate.c/85
   0 2971 0              MetP    326.0171    3832.0181  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.3467    3869.3648  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5872    3883.1278  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     37.3144    3920.4422  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     62.1906    3982.6328  fof_fof()/fof.c/337
   0 2978 0             Group      0.7035    3983.3363  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1466.0262    5449.3625  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.8497    5486.2122  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1790441 number of bytes = 572941120

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 7090.83 Mbyte (on task=0), Smallest = 5635.13 Mbyte, Average = 5667.57 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1054       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9206  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3420  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7634  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7122    2035.4755  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1470.5255    3506.0010  allocate_memory()/allocate.c/85
   0 2971 0              MetP    326.0171    3832.0181  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.3467    3869.3648  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.5872    3883.1278  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     37.3144    3920.4422  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     62.1906    3982.6328  fof_fof()/fof.c/337
   0 2978 0             Group      0.7035    3983.3363  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1466.0262    5449.3625  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.8497    5486.2122  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      6.8300    5493.0422  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      6.8300    5499.8721  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      6.8300    5506.7021  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    546.3992    6053.1014  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    546.3992    6599.5006  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    491.3293    7090.8299  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 3.526686e+00
 eagle_fetch_elements: we are using 1689287680 bytes of memory, FreeBytes= 2111609600
 eagle_fetch_elements: max_bytes= 504, max_elements= 1272144 number of bytes = 641160576
 eagle_ph_key_ort: timing parallel SphP exchange = 2.515402e+00
 eagle_fetch_elements: we are using 1689287680 bytes of memory, FreeBytes= 2111609600
 eagle_fetch_elements: max_bytes= 384, max_elements= 2126705 number of bytes = 816654720
 eagle_ph_key_ort: timing parallel MetP exchange = 2.299800e-01
 eagle_fetch_elements: we are using 1689287680 bytes of memory, FreeBytes= 2111609600
 eagle_fetch_elements: max_bytes= 256, max_elements= 3223785 number of bytes = 825288960
 eagle_ph_key_ort: timing parallel BHP exchange = 7.428885e-03
Sorting particle-data by peano-hilbert key took = 7.87937 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1689287680 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1790441 number of bytes= 572941120
 eagle_ph_restore: timing parallel P exchange = 3.442304e+00
 eagle_send_elements: we are using 1689287680 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1272144 number of bytes= 641160576
 eagle_ph_restore: timing parallel SphP exchange = 2.573665e+00
 eagle_send_elements: we are using 1689287680 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2126705 number of bytes= 816654720
 eagle_ph_restore: timing parallel MetP exchange = 2.496412e-01
 eagle_send_elements: we are using 1689287680 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3223785 number of bytes= 825288960
 eagle_ph_restore: timing parallel BHP exchange = 6.341934e-03
Restoring original order after ph key sorting took = 6.29001 sec

finished writing particle file...

Finished with SUBFIND.  (total time=2572.04 sec)

Finished computing FoF groups.  (presently allocated=3883.13 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3869.36 MB)
Allocated 16.1128 MByte for top-level domain structure
use of 73.3888 MB of temporary storage for domain decomposition... (presently allocated=3958.87 MB)
Before=243625
After=273969
NTopleaves= 239723  NTopnodes=273969 (space for 321369)
gravity work-load balance=1.02069   memory-balance=1.02069   SPH work-load balance=1.02138
iter=0 exchange of 0574403420 particles (ret=0)
domain decomposition done. (took 7.8918 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.1698 MByte in top-level domain structure
Tree construction.
task 22: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
task 22: endrun called with an error level of 124


task 45: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
task 45: endrun called with an error level of 124


task 67: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
task 67: endrun called with an error level of 124


task 90: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
task 90: endrun called with an error level of 124


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


task 112: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 112:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 112
Finished FOF, total time doing fof/subfind = 2617.72 s
task 0: endrun called with an error level of 124


task 157: endrun called with an error level of 124


task 225: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 337: endrun called with an error level of 124


task 270: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 247: endrun called with an error level of 124


task 202: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 135: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
task 292: endrun called with an error level of 124


task 292: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
task 315: endrun called with an error level of 124


task 315: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
task 180: endrun called with an error level of 124


task 180: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
task 157: endrun called with an error level of 124


task 225: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
task 337: endrun called with an error level of 124


task 270: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
task 247: endrun called with an error level of 124


task 202: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
task 135: endrun called with an error level of 124


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


/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62920.32 Mb (on task=200), Smallest =   62720.09 Mb (on task=0), Average =   62874.19 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=88), Smallest =   64531.71 Mb (on task=112), Average =   64532.01 Mb
Committed_AS:	 Largest =    1811.90 Mb (on task=0), Smallest =    1611.68 Mb (on task=200), Average =    1657.82 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=16), Smallest =   16266.08 Mb (on task=48), Average =   16310.85 Mb
AllocMem:	 Largest =    1811.90 Mb (on task=0), Smallest =    1611.68 Mb (on task=200), Average =    1657.82 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 360 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N8':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         7500
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                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 2033.08 MByte for particle storage.

Allocated 1475.03 MByte for storage of SPH data.

Allocated 323.448 MByte for storage of MET data.

Allocated 37.4609 MByte for storage of BH data.


reading file `data//snapshot_010_z001p151/snap_010_z001p151.0.hdf5' on task=0 (contains 36476427 particles.)
distributing this file to tasks 0-21
Type 0 (gas):   17129949  (tot=     0276193643) masstab=0
Type 1 (halo):  18066976  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14409  (tot=     0000254233) masstab=0
Type 3 (bulge):   296628  (tot=     0002602064) masstab=0
Type 4 (stars):   967214  (tot=     0010442284) masstab=0
Type 5 (bndry):     1251  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.5.hdf5' on task=112 (contains 36064090 particles.)
distributing this file to tasks 112-134
Type 0 (gas):   17206506  (tot=     0276193643) masstab=0
Type 1 (halo):  18016554  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15241  (tot=     0000254233) masstab=0
Type 3 (bulge):   158485  (tot=     0002602064) masstab=0
Type 4 (stars):   665964  (tot=     0010442284) masstab=0
Type 5 (bndry):     1340  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.10.hdf5' on task=225 (contains 36093357 particles.)
distributing this file to tasks 225-246
Type 0 (gas):   17280041  (tot=     0276193643) masstab=0
Type 1 (halo):  17991722  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14089  (tot=     0000254233) masstab=0
Type 3 (bulge):   248179  (tot=     0002602064) masstab=0
Type 4 (stars):   558054  (tot=     0010442284) masstab=0
Type 5 (bndry):     1272  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.2.hdf5' on task=45 (contains 36256018 particles.)
distributing this file to tasks 45-66
Type 0 (gas):   17287124  (tot=     0276193643) masstab=0
Type 1 (halo):  18001035  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14746  (tot=     0000254233) masstab=0
Type 3 (bulge):   193722  (tot=     0002602064) masstab=0
Type 4 (stars):   758149  (tot=     0010442284) masstab=0
Type 5 (bndry):     1242  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.11.hdf5' on task=247 (contains 35882514 particles.)
distributing this file to tasks 247-269
Type 0 (gas):   17205471  (tot=     0276193643) masstab=0
Type 1 (halo):  17978420  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18594  (tot=     0000254233) masstab=0
Type 3 (bulge):    99771  (tot=     0002602064) masstab=0
Type 4 (stars):   578963  (tot=     0010442284) masstab=0
Type 5 (bndry):     1295  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.12.hdf5' on task=270 (contains 35870555 particles.)
distributing this file to tasks 270-291
Type 0 (gas):   17390020  (tot=     0276193643) masstab=0
Type 1 (halo):  17878456  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11364  (tot=     0000254233) masstab=0
Type 3 (bulge):    85509  (tot=     0002602064) masstab=0
Type 4 (stars):   504011  (tot=     0010442284) masstab=0
Type 5 (bndry):     1195  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.14.hdf5' on task=315 (contains 35822965 particles.)
distributing this file to tasks 315-336
Type 0 (gas):   17226469  (tot=     0276193643) masstab=0
Type 1 (halo):  17868610  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     24497  (tot=     0000254233) masstab=0
Type 3 (bulge):    40954  (tot=     0002602064) masstab=0
Type 4 (stars):   661133  (tot=     0010442284) masstab=0
Type 5 (bndry):     1302  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.1.hdf5' on task=22 (contains 36371565 particles.)
distributing this file to tasks 22-44
Type 0 (gas):   17236094  (tot=     0276193643) masstab=0
Type 1 (halo):  18066020  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     17271  (tot=     0000254233) masstab=0
Type 3 (bulge):   190550  (tot=     0002602064) masstab=0
Type 4 (stars):   860327  (tot=     0010442284) masstab=0
Type 5 (bndry):     1303  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.13.hdf5' on task=292 (contains 35630139 particles.)
distributing this file to tasks 292-314
Type 0 (gas):   17319756  (tot=     0276193643) masstab=0
Type 1 (halo):  17676915  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20504  (tot=     0000254233) masstab=0
Type 3 (bulge):   204549  (tot=     0002602064) masstab=0
Type 4 (stars):   407138  (tot=     0010442284) masstab=0
Type 5 (bndry):     1277  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.8.hdf5' on task=180 (contains 36067488 particles.)
distributing this file to tasks 180-201
Type 0 (gas):   17246889  (tot=     0276193643) masstab=0
Type 1 (halo):  17900530  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19871  (tot=     0000254233) masstab=0
Type 3 (bulge):   295127  (tot=     0002602064) masstab=0
Type 4 (stars):   603719  (tot=     0010442284) masstab=0
Type 5 (bndry):     1352  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.6.hdf5' on task=135 (contains 36119593 particles.)
distributing this file to tasks 135-156
Type 0 (gas):   17340634  (tot=     0276193643) masstab=0
Type 1 (halo):  17866503  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14267  (tot=     0000254233) masstab=0
Type 3 (bulge):   229097  (tot=     0002602064) masstab=0
Type 4 (stars):   667850  (tot=     0010442284) masstab=0
Type 5 (bndry):     1242  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.15.hdf5' on task=337 (contains 35722940 particles.)
distributing this file to tasks 337-359
Type 0 (gas):   17366050  (tot=     0276193643) masstab=0
Type 1 (halo):  17757172  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14518  (tot=     0000254233) masstab=0
Type 3 (bulge):    94874  (tot=     0002602064) masstab=0
Type 4 (stars):   489021  (tot=     0010442284) masstab=0
Type 5 (bndry):     1305  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.4.hdf5' on task=90 (contains 36005295 particles.)
distributing this file to tasks 90-111
Type 0 (gas):   17194222  (tot=     0276193643) masstab=0
Type 1 (halo):  17784987  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20579  (tot=     0000254233) masstab=0
Type 3 (bulge):   193600  (tot=     0002602064) masstab=0
Type 4 (stars):   810610  (tot=     0010442284) masstab=0
Type 5 (bndry):     1297  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.3.hdf5' on task=67 (contains 36058994 particles.)
distributing this file to tasks 67-89
Type 0 (gas):   17248691  (tot=     0276193643) masstab=0
Type 1 (halo):  17952454  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9218  (tot=     0000254233) masstab=0
Type 3 (bulge):    62554  (tot=     0002602064) masstab=0
Type 4 (stars):   784767  (tot=     0010442284) masstab=0
Type 5 (bndry):     1310  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.7.hdf5' on task=157 (contains 35862949 particles.)
distributing this file to tasks 157-179
Type 0 (gas):   17182321  (tot=     0276193643) masstab=0
Type 1 (halo):  17930388  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14645  (tot=     0000254233) masstab=0
Type 3 (bulge):   139930  (tot=     0002602064) masstab=0
Type 4 (stars):   594344  (tot=     0010442284) masstab=0
Type 5 (bndry):     1321  (tot=     0000020670) masstab=0


reading file `data//snapshot_010_z001p151/snap_010_z001p151.9.hdf5' on task=202 (contains 35868735 particles.)
distributing this file to tasks 202-224
Type 0 (gas):   17333406  (tot=     0276193643) masstab=0
Type 1 (halo):  17923988  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10420  (tot=     0000254233) masstab=0
Type 3 (bulge):    68535  (tot=     0002602064) masstab=0
Type 4 (stars):   531020  (tot=     0010442284) masstab=0
Type 5 (bndry):     1366  (tot=     0000020670) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576173624


Setting next time for grid output file to Time_next= 0.472979

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

Setting next time for snipshot file to Time_next= 1

Setting next time for fof output to Time_next= 1
 init.c: need to read some more variables from snapshot -- currently zeroed
Testing ID uniqueness...
success.  took=3.70788 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3871.42 MB)
Allocated 2.71564 MByte for top-level domain structure
use of 52.7778 MB of temporary storage for domain decomposition... (presently allocated=3926.91 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3926.91 Mbyte (on task=1), Smallest = 3926.91 Mbyte, Average = 3926.91 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      6.1054       8.5002  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     24.4214      57.3430  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     24.4214      81.7645  allocate_memory()/allocate.c/61
   1 2969 0                 P   1953.7134    2035.4778  allocate_memory()/allocate.c/67
   1 2970 0              SphP   1475.0321    3510.5099  allocate_memory()/allocate.c/85
   1 2971 0              MetP    323.4478    3833.9577  allocate_memory()/allocate.c/105
   1 2972 0               BHP     37.4609    3871.4186  allocate_memory()/allocate.c/126
   1 2975 0          TopNodes      2.5399    3874.1343  domain_allocate()/domain.c/570
   1 2976 0        domain_key     48.8428    3922.9771  domain_Decomposition()/domain.c/231
   1 2987 0        domainWork      0.1954    3923.1890  domain_Decomposition()/domain.c/254
   1 2988 0     domainWorkSph      0.1954    3923.3843  domain_Decomposition()/domain.c/256
   1 2989 0       domainCount      0.1954    3923.5797  domain_Decomposition()/domain.c/258
   1 2990 0    domainCountSph      0.1954    3923.7751  domain_Decomposition()/domain.c/260
   1 2995 0  domainCountStars      0.1954    3923.9760  domain_Decomposition()/domain.c/272
   1 3000 0    domainCountBHs      0.1954    3924.1768  domain_Decomposition()/domain.c/285
   1 3001 0          topNodes      2.7352    3926.9120  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 3.4776 MByte for top-level domain structure
use of 53.95 MB of temporary storage for domain decomposition... (presently allocated=3928.85 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 4.46814 MByte for top-level domain structure
use of 55.4739 MB of temporary storage for domain decomposition... (presently allocated=3931.36 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 5.75582 MByte for top-level domain structure
use of 57.455 MB of temporary storage for domain decomposition... (presently allocated=3934.63 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 7.42981 MByte for top-level domain structure
use of 60.0303 MB of temporary storage for domain decomposition... (presently allocated=3938.88 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 9.60602 MByte for top-level domain structure
use of 63.3784 MB of temporary storage for domain decomposition... (presently allocated=3944.4 MB)
Before=165497
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 12.4351 MByte for top-level domain structure
use of 67.7308 MB of temporary storage for domain decomposition... (presently allocated=3951.58 MB)
Before=165497
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 16.1129 MByte for top-level domain structure
use of 73.3889 MB of temporary storage for domain decomposition... (presently allocated=3960.92 MB)
Before=165497
After=257425
NTopleaves= 225247  NTopnodes=257425 (space for 321370)
gravity work-load balance=1.01953   memory-balance=1.01953   SPH work-load balance=1.01895
iter=0 exchange of 0574634340 particles (ret=0)
domain decomposition done. (took 15.3198 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.92717 MByte in top-level domain structure

Allocated 845.212 MByte for BH-tree, and 0.859249 Mbyte for top-leaves.  (presently allocted 4730.43 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 5164.84 Mbyte (on task=350), Smallest = 5118.85 Mbyte, Average = 5143.85 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 350 2964 0  Sendcount_matrix      0.4944       2.3949  allocate_memory()/allocate.c/41
 350 2965 0     ProcessedFlag      6.1054       8.5002  allocate_memory()/allocate.c/52
 350 2966 0  NextActiveParticle     24.4214      32.9216  allocate_memory()/allocate.c/55
 350 2967 0     NextInTimeBin     24.4214      57.3430  allocate_memory()/allocate.c/58
 350 2968 0     PrevInTimeBin     24.4214      81.7645  allocate_memory()/allocate.c/61
 350 2969 0                 P   1953.7134    2035.4778  allocate_memory()/allocate.c/67
 350 2970 0              SphP   1475.0321    3510.5099  allocate_memory()/allocate.c/85
 350 2971 0              MetP    323.4478    3833.9577  allocate_memory()/allocate.c/105
 350 2972 0               BHP     37.4609    3871.4186  allocate_memory()/allocate.c/126
 350 2975 0          TopNodes     12.7660    3884.3604  domain_allocate()/domain.c/570
 350 2976 0   DomainNodeIndex      0.8593    3885.2197  force_treeallocate()/forcetree.c/4800
 350 2977 0        Nodes_base    433.8478    4319.0675  force_treeallocate()/forcetree.c/4803
 350 2978 0     Extnodes_base    361.5398    4680.6073  force_treeallocate()/forcetree.c/4811
 350 2979 0          Nextnode     25.4034    4706.0107  force_treeallocate()/forcetree.c/4820
 350 2980 0            Father     24.4214    4730.4321  force_treeallocate()/forcetree.c/4827
 350 2981 0           Ngblist      6.0525    4736.4846  density()/density.c/690
 350 2982 0              Left     12.1049    4748.5896  density()/density.c/692
 350 2983 0             Right     12.1049    4760.6945  density()/density.c/693
 350 2984 0    DataIndexTable      7.0175    4767.7121  density()/density.c/738
 350 2985 0      DataNodeList     18.7134    4786.4255  density()/density.c/740
 350 2986 0       DensDataGet    104.7125    4891.1380  density()/density.c/893
 350 2987 0    DensDataResult    138.0301    5029.1681  density()/density.c/931
 350 2988 0       DensDataOut    135.6724    5164.8405  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0002628198 particles.
ngb iteration 2: need to repeat for 0000001383 particles.
ngb iteration 3: need to repeat for 0000000499 particles.
ngb iteration 4: need to repeat for 0000000463 particles.
ngb iteration 5: need to repeat for 0000000100 particles.
ngb iteration 6: need to repeat for 0000000064 particles.
ngb iteration 7: need to repeat for 0000000027 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.053.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.154.hdf5

Begin to compute FoF group catalogues...  (presently allocated=4730.43 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3871.42 MB)
Allocated 16.1129 MByte for top-level domain structure
use of 73.3889 MB of temporary storage for domain decomposition... (presently allocated=3960.92 MB)
Before=247169
After=275665
NTopleaves= 241207  NTopnodes=275665 (space for 321370)
gravity work-load balance=1.01899   memory-balance=1.01899   SPH work-load balance=1.02026
iter=0 exchange of 0574504789 particles (ret=0)
domain decomposition done. (took 7.9417 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.09221 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=3885.26 MB)
Tree construction.

Start linking particles (presently allocated=4806.99 MB)
links on local processor done (took 3.35861 sec).
Marked=0044281277 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=4915.9 MB) 
have done 0001018040 cross links (processed 0044281277, took 1.43194 sec)
have done 0000392947 cross links (processed 0028707672, took 1.25627 sec)
have done 0000253243 cross links (processed 0022484278, took 1.1017 sec)
have done 0000151288 cross links (processed 0013389519, took 1.1602 sec)
have done 0000088226 cross links (processed 0007436519, took 1.04649 sec)
have done 0000048466 cross links (processed 0003626059, took 0.832546 sec)
have done 0000028075 cross links (processed 0002082233, took 0.617744 sec)
have done 0000018497 cross links (processed 0001461438, took 0.298836 sec)
have done 0000012519 cross links (processed 0001379305, took 0.855224 sec)
have done 0000008991 cross links (processed 0000473232, took 0.268434 sec)
have done 0000004762 cross links (processed 0000205285, took 0.247029 sec)
have done 0000002294 cross links (processed 0000100738, took 0.207928 sec)
have done 0000001450 cross links (processed 0000049355, took 0.0526931 sec)
have done 0000000976 cross links (processed 0000073693, took 0.244084 sec)
have done 0000000472 cross links (processed 0000016960, took 0.0623932 sec)
have done 0000000160 cross links (processed 0000002381, took 0.033952 sec)
have done 0000000121 cross links (processed 0000003695, took 0.0374131 sec)
have done 0000000095 cross links (processed 0000004676, took 0.039084 sec)
have done 0000000024 cross links (processed 0000000518, took 0.033685 sec)
have done 0000000006 cross links (processed 0000000104, took 0.0340071 sec)
have done 0000000001 cross links (processed 0000000024, took 0.0336511 sec)
have done 0000000000 cross links (processed 0000000002, took 0.033483 sec)
Local groups found.

group finding took = 13.3958 sec
Start finding nearest dm-particle (presently allocated=4806.99 MB)
still finding nearest... (presently allocated=4904.13 MB)
fof-nearest iteration 1: need to repeat for 261993101 particles.
still finding nearest... (presently allocated=4905.31 MB)
fof-nearest iteration 2: need to repeat for 242387257 particles.
still finding nearest... (presently allocated=4907.7 MB)
fof-nearest iteration 3: need to repeat for 224582983 particles.
still finding nearest... (presently allocated=4911.61 MB)
fof-nearest iteration 4: need to repeat for 194242257 particles.
still finding nearest... (presently allocated=4916.64 MB)
fof-nearest iteration 5: need to repeat for 139398567 particles.
still finding nearest... (presently allocated=4920.17 MB)
fof-nearest iteration 6: need to repeat for 67214641 particles.
still finding nearest... (presently allocated=4915.22 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 6.67944 sec
compiling local group data and catalogue took = 1.03012 sec

Total number of groups with at least 32 particles: 200660
Largest group has 9295472 particles.
Total number of particles in groups: 0152153382

group properties are now allocated.. (presently allocated=3982.65 MB)
computation of group properties took = 0.0878701 sec
start global sorting of group catalogues number 10
LargestGroup = 4073.435510; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.049258 sec
Group catalogues globally sorted. took = 0.752156 sec
starting saving of group catalogue number 10
data//groups_010_z001p151
Group catalogues number 10 saved. took = 3.18309 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (276193643).
tree build for species 0 took 0.576036 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0202475864 particles. (took 11.5995 sec)
ngb iteration 2: need to repeat for 0165214683 particles. (took 7.50614 sec)
ngb iteration 3: need to repeat for 0149869463 particles. (took 5.65998 sec)
ngb iteration 4: need to repeat for 0138849012 particles. (took 4.93963 sec)
ngb iteration 5: need to repeat for 0124907412 particles. (took 4.49324 sec)
ngb iteration 6: need to repeat for 0103839552 particles. (took 4.0238 sec)
ngb iteration 7: need to repeat for 0077042092 particles. (took 3.36585 sec)
ngb iteration 8: need to repeat for 0051036568 particles. (took 2.60038 sec)
ngb iteration 9: need to repeat for 0030900105 particles. (took 1.89211 sec)
ngb iteration 10: need to repeat for 0017580130 particles. (took 1.28063 sec)
ngb iteration 11: need to repeat for 0009622812 particles. (took 0.772869 sec)
ngb iteration 12: need to repeat for 0005155959 particles. (took 0.446128 sec)
ngb iteration 13: need to repeat for 0002739236 particles. (took 0.277402 sec)
ngb iteration 14: need to repeat for 0001348856 particles. (took 0.184564 sec)
ngb iteration 15: need to repeat for 0000489239 particles. (took 0.126715 sec)
ngb iteration 16: need to repeat for 0000187481 particles. (took 0.082566 sec)
ngb iteration 17: need to repeat for 0000091204 particles. (took 0.065191 sec)
ngb iteration 18: need to repeat for 0000054634 particles. (took 0.056376 sec)
ngb iteration 19: need to repeat for 0000036248 particles. (took 0.053323 sec)
ngb iteration 20: need to repeat for 0000025480 particles. (took 0.052423 sec)
ngb iteration 21: need to repeat for 0000018176 particles. (took 0.0507371 sec)
ngb iteration 22: need to repeat for 0000012813 particles. (took 0.049715 sec)
ngb iteration 23: need to repeat for 0000008959 particles. (took 0.0490611 sec)
ngb iteration 24: need to repeat for 0000006025 particles. (took 0.0490341 sec)
ngb iteration 25: need to repeat for 0000003875 particles. (took 0.048574 sec)
ngb iteration 26: need to repeat for 0000002418 particles. (took 0.048353 sec)
ngb iteration 27: need to repeat for 0000001461 particles. (took 0.048383 sec)
ngb iteration 28: need to repeat for 0000000885 particles. (took 0.0481498 sec)
ngb iteration 29: need to repeat for 0000000539 particles. (took 0.0482841 sec)
ngb iteration 30: need to repeat for 0000000333 particles. (took 0.0482841 sec)
ngb iteration 31: need to repeat for 0000000196 particles. (took 0.0484209 sec)
ngb iteration 32: need to repeat for 0000000115 particles. (took 0.047796 sec)
ngb iteration 33: need to repeat for 0000000063 particles. (took 0.04778 sec)
ngb iteration 34: need to repeat for 0000000030 particles. (took 0.047883 sec)
ngb iteration 35: need to repeat for 0000000014 particles. (took 0.0480158 sec)
ngb iteration 36: need to repeat for 0000000008 particles. (took 0.0480249 sec)
ngb iteration 37: need to repeat for 0000000005 particles. (took 0.048152 sec)
ngb iteration 38: need to repeat for 0000000003 particles. (took 0.0478642 sec)
ngb iteration 39: need to repeat for 0000000001 particles. (took 0.047698 sec)
ngb iteration 40: need to repeat for 0000000001 particles. (took 0.047884 sec)
final operations ... 
density and smoothing length for species 0 took 50.7526 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.619536 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0201092768 particles. (took 15.8656 sec)
ngb iteration 2: need to repeat for 0161151833 particles. (took 8.22908 sec)
ngb iteration 3: need to repeat for 0141151872 particles. (took 6.13085 sec)
ngb iteration 4: need to repeat for 0128689538 particles. (took 4.97749 sec)
ngb iteration 5: need to repeat for 0115743333 particles. (took 4.3186 sec)
ngb iteration 6: need to repeat for 0097893556 particles. (took 3.83446 sec)
ngb iteration 7: need to repeat for 0075485819 particles. (took 3.29699 sec)
ngb iteration 8: need to repeat for 0052938187 particles. (took 2.68183 sec)
ngb iteration 9: need to repeat for 0034308459 particles. (took 2.02996 sec)
ngb iteration 10: need to repeat for 0020988419 particles. (took 1.39297 sec)
ngb iteration 11: need to repeat for 0012360426 particles. (took 0.900384 sec)
ngb iteration 12: need to repeat for 0007110979 particles. (took 0.560022 sec)
ngb iteration 13: need to repeat for 0004036575 particles. (took 0.351943 sec)
ngb iteration 14: need to repeat for 0002186344 particles. (took 0.230443 sec)
ngb iteration 15: need to repeat for 0001036806 particles. (took 0.155765 sec)
ngb iteration 16: need to repeat for 0000492802 particles. (took 0.10368 sec)
ngb iteration 17: need to repeat for 0000240639 particles. (took 0.0778849 sec)
ngb iteration 18: need to repeat for 0000119738 particles. (took 0.0650518 sec)
ngb iteration 19: need to repeat for 0000059745 particles. (took 0.05831 sec)
ngb iteration 20: need to repeat for 0000029419 particles. (took 0.0529671 sec)
ngb iteration 21: need to repeat for 0000013972 particles. (took 0.0506089 sec)
ngb iteration 22: need to repeat for 0000006388 particles. (took 0.0496089 sec)
ngb iteration 23: need to repeat for 0000002746 particles. (took 0.0484221 sec)
ngb iteration 24: need to repeat for 0000001121 particles. (took 0.048074 sec)
ngb iteration 25: need to repeat for 0000000437 particles. (took 0.047543 sec)
ngb iteration 26: need to repeat for 0000000165 particles. (took 0.047837 sec)
ngb iteration 27: need to repeat for 0000000054 particles. (took 0.0474341 sec)
ngb iteration 28: need to repeat for 0000000017 particles. (took 0.047195 sec)
ngb iteration 29: need to repeat for 0000000003 particles. (took 0.0479281 sec)
final operations ... 
density and smoothing length for species 1 took 56.0587 sec
Tree construction for species 4 (10442284).
tree build for species 4 took 0.187919 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0007162996 particles. (took 3.45571 sec)
ngb iteration 2: need to repeat for 0006001145 particles. (took 1.64377 sec)
ngb iteration 3: need to repeat for 0005233080 particles. (took 1.18454 sec)
ngb iteration 4: need to repeat for 0004707856 particles. (took 0.928972 sec)
ngb iteration 5: need to repeat for 0004262248 particles. (took 0.819751 sec)
ngb iteration 6: need to repeat for 0003787295 particles. (took 0.73317 sec)
ngb iteration 7: need to repeat for 0003235688 particles. (took 0.636836 sec)
ngb iteration 8: need to repeat for 0002643795 particles. (took 0.547125 sec)
ngb iteration 9: need to repeat for 0002083903 particles. (took 0.460053 sec)
ngb iteration 10: need to repeat for 0001594919 particles. (took 0.371571 sec)
ngb iteration 11: need to repeat for 0001195054 particles. (took 0.292422 sec)
ngb iteration 12: need to repeat for 0000885206 particles. (took 0.212053 sec)
ngb iteration 13: need to repeat for 0000652745 particles. (took 0.152523 sec)
ngb iteration 14: need to repeat for 0000476253 particles. (took 0.126426 sec)
ngb iteration 15: need to repeat for 0000345034 particles. (took 0.111113 sec)
ngb iteration 16: need to repeat for 0000250554 particles. (took 0.105621 sec)
ngb iteration 17: need to repeat for 0000182794 particles. (took 0.0974381 sec)
ngb iteration 18: need to repeat for 0000135424 particles. (took 0.0908611 sec)
ngb iteration 19: need to repeat for 0000101237 particles. (took 0.082752 sec)
ngb iteration 20: need to repeat for 0000076401 particles. (took 0.0777869 sec)
ngb iteration 21: need to repeat for 0000057884 particles. (took 0.074564 sec)
ngb iteration 22: need to repeat for 0000044062 particles. (took 0.0706792 sec)
ngb iteration 23: need to repeat for 0000033334 particles. (took 0.0683219 sec)
ngb iteration 24: need to repeat for 0000025150 particles. (took 0.0662019 sec)
ngb iteration 25: need to repeat for 0000018743 particles. (took 0.06479 sec)
ngb iteration 26: need to repeat for 0000013734 particles. (took 0.0636079 sec)
ngb iteration 27: need to repeat for 0000009718 particles. (took 0.0636349 sec)
ngb iteration 28: need to repeat for 0000006620 particles. (took 0.063797 sec)
ngb iteration 29: need to repeat for 0000004274 particles. (took 0.0630989 sec)
ngb iteration 30: need to repeat for 0000002589 particles. (took 0.06268 sec)
ngb iteration 31: need to repeat for 0000001518 particles. (took 0.06234 sec)
ngb iteration 32: need to repeat for 0000000853 particles. (took 0.062531 sec)
ngb iteration 33: need to repeat for 0000000461 particles. (took 0.0626979 sec)
ngb iteration 34: need to repeat for 0000000235 particles. (took 0.0627091 sec)
ngb iteration 35: need to repeat for 0000000126 particles. (took 0.062113 sec)
ngb iteration 36: need to repeat for 0000000060 particles. (took 0.0621481 sec)
ngb iteration 37: need to repeat for 0000000024 particles. (took 0.0633979 sec)
ngb iteration 38: need to repeat for 0000000008 particles. (took 0.0625479 sec)
ngb iteration 39: need to repeat for 0000000002 particles. (took 0.0623951 sec)
ngb iteration 40: need to repeat for 0000000001 particles. (took 0.062562 sec)
final operations ... 
density and smoothing length for species 4 took 13.6813 sec
Tree construction.
tree build took 1.11534 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000012949 particles. (took 0.084245 sec)
ngb iteration 2: need to repeat for 0000010794 particles. (took 0.0729721 sec)
ngb iteration 3: need to repeat for 0000007904 particles. (took 0.0722499 sec)
ngb iteration 4: need to repeat for 0000005819 particles. (took 0.071321 sec)
ngb iteration 5: need to repeat for 0000004954 particles. (took 0.0705819 sec)
ngb iteration 6: need to repeat for 0000004304 particles. (took 0.069705 sec)
ngb iteration 7: need to repeat for 0000003541 particles. (took 0.069036 sec)
ngb iteration 8: need to repeat for 0000002695 particles. (took 0.0698981 sec)
ngb iteration 9: need to repeat for 0000001876 particles. (took 0.068166 sec)
ngb iteration 10: need to repeat for 0000001267 particles. (took 0.068464 sec)
ngb iteration 11: need to repeat for 0000000803 particles. (took 0.0668089 sec)
ngb iteration 12: need to repeat for 0000000520 particles. (took 0.0676689 sec)
ngb iteration 13: need to repeat for 0000000317 particles. (took 0.0666161 sec)
ngb iteration 14: need to repeat for 0000000190 particles. (took 0.065618 sec)
ngb iteration 15: need to repeat for 0000000126 particles. (took 0.0649321 sec)
ngb iteration 16: need to repeat for 0000000074 particles. (took 0.064548 sec)
ngb iteration 17: need to repeat for 0000000048 particles. (took 0.0641952 sec)
ngb iteration 18: need to repeat for 0000000034 particles. (took 0.063828 sec)
ngb iteration 19: need to repeat for 0000000021 particles. (took 0.0634339 sec)
ngb iteration 20: need to repeat for 0000000018 particles. (took 0.0632861 sec)
ngb iteration 21: need to repeat for 0000000012 particles. (took 0.06335 sec)
ngb iteration 22: need to repeat for 0000000011 particles. (took 0.0629609 sec)
ngb iteration 23: need to repeat for 0000000009 particles. (took 0.0646091 sec)
ngb iteration 24: need to repeat for 0000000009 particles. (took 0.0632091 sec)
ngb iteration 25: need to repeat for 0000000006 particles. (took 0.0635059 sec)
ngb iteration 26: need to repeat for 0000000003 particles. (took 0.0625851 sec)
ngb iteration 27: need to repeat for 0000000003 particles. (took 0.0636251 sec)
ngb iteration 28: need to repeat for 0000000003 particles. (took 0.06337 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.062808 sec)
ngb iteration 30: need to repeat for 0000000001 particles. (took 0.062712 sec)
ngb iteration 31: need to repeat for 0000000001 particles. (took 0.0627208 sec)
ngb iteration 32: need to repeat for 0000000001 particles. (took 0.0628181 sec)
final operations ... 
density and smoothing length for species 5 took 2.38827 sec
Tree construction for species 0 (276193643).
tree build for species 0 took 0.577688 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 22.4924 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.618781 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 10.9554 sec
Tree construction for species 4 (10442284).
tree build for species 4 took 0.185846 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 4.49998 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.157186 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.04611 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 1.06288 sec
saving densities took 2.9237 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 4481349 particles.)
the other 200659 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 17577 - 82879275 

subfind_exchange()() took 2.56512 sec

collectively doing halo 1, num=10
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=5016.19 MB)
Allocated 16.1129 MByte for top-level domain structure
use of 73.3889 MB of temporary storage for domain decomposition... (presently allocated=5105.69 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 5105.7 Mbyte (on task=0), Smallest = 4094.65 Mbyte, Average = 4119.18 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1054       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9206  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3420  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7634  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7134    2035.4768  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1475.0321    3510.5089  allocate_memory()/allocate.c/85
   0 2971 0              MetP    323.4478    3833.9567  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.4609    3871.4176  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.6705    3885.2639  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.2288    3921.4927  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     60.3814    3981.8741  fof_fof()/fof.c/337
   0 2978 0             Group      0.7782    3982.6523  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1033.5403    5016.1926  subfind()/subfind.c/376
   0 2982 0          TopNodes     15.9371    5032.3055  domain_allocate()/domain.c/570
   0 2983 0        domain_key     48.8428    5081.1483  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      1.2259    5082.3907  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      1.2259    5083.6167  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      1.2259    5084.8426  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      1.2259    5086.0685  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      1.2259    5087.2999  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      1.2259    5088.5314  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     17.1630    5105.6944  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=203385
After=239049
NTopleaves= 209168  NTopnodes=239049 (space for 321370)
gravity work-load balance=1.01728   memory-balance=1.01728   SPH work-load balance=1.01687
iter=0 exchange of 0009266331 particles (ret=0)
domain decomposition done. (took 1.90008 sec)
Freed 3.76836 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 5871.08 Mbyte (on task=0), Smallest = 4860.03 Mbyte, Average = 4884.57 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1054       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9206  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3420  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7634  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7134    2035.4768  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1475.0321    3510.5089  allocate_memory()/allocate.c/85
   0 2971 0              MetP    323.4478    3833.9567  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.4609    3871.4176  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.6705    3885.2639  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.2288    3921.4927  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     60.3814    3981.8741  fof_fof()/fof.c/337
   0 2978 0             Group      0.7782    3982.6523  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1033.5403    5016.1926  subfind()/subfind.c/376
   0 2982 0          TopNodes     11.8547    5028.2231  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      0.7979    5029.0210  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    432.1654    5461.1865  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    360.1379    5821.3243  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     25.3333    5846.6576  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     24.4214    5871.0791  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 2.33058 sec  (presently allocated=5871.08 MB)
force_treebuild() took 2.53348 sec (presently allocated=5871.08 MB)
Start find_linkngb (25882 particles on task=0)
find linkngb iteration 1: need to repeat for 0009224641 particles. (took 0.674681 sec)
find linkngb iteration 2: need to repeat for 0009052858 particles. (took 0.46217 sec)
find linkngb iteration 3: need to repeat for 0008387479 particles. (took 0.314825 sec)
find linkngb iteration 4: need to repeat for 0007981427 particles. (took 0.236 sec)
find linkngb iteration 5: need to repeat for 0007175533 particles. (took 0.222483 sec)
find linkngb iteration 6: need to repeat for 0005908096 particles. (took 0.195928 sec)
find linkngb iteration 7: need to repeat for 0004306273 particles. (took 0.157183 sec)
find linkngb iteration 8: need to repeat for 0002801044 particles. (took 0.110938 sec)
find linkngb iteration 9: need to repeat for 0001675057 particles. (took 0.0755229 sec)
find linkngb iteration 10: need to repeat for 0000951595 particles. (took 0.0508358 sec)
find linkngb iteration 11: need to repeat for 0000523787 particles. (took 0.0351529 sec)
find linkngb iteration 12: need to repeat for 0000273513 particles. (took 0.024188 sec)
find linkngb iteration 13: need to repeat for 0000094597 particles. (took 0.0174801 sec)
find linkngb iteration 14: need to repeat for 0000031154 particles. (took 0.0117249 sec)
find linkngb iteration 15: need to repeat for 0000014040 particles. (took 0.00706315 sec)
find linkngb iteration 16: need to repeat for 0000007359 particles. (took 0.00451612 sec)
find linkngb iteration 17: need to repeat for 0000003825 particles. (took 0.00299597 sec)
find linkngb iteration 18: need to repeat for 0000002095 particles. (took 0.00159621 sec)
find linkngb iteration 19: need to repeat for 0000001241 particles. (took 0.0009799 sec)
find linkngb iteration 20: need to repeat for 0000000779 particles. (took 0.000689983 sec)
find linkngb iteration 21: need to repeat for 0000000505 particles. (took 0.000543833 sec)
find linkngb iteration 22: need to repeat for 0000000310 particles. (took 0.000680208 sec)
find linkngb iteration 23: need to repeat for 0000000179 particles. (took 0.000455856 sec)
find linkngb iteration 24: need to repeat for 0000000089 particles. (took 0.000437021 sec)
find linkngb iteration 25: need to repeat for 0000000047 particles. (took 0.000429153 sec)
find linkngb iteration 26: need to repeat for 0000000029 particles. (took 0.000409842 sec)
find linkngb iteration 27: need to repeat for 0000000014 particles. (took 0.000423193 sec)
find linkngb iteration 28: need to repeat for 0000000007 particles. (took 0.000393152 sec)
find linkngb iteration 29: need to repeat for 0000000003 particles. (took 0.0003829 sec)
find linkngb iteration 30: need to repeat for 0000000002 particles. (took 0.000399113 sec)
find_linkngb() took 2.61275 sec
Start finding nearest two (25882 particles on task=0)
find_nearesttwo() took 0.358224 sec (presently allocated=5873.05 MB)
parallel sort of densities done. took 0.064739 sec
building distributed linked list. (presently allocated 5872.8 MB)
identification of primary candidates took 264.512 sec
adding background as candidate took 0.334387 sec
establishing of rank order took 89.8159 sec  (p=9295472, grouplen=9295472) presently allocated 5872.8 MB

total number of subhalo candidates=33254

number of subhalo candidates that can be done independently=29095.
(Largest size is 2723, finding them took 0.00954294 sec)
particles are marked (took 54.1313)
independent subhalos are assembled on individual CPUs for unbinding (0.1559 sec, (presently allocated=5872.8 MB)
unbinding of independent ones took 0.0501761 sec
particles have returned to their original processor (0.214593 sec, presently allocated 5872.8 MB)

number of subhalo candidates that can be done independently=3764.
(Largest size is 18310, finding them took 1.33499 sec)
particles are marked (took 37.0996)
independent subhalos are assembled on individual CPUs for unbinding (0.155249 sec, (presently allocated=5872.8 MB)
unbinding of independent ones took 0.402451 sec
particles have returned to their original processor (0.212477 sec, presently allocated 5872.8 MB)

number of subhalo candidates that can be done independently=354.
(Largest size is 41983, finding them took 1.34643 sec)
particles are marked (took 32.0489)
independent subhalos are assembled on individual CPUs for unbinding (0.156109 sec, (presently allocated=5872.8 MB)
unbinding of independent ones took 1.41503 sec
particles have returned to their original processor (0.217003 sec, presently allocated 5872.8 MB)

number of subhalo candidates that can be done independently=32.
(Largest size is 156547, finding them took 1.27104 sec)
particles are marked (took 30.1991)
independent subhalos are assembled on individual CPUs for unbinding (0.156396 sec, (presently allocated=5872.8 MB)
unbinding of independent ones took 5.47214 sec
particles have returned to their original processor (0.225062 sec, presently allocated 5872.8 MB)

number of subhalo candidates that can be done independently=7.
(Largest size is 417700, finding them took 0.468861 sec)
particles are marked (took 27.8042)
independent subhalos are assembled on individual CPUs for unbinding (0.158468 sec, (presently allocated=5872.8 MB)
unbinding of independent ones took 10.9327 sec
particles have returned to their original processor (0.232204 sec, presently allocated 5872.8 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 417700, finding them took 0.751924 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=417700 ... maximum alloacted 5872.9 MB
took 13.032 sec
collective unbinding of nr=1 (2) of length=9295472 ... maximum alloacted 5872.9 MB
took 208.571 sec

the collective unbinding of remaining halos took 243.854 sec

found 2297 bound substructures in FoF group of length 9295472
determination of parent subhalo took 0.0426691 sec (presently allocated 5872.9 MB)
determining substructure properties took 199.708 sec (presently allocated 5872.9 MB)
processing of collective halos took 1024.6 sec
sort of local particles()() took 0.763144 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 825.179 sec

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unsorting of local particles()() took 0.669091 sec
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Task 89: testing particles ...
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Task 1: testing particles ...
subfind_exchange() (for return to original CPU)  took 4.68912 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=5016.19 MB)
Allocated 16.1129 MByte for top-level domain structure
use of 73.3889 MB of temporary storage for domain decomposition... (presently allocated=5105.69 MB)
Before=247441
After=276137
NTopleaves= 241620  NTopnodes=276137 (space for 321370)
gravity work-load balance=1.0171   memory-balance=1.0171   SPH work-load balance=1.01609
iter=0 exchange of 0574639695 particles (ret=0)
domain decomposition done. (took 8.00879 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.0706 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000167981 particles. (took 0.033731 sec)
SO iteration 2: need to repeat for 0000167981 particles. (took 0.022007 sec)
SO iteration 3: need to repeat for 0000167981 particles. (took 0.0231102 sec)
SO iteration 4: need to repeat for 0000167981 particles. (took 0.0233431 sec)
SO iteration 5: need to repeat for 0000167981 particles. (took 0.0236051 sec)
SO iteration 6: need to repeat for 0000167981 particles. (took 0.023802 sec)
SO iteration 7: need to repeat for 0000167981 particles. (took 0.023643 sec)
SO iteration 8: need to repeat for 0000167981 particles. (took 0.023375 sec)
SO iteration 9: need to repeat for 0000167981 particles. (took 0.0234931 sec)
SO iteration 10: need to repeat for 0000167981 particles. (took 0.0234089 sec)
SO iteration 11: need to repeat for 0000167981 particles. (took 0.023495 sec)
SO iteration 12: need to repeat for 0000167981 particles. (took 0.0235782 sec)
SO iteration 13: need to repeat for 0000167981 particles. (took 0.0236101 sec)
SO iteration 14: need to repeat for 0000167981 particles. (took 0.023464 sec)
SO iteration 15: need to repeat for 0000165836 particles. (took 0.023417 sec)
SO iteration 16: need to repeat for 0000001340 particles. (took 0.02299 sec)
SO iteration 17: need to repeat for 0000000046 particles. (took 0.00152922 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.00085187 sec)
SO iteration 1: need to repeat for 0000167981 particles. (took 0.0240829 sec)
SO iteration 2: need to repeat for 0000167981 particles. (took 0.0208499 sec)
SO iteration 3: need to repeat for 0000167981 particles. (took 0.021688 sec)
SO iteration 4: need to repeat for 0000167981 particles. (took 0.0210311 sec)
SO iteration 5: need to repeat for 0000167981 particles. (took 0.020956 sec)
SO iteration 6: need to repeat for 0000167981 particles. (took 0.020968 sec)
SO iteration 7: need to repeat for 0000167981 particles. (took 0.020983 sec)
SO iteration 8: need to repeat for 0000167981 particles. (took 0.0211229 sec)
SO iteration 9: need to repeat for 0000167981 particles. (took 0.0209808 sec)
SO iteration 10: need to repeat for 0000167981 particles. (took 0.0209498 sec)
SO iteration 11: need to repeat for 0000167981 particles. (took 0.021075 sec)
SO iteration 12: need to repeat for 0000167981 particles. (took 0.0210071 sec)
SO iteration 13: need to repeat for 0000167981 particles. (took 0.0210578 sec)
SO iteration 14: need to repeat for 0000167981 particles. (took 0.020865 sec)
SO iteration 15: need to repeat for 0000167154 particles. (took 0.0210881 sec)
SO iteration 16: need to repeat for 0000052911 particles. (took 0.0209281 sec)
SO iteration 17: need to repeat for 0000000605 particles. (took 0.0111649 sec)
SO iteration 18: need to repeat for 0000000039 particles. (took 0.00118899 sec)
SO iteration 1: need to repeat for 0000167981 particles. (took 0.0237758 sec)
SO iteration 2: need to repeat for 0000167981 particles. (took 0.0204051 sec)
SO iteration 3: need to repeat for 0000167981 particles. (took 0.0178621 sec)
SO iteration 4: need to repeat for 0000167981 particles. (took 0.018558 sec)
SO iteration 5: need to repeat for 0000167981 particles. (took 0.018172 sec)
SO iteration 6: need to repeat for 0000167981 particles. (took 0.018316 sec)
SO iteration 7: need to repeat for 0000167981 particles. (took 0.01826 sec)
SO iteration 8: need to repeat for 0000167981 particles. (took 0.018033 sec)
SO iteration 9: need to repeat for 0000167981 particles. (took 0.0180531 sec)
SO iteration 10: need to repeat for 0000167981 particles. (took 0.0180929 sec)
SO iteration 11: need to repeat for 0000167981 particles. (took 0.0180891 sec)
SO iteration 12: need to repeat for 0000167981 particles. (took 0.0186639 sec)
SO iteration 13: need to repeat for 0000167981 particles. (took 0.0183492 sec)
SO iteration 14: need to repeat for 0000167981 particles. (took 0.018188 sec)
SO iteration 15: need to repeat for 0000167968 particles. (took 0.0182779 sec)
SO iteration 16: need to repeat for 0000166668 particles. (took 0.018095 sec)
SO iteration 17: need to repeat for 0000088949 particles. (took 0.018131 sec)
SO iteration 18: need to repeat for 0000001999 particles. (took 0.0134051 sec)
SO iteration 19: need to repeat for 0000000082 particles. (took 0.00146103 sec)
SO iteration 20: need to repeat for 0000000005 particles. (took 0.000809908 sec)
SO iteration 1: need to repeat for 0000167981 particles. (took 0.023953 sec)
SO iteration 2: need to repeat for 0000167981 particles. (took 0.0223379 sec)
SO iteration 3: need to repeat for 0000167981 particles. (took 0.023114 sec)
SO iteration 4: need to repeat for 0000167981 particles. (took 0.0236471 sec)
SO iteration 5: need to repeat for 0000167981 particles. (took 0.0235119 sec)
SO iteration 6: need to repeat for 0000167981 particles. (took 0.0235329 sec)
SO iteration 7: need to repeat for 0000167981 particles. (took 0.023556 sec)
SO iteration 8: need to repeat for 0000167981 particles. (took 0.0234802 sec)
SO iteration 9: need to repeat for 0000167981 particles. (took 0.0235579 sec)
SO iteration 10: need to repeat for 0000167981 particles. (took 0.0233231 sec)
SO iteration 11: need to repeat for 0000167981 particles. (took 0.0235622 sec)
SO iteration 12: need to repeat for 0000167981 particles. (took 0.023453 sec)
SO iteration 13: need to repeat for 0000167981 particles. (took 0.023443 sec)
SO iteration 14: need to repeat for 0000167981 particles. (took 0.0237641 sec)
SO iteration 15: need to repeat for 0000165828 particles. (took 0.0235372 sec)
SO iteration 16: need to repeat for 0000001287 particles. (took 0.0230091 sec)
SO iteration 17: need to repeat for 0000000043 particles. (took 0.00150681 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.000844002 sec)
SO iteration 1: need to repeat for 0000167981 particles. (took 0.0240378 sec)
SO iteration 2: need to repeat for 0000167981 particles. (took 0.0203421 sec)
SO iteration 3: need to repeat for 0000167981 particles. (took 0.0222781 sec)
SO iteration 4: need to repeat for 0000167981 particles. (took 0.024698 sec)
SO iteration 5: need to repeat for 0000167981 particles. (took 0.0229771 sec)
SO iteration 6: need to repeat for 0000167981 particles. (took 0.0230379 sec)
SO iteration 7: need to repeat for 0000167981 particles. (took 0.0229971 sec)
SO iteration 8: need to repeat for 0000167981 particles. (took 0.022984 sec)
SO iteration 9: need to repeat for 0000167981 particles. (took 0.0229309 sec)
SO iteration 10: need to repeat for 0000167981 particles. (took 0.0230939 sec)
SO iteration 11: need to repeat for 0000167981 particles. (took 0.02282 sec)
SO iteration 12: need to repeat for 0000167981 particles. (took 0.022944 sec)
SO iteration 13: need to repeat for 0000167981 particles. (took 0.022989 sec)
SO iteration 14: need to repeat for 0000167981 particles. (took 0.0229409 sec)
SO iteration 15: need to repeat for 0000165978 particles. (took 0.023035 sec)
SO iteration 16: need to repeat for 0000003328 particles. (took 0.0225022 sec)
SO iteration 17: need to repeat for 0000000080 particles. (took 0.00212812 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.000861883 sec)
SO iteration 1: need to repeat for 0000167981 particles. (took 0.0238621 sec)
SO iteration 2: need to repeat for 0000167981 particles. (took 0.0208471 sec)
SO iteration 3: need to repeat for 0000167981 particles. (took 0.021307 sec)
SO iteration 4: need to repeat for 0000167981 particles. (took 0.0210969 sec)
SO iteration 5: need to repeat for 0000167981 particles. (took 0.0209219 sec)
SO iteration 6: need to repeat for 0000167981 particles. (took 0.0206969 sec)
SO iteration 7: need to repeat for 0000167981 particles. (took 0.0208631 sec)
SO iteration 8: need to repeat for 0000167981 particles. (took 0.0210161 sec)
SO iteration 9: need to repeat for 0000167981 particles. (took 0.0209081 sec)
SO iteration 10: need to repeat for 0000167981 particles. (took 0.02107 sec)
SO iteration 11: need to repeat for 0000167981 particles. (took 0.0209179 sec)
SO iteration 12: need to repeat for 0000167981 particles. (took 0.020951 sec)
SO iteration 13: need to repeat for 0000167981 particles. (took 0.0208511 sec)
SO iteration 14: need to repeat for 0000167981 particles. (took 0.020947 sec)
SO iteration 15: need to repeat for 0000167504 particles. (took 0.0208499 sec)
SO iteration 16: need to repeat for 0000118576 particles. (took 0.020911 sec)
SO iteration 17: need to repeat for 0000001160 particles. (took 0.017215 sec)
SO iteration 18: need to repeat for 0000000058 particles. (took 0.001544 sec)
SO iteration 1: need to repeat for 0000167981 particles. (took 0.024308 sec)
SO iteration 2: need to repeat for 0000167981 particles. (took 0.0204601 sec)
SO iteration 3: need to repeat for 0000167981 particles. (took 0.018023 sec)
SO iteration 4: need to repeat for 0000167981 particles. (took 0.0179698 sec)
SO iteration 5: need to repeat for 0000167981 particles. (took 0.0179029 sec)
SO iteration 6: need to repeat for 0000167981 particles. (took 0.0178471 sec)
SO iteration 7: need to repeat for 0000167981 particles. (took 0.0177901 sec)
SO iteration 8: need to repeat for 0000167981 particles. (took 0.017817 sec)
SO iteration 9: need to repeat for 0000167981 particles. (took 0.017839 sec)
SO iteration 10: need to repeat for 0000167981 particles. (took 0.017906 sec)
SO iteration 11: need to repeat for 0000167981 particles. (took 0.0179632 sec)
SO iteration 12: need to repeat for 0000167981 particles. (took 0.0180881 sec)
SO iteration 13: need to repeat for 0000167981 particles. (took 0.0177591 sec)
SO iteration 14: need to repeat for 0000167981 particles. (took 0.017931 sec)
SO iteration 15: need to repeat for 0000167974 particles. (took 0.01773 sec)
SO iteration 16: need to repeat for 0000167042 particles. (took 0.0179141 sec)
SO iteration 17: need to repeat for 0000135258 particles. (took 0.0177839 sec)
SO iteration 18: need to repeat for 0000004516 particles. (took 0.0163841 sec)
SO iteration 19: need to repeat for 0000000140 particles. (took 0.00212908 sec)
SO iteration 20: need to repeat for 0000000007 particles. (took 0.000885963 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.00078702 sec)
determining spherical overdensity masses took 2.51647 sec
finding spherical overdensity particles took 0.396126 sec
determining contamination of halos took 0.24978 sec
Global sort of Groups took 0.0819731 sec
Global sort of SubGroups took 0.190006 sec
Global sort of IDs took 0.383421 sec
Writing block 0 (GLEN), n=558, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2232d
Writing block 1 (GOFF), n=558, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2232d
Writing block 2 (MTOT), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 3 (GPOS), n=558, ptype=0, dtype=1, ndim=3, bpb=4 bytes=6696d
Writing block 4 (MMEA), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 5 (RMEA), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 6 (MCRI), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 7 (RCRI), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 8 (MTOP), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 9 (RTOP), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 17 (NCON), n=558, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2232d
Writing block 18 (MCON), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 22 (NSUB), n=558, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2232d
Writing block 23 (FSUB), n=558, ptype=0, dtype=0, ndim=1, bpb=4 bytes=2232d
Writing block 24 (SLEN), n=2860, ptype=1, dtype=0, ndim=1, bpb=4 bytes=11440d
Writing block 25 (SOFF), n=2860, ptype=1, dtype=0, ndim=1, bpb=4 bytes=11440d
Writing block 26 (SSUB), n=2860, ptype=1, dtype=0, ndim=1, bpb=4 bytes=11440d
Writing block 27 (MSUB), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 28 (SPOS), n=2860, ptype=1, dtype=1, ndim=3, bpb=4 bytes=34320d
Writing block 29 (SVEL), n=2860, ptype=1, dtype=1, ndim=3, bpb=4 bytes=34320d
Writing block 30 (SCM ), n=2860, ptype=1, dtype=1, ndim=3, bpb=4 bytes=34320d
Writing block 33 (VMAX), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 34 (RMAX), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 35 (RHMS), n=2860, ptype=1, dtype=1, ndim=6, bpb=4 bytes=68640d
Writing block 36 (MTRH), n=2860, ptype=1, dtype=1, ndim=6, bpb=4 bytes=68640d
Writing block 37 (MBID), n=2860, ptype=1, dtype=2, ndim=1, bpb=8 bytes=22880d
Writing block 38 (GRNR), n=2860, ptype=1, dtype=0, ndim=1, bpb=4 bytes=11440d
Writing block 39 (SUBN), n=2860, ptype=1, dtype=0, ndim=1, bpb=4 bytes=11440d
Writing block 40 (SMST), n=2860, ptype=1, dtype=1, ndim=6, bpb=4 bytes=68640d
Writing block 53 (PID ), n=357733, ptype=2, dtype=2, ndim=1, bpb=8 bytes=2861864d
Writing block 54 (SLEN), n=2860, ptype=1, dtype=0, ndim=6, bpb=4 bytes=68640d
Writing block 55 (STEN), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 56 (SKEN), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 57 (SUEN), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 58 (SUIT), n=2860, ptype=1, dtype=1, ndim=9, bpb=4 bytes=102960d
Writing block 59 (BHMA), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 60 (BHMD), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 61 (SVD ), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 62 (SVDH), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 63 (HMPR), n=2860, ptype=1, dtype=1, ndim=6, bpb=4 bytes=68640d
Writing block 64 (SSFR), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 65 (SSA ), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 66 (SSBZ), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 67 (SSIM), n=2860, ptype=1, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 68 (SSPI), n=2860, ptype=4, dtype=1, ndim=3, bpb=4 bytes=34320d
Writing block 69 (GSPI), n=2860, ptype=1, dtype=1, ndim=3, bpb=4 bytes=34320d
Writing block 70 (FSPI), n=2860, ptype=5, dtype=1, ndim=3, bpb=4 bytes=34320d
Writing block 71 (SFM ), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 72 (SFMT), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 73 (SFME), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 74 (SFAE), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 75 (SFKE), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 76 (SFTE), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 77 (SMWP), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 78 (SMM ), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 79 (SMMS), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 80 (SFZ ), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 81 (SFZS), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 82 (SSIA), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 83 (SIAS), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 84 (SMET), n=2860, ptype=5, dtype=1, ndim=9, bpb=4 bytes=102960d
Writing block 85 (SMTS), n=2860, ptype=5, dtype=1, ndim=9, bpb=4 bytes=102960d
Writing block 86 (MF1 ), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 87 (MeF1), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 88 (MF  ), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 89 (MeF2), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 90 (MFA ), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 91 (MeFA), n=2860, ptype=5, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 92 (NSPI), n=2860, ptype=6, dtype=1, ndim=3, bpb=4 bytes=34320d
Writing block 93 (NFM ), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 94 (NFMT), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 95 (NFME), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 96 (NFAE), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 97 (NFKE), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 98 (NFTE), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 99 (SMWP), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 100 (SMM ), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 101 (SMMS), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 102 (SSIA), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 103 (SIAS), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 104 (SMET), n=2860, ptype=6, dtype=1, ndim=9, bpb=4 bytes=102960d
Writing block 105 (SMTS), n=2860, ptype=6, dtype=1, ndim=9, bpb=4 bytes=102960d
Writing block 106 (MF1 ), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 107 (MeF1), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 108 (MF2 ), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 109 (MeF2), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 110 (MFA ), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 111 (MeFA), n=2860, ptype=6, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 112 (SM  ), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 113 (SFKE), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 114 (SFAE), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 115 (SMWP), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 116 (SMM ), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 117 (SMMS), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 118 (SSIA), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 119 (SIAS), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 120 (SMET), n=2860, ptype=4, dtype=1, ndim=9, bpb=4 bytes=102960d
Writing block 121 (SMTS), n=2860, ptype=4, dtype=1, ndim=9, bpb=4 bytes=102960d
Writing block 122 (MF1 ), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 123 (MeF1), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 124 (MF2 ), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 125 (MeF2), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 126 (MFA ), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 127 (MeFA), n=2860, ptype=4, dtype=1, ndim=1, bpb=4 bytes=11440d
Writing block 128 (MMe5), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 129 (RMe5), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 130 (MCr5), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 131 (RCr5), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 132 (MMe2), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 133 (RMe2), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 134 (MCr2), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 135 (RCr2), n=558, ptype=0, dtype=1, ndim=1, bpb=4 bytes=2232d
Writing block 136 (MAPT), n=2860, ptype=7, dtype=1, ndim=60, bpb=4 bytes=686400d
Writing block 137 (SAPT), n=2860, ptype=8, dtype=1, ndim=10, bpb=4 bytes=114400d
Writing block 138 (VAPT), n=2860, ptype=9, dtype=1, ndim=10, bpb=4 bytes=114400d
Writing block 139 (BEGY), n=357733, ptype=2, dtype=1, ndim=1, bpb=4 bytes=1430932d
Subgroup catalogues saved. took = 9.55164 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 4.641860e-01
 eagle_ph_key_ort: type= 1 timed by volker 4.875150e-01
 eagle_ph_key_ort: type= 2 timed by volker 7.385993e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.096102e-02
 eagle_ph_key_ort: type= 4 timed by volker 8.230805e-02
 eagle_ph_key_ort: type= 5 timed by volker 3.267503e-02
 eagle_ph_key_ort: timing parallel sort = 1.242930e+00
 eagle_fetch_elements: we are using 2053250067 bytes of memory, FreeBytes= 2566562584

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 5052.34 Mbyte (on task=0), Smallest = 4041.77 Mbyte, Average = 4066.31 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1054       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9206  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3420  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7634  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7134    2035.4768  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1475.0321    3510.5089  allocate_memory()/allocate.c/85
   0 2971 0              MetP    323.4478    3833.9567  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.4609    3871.4176  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.6705    3885.2639  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.2288    3921.4927  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     60.3814    3981.8741  fof_fof()/fof.c/337
   0 2978 0             Group      0.7782    3982.6523  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1033.5403    5016.1926  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.1425    5052.3352  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 2350210 number of bytes = 752067200

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 6995.59 Mbyte (on task=0), Smallest = 5984.1 Mbyte, Average = 6016.09 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      0.4944       2.3938  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      6.1054       8.4992  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     24.4214      32.9206  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     24.4214      57.3420  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     24.4214      81.7634  allocate_memory()/allocate.c/61
   0 2969 0                 P   1953.7134    2035.4768  allocate_memory()/allocate.c/67
   0 2970 0              SphP   1475.0321    3510.5089  allocate_memory()/allocate.c/85
   0 2971 0              MetP    323.4478    3833.9567  allocate_memory()/allocate.c/105
   0 2972 0               BHP     37.4609    3871.4176  allocate_memory()/allocate.c/126
   0 2975 0          TopNodes     13.6705    3885.2639  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     36.2288    3921.4927  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     60.3814    3981.8741  fof_fof()/fof.c/337
   0 2978 0             Group      0.7782    3982.6523  fof_fof()/fof.c/380
   0 2979 0          SubGroup   1033.5403    5016.1926  subfind()/subfind.c/376
   0 2980 0   sort_index_data     36.1425    5052.3352  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      8.9653    5061.3005  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      8.9653    5070.2659  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      8.9653    5079.2312  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    717.2272    5796.4584  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    717.2272    6513.6855  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    481.9006    6995.5862  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 3.463480e+00
 eagle_fetch_elements: we are using 2053250067 bytes of memory, FreeBytes= 2566562584
 eagle_fetch_elements: max_bytes= 504, max_elements= 1627800 number of bytes = 820411200
 eagle_ph_key_ort: timing parallel SphP exchange = 2.456007e+00
 eagle_fetch_elements: we are using 2053250067 bytes of memory, FreeBytes= 2566562584
 eagle_fetch_elements: max_bytes= 384, max_elements= 2591426 number of bytes = 995107584
 eagle_ph_key_ort: timing parallel MetP exchange = 2.144852e-01
 eagle_fetch_elements: we are using 2053250067 bytes of memory, FreeBytes= 2566562584
 eagle_fetch_elements: max_bytes= 256, max_elements= 3918373 number of bytes = 1003103488
 eagle_ph_key_ort: timing parallel BHP exchange = 7.807016e-03
Sorting particle-data by peano-hilbert key took = 7.73712 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 2053250067 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 2350210 number of bytes= 752067200
 eagle_ph_restore: timing parallel P exchange = 3.441231e+00
 eagle_send_elements: we are using 2053250067 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 1627800 number of bytes= 820411200
 eagle_ph_restore: timing parallel SphP exchange = 2.573853e+00
 eagle_send_elements: we are using 2053250067 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 2591426 number of bytes= 995107584
 eagle_ph_restore: timing parallel MetP exchange = 2.434950e-01
 eagle_send_elements: we are using 2053250067 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 3918373 number of bytes= 1003103488
 eagle_ph_restore: timing parallel BHP exchange = 7.045031e-03
Restoring original order after ph key sorting took = 6.28438 sec

finished writing particle file...

Finished with SUBFIND.  (total time=2243.7 sec)

Finished computing FoF groups.  (presently allocated=3885.26 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=3871.42 MB)
Allocated 16.1129 MByte for top-level domain structure
use of 73.3889 MB of temporary storage for domain decomposition... (presently allocated=3960.92 MB)
Before=244633
After=275489
NTopleaves= 241053  NTopnodes=275489 (space for 321370)
gravity work-load balance=1.01814   memory-balance=1.01814   SPH work-load balance=1.01963
iter=0 exchange of 0574633413 particles (ret=0)
domain decomposition done. (took 8.03813 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 2.10027 MByte in top-level domain structure
Tree construction.
task 22: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 22:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 22
task 22: endrun called with an error level of 124


task 45: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
task 45: endrun called with an error level of 124


task 67: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 67:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 67
task 67: endrun called with an error level of 124


task 90: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
task 90: endrun called with an error level of 124


task 112: endrun called with an error level of 124


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


task 135: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
task 135: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 157: endrun called with an error level of 124


task 157: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 157:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 157
task 180: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
task 180: endrun called with an error level of 124


task 202: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 202:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 202
task 202: endrun called with an error level of 124


task 225: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
task 225: endrun called with an error level of 124


task 247: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 247:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 247
task 247: endrun called with an error level of 124


task 270: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
task 270: endrun called with an error level of 124


task 292: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 292:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 292
task 292: endrun called with an error level of 124


task 315: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
task 315: endrun called with an error level of 124


task 337: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 337:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 337
Finished FOF, total time doing fof/subfind = 2288.26 s
task 337: endrun called with an error level of 124


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


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


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62712.56 Mb (on task=400), Smallest =   62511.26 Mb (on task=0), Average =   62663.76 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=176), Smallest =   64531.71 Mb (on task=224), Average =   64532.01 Mb
Committed_AS:	 Largest =    2020.73 Mb (on task=0), Smallest =    1819.44 Mb (on task=400), Average =    1868.25 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=32), Smallest =   16266.08 Mb (on task=96), Average =   16310.88 Mb
AllocMem:	 Largest =    2020.73 Mb (on task=0), Smallest =    1819.44 Mb (on task=400), Average =    1868.25 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 720 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N16':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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

reading file `data//snapshot_009_z001p308/snap_009_z001p308.9.hdf5' on task=405 (contains 36038772 particles.)
distributing this file to tasks 405-449
Type 0 (gas):   17320207  (tot=     0277220476) masstab=0
Type 1 (halo):  17850658  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     35807  (tot=     0000254233) masstab=0
Type 3 (bulge):   274336  (tot=     0002602064) masstab=0
Type 4 (stars):   556549  (tot=     0009417088) masstab=0
Type 5 (bndry):     1215  (tot=     0000019432) masstab=0


Allocated 1016.54 MByte for particle storage.

Allocated 740.258 MByte for storage of SPH data.

Allocated 160.16 MByte for storage of MET data.

Allocated 18.8 MByte for storage of BH data.


reading file `data//snapshot_009_z001p308/snap_009_z001p308.0.hdf5' on task=0 (contains 35864837 particles.)
distributing this file to tasks 0-44
Type 0 (gas):   17261164  (tot=     0277220476) masstab=0
Type 1 (halo):  17939006  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15522  (tot=     0000254233) masstab=0
Type 3 (bulge):    35194  (tot=     0002602064) masstab=0
Type 4 (stars):   612755  (tot=     0009417088) masstab=0
Type 5 (bndry):     1196  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.10.hdf5' on task=450 (contains 35984616 particles.)
distributing this file to tasks 450-494
Type 0 (gas):   17297949  (tot=     0277220476) masstab=0
Type 1 (halo):  17955106  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12893  (tot=     0000254233) masstab=0
Type 3 (bulge):   151918  (tot=     0002602064) masstab=0
Type 4 (stars):   565547  (tot=     0009417088) masstab=0
Type 5 (bndry):     1203  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.14.hdf5' on task=630 (contains 36126248 particles.)
distributing this file to tasks 630-674
Type 0 (gas):   17370456  (tot=     0277220476) masstab=0
Type 1 (halo):  17841456  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14505  (tot=     0000254233) masstab=0
Type 3 (bulge):   246074  (tot=     0002602064) masstab=0
Type 4 (stars):   652606  (tot=     0009417088) masstab=0
Type 5 (bndry):     1151  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.5.hdf5' on task=225 (contains 36111368 particles.)
distributing this file to tasks 225-269
Type 0 (gas):   17332708  (tot=     0277220476) masstab=0
Type 1 (halo):  17867100  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14119  (tot=     0000254233) masstab=0
Type 3 (bulge):   270362  (tot=     0002602064) masstab=0
Type 4 (stars):   625828  (tot=     0009417088) masstab=0
Type 5 (bndry):     1251  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.3.hdf5' on task=135 (contains 35966764 particles.)
distributing this file to tasks 135-179
Type 0 (gas):   17397612  (tot=     0277220476) masstab=0
Type 1 (halo):  17876198  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      7999  (tot=     0000254233) masstab=0
Type 3 (bulge):   197643  (tot=     0002602064) masstab=0
Type 4 (stars):   486147  (tot=     0009417088) masstab=0
Type 5 (bndry):     1165  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.12.hdf5' on task=540 (contains 36013216 particles.)
distributing this file to tasks 540-584
Type 0 (gas):   17327700  (tot=     0277220476) masstab=0
Type 1 (halo):  18000239  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     27445  (tot=     0000254233) masstab=0
Type 3 (bulge):    79852  (tot=     0002602064) masstab=0
Type 4 (stars):   576767  (tot=     0009417088) masstab=0
Type 5 (bndry):     1213  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.7.hdf5' on task=315 (contains 36139545 particles.)
distributing this file to tasks 315-359
Type 0 (gas):   17298295  (tot=     0277220476) masstab=0
Type 1 (halo):  18145700  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15252  (tot=     0000254233) masstab=0
Type 3 (bulge):   212652  (tot=     0002602064) masstab=0
Type 4 (stars):   466394  (tot=     0009417088) masstab=0
Type 5 (bndry):     1252  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.4.hdf5' on task=180 (contains 35896084 particles.)
distributing this file to tasks 180-224
Type 0 (gas):   17319622  (tot=     0277220476) masstab=0
Type 1 (halo):  17888625  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14532  (tot=     0000254233) masstab=0
Type 3 (bulge):   101584  (tot=     0002602064) masstab=0
Type 4 (stars):   570576  (tot=     0009417088) masstab=0
Type 5 (bndry):     1145  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.2.hdf5' on task=90 (contains 35898017 particles.)
distributing this file to tasks 90-134
Type 0 (gas):   17358452  (tot=     0277220476) masstab=0
Type 1 (halo):  17802185  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18660  (tot=     0000254233) masstab=0
Type 3 (bulge):   144789  (tot=     0002602064) masstab=0
Type 4 (stars):   572650  (tot=     0009417088) masstab=0
Type 5 (bndry):     1281  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.1.hdf5' on task=45 (contains 36282336 particles.)
distributing this file to tasks 45-89
Type 0 (gas):   17278631  (tot=     0277220476) masstab=0
Type 1 (halo):  18138404  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18425  (tot=     0000254233) masstab=0
Type 3 (bulge):   223332  (tot=     0002602064) masstab=0
Type 4 (stars):   622349  (tot=     0009417088) masstab=0
Type 5 (bndry):     1195  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.15.hdf5' on task=675 (contains 35855369 particles.)
distributing this file to tasks 675-719
Type 0 (gas):   17304462  (tot=     0277220476) masstab=0
Type 1 (halo):  17757033  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8957  (tot=     0000254233) masstab=0
Type 3 (bulge):   133857  (tot=     0002602064) masstab=0
Type 4 (stars):   649837  (tot=     0009417088) masstab=0
Type 5 (bndry):     1223  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.6.hdf5' on task=270 (contains 36090712 particles.)
distributing this file to tasks 270-314
Type 0 (gas):   17481335  (tot=     0277220476) masstab=0
Type 1 (halo):  17842089  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13439  (tot=     0000254233) masstab=0
Type 3 (bulge):   216733  (tot=     0002602064) masstab=0
Type 4 (stars):   535934  (tot=     0009417088) masstab=0
Type 5 (bndry):     1182  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.13.hdf5' on task=585 (contains 36074607 particles.)
distributing this file to tasks 585-629
Type 0 (gas):   17326204  (tot=     0277220476) masstab=0
Type 1 (halo):  18063864  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15282  (tot=     0000254233) masstab=0
Type 3 (bulge):    58099  (tot=     0002602064) masstab=0
Type 4 (stars):   609914  (tot=     0009417088) masstab=0
Type 5 (bndry):     1244  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.11.hdf5' on task=495 (contains 35992667 particles.)
distributing this file to tasks 495-539
Type 0 (gas):   17345310  (tot=     0277220476) masstab=0
Type 1 (halo):  17788587  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13629  (tot=     0000254233) masstab=0
Type 3 (bulge):   178271  (tot=     0002602064) masstab=0
Type 4 (stars):   665622  (tot=     0009417088) masstab=0
Type 5 (bndry):     1248  (tot=     0000019432) masstab=0


reading file `data//snapshot_009_z001p308/snap_009_z001p308.8.hdf5' on task=360 (contains 35838865 particles.)
distributing this file to tasks 360-404
Type 0 (gas):   17200369  (tot=     0277220476) masstab=0
Type 1 (halo):  17904480  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      7767  (tot=     0000254233) masstab=0
Type 3 (bulge):    77368  (tot=     0002602064) masstab=0
Type 4 (stars):   647613  (tot=     0009417088) masstab=0
Type 5 (bndry):     1268  (tot=     0000019432) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576174023


Setting next time for grid output file to Time_next= 0.439208

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

Setting next time for snipshot file to Time_next= 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=7.00487 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1939.65 MB)
Allocated 1.62149 MByte for top-level domain structure
use of 26.4301 MB of temporary storage for domain decomposition... (presently allocated=1967.7 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1967.7 Mbyte (on task=1), Smallest = 1967.7 Mbyte, Average = 1967.7 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      1.9775       3.8876  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.0527       6.9403  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     12.2107      19.1510  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     12.2107      31.3617  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     12.2107      43.5724  allocate_memory()/allocate.c/61
   1 2969 0                 P    976.8567    1020.4291  allocate_memory()/allocate.c/67
   1 2970 0              SphP    740.2577    1760.6868  allocate_memory()/allocate.c/85
   1 2971 0              MetP    160.1602    1920.8470  allocate_memory()/allocate.c/105
   1 2972 0               BHP     18.8000    1939.6470  allocate_memory()/allocate.c/126
   1 2973 0   DomainStartList      0.1758    1939.8228  domain_allocate()/domain.c/562
   1 2974 0     DomainEndList      0.1758    1939.9986  domain_allocate()/domain.c/565
   1 2975 0          TopNodes      1.2699    1941.2685  domain_allocate()/domain.c/570
   1 2976 0        domain_key     24.4214    1965.6899  domain_Decomposition()/domain.c/231
   1 3001 0          topNodes      1.3676    1967.6986  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0025 MByte for top-level domain structure
use of 27.0163 MB of temporary storage for domain decomposition... (presently allocated=1968.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.49776 MByte for top-level domain structure
use of 27.7782 MB of temporary storage for domain decomposition... (presently allocated=1969.92 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.14161 MByte for top-level domain structure
use of 28.7687 MB of temporary storage for domain decomposition... (presently allocated=1971.56 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 3.9786 MByte for top-level domain structure
use of 30.0564 MB of temporary storage for domain decomposition... (presently allocated=1973.68 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.06668 MByte for top-level domain structure
use of 31.7304 MB of temporary storage for domain decomposition... (presently allocated=1976.44 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 6.48122 MByte for top-level domain structure
use of 33.9066 MB of temporary storage for domain decomposition... (presently allocated=1980.03 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 8.3201 MByte for top-level domain structure
use of 36.7356 MB of temporary storage for domain decomposition... (presently allocated=1984.7 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 10.7106 MByte for top-level domain structure
use of 40.4134 MB of temporary storage for domain decomposition... (presently allocated=1990.77 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0652585  new value=0.084836
Allocated 13.8184 MByte for top-level domain structure
use of 45.1945 MB of temporary storage for domain decomposition... (presently allocated=1998.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.084836  new value=0.110287
Allocated 17.8584 MByte for top-level domain structure
use of 51.41 MB of temporary storage for domain decomposition... (presently allocated=2008.91 MB)
Before=333177
Increasing TopNodeAllocFactor=0.110287  new value=0.143373
Allocated 23.1105 MByte for top-level domain structure
use of 59.4901 MB of temporary storage for domain decomposition... (presently allocated=2022.25 MB)
Before=333177
Increasing TopNodeAllocFactor=0.143373  new value=0.186385
Allocated 29.9381 MByte for top-level domain structure
use of 69.9942 MB of temporary storage for domain decomposition... (presently allocated=2039.58 MB)
Before=333177
After=509553
NTopleaves= 445859  NTopnodes=509553 (space for 596611)
gravity work-load balance=1.02173   memory-balance=1.02173   SPH work-load balance=1.0215
iter=0 exchange of 0575404858 particles (ret=0)
domain decomposition done. (took 25.7824 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 3.9852 MByte in top-level domain structure

Allocated 487.982 MByte for BH-tree, and 1.70082 Mbyte for top-leaves.  (presently allocted 2454.95 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 2753.03 Mbyte (on task=587), Smallest = 2717.78 Mbyte, Average = 2733.74 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 587 2964 0  Sendcount_matrix      1.9775       3.8876  allocate_memory()/allocate.c/41
 587 2965 0     ProcessedFlag      3.0527       6.9403  allocate_memory()/allocate.c/52
 587 2966 0  NextActiveParticle     12.2107      19.1510  allocate_memory()/allocate.c/55
 587 2967 0     NextInTimeBin     12.2107      31.3617  allocate_memory()/allocate.c/58
 587 2968 0     PrevInTimeBin     12.2107      43.5724  allocate_memory()/allocate.c/61
 587 2969 0                 P    976.8567    1020.4291  allocate_memory()/allocate.c/67
 587 2970 0              SphP    740.2577    1760.6868  allocate_memory()/allocate.c/85
 587 2971 0              MetP    160.1602    1920.8470  allocate_memory()/allocate.c/105
 587 2972 0               BHP     18.8000    1939.6470  allocate_memory()/allocate.c/126
 587 2973 0   DomainStartList      0.1758    1939.8228  domain_allocate()/domain.c/562
 587 2974 0     DomainEndList      0.1758    1939.9986  domain_allocate()/domain.c/565
 587 2975 0          TopNodes     25.2693    1965.2679  domain_allocate()/domain.c/570
 587 2976 0   DomainNodeIndex      1.7008    1966.9687  force_treeallocate()/forcetree.c/4800
 587 2977 0        Nodes_base    251.7909    2218.7596  force_treeallocate()/forcetree.c/4803
 587 2978 0     Extnodes_base    209.8257    2428.5853  force_treeallocate()/forcetree.c/4811
 587 2979 0          Nextnode     14.1545    2442.7398  force_treeallocate()/forcetree.c/4820
 587 2980 0            Father     12.2107    2454.9505  force_treeallocate()/forcetree.c/4827
 587 2981 0           Ngblist      2.9987    2457.9492  density()/density.c/690
 587 2982 0              Left      5.9974    2463.9466  density()/density.c/692
 587 2983 0             Right      5.9974    2469.9440  density()/density.c/693
 587 2984 0    DataIndexTable      7.0175    2476.9615  density()/density.c/738
 587 2985 0      DataNodeList     18.7134    2495.6749  density()/density.c/740
 587 2986 0       DensDataGet     70.4110    2566.0859  density()/density.c/893
 587 2987 0    DensDataResult     92.8145    2658.9005  density()/density.c/931
 587 2988 0       DensDataOut     94.1206    2753.0210  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0000525153 particles.
ngb iteration 2: need to repeat for 0000000779 particles.
ngb iteration 3: need to repeat for 0000000424 particles.
ngb iteration 4: need to repeat for 0000000410 particles.
ngb iteration 5: need to repeat for 0000000058 particles.
ngb iteration 6: need to repeat for 0000000038 particles.
ngb iteration 7: need to repeat for 0000000007 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.259.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.370.hdf5

Begin to compute FoF group catalogues...  (presently allocated=2454.95 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1939.65 MB)
Allocated 29.9381 MByte for top-level domain structure
use of 69.9942 MB of temporary storage for domain decomposition... (presently allocated=2039.58 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.186385  new value=0.2423
Allocated 38.8141 MByte for top-level domain structure
use of 83.6495 MB of temporary storage for domain decomposition... (presently allocated=2062.11 MB)
Before=488177
After=541217
NTopleaves= 473565  NTopnodes=541217 (space for 775594)
gravity work-load balance=1.01972   memory-balance=1.01972   SPH work-load balance=1.0194
iter=0 exchange of 0575337211 particles (ret=0)
domain decomposition done. (took 11.9186 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.7289 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=1966.84 MB)
Tree construction.

Start linking particles (presently allocated=2498.95 MB)
links on local processor done (took 1.86409 sec).
Marked=0053909476 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=2596.75 MB) 
have done 0001335341 cross links (processed 0053909476, took 1.66978 sec)
have done 0000527384 cross links (processed 0033937724, took 1.20088 sec)
have done 0000347624 cross links (processed 0026472268, took 1.10138 sec)
have done 0000216546 cross links (processed 0016390207, took 1.08913 sec)
have done 0000131937 cross links (processed 0009458145, took 1.00015 sec)
have done 0000081919 cross links (processed 0005177644, took 0.861757 sec)
have done 0000049141 cross links (processed 0002887802, took 0.899174 sec)
have done 0000029780 cross links (processed 0001451843, took 0.710998 sec)
have done 0000018242 cross links (processed 0000793382, took 0.151694 sec)
have done 0000010467 cross links (processed 0000260079, took 0.142574 sec)
have done 0000005637 cross links (processed 0000175630, took 0.139054 sec)
have done 0000002533 cross links (processed 0000124650, took 0.228077 sec)
have done 0000001292 cross links (processed 0000032631, took 0.049248 sec)
have done 0000001113 cross links (processed 0000068164, took 0.140484 sec)
have done 0000000781 cross links (processed 0000045384, took 0.138362 sec)
have done 0000000304 cross links (processed 0000006779, took 0.0340099 sec)
have done 0000000071 cross links (processed 0000001224, took 0.0329931 sec)
have done 0000000015 cross links (processed 0000000218, took 0.032532 sec)
have done 0000000003 cross links (processed 0000000057, took 0.0331001 sec)
have done 0000000003 cross links (processed 0000000025, took 0.0326619 sec)
have done 0000000001 cross links (processed 0000000014, took 0.0325611 sec)
have done 0000000000 cross links (processed 0000000007, took 0.0326121 sec)
Local groups found.

group finding took = 11.7216 sec
Start finding nearest dm-particle (presently allocated=2498.95 MB)
still finding nearest... (presently allocated=2586.5 MB)
fof-nearest iteration 1: need to repeat for 262983088 particles.
still finding nearest... (presently allocated=2587.28 MB)
fof-nearest iteration 2: need to repeat for 242158677 particles.
still finding nearest... (presently allocated=2588.8 MB)
fof-nearest iteration 3: need to repeat for 223707514 particles.
still finding nearest... (presently allocated=2590.97 MB)
fof-nearest iteration 4: need to repeat for 194123084 particles.
still finding nearest... (presently allocated=2593.45 MB)
fof-nearest iteration 5: need to repeat for 140260449 particles.
still finding nearest... (presently allocated=2595.03 MB)
fof-nearest iteration 6: need to repeat for 67737759 particles.
still finding nearest... (presently allocated=2593.53 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 4.41357 sec
compiling local group data and catalogue took = 0.602871 sec

Total number of groups with at least 32 particles: 203959
Largest group has 8354034 particles.
Total number of particles in groups: 0146361447

group properties are now allocated.. (presently allocated=2016.5 MB)
computation of group properties took = 0.0558949 sec
start global sorting of group catalogues number 9
LargestGroup = 3713.685621; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0503771 sec
Group catalogues globally sorted. took = 1.33629 sec
starting saving of group catalogue number 9
data//groups_009_z001p308
Group catalogues number 9 saved. took = 3.32638 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (277220476).
tree build for species 0 took 0.569803 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0220845572 particles. (took 6.15951 sec)
ngb iteration 2: need to repeat for 0192240934 particles. (took 4.32184 sec)
ngb iteration 3: need to repeat for 0178406845 particles. (took 3.682 sec)
ngb iteration 4: need to repeat for 0166325562 particles. (took 3.40955 sec)
ngb iteration 5: need to repeat for 0149990250 particles. (took 3.2795 sec)
ngb iteration 6: need to repeat for 0124933642 particles. (took 3.03805 sec)
ngb iteration 7: need to repeat for 0092899143 particles. (took 2.69429 sec)
ngb iteration 8: need to repeat for 0061712004 particles. (took 2.17779 sec)
ngb iteration 9: need to repeat for 0037488177 particles. (took 1.47595 sec)
ngb iteration 10: need to repeat for 0021422367 particles. (took 0.881142 sec)
ngb iteration 11: need to repeat for 0011794421 particles. (took 0.50423 sec)
ngb iteration 12: need to repeat for 0006367367 particles. (took 0.317001 sec)
ngb iteration 13: need to repeat for 0003412681 particles. (took 0.216153 sec)
ngb iteration 14: need to repeat for 0001706423 particles. (took 0.159358 sec)
ngb iteration 15: need to repeat for 0000650812 particles. (took 0.121597 sec)
ngb iteration 16: need to repeat for 0000265444 particles. (took 0.088727 sec)
ngb iteration 17: need to repeat for 0000134291 particles. (took 0.0699351 sec)
ngb iteration 18: need to repeat for 0000080625 particles. (took 0.0574679 sec)
ngb iteration 19: need to repeat for 0000052985 particles. (took 0.0519111 sec)
ngb iteration 20: need to repeat for 0000036189 particles. (took 0.049809 sec)
ngb iteration 21: need to repeat for 0000025130 particles. (took 0.0494709 sec)
ngb iteration 22: need to repeat for 0000017138 particles. (took 0.048584 sec)
ngb iteration 23: need to repeat for 0000011344 particles. (took 0.0480001 sec)
ngb iteration 24: need to repeat for 0000007110 particles. (took 0.0480261 sec)
ngb iteration 25: need to repeat for 0000004268 particles. (took 0.047755 sec)
ngb iteration 26: need to repeat for 0000002471 particles. (took 0.0473771 sec)
ngb iteration 27: need to repeat for 0000001404 particles. (took 0.0471969 sec)
ngb iteration 28: need to repeat for 0000000800 particles. (took 0.0471349 sec)
ngb iteration 29: need to repeat for 0000000455 particles. (took 0.0473571 sec)
ngb iteration 30: need to repeat for 0000000256 particles. (took 0.047405 sec)
ngb iteration 31: need to repeat for 0000000143 particles. (took 0.047467 sec)
ngb iteration 32: need to repeat for 0000000075 particles. (took 0.047317 sec)
ngb iteration 33: need to repeat for 0000000036 particles. (took 0.047308 sec)
ngb iteration 34: need to repeat for 0000000023 particles. (took 0.0472491 sec)
ngb iteration 35: need to repeat for 0000000014 particles. (took 0.0479901 sec)
ngb iteration 36: need to repeat for 0000000008 particles. (took 0.047102 sec)
ngb iteration 37: need to repeat for 0000000003 particles. (took 0.0471539 sec)
ngb iteration 38: need to repeat for 0000000001 particles. (took 0.0478759 sec)
final operations ... 
density and smoothing length for species 0 took 33.851 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.583435 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0219232303 particles. (took 8.72677 sec)
ngb iteration 2: need to repeat for 0186916993 particles. (took 5.19479 sec)
ngb iteration 3: need to repeat for 0169211346 particles. (took 4.25232 sec)
ngb iteration 4: need to repeat for 0156091635 particles. (took 3.63064 sec)
ngb iteration 5: need to repeat for 0140937622 particles. (took 3.29992 sec)
ngb iteration 6: need to repeat for 0119480159 particles. (took 3.04402 sec)
ngb iteration 7: need to repeat for 0092372781 particles. (took 2.67446 sec)
ngb iteration 8: need to repeat for 0064969285 particles. (took 2.13462 sec)
ngb iteration 9: need to repeat for 0042242160 particles. (took 1.52951 sec)
ngb iteration 10: need to repeat for 0025938865 particles. (took 0.996721 sec)
ngb iteration 11: need to repeat for 0015339975 particles. (took 0.620983 sec)
ngb iteration 12: need to repeat for 0008864725 particles. (took 0.390044 sec)
ngb iteration 13: need to repeat for 0005050919 particles. (took 0.26188 sec)
ngb iteration 14: need to repeat for 0002748471 particles. (took 0.186065 sec)
ngb iteration 15: need to repeat for 0001317575 particles. (took 0.137866 sec)
ngb iteration 16: need to repeat for 0000629776 particles. (took 0.103043 sec)
ngb iteration 17: need to repeat for 0000307815 particles. (took 0.082567 sec)
ngb iteration 18: need to repeat for 0000153457 particles. (took 0.0680499 sec)
ngb iteration 19: need to repeat for 0000076489 particles. (took 0.058568 sec)
ngb iteration 20: need to repeat for 0000037056 particles. (took 0.052758 sec)
ngb iteration 21: need to repeat for 0000017666 particles. (took 0.0498948 sec)
ngb iteration 22: need to repeat for 0000008004 particles. (took 0.0480499 sec)
ngb iteration 23: need to repeat for 0000003459 particles. (took 0.0472541 sec)
ngb iteration 24: need to repeat for 0000001399 particles. (took 0.0468671 sec)
ngb iteration 25: need to repeat for 0000000558 particles. (took 0.0465431 sec)
ngb iteration 26: need to repeat for 0000000194 particles. (took 0.0465908 sec)
ngb iteration 27: need to repeat for 0000000063 particles. (took 0.0465419 sec)
ngb iteration 28: need to repeat for 0000000018 particles. (took 0.0465388 sec)
ngb iteration 29: need to repeat for 0000000005 particles. (took 0.0466042 sec)
final operations ... 
density and smoothing length for species 1 took 38.1157 sec
Tree construction for species 4 (9417088).
tree build for species 4 took 0.362493 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0007274306 particles. (took 2.27327 sec)
ngb iteration 2: need to repeat for 0006410029 particles. (took 1.4829 sec)
ngb iteration 3: need to repeat for 0005834965 particles. (took 1.12584 sec)
ngb iteration 4: need to repeat for 0005412716 particles. (took 0.878556 sec)
ngb iteration 5: need to repeat for 0005003085 particles. (took 0.697982 sec)
ngb iteration 6: need to repeat for 0004509984 particles. (took 0.557324 sec)
ngb iteration 7: need to repeat for 0003894858 particles. (took 0.430018 sec)
ngb iteration 8: need to repeat for 0003213395 particles. (took 0.364113 sec)
ngb iteration 9: need to repeat for 0002554130 particles. (took 0.291673 sec)
ngb iteration 10: need to repeat for 0001979561 particles. (took 0.251556 sec)
ngb iteration 11: need to repeat for 0001506587 particles. (took 0.225922 sec)
ngb iteration 12: need to repeat for 0001137665 particles. (took 0.208838 sec)
ngb iteration 13: need to repeat for 0000854364 particles. (took 0.178968 sec)
ngb iteration 14: need to repeat for 0000640207 particles. (took 0.159972 sec)
ngb iteration 15: need to repeat for 0000479484 particles. (took 0.143461 sec)
ngb iteration 16: need to repeat for 0000360978 particles. (took 0.133611 sec)
ngb iteration 17: need to repeat for 0000272419 particles. (took 0.117555 sec)
ngb iteration 18: need to repeat for 0000207321 particles. (took 0.111125 sec)
ngb iteration 19: need to repeat for 0000158984 particles. (took 0.0983529 sec)
ngb iteration 20: need to repeat for 0000122524 particles. (took 0.0860348 sec)
ngb iteration 21: need to repeat for 0000094637 particles. (took 0.076189 sec)
ngb iteration 22: need to repeat for 0000072883 particles. (took 0.0711279 sec)
ngb iteration 23: need to repeat for 0000055816 particles. (took 0.0668979 sec)
ngb iteration 24: need to repeat for 0000042277 particles. (took 0.0655649 sec)
ngb iteration 25: need to repeat for 0000031551 particles. (took 0.0637209 sec)
ngb iteration 26: need to repeat for 0000022935 particles. (took 0.0629392 sec)
ngb iteration 27: need to repeat for 0000016175 particles. (took 0.0628371 sec)
ngb iteration 28: need to repeat for 0000010919 particles. (took 0.0627909 sec)
ngb iteration 29: need to repeat for 0000007084 particles. (took 0.0623648 sec)
ngb iteration 30: need to repeat for 0000004311 particles. (took 0.0624321 sec)
ngb iteration 31: need to repeat for 0000002545 particles. (took 0.0620239 sec)
ngb iteration 32: need to repeat for 0000001434 particles. (took 0.0621769 sec)
ngb iteration 33: need to repeat for 0000000757 particles. (took 0.062067 sec)
ngb iteration 34: need to repeat for 0000000401 particles. (took 0.061959 sec)
ngb iteration 35: need to repeat for 0000000199 particles. (took 0.0619771 sec)
ngb iteration 36: need to repeat for 0000000088 particles. (took 0.061873 sec)
ngb iteration 37: need to repeat for 0000000046 particles. (took 0.0619311 sec)
ngb iteration 38: need to repeat for 0000000016 particles. (took 0.062012 sec)
ngb iteration 39: need to repeat for 0000000004 particles. (took 0.0622261 sec)
final operations ... 
density and smoothing length for species 4 took 11.2403 sec
Tree construction.
tree build took 0.850857 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000012237 particles. (took 0.0919442 sec)
ngb iteration 2: need to repeat for 0000010223 particles. (took 0.0671499 sec)
ngb iteration 3: need to repeat for 0000007902 particles. (took 0.066951 sec)
ngb iteration 4: need to repeat for 0000006247 particles. (took 0.0669 sec)
ngb iteration 5: need to repeat for 0000005444 particles. (took 0.0669301 sec)
ngb iteration 6: need to repeat for 0000004726 particles. (took 0.0664241 sec)
ngb iteration 7: need to repeat for 0000003893 particles. (took 0.0659568 sec)
ngb iteration 8: need to repeat for 0000002926 particles. (took 0.0656509 sec)
ngb iteration 9: need to repeat for 0000002069 particles. (took 0.0651572 sec)
ngb iteration 10: need to repeat for 0000001358 particles. (took 0.0650709 sec)
ngb iteration 11: need to repeat for 0000000845 particles. (took 0.0652859 sec)
ngb iteration 12: need to repeat for 0000000541 particles. (took 0.064626 sec)
ngb iteration 13: need to repeat for 0000000342 particles. (took 0.0650661 sec)
ngb iteration 14: need to repeat for 0000000218 particles. (took 0.064858 sec)
ngb iteration 15: need to repeat for 0000000149 particles. (took 0.0643661 sec)
ngb iteration 16: need to repeat for 0000000094 particles. (took 0.0638192 sec)
ngb iteration 17: need to repeat for 0000000050 particles. (took 0.0637281 sec)
ngb iteration 18: need to repeat for 0000000043 particles. (took 0.0634699 sec)
ngb iteration 19: need to repeat for 0000000031 particles. (took 0.063441 sec)
ngb iteration 20: need to repeat for 0000000022 particles. (took 0.063889 sec)
ngb iteration 21: need to repeat for 0000000015 particles. (took 0.062696 sec)
ngb iteration 22: need to repeat for 0000000010 particles. (took 0.062717 sec)
ngb iteration 23: need to repeat for 0000000008 particles. (took 0.0630119 sec)
ngb iteration 24: need to repeat for 0000000006 particles. (took 0.0626099 sec)
ngb iteration 25: need to repeat for 0000000005 particles. (took 0.064229 sec)
ngb iteration 26: need to repeat for 0000000004 particles. (took 0.06285 sec)
ngb iteration 27: need to repeat for 0000000003 particles. (took 0.0623639 sec)
ngb iteration 28: need to repeat for 0000000002 particles. (took 0.0625091 sec)
final operations ... 
density and smoothing length for species 5 took 2.04152 sec
Tree construction for species 0 (277220476).
tree build for species 0 took 0.577734 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 11.902 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.578943 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 6.41699 sec
Tree construction for species 4 (9417088).
tree build for species 4 took 0.36191 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 4.40159 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.343828 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.2542 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.880902 sec
saving densities took 2.70877 sec

Number of FOF halos treated with collective SubFind code = 2
(the adopted size-limit for the collective algorithm was 2240674 particles.)
the other 203957 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 7326 - 63305630 

subfind_exchange()() took 2.74636 sec

collectively doing halo 1, num=9
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2934.79 MB)
Allocated 38.8141 MByte for top-level domain structure
use of 83.6495 MB of temporary storage for domain decomposition... (presently allocated=3057.26 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 3057.26 Mbyte (on task=0), Smallest = 2148 Mbyte, Average = 2160.68 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5714  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8567    1020.4281  allocate_memory()/allocate.c/67
   0 2970 0              SphP    740.2577    1760.6858  allocate_memory()/allocate.c/85
   0 2971 0              MetP    160.1602    1920.8459  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.8000    1939.6460  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1939.8218  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1939.9975  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.8395    1966.8371  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.4430    1985.2800  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.7383    2016.0183  fof_fof()/fof.c/337
   0 2978 0             Group      0.4804    2016.4987  fof_fof()/fof.c/380
   0 2979 0          SubGroup    918.2961    2934.7949  subfind()/subfind.c/376
   0 2980 0   DomainStartList      0.1758    2934.9707  domain_allocate()/domain.c/562
   0 2981 0     DomainEndList      0.1758    2935.1464  domain_allocate()/domain.c/565
   0 2982 0          TopNodes     38.4625    2973.6090  domain_allocate()/domain.c/570
   0 2983 0        domain_key     24.4214    2998.0304  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      2.9587    3001.0220  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      2.9587    3003.9807  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      2.9587    3006.9393  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      2.9587    3009.8980  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      2.9587    3012.8676  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      2.9587    3015.8373  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     41.4212    3057.2584  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=395233
After=458665
NTopleaves= 401332  NTopnodes=458665 (space for 775594)
gravity work-load balance=1.02397   memory-balance=1.02397   SPH work-load balance=1.01716
iter=0 exchange of 0008342010 particles (ret=0)
domain decomposition done. (took 3.39709 sec)
Freed 14.5079 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3438.67 Mbyte (on task=0), Smallest = 2529.41 Mbyte, Average = 2542.09 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5714  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8567    1020.4281  allocate_memory()/allocate.c/67
   0 2970 0              SphP    740.2577    1760.6858  allocate_memory()/allocate.c/85
   0 2971 0              MetP    160.1602    1920.8459  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.8000    1939.6460  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1939.8218  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1939.9975  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.8395    1966.8371  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.4430    1985.2800  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.7383    2016.0183  fof_fof()/fof.c/337
   0 2978 0             Group      0.4804    2016.4987  fof_fof()/fof.c/380
   0 2979 0          SubGroup    918.2961    2934.7949  subfind()/subfind.c/376
   0 2980 0   DomainStartList      0.1758    2934.9707  domain_allocate()/domain.c/562
   0 2981 0     DomainEndList      0.1758    2935.1464  domain_allocate()/domain.c/565
   0 2982 0          TopNodes     22.7457    2957.8921  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      1.5310    2959.4231  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    247.1320    3206.5550  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    205.9433    3412.4983  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     13.9604    3426.4587  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     12.2107    3438.6694  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 3.8204 sec  (presently allocated=3438.67 MB)
force_treebuild() took 2.07365 sec (presently allocated=3438.67 MB)
Start find_linkngb (11628 particles on task=0)
find linkngb iteration 1: need to repeat for 0008343323 particles. (took 0.387483 sec)
find linkngb iteration 2: need to repeat for 0008305083 particles. (took 0.245673 sec)
find linkngb iteration 3: need to repeat for 0007837273 particles. (took 0.175699 sec)
find linkngb iteration 4: need to repeat for 0007531028 particles. (took 0.143016 sec)
find linkngb iteration 5: need to repeat for 0006810865 particles. (took 0.136652 sec)
find linkngb iteration 6: need to repeat for 0005614029 particles. (took 0.124128 sec)
find linkngb iteration 7: need to repeat for 0004093112 particles. (took 0.107876 sec)
find linkngb iteration 8: need to repeat for 0002663699 particles. (took 0.0876331 sec)
find linkngb iteration 9: need to repeat for 0001596540 particles. (took 0.0685871 sec)
find linkngb iteration 10: need to repeat for 0000910223 particles. (took 0.053884 sec)
find linkngb iteration 11: need to repeat for 0000502992 particles. (took 0.0439222 sec)
find linkngb iteration 12: need to repeat for 0000263036 particles. (took 0.0376658 sec)
find linkngb iteration 13: need to repeat for 0000092832 particles. (took 0.0323691 sec)
find linkngb iteration 14: need to repeat for 0000033005 particles. (took 0.0232801 sec)
find linkngb iteration 15: need to repeat for 0000015829 particles. (took 0.0128908 sec)
find linkngb iteration 16: need to repeat for 0000008562 particles. (took 0.00709701 sec)
find linkngb iteration 17: need to repeat for 0000004837 particles. (took 0.00377202 sec)
find linkngb iteration 18: need to repeat for 0000002869 particles. (took 0.00198102 sec)
find linkngb iteration 19: need to repeat for 0000001819 particles. (took 0.0012269 sec)
find linkngb iteration 20: need to repeat for 0000001229 particles. (took 0.000876904 sec)
find linkngb iteration 21: need to repeat for 0000000820 particles. (took 0.000776052 sec)
find linkngb iteration 22: need to repeat for 0000000542 particles. (took 0.000702858 sec)
find linkngb iteration 23: need to repeat for 0000000315 particles. (took 0.00069809 sec)
find linkngb iteration 24: need to repeat for 0000000189 particles. (took 0.000628948 sec)
find linkngb iteration 25: need to repeat for 0000000103 particles. (took 0.000678062 sec)
find linkngb iteration 26: need to repeat for 0000000046 particles. (took 0.000617981 sec)
find linkngb iteration 27: need to repeat for 0000000021 particles. (took 0.000591993 sec)
find linkngb iteration 28: need to repeat for 0000000007 particles. (took 0.000623941 sec)
find linkngb iteration 29: need to repeat for 0000000003 particles. (took 0.000607014 sec)
find linkngb iteration 30: need to repeat for 0000000002 particles. (took 0.000604153 sec)
find_linkngb() took 1.70382 sec
Start finding nearest two (11628 particles on task=0)
find_nearesttwo() took 0.199614 sec (presently allocated=3439.56 MB)
parallel sort of densities done. took 0.115374 sec
building distributed linked list. (presently allocated 3439.44 MB)
identification of primary candidates took 455.41 sec
adding background as candidate took 1.46802 sec
establishing of rank order took 154.129 sec  (p=8354034, grouplen=8354034) presently allocated 3439.44 MB

total number of subhalo candidates=29829

number of subhalo candidates that can be done independently=26170.
(Largest size is 1938, finding them took 0.0103989 sec)
particles are marked (took 104.444)
independent subhalos are assembled on individual CPUs for unbinding (0.164381 sec, (presently allocated=3439.44 MB)
unbinding of independent ones took 0.028671 sec
particles have returned to their original processor (0.238016 sec, presently allocated 3439.44 MB)

number of subhalo candidates that can be done independently=3271.
(Largest size is 18915, finding them took 1.05177 sec)
particles are marked (took 70.4355)
independent subhalos are assembled on individual CPUs for unbinding (0.169257 sec, (presently allocated=3439.44 MB)
unbinding of independent ones took 0.51751 sec
particles have returned to their original processor (0.243222 sec, presently allocated 3439.44 MB)

number of subhalo candidates that can be done independently=348.
(Largest size is 24751, finding them took 1.01234 sec)
particles are marked (took 60.4503)
independent subhalos are assembled on individual CPUs for unbinding (0.170359 sec, (presently allocated=3439.44 MB)
unbinding of independent ones took 0.742135 sec
particles have returned to their original processor (0.246579 sec, presently allocated 3439.44 MB)

number of subhalo candidates that can be done independently=34.
(Largest size is 356389, finding them took 0.825536 sec)
particles are marked (took 57.8776)
independent subhalos are assembled on individual CPUs for unbinding (0.180879 sec, (presently allocated=3439.44 MB)
unbinding of independent ones took 2.35877 sec
particles have returned to their original processor (0.27288 sec, presently allocated 3439.44 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 356389, finding them took 0.672891 sec)
particles are marked (took 43.4853)
independent subhalos are assembled on individual CPUs for unbinding (0.157254 sec, (presently allocated=3439.44 MB)
unbinding of independent ones took 0.25622 sec
particles have returned to their original processor (0.231786 sec, presently allocated 3439.44 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 356389, finding them took 0.603407 sec)
too few, I do the rest of 4 collectively

collective unbinding of nr=0 (4) of length=132948 ... maximum alloacted 3439.49 MB
took 7.28133 sec
collective unbinding of nr=1 (4) of length=208742 ... maximum alloacted 3439.49 MB
took 10.8257 sec
collective unbinding of nr=2 (4) of length=356389 ... maximum alloacted 3439.49 MB
took 18.4089 sec
collective unbinding of nr=3 (4) of length=8354034 ... maximum alloacted 3439.49 MB
took 426.095 sec

the collective unbinding of remaining halos took 504.202 sec

found 2217 bound substructures in FoF group of length 8354034
determination of parent subhalo took 0.105339 sec (presently allocated 3439.49 MB)
determining substructure properties took 360.641 sec (presently allocated 3439.49 MB)

collectively doing halo 2, num=9
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2934.79 MB)
Allocated 38.8141 MByte for top-level domain structure
use of 83.6495 MB of temporary storage for domain decomposition... (presently allocated=3057.26 MB)
Before=436473
After=491897
NTopleaves= 430410  NTopnodes=491897 (space for 775594)
gravity work-load balance=1.01758   memory-balance=1.01758   SPH work-load balance=1.01765
iter=0 exchange of 0003228517 particles (ret=0)
domain decomposition done. (took 3.43701 sec)
Freed 12.9866 MByte in top-level domain structure
coldomain_Decomposition() took 3.85141 sec  (presently allocated=3446.13 MB)
force_treebuild() took 2.06368 sec (presently allocated=3446.13 MB)
Start find_linkngb (4537 particles on task=0)
find linkngb iteration 1: need to repeat for 0003232505 particles. (took 0.187224 sec)
find linkngb iteration 2: need to repeat for 0003227480 particles. (took 0.119772 sec)
find linkngb iteration 3: need to repeat for 0003038997 particles. (took 0.0929148 sec)
find linkngb iteration 4: need to repeat for 0002929586 particles. (took 0.0826769 sec)
find linkngb iteration 5: need to repeat for 0002639204 particles. (took 0.076097 sec)
find linkngb iteration 6: need to repeat for 0002152761 particles. (took 0.070745 sec)
find linkngb iteration 7: need to repeat for 0001558816 particles. (took 0.0629909 sec)
find linkngb iteration 8: need to repeat for 0001017947 particles. (took 0.0570049 sec)
find linkngb iteration 9: need to repeat for 0000616806 particles. (took 0.046838 sec)
find linkngb iteration 10: need to repeat for 0000355202 particles. (took 0.040329 sec)
find linkngb iteration 11: need to repeat for 0000198831 particles. (took 0.036046 sec)
find linkngb iteration 12: need to repeat for 0000102043 particles. (took 0.032418 sec)
find linkngb iteration 13: need to repeat for 0000037835 particles. (took 0.0279911 sec)
find linkngb iteration 14: need to repeat for 0000015806 particles. (took 0.018929 sec)
find linkngb iteration 15: need to repeat for 0000007361 particles. (took 0.0108702 sec)
find linkngb iteration 16: need to repeat for 0000003865 particles. (took 0.00587606 sec)
find linkngb iteration 17: need to repeat for 0000002208 particles. (took 0.00332308 sec)
find linkngb iteration 18: need to repeat for 0000001360 particles. (took 0.00201821 sec)
find linkngb iteration 19: need to repeat for 0000000893 particles. (took 0.00144601 sec)
find linkngb iteration 20: need to repeat for 0000000582 particles. (took 0.00112605 sec)
find linkngb iteration 21: need to repeat for 0000000382 particles. (took 0.0010221 sec)
find linkngb iteration 22: need to repeat for 0000000259 particles. (took 0.000907183 sec)
find linkngb iteration 23: need to repeat for 0000000171 particles. (took 0.000807047 sec)
find linkngb iteration 24: need to repeat for 0000000107 particles. (took 0.00072217 sec)
find linkngb iteration 25: need to repeat for 0000000065 particles. (took 0.000705004 sec)
find linkngb iteration 26: need to repeat for 0000000043 particles. (took 0.000692129 sec)
find linkngb iteration 27: need to repeat for 0000000036 particles. (took 0.000662088 sec)
find linkngb iteration 28: need to repeat for 0000000026 particles. (took 0.000672102 sec)
find linkngb iteration 29: need to repeat for 0000000016 particles. (took 0.000668049 sec)
find linkngb iteration 30: need to repeat for 0000000012 particles. (took 0.000610828 sec)
find linkngb iteration 31: need to repeat for 0000000010 particles. (took 0.000637054 sec)
find linkngb iteration 32: need to repeat for 0000000006 particles. (took 0.000653982 sec)
find linkngb iteration 33: need to repeat for 0000000005 particles. (took 0.000600815 sec)
find linkngb iteration 34: need to repeat for 0000000002 particles. (took 0.00057292 sec)
find linkngb iteration 35: need to repeat for 0000000002 particles. (took 0.000568151 sec)
find_linkngb() took 0.988202 sec
Start finding nearest two (4537 particles on task=0)
find_nearesttwo() took 0.0898042 sec (presently allocated=3446.48 MB)
parallel sort of densities done. took 0.0951421 sec
building distributed linked list. (presently allocated 3446.43 MB)
identification of primary candidates took 194.528 sec
adding background as candidate took 1.4497 sec
establishing of rank order took 61.2851 sec  (p=3232838, grouplen=3232838) presently allocated 3446.43 MB

total number of subhalo candidates=11520

number of subhalo candidates that can be done independently=10261.
(Largest size is 1624, finding them took 0.00559115 sec)
particles are marked (took 41.704)
independent subhalos are assembled on individual CPUs for unbinding (0.15747 sec, (presently allocated=3446.43 MB)
unbinding of independent ones took 0.0347331 sec
particles have returned to their original processor (0.229852 sec, presently allocated 3446.43 MB)

number of subhalo candidates that can be done independently=1143.
(Largest size is 5367, finding them took 1.04212 sec)
particles are marked (took 25.907)
independent subhalos are assembled on individual CPUs for unbinding (0.158285 sec, (presently allocated=3446.43 MB)
unbinding of independent ones took 0.108516 sec
particles have returned to their original processor (0.228807 sec, presently allocated 3446.43 MB)

number of subhalo candidates that can be done independently=93.
(Largest size is 35404, finding them took 0.994615 sec)
particles are marked (took 22.8806)
independent subhalos are assembled on individual CPUs for unbinding (0.182663 sec, (presently allocated=3446.43 MB)
unbinding of independent ones took 1.34861 sec
particles have returned to their original processor (0.2687 sec, presently allocated 3446.43 MB)

number of subhalo candidates that can be done independently=15.
(Largest size is 318079, finding them took 1.02213 sec)
particles are marked (took 19.6122)
independent subhalos are assembled on individual CPUs for unbinding (0.169035 sec, (presently allocated=3446.43 MB)
unbinding of independent ones took 1.05979 sec
particles have returned to their original processor (0.249131 sec, presently allocated 3446.43 MB)

number of subhalo candidates that can be done independently=5.
(Largest size is 318079, finding them took 0.654206 sec)
particles are marked (took 21.9931)
independent subhalos are assembled on individual CPUs for unbinding (0.176858 sec, (presently allocated=3446.43 MB)
unbinding of independent ones took 3.89965 sec
particles have returned to their original processor (0.278018 sec, presently allocated 3446.43 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 318079, finding them took 0.665188 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=314285 ... maximum alloacted 3446.45 MB
took 15.5006 sec
collective unbinding of nr=1 (3) of length=318079 ... maximum alloacted 3446.45 MB
took 17.0995 sec
collective unbinding of nr=2 (3) of length=3232838 ... maximum alloacted 3446.45 MB
took 175.854 sec

the collective unbinding of remaining halos took 224.554 sec

found 865 bound substructures in FoF group of length 3232838
determination of parent subhalo took 0.087399 sec (presently allocated 3446.45 MB)
determining substructure properties took 152.289 sec (presently allocated 3446.45 MB)
processing of collective halos took 2634.63 sec
sort of local particles()() took 0.409809 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 501.511 sec

unsorting of local particles()() took 0.348249 sec
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subfind_exchange() (for return to original CPU)  took 4.61971 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2934.79 MB)
Allocated 38.8141 MByte for top-level domain structure
use of 83.6495 MB of temporary storage for domain decomposition... (presently allocated=3057.26 MB)
Before=490305
After=545025
NTopleaves= 476897  NTopnodes=545025 (space for 775594)
gravity work-load balance=1.02052   memory-balance=1.02052   SPH work-load balance=1.02027
iter=0 exchange of 0575586631 particles (ret=0)
domain decomposition done. (took 8.82072 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.5546 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000171859 particles. (took 0.056859 sec)
SO iteration 2: need to repeat for 0000171859 particles. (took 0.0327549 sec)
SO iteration 3: need to repeat for 0000171859 particles. (took 0.034667 sec)
SO iteration 4: need to repeat for 0000171859 particles. (took 0.0353191 sec)
SO iteration 5: need to repeat for 0000171859 particles. (took 0.035326 sec)
SO iteration 6: need to repeat for 0000171859 particles. (took 0.0353429 sec)
SO iteration 7: need to repeat for 0000171859 particles. (took 0.0353081 sec)
SO iteration 8: need to repeat for 0000171859 particles. (took 0.0354168 sec)
SO iteration 9: need to repeat for 0000171859 particles. (took 0.035423 sec)
SO iteration 10: need to repeat for 0000171859 particles. (took 0.0356591 sec)
SO iteration 11: need to repeat for 0000171859 particles. (took 0.035414 sec)
SO iteration 12: need to repeat for 0000171859 particles. (took 0.0353398 sec)
SO iteration 13: need to repeat for 0000171859 particles. (took 0.0353818 sec)
SO iteration 14: need to repeat for 0000171859 particles. (took 0.0353289 sec)
SO iteration 15: need to repeat for 0000169747 particles. (took 0.0354068 sec)
SO iteration 16: need to repeat for 0000001526 particles. (took 0.034395 sec)
SO iteration 17: need to repeat for 0000000049 particles. (took 0.00276995 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.00198412 sec)
SO iteration 1: need to repeat for 0000171859 particles. (took 0.035706 sec)
SO iteration 2: need to repeat for 0000171859 particles. (took 0.0310831 sec)
SO iteration 3: need to repeat for 0000171859 particles. (took 0.0329778 sec)
SO iteration 4: need to repeat for 0000171859 particles. (took 0.0319941 sec)
SO iteration 5: need to repeat for 0000171859 particles. (took 0.0321631 sec)
SO iteration 6: need to repeat for 0000171859 particles. (took 0.0320458 sec)
SO iteration 7: need to repeat for 0000171859 particles. (took 0.032037 sec)
SO iteration 8: need to repeat for 0000171859 particles. (took 0.032171 sec)
SO iteration 9: need to repeat for 0000171859 particles. (took 0.03198 sec)
SO iteration 10: need to repeat for 0000171859 particles. (took 0.0321121 sec)
SO iteration 11: need to repeat for 0000171859 particles. (took 0.0317969 sec)
SO iteration 12: need to repeat for 0000171859 particles. (took 0.0323579 sec)
SO iteration 13: need to repeat for 0000171859 particles. (took 0.0320921 sec)
SO iteration 14: need to repeat for 0000171859 particles. (took 0.0320861 sec)
SO iteration 15: need to repeat for 0000171027 particles. (took 0.032196 sec)
SO iteration 16: need to repeat for 0000059527 particles. (took 0.032264 sec)
SO iteration 17: need to repeat for 0000000638 particles. (took 0.017776 sec)
SO iteration 18: need to repeat for 0000000032 particles. (took 0.00247407 sec)
SO iteration 1: need to repeat for 0000171859 particles. (took 0.03564 sec)
SO iteration 2: need to repeat for 0000171859 particles. (took 0.0311489 sec)
SO iteration 3: need to repeat for 0000171859 particles. (took 0.0288241 sec)
SO iteration 4: need to repeat for 0000171859 particles. (took 0.0294931 sec)
SO iteration 5: need to repeat for 0000171859 particles. (took 0.029386 sec)
SO iteration 6: need to repeat for 0000171859 particles. (took 0.0291531 sec)
SO iteration 7: need to repeat for 0000171859 particles. (took 0.0295479 sec)
SO iteration 8: need to repeat for 0000171859 particles. (took 0.0292599 sec)
SO iteration 9: need to repeat for 0000171859 particles. (took 0.0291882 sec)
SO iteration 10: need to repeat for 0000171859 particles. (took 0.0295641 sec)
SO iteration 11: need to repeat for 0000171859 particles. (took 0.0298569 sec)
SO iteration 12: need to repeat for 0000171859 particles. (took 0.02931 sec)
SO iteration 13: need to repeat for 0000171859 particles. (took 0.0293999 sec)
SO iteration 14: need to repeat for 0000171859 particles. (took 0.029367 sec)
SO iteration 15: need to repeat for 0000171843 particles. (took 0.0293241 sec)
SO iteration 16: need to repeat for 0000170558 particles. (took 0.0291131 sec)
SO iteration 17: need to repeat for 0000100883 particles. (took 0.0291181 sec)
SO iteration 18: need to repeat for 0000002629 particles. (took 0.0217988 sec)
SO iteration 19: need to repeat for 0000000092 particles. (took 0.00293708 sec)
SO iteration 20: need to repeat for 0000000003 particles. (took 0.00205016 sec)
SO iteration 1: need to repeat for 0000171859 particles. (took 0.0358319 sec)
SO iteration 2: need to repeat for 0000171859 particles. (took 0.033392 sec)
SO iteration 3: need to repeat for 0000171859 particles. (took 0.0347798 sec)
SO iteration 4: need to repeat for 0000171859 particles. (took 0.035501 sec)
SO iteration 5: need to repeat for 0000171859 particles. (took 0.0355699 sec)
SO iteration 6: need to repeat for 0000171859 particles. (took 0.03564 sec)
SO iteration 7: need to repeat for 0000171859 particles. (took 0.0355029 sec)
SO iteration 8: need to repeat for 0000171859 particles. (took 0.0354791 sec)
SO iteration 9: need to repeat for 0000171859 particles. (took 0.0354459 sec)
SO iteration 10: need to repeat for 0000171859 particles. (took 0.0355699 sec)
SO iteration 11: need to repeat for 0000171859 particles. (took 0.0352509 sec)
SO iteration 12: need to repeat for 0000171859 particles. (took 0.035569 sec)
SO iteration 13: need to repeat for 0000171859 particles. (took 0.0355489 sec)
SO iteration 14: need to repeat for 0000171859 particles. (took 0.035614 sec)
SO iteration 15: need to repeat for 0000169726 particles. (took 0.0353541 sec)
SO iteration 16: need to repeat for 0000001336 particles. (took 0.034456 sec)
SO iteration 17: need to repeat for 0000000048 particles. (took 0.00283194 sec)
SO iteration 1: need to repeat for 0000171859 particles. (took 0.035955 sec)
SO iteration 2: need to repeat for 0000171859 particles. (took 0.0313509 sec)
SO iteration 3: need to repeat for 0000171859 particles. (took 0.0341001 sec)
SO iteration 4: need to repeat for 0000171859 particles. (took 0.034586 sec)
SO iteration 5: need to repeat for 0000171859 particles. (took 0.0348771 sec)
SO iteration 6: need to repeat for 0000171859 particles. (took 0.0345681 sec)
SO iteration 7: need to repeat for 0000171859 particles. (took 0.034739 sec)
SO iteration 8: need to repeat for 0000171859 particles. (took 0.034564 sec)
SO iteration 9: need to repeat for 0000171859 particles. (took 0.034795 sec)
SO iteration 10: need to repeat for 0000171859 particles. (took 0.0347741 sec)
SO iteration 11: need to repeat for 0000171859 particles. (took 0.0350091 sec)
SO iteration 12: need to repeat for 0000171859 particles. (took 0.034821 sec)
SO iteration 13: need to repeat for 0000171859 particles. (took 0.034673 sec)
SO iteration 14: need to repeat for 0000171859 particles. (took 0.0345719 sec)
SO iteration 15: need to repeat for 0000169864 particles. (took 0.0347471 sec)
SO iteration 16: need to repeat for 0000003208 particles. (took 0.034606 sec)
SO iteration 17: need to repeat for 0000000083 particles. (took 0.00322008 sec)
SO iteration 18: need to repeat for 0000000003 particles. (took 0.002244 sec)
SO iteration 1: need to repeat for 0000171859 particles. (took 0.035866 sec)
SO iteration 2: need to repeat for 0000171859 particles. (took 0.031245 sec)
SO iteration 3: need to repeat for 0000171859 particles. (took 0.032877 sec)
SO iteration 4: need to repeat for 0000171859 particles. (took 0.032213 sec)
SO iteration 5: need to repeat for 0000171859 particles. (took 0.0316758 sec)
SO iteration 6: need to repeat for 0000171859 particles. (took 0.0316458 sec)
SO iteration 7: need to repeat for 0000171859 particles. (took 0.0329361 sec)
SO iteration 8: need to repeat for 0000171859 particles. (took 0.0317979 sec)
SO iteration 9: need to repeat for 0000171859 particles. (took 0.032423 sec)
SO iteration 10: need to repeat for 0000171859 particles. (took 0.03158 sec)
SO iteration 11: need to repeat for 0000171859 particles. (took 0.0317979 sec)
SO iteration 12: need to repeat for 0000171859 particles. (took 0.0317209 sec)
SO iteration 13: need to repeat for 0000171859 particles. (took 0.031595 sec)
SO iteration 14: need to repeat for 0000171859 particles. (took 0.031796 sec)
SO iteration 15: need to repeat for 0000171338 particles. (took 0.0316691 sec)
SO iteration 16: need to repeat for 0000114753 particles. (took 0.0317531 sec)
SO iteration 17: need to repeat for 0000001181 particles. (took 0.0253861 sec)
SO iteration 18: need to repeat for 0000000045 particles. (took 0.00261998 sec)
SO iteration 1: need to repeat for 0000171859 particles. (took 0.0360229 sec)
SO iteration 2: need to repeat for 0000171859 particles. (took 0.031184 sec)
SO iteration 3: need to repeat for 0000171859 particles. (took 0.0289311 sec)
SO iteration 4: need to repeat for 0000171859 particles. (took 0.029053 sec)
SO iteration 5: need to repeat for 0000171859 particles. (took 0.0290589 sec)
SO iteration 6: need to repeat for 0000171859 particles. (took 0.029181 sec)
SO iteration 7: need to repeat for 0000171859 particles. (took 0.0289009 sec)
SO iteration 8: need to repeat for 0000171859 particles. (took 0.0290771 sec)
SO iteration 9: need to repeat for 0000171859 particles. (took 0.0292268 sec)
SO iteration 10: need to repeat for 0000171859 particles. (took 0.0290179 sec)
SO iteration 11: need to repeat for 0000171859 particles. (took 0.0291278 sec)
SO iteration 12: need to repeat for 0000171859 particles. (took 0.029177 sec)
SO iteration 13: need to repeat for 0000171859 particles. (took 0.029145 sec)
SO iteration 14: need to repeat for 0000171859 particles. (took 0.0303719 sec)
SO iteration 15: need to repeat for 0000171845 particles. (took 0.0292311 sec)
SO iteration 16: need to repeat for 0000170848 particles. (took 0.0293219 sec)
SO iteration 17: need to repeat for 0000138633 particles. (took 0.028914 sec)
SO iteration 18: need to repeat for 0000005070 particles. (took 0.025995 sec)
SO iteration 19: need to repeat for 0000000147 particles. (took 0.00334597 sec)
SO iteration 20: need to repeat for 0000000004 particles. (took 0.0021801 sec)
SO iteration 21: need to repeat for 0000000001 particles. (took 0.00183201 sec)
determining spherical overdensity masses took 3.8823 sec
finding spherical overdensity particles took 0.586474 sec
determining contamination of halos took 0.451851 sec
Global sort of Groups took 0.508728 sec
Global sort of SubGroups took 0.771814 sec
Global sort of IDs took 0.328396 sec
Writing block 0 (GLEN), n=284, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1136d
Writing block 1 (GOFF), n=284, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1136d
Writing block 2 (MTOT), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 3 (GPOS), n=284, ptype=0, dtype=1, ndim=3, bpb=4 bytes=3408d
Writing block 4 (MMEA), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 5 (RMEA), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 6 (MCRI), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 7 (RCRI), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 8 (MTOP), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 9 (RTOP), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 17 (NCON), n=284, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1136d
Writing block 18 (MCON), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 22 (NSUB), n=284, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1136d
Writing block 23 (FSUB), n=284, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1136d
Writing block 24 (SLEN), n=2492, ptype=1, dtype=0, ndim=1, bpb=4 bytes=9968d
Writing block 25 (SOFF), n=2492, ptype=1, dtype=0, ndim=1, bpb=4 bytes=9968d
Writing block 26 (SSUB), n=2492, ptype=1, dtype=0, ndim=1, bpb=4 bytes=9968d
Writing block 27 (MSUB), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 28 (SPOS), n=2492, ptype=1, dtype=1, ndim=3, bpb=4 bytes=29904d
Writing block 29 (SVEL), n=2492, ptype=1, dtype=1, ndim=3, bpb=4 bytes=29904d
Writing block 30 (SCM ), n=2492, ptype=1, dtype=1, ndim=3, bpb=4 bytes=29904d
Writing block 33 (VMAX), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 34 (RMAX), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 35 (RHMS), n=2492, ptype=1, dtype=1, ndim=6, bpb=4 bytes=59808d
Writing block 36 (MTRH), n=2492, ptype=1, dtype=1, ndim=6, bpb=4 bytes=59808d
Writing block 37 (MBID), n=2492, ptype=1, dtype=2, ndim=1, bpb=8 bytes=19936d
Writing block 38 (GRNR), n=2492, ptype=1, dtype=0, ndim=1, bpb=4 bytes=9968d
Writing block 39 (SUBN), n=2492, ptype=1, dtype=0, ndim=1, bpb=4 bytes=9968d
Writing block 40 (SMST), n=2492, ptype=1, dtype=1, ndim=6, bpb=4 bytes=59808d
Writing block 53 (PID ), n=204791, ptype=2, dtype=2, ndim=1, bpb=8 bytes=1638328d
Writing block 54 (SLEN), n=2492, ptype=1, dtype=0, ndim=6, bpb=4 bytes=59808d
Writing block 55 (STEN), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 56 (SKEN), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 57 (SUEN), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 58 (SUIT), n=2492, ptype=1, dtype=1, ndim=9, bpb=4 bytes=89712d
Writing block 59 (BHMA), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 60 (BHMD), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 61 (SVD ), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 62 (SVDH), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 63 (HMPR), n=2492, ptype=1, dtype=1, ndim=6, bpb=4 bytes=59808d
Writing block 64 (SSFR), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 65 (SSA ), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 66 (SSBZ), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 67 (SSIM), n=2492, ptype=1, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 68 (SSPI), n=2492, ptype=4, dtype=1, ndim=3, bpb=4 bytes=29904d
Writing block 69 (GSPI), n=2492, ptype=1, dtype=1, ndim=3, bpb=4 bytes=29904d
Writing block 70 (FSPI), n=2492, ptype=5, dtype=1, ndim=3, bpb=4 bytes=29904d
Writing block 71 (SFM ), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 72 (SFMT), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 73 (SFME), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 74 (SFAE), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 75 (SFKE), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 76 (SFTE), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 77 (SMWP), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 78 (SMM ), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 79 (SMMS), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 80 (SFZ ), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 81 (SFZS), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 82 (SSIA), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 83 (SIAS), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 84 (SMET), n=2492, ptype=5, dtype=1, ndim=9, bpb=4 bytes=89712d
Writing block 85 (SMTS), n=2492, ptype=5, dtype=1, ndim=9, bpb=4 bytes=89712d
Writing block 86 (MF1 ), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 87 (MeF1), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 88 (MF  ), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 89 (MeF2), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 90 (MFA ), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 91 (MeFA), n=2492, ptype=5, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 92 (NSPI), n=2492, ptype=6, dtype=1, ndim=3, bpb=4 bytes=29904d
Writing block 93 (NFM ), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 94 (NFMT), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 95 (NFME), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 96 (NFAE), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 97 (NFKE), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 98 (NFTE), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 99 (SMWP), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 100 (SMM ), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 101 (SMMS), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 102 (SSIA), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 103 (SIAS), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 104 (SMET), n=2492, ptype=6, dtype=1, ndim=9, bpb=4 bytes=89712d
Writing block 105 (SMTS), n=2492, ptype=6, dtype=1, ndim=9, bpb=4 bytes=89712d
Writing block 106 (MF1 ), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 107 (MeF1), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 108 (MF2 ), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 109 (MeF2), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 110 (MFA ), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 111 (MeFA), n=2492, ptype=6, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 112 (SM  ), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 113 (SFKE), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 114 (SFAE), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 115 (SMWP), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 116 (SMM ), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 117 (SMMS), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 118 (SSIA), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 119 (SIAS), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 120 (SMET), n=2492, ptype=4, dtype=1, ndim=9, bpb=4 bytes=89712d
Writing block 121 (SMTS), n=2492, ptype=4, dtype=1, ndim=9, bpb=4 bytes=89712d
Writing block 122 (MF1 ), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 123 (MeF1), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 124 (MF2 ), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 125 (MeF2), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 126 (MFA ), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 127 (MeFA), n=2492, ptype=4, dtype=1, ndim=1, bpb=4 bytes=9968d
Writing block 128 (MMe5), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 129 (RMe5), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 130 (MCr5), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 131 (RCr5), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 132 (MMe2), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 133 (RMe2), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 134 (MCr2), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 135 (RCr2), n=284, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1136d
Writing block 136 (MAPT), n=2492, ptype=7, dtype=1, ndim=60, bpb=4 bytes=598080d
Writing block 137 (SAPT), n=2492, ptype=8, dtype=1, ndim=10, bpb=4 bytes=99680d
Writing block 138 (VAPT), n=2492, ptype=9, dtype=1, ndim=10, bpb=4 bytes=99680d
Writing block 139 (BEGY), n=204791, ptype=2, dtype=1, ndim=1, bpb=4 bytes=819164d
Subgroup catalogues saved. took = 10.686 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 4.321990e-01
 eagle_ph_key_ort: type= 1 timed by volker 4.366140e-01
 eagle_ph_key_ort: type= 2 timed by volker 8.988690e-02
 eagle_ph_key_ort: type= 3 timed by volker 6.214142e-03
 eagle_ph_key_ort: type= 4 timed by volker 1.832891e-01
 eagle_ph_key_ort: type= 5 timed by volker 6.522703e-02
 eagle_ph_key_ort: timing parallel sort = 1.226817e+00
 eagle_fetch_elements: we are using 836285523 bytes of memory, FreeBytes= 1045356904

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2953.08 Mbyte (on task=0), Smallest = 2043.71 Mbyte, Average = 2056.54 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5714  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8567    1020.4281  allocate_memory()/allocate.c/67
   0 2970 0              SphP    740.2577    1760.6858  allocate_memory()/allocate.c/85
   0 2971 0              MetP    160.1602    1920.8459  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.8000    1939.6460  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1939.8218  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1939.9975  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.8395    1966.8371  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.4430    1985.2800  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.7383    2016.0183  fof_fof()/fof.c/337
   0 2978 0             Group      0.4804    2016.4987  fof_fof()/fof.c/380
   0 2979 0          SubGroup    918.2961    2934.7949  subfind()/subfind.c/376
   0 2980 0   sort_index_data     18.2751    2953.0700  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 881829 number of bytes = 282185280

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3745.06 Mbyte (on task=0), Smallest = 2832.6 Mbyte, Average = 2849.07 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5714  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8567    1020.4281  allocate_memory()/allocate.c/67
   0 2970 0              SphP    740.2577    1760.6858  allocate_memory()/allocate.c/85
   0 2971 0              MetP    160.1602    1920.8459  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.8000    1939.6460  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1939.8218  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1939.9975  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.8395    1966.8371  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.4430    1985.2800  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.7383    2016.0183  fof_fof()/fof.c/337
   0 2978 0             Group      0.4804    2016.4987  fof_fof()/fof.c/380
   0 2979 0          SubGroup    918.2961    2934.7949  subfind()/subfind.c/376
   0 2980 0   sort_index_data     18.2751    2953.0700  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      3.3639    2956.4339  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      3.3639    2959.7978  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      3.3639    2963.1617  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    269.1129    3232.2746  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    269.1129    3501.3874  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    243.6679    3745.0553  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.795702e+00
 eagle_fetch_elements: we are using 836285523 bytes of memory, FreeBytes= 1045356904
 eagle_fetch_elements: max_bytes= 504, max_elements= 625781 number of bytes = 315393624
 eagle_ph_key_ort: timing parallel SphP exchange = 2.129935e+00
 eagle_fetch_elements: we are using 836285523 bytes of memory, FreeBytes= 1045356904
 eagle_fetch_elements: max_bytes= 384, max_elements= 1053326 number of bytes = 404477184
 eagle_ph_key_ort: timing parallel MetP exchange = 1.650920e-01
 eagle_fetch_elements: we are using 836285523 bytes of memory, FreeBytes= 1045356904
 eagle_fetch_elements: max_bytes= 256, max_elements= 1595933 number of bytes = 408558848
 eagle_ph_key_ort: timing parallel BHP exchange = 8.817911e-03
Sorting particle-data by peano-hilbert key took = 6.60864 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 836285523 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 881829 number of bytes= 282185280
 eagle_ph_restore: timing parallel P exchange = 2.879886e+00
 eagle_send_elements: we are using 836285523 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 625781 number of bytes= 315393624
 eagle_ph_restore: timing parallel SphP exchange = 2.147595e+00
 eagle_send_elements: we are using 836285523 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1053326 number of bytes= 404477184
 eagle_ph_restore: timing parallel MetP exchange = 1.804321e-01
 eagle_send_elements: we are using 836285523 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 1595933 number of bytes= 408558848
 eagle_ph_restore: timing parallel BHP exchange = 7.736206e-03
Restoring original order after ph key sorting took = 5.22978 sec

finished writing particle file...

Finished with SUBFIND.  (total time=3471.57 sec)

Finished computing FoF groups.  (presently allocated=1966.84 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1939.65 MB)
Allocated 38.8141 MByte for top-level domain structure
use of 83.6495 MB of temporary storage for domain decomposition... (presently allocated=2062.11 MB)
Before=483417
After=541393
NTopleaves= 473719  NTopnodes=541393 (space for 775594)
gravity work-load balance=1.01785   memory-balance=1.01785   SPH work-load balance=1.01835
iter=0 exchange of 0575303310 particles (ret=0)
domain decomposition done. (took 8.80033 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.7209 MByte in top-level domain structure
Tree construction.
task 45: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
task 45: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 90: endrun called with an error level of 124


task 90: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 450:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 360:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 405:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 405
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 495:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
task 135: endrun called with an error level of 124


task 135: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 540:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 450: endrun called with an error level of 124


task 450: endrun called with an error level of 124


task 360: endrun called with an error level of 124


task 360: endrun called with an error level of 124


task 405: endrun called with an error level of 124


task 405: endrun called with an error level of 124


task 180: endrun called with an error level of 124


task 180: endrun called with an error level of 124


task 495: endrun called with an error level of 124


task 495: endrun called with an error level of 124


task 225: endrun called with an error level of 124


task 225: endrun called with an error level of 124


task 270: endrun called with an error level of 124


task 270: endrun called with an error level of 124


task 315: endrun called with an error level of 124


task 315: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
task 540: endrun called with an error level of 124


task 540: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 450
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 450:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 450
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 360
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 360:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 360
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 405:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 405
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 495
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 495:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 495
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
Finished FOF, total time doing fof/subfind = 3516.54 s
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 540
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 540:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 540
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 630:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 630
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 675:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 585:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


task 630: endrun called with an error level of 124


task 630: endrun called with an error level of 124


task 675: endrun called with an error level of 124


task 675: endrun called with an error level of 124


task 585: endrun called with an error level of 124


task 585: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 630:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 630
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 675
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 675:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 675
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 585
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 585:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 585
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
task 0: endrun called with an error level of 124


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62712.35 Mb (on task=400), Smallest =   62513.57 Mb (on task=0), Average =   62663.79 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=176), Smallest =   64531.71 Mb (on task=224), Average =   64532.01 Mb
Committed_AS:	 Largest =    2018.42 Mb (on task=0), Smallest =    1819.65 Mb (on task=400), Average =    1868.22 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=32), Smallest =   16266.08 Mb (on task=96), Average =   16310.93 Mb
AllocMem:	 Largest =    2018.42 Mb (on task=0), Smallest =    1819.65 Mb (on task=400), Average =    1868.22 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 720 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N16':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 1016.54 MByte for particle storage.

Allocated 743.136 MByte for storage of SPH data.

Allocated 158.518 MByte for storage of MET data.

Allocated 18.8733 MByte for storage of BH data.


reading file `data//snapshot_008_z001p493/snap_008_z001p493.0.hdf5' on task=0 (contains 36386939 particles.)
distributing this file to tasks 0-44
Type 0 (gas):   17465359  (tot=     0278298584) masstab=0
Type 1 (halo):  17766587  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20622  (tot=     0000254233) masstab=0
Type 3 (bulge):   393806  (tot=     0002602064) masstab=0
Type 4 (stars):   739466  (tot=     0008340770) masstab=0
Type 5 (bndry):     1099  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.15.hdf5' on task=675 (contains 35897540 particles.)
distributing this file to tasks 675-719
Type 0 (gas):   17377135  (tot=     0278298584) masstab=0
Type 1 (halo):  17935384  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21502  (tot=     0000254233) masstab=0
Type 3 (bulge):   146273  (tot=     0002602064) masstab=0
Type 4 (stars):   416115  (tot=     0008340770) masstab=0
Type 5 (bndry):     1131  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.9.hdf5' on task=405 (contains 35774531 particles.)
distributing this file to tasks 405-449
Type 0 (gas):   17319625  (tot=     0278298584) masstab=0
Type 1 (halo):  17812871  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11760  (tot=     0000254233) masstab=0
Type 3 (bulge):   120626  (tot=     0002602064) masstab=0
Type 4 (stars):   508458  (tot=     0008340770) masstab=0
Type 5 (bndry):     1191  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.13.hdf5' on task=585 (contains 35883586 particles.)
distributing this file to tasks 585-629
Type 0 (gas):   17518588  (tot=     0278298584) masstab=0
Type 1 (halo):  17807835  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8646  (tot=     0000254233) masstab=0
Type 3 (bulge):    86842  (tot=     0002602064) masstab=0
Type 4 (stars):   460594  (tot=     0008340770) masstab=0
Type 5 (bndry):     1081  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.10.hdf5' on task=450 (contains 35860493 particles.)
distributing this file to tasks 450-494
Type 0 (gas):   17316629  (tot=     0278298584) masstab=0
Type 1 (halo):  17924093  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     24643  (tot=     0000254233) masstab=0
Type 3 (bulge):   134858  (tot=     0002602064) masstab=0
Type 4 (stars):   459088  (tot=     0008340770) masstab=0
Type 5 (bndry):     1182  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.8.hdf5' on task=360 (contains 35790339 particles.)
distributing this file to tasks 360-404
Type 0 (gas):   17368807  (tot=     0278298584) masstab=0
Type 1 (halo):  17926394  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8166  (tot=     0000254233) masstab=0
Type 3 (bulge):      548  (tot=     0002602064) masstab=0
Type 4 (stars):   485356  (tot=     0008340770) masstab=0
Type 5 (bndry):     1068  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.1.hdf5' on task=45 (contains 35926954 particles.)
distributing this file to tasks 45-89
Type 0 (gas):   17421031  (tot=     0278298584) masstab=0
Type 1 (halo):  17694989  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9896  (tot=     0000254233) masstab=0
Type 3 (bulge):   157084  (tot=     0002602064) masstab=0
Type 4 (stars):   642824  (tot=     0008340770) masstab=0
Type 5 (bndry):     1130  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.3.hdf5' on task=135 (contains 36174149 particles.)
distributing this file to tasks 135-179
Type 0 (gas):   17440854  (tot=     0278298584) masstab=0
Type 1 (halo):  17920244  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13246  (tot=     0000254233) masstab=0
Type 3 (bulge):   315965  (tot=     0002602064) masstab=0
Type 4 (stars):   482707  (tot=     0008340770) masstab=0
Type 5 (bndry):     1133  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.14.hdf5' on task=630 (contains 35822083 particles.)
distributing this file to tasks 630-674
Type 0 (gas):   17314549  (tot=     0278298584) masstab=0
Type 1 (halo):  17909791  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8410  (tot=     0000254233) masstab=0
Type 3 (bulge):   118722  (tot=     0002602064) masstab=0
Type 4 (stars):   469477  (tot=     0008340770) masstab=0
Type 5 (bndry):     1134  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.4.hdf5' on task=180 (contains 35972461 particles.)
distributing this file to tasks 180-224
Type 0 (gas):   17388870  (tot=     0278298584) masstab=0
Type 1 (halo):  17978396  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20644  (tot=     0000254233) masstab=0
Type 3 (bulge):    59515  (tot=     0002602064) masstab=0
Type 4 (stars):   523903  (tot=     0008340770) masstab=0
Type 5 (bndry):     1133  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.6.hdf5' on task=270 (contains 35992202 particles.)
distributing this file to tasks 270-314
Type 0 (gas):   17383763  (tot=     0278298584) masstab=0
Type 1 (halo):  18023163  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11811  (tot=     0000254233) masstab=0
Type 3 (bulge):    43156  (tot=     0002602064) masstab=0
Type 4 (stars):   529210  (tot=     0008340770) masstab=0
Type 5 (bndry):     1099  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.11.hdf5' on task=495 (contains 36281812 particles.)
distributing this file to tasks 495-539
Type 0 (gas):   17453806  (tot=     0278298584) masstab=0
Type 1 (halo):  18134669  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12509  (tot=     0000254233) masstab=0
Type 3 (bulge):   260299  (tot=     0002602064) masstab=0
Type 4 (stars):   419358  (tot=     0008340770) masstab=0
Type 5 (bndry):     1171  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.2.hdf5' on task=90 (contains 36066216 particles.)
distributing this file to tasks 90-134
Type 0 (gas):   17429081  (tot=     0278298584) masstab=0
Type 1 (halo):  17813300  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     29590  (tot=     0000254233) masstab=0
Type 3 (bulge):   126793  (tot=     0002602064) masstab=0
Type 4 (stars):   666376  (tot=     0008340770) masstab=0
Type 5 (bndry):     1076  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.7.hdf5' on task=315 (contains 35870930 particles.)
distributing this file to tasks 315-359
Type 0 (gas):   17286331  (tot=     0278298584) masstab=0
Type 1 (halo):  17827155  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18587  (tot=     0000254233) masstab=0
Type 3 (bulge):   162650  (tot=     0002602064) masstab=0
Type 4 (stars):   575074  (tot=     0008340770) masstab=0
Type 5 (bndry):     1133  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.5.hdf5' on task=225 (contains 36162511 particles.)
distributing this file to tasks 225-269
Type 0 (gas):   17315685  (tot=     0278298584) masstab=0
Type 1 (halo):  18106785  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18044  (tot=     0000254233) masstab=0
Type 3 (bulge):   195223  (tot=     0002602064) masstab=0
Type 4 (stars):   525595  (tot=     0008340770) masstab=0
Type 5 (bndry):     1179  (tot=     0000018062) masstab=0


reading file `data//snapshot_008_z001p493/snap_008_z001p493.12.hdf5' on task=540 (contains 36311697 particles.)
distributing this file to tasks 540-584
Type 0 (gas):   17498471  (tot=     0278298584) masstab=0
Type 1 (halo):  18079074  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16157  (tot=     0000254233) masstab=0
Type 3 (bulge):   279704  (tot=     0002602064) masstab=0
Type 4 (stars):   437169  (tot=     0008340770) masstab=0
Type 5 (bndry):     1122  (tot=     0000018062) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576174443


Setting next time for grid output file to Time_next= 0.407848

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

Setting next time for snipshot file to Time_next= 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=6.47542 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1940.96 MB)
Allocated 1.62149 MByte for top-level domain structure
use of 26.4301 MB of temporary storage for domain decomposition... (presently allocated=1969.01 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1969.02 Mbyte (on task=1), Smallest = 1969.01 Mbyte, Average = 1969.02 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      1.9775       3.8876  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.0527       6.9403  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     12.2107      19.1510  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     12.2107      31.3618  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     12.2107      43.5725  allocate_memory()/allocate.c/61
   1 2969 0                 P    976.8579    1020.4304  allocate_memory()/allocate.c/67
   1 2970 0              SphP    743.1358    1763.5662  allocate_memory()/allocate.c/85
   1 2971 0              MetP    158.5184    1922.0847  allocate_memory()/allocate.c/105
   1 2972 0               BHP     18.8733    1940.9579  allocate_memory()/allocate.c/126
   1 2973 0   DomainStartList      0.1758    1941.1337  domain_allocate()/domain.c/562
   1 2974 0     DomainEndList      0.1758    1941.3095  domain_allocate()/domain.c/565
   1 2975 0          TopNodes      1.2699    1942.5794  domain_allocate()/domain.c/570
   1 2976 0        domain_key     24.4214    1967.0009  domain_Decomposition()/domain.c/231
   1 3001 0          topNodes      1.3676    1969.0096  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0025 MByte for top-level domain structure
use of 27.0163 MB of temporary storage for domain decomposition... (presently allocated=1969.98 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.49776 MByte for top-level domain structure
use of 27.7782 MB of temporary storage for domain decomposition... (presently allocated=1971.23 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.14161 MByte for top-level domain structure
use of 28.7688 MB of temporary storage for domain decomposition... (presently allocated=1972.87 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 3.9786 MByte for top-level domain structure
use of 30.0564 MB of temporary storage for domain decomposition... (presently allocated=1974.99 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.06668 MByte for top-level domain structure
use of 31.7304 MB of temporary storage for domain decomposition... (presently allocated=1977.75 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 6.48122 MByte for top-level domain structure
use of 33.9066 MB of temporary storage for domain decomposition... (presently allocated=1981.34 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 8.3201 MByte for top-level domain structure
use of 36.7357 MB of temporary storage for domain decomposition... (presently allocated=1986.01 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 10.7107 MByte for top-level domain structure
use of 40.4135 MB of temporary storage for domain decomposition... (presently allocated=1992.08 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0652585  new value=0.084836
Allocated 13.8184 MByte for top-level domain structure
use of 45.1946 MB of temporary storage for domain decomposition... (presently allocated=1999.97 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.084836  new value=0.110287
Allocated 17.8584 MByte for top-level domain structure
use of 51.41 MB of temporary storage for domain decomposition... (presently allocated=2010.23 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.110287  new value=0.143373
Allocated 23.1105 MByte for top-level domain structure
use of 59.4901 MB of temporary storage for domain decomposition... (presently allocated=2023.56 MB)
Before=362449
Increasing TopNodeAllocFactor=0.143373  new value=0.186385
Allocated 29.9382 MByte for top-level domain structure
use of 69.9943 MB of temporary storage for domain decomposition... (presently allocated=2040.89 MB)
Before=362449
After=512353
NTopleaves= 448309  NTopnodes=512353 (space for 596612)
gravity work-load balance=1.01959   memory-balance=1.01959   SPH work-load balance=1.02047
iter=0 exchange of 0575334790 particles (ret=0)
domain decomposition done. (took 25.4954 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 3.85707 MByte in top-level domain structure

Allocated 488.463 MByte for BH-tree, and 1.71016 Mbyte for top-leaves.  (presently allocted 2456.89 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 2753.7 Mbyte (on task=388), Smallest = 2707.89 Mbyte, Average = 2734.96 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 388 2964 0  Sendcount_matrix      1.9775       3.8876  allocate_memory()/allocate.c/41
 388 2965 0     ProcessedFlag      3.0527       6.9403  allocate_memory()/allocate.c/52
 388 2966 0  NextActiveParticle     12.2107      19.1510  allocate_memory()/allocate.c/55
 388 2967 0     NextInTimeBin     12.2107      31.3618  allocate_memory()/allocate.c/58
 388 2968 0     PrevInTimeBin     12.2107      43.5725  allocate_memory()/allocate.c/61
 388 2969 0                 P    976.8579    1020.4304  allocate_memory()/allocate.c/67
 388 2970 0              SphP    743.1358    1763.5662  allocate_memory()/allocate.c/85
 388 2971 0              MetP    158.5184    1922.0847  allocate_memory()/allocate.c/105
 388 2972 0               BHP     18.8733    1940.9579  allocate_memory()/allocate.c/126
 388 2973 0   DomainStartList      0.1758    1941.1337  domain_allocate()/domain.c/562
 388 2974 0     DomainEndList      0.1758    1941.3095  domain_allocate()/domain.c/565
 388 2975 0          TopNodes     25.4081    1966.7176  domain_allocate()/domain.c/570
 388 2976 0   DomainNodeIndex      1.7102    1968.4278  force_treeallocate()/forcetree.c/4800
 388 2977 0        Nodes_base    252.0475    2220.4753  force_treeallocate()/forcetree.c/4803
 388 2978 0     Extnodes_base    210.0396    2430.5149  force_treeallocate()/forcetree.c/4811
 388 2979 0          Nextnode     14.1652    2444.6801  force_treeallocate()/forcetree.c/4820
 388 2980 0            Father     12.2107    2456.8908  force_treeallocate()/forcetree.c/4827
 388 2981 0           Ngblist      3.0061    2459.8969  density()/density.c/690
 388 2982 0              Left      6.0121    2465.9090  density()/density.c/692
 388 2983 0             Right      6.0121    2471.9211  density()/density.c/693
 388 2984 0    DataIndexTable      7.0175    2478.9387  density()/density.c/738
 388 2985 0      DataNodeList     18.7134    2497.6521  density()/density.c/740
 388 2986 0       DensDataGet     70.4857    2568.1378  density()/density.c/893
 388 2987 0    DensDataResult     92.9130    2661.0508  density()/density.c/931
 388 2988 0       DensDataOut     92.6437    2753.6945  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0007312446 particles.
ngb iteration 2: need to repeat for 0000003494 particles.
ngb iteration 3: need to repeat for 0000001481 particles.
ngb iteration 4: need to repeat for 0000001378 particles.
ngb iteration 5: need to repeat for 0000000229 particles.
ngb iteration 6: need to repeat for 0000000147 particles.
ngb iteration 7: need to repeat for 0000000060 particles.
ngb iteration 8: need to repeat for 0000000004 particles.
ngb iteration 9: need to repeat for 0000000003 particles.
ngb iteration 10: need to repeat for 0000000002 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.487.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.609.hdf5

Begin to compute FoF group catalogues...  (presently allocated=2456.89 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1940.96 MB)
Allocated 29.9382 MByte for top-level domain structure
use of 69.9943 MB of temporary storage for domain decomposition... (presently allocated=2040.89 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.186385  new value=0.2423
Allocated 38.8141 MByte for top-level domain structure
use of 83.6496 MB of temporary storage for domain decomposition... (presently allocated=2063.42 MB)
Before=489097
After=543065
NTopleaves= 475182  NTopnodes=543065 (space for 775595)
gravity work-load balance=1.02418   memory-balance=1.02418   SPH work-load balance=1.0271
iter=0 exchange of 0575342454 particles (ret=0)
domain decomposition done. (took 12.0037 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.6444 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=1968.24 MB)
Tree construction.

Start linking particles (presently allocated=2499.97 MB)
links on local processor done (took 1.46627 sec).
Marked=0051026745 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=2597.55 MB) 
have done 0001282626 cross links (processed 0051026745, took 1.5193 sec)
have done 0000491401 cross links (processed 0031228911, took 0.854464 sec)
have done 0000313715 cross links (processed 0023899426, took 0.717706 sec)
have done 0000186764 cross links (processed 0014023029, took 0.600184 sec)
have done 0000107943 cross links (processed 0007766092, took 0.564306 sec)
have done 0000061339 cross links (processed 0004148963, took 0.495607 sec)
have done 0000033530 cross links (processed 0001939367, took 0.411476 sec)
have done 0000018266 cross links (processed 0001000717, took 0.205218 sec)
have done 0000009761 cross links (processed 0000443065, took 0.184196 sec)
have done 0000004615 cross links (processed 0000182032, took 0.16244 sec)
have done 0000002683 cross links (processed 0000141487, took 0.229086 sec)
have done 0000001471 cross links (processed 0000049030, took 0.160463 sec)
have done 0000001060 cross links (processed 0000033027, took 0.040478 sec)
have done 0000000606 cross links (processed 0000021608, took 0.039686 sec)
have done 0000000337 cross links (processed 0000018331, took 0.040859 sec)
have done 0000000126 cross links (processed 0000002182, took 0.0340879 sec)
have done 0000000032 cross links (processed 0000000471, took 0.0340199 sec)
have done 0000000007 cross links (processed 0000000135, took 0.0337398 sec)
have done 0000000001 cross links (processed 0000000027, took 0.0341949 sec)
have done 0000000002 cross links (processed 0000000007, took 0.034436 sec)
have done 0000000001 cross links (processed 0000000006, took 0.033186 sec)
have done 0000000001 cross links (processed 0000000005, took 0.0333261 sec)
have done 0000000001 cross links (processed 0000000002, took 0.0334868 sec)
have done 0000000000 cross links (processed 0000000002, took 0.0338049 sec)
Local groups found.

group finding took = 8.09951 sec
Start finding nearest dm-particle (presently allocated=2499.97 MB)
still finding nearest... (presently allocated=2587.33 MB)
fof-nearest iteration 1: need to repeat for 264325384 particles.
still finding nearest... (presently allocated=2587.8 MB)
fof-nearest iteration 2: need to repeat for 242103613 particles.
still finding nearest... (presently allocated=2588.97 MB)
fof-nearest iteration 3: need to repeat for 222043598 particles.
still finding nearest... (presently allocated=2591.02 MB)
fof-nearest iteration 4: need to repeat for 193662039 particles.
still finding nearest... (presently allocated=2594 MB)
fof-nearest iteration 5: need to repeat for 140999080 particles.
still finding nearest... (presently allocated=2596.8 MB)
fof-nearest iteration 6: need to repeat for 67983814 particles.
still finding nearest... (presently allocated=2595.53 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 4.33506 sec
compiling local group data and catalogue took = 0.489584 sec

Total number of groups with at least 32 particles: 207472
Largest group has 7280311 particles.
Total number of particles in groups: 0140233244

group properties are now allocated.. (presently allocated=2016.9 MB)
computation of group properties took = 0.0538449 sec
start global sorting of group catalogues number 8
LargestGroup = 3314.271101; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0445421 sec
Group catalogues globally sorted. took = 1.32398 sec
starting saving of group catalogue number 8
data//groups_008_z001p493
Group catalogues number 8 saved. took = 3.40673 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (278298584).
tree build for species 0 took 0.593315 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0221005605 particles. (took 6.20095 sec)
ngb iteration 2: need to repeat for 0192489442 particles. (took 4.36167 sec)
ngb iteration 3: need to repeat for 0178486086 particles. (took 3.72574 sec)
ngb iteration 4: need to repeat for 0166363280 particles. (took 3.47602 sec)
ngb iteration 5: need to repeat for 0150083332 particles. (took 3.32311 sec)
ngb iteration 6: need to repeat for 0125185440 particles. (took 3.07255 sec)
ngb iteration 7: need to repeat for 0093310412 particles. (took 2.71391 sec)
ngb iteration 8: need to repeat for 0062159206 particles. (took 2.1893 sec)
ngb iteration 9: need to repeat for 0037852930 particles. (took 1.47629 sec)
ngb iteration 10: need to repeat for 0021678626 particles. (took 0.881939 sec)
ngb iteration 11: need to repeat for 0011963212 particles. (took 0.510156 sec)
ngb iteration 12: need to repeat for 0006476078 particles. (took 0.370691 sec)
ngb iteration 13: need to repeat for 0003475683 particles. (took 0.218237 sec)
ngb iteration 14: need to repeat for 0001744562 particles. (took 0.159814 sec)
ngb iteration 15: need to repeat for 0000674482 particles. (took 0.121512 sec)
ngb iteration 16: need to repeat for 0000275983 particles. (took 0.0893099 sec)
ngb iteration 17: need to repeat for 0000140720 particles. (took 0.069874 sec)
ngb iteration 18: need to repeat for 0000085235 particles. (took 0.0575581 sec)
ngb iteration 19: need to repeat for 0000056121 particles. (took 0.052289 sec)
ngb iteration 20: need to repeat for 0000038802 particles. (took 0.0499589 sec)
ngb iteration 21: need to repeat for 0000026892 particles. (took 0.0491269 sec)
ngb iteration 22: need to repeat for 0000018499 particles. (took 0.048646 sec)
ngb iteration 23: need to repeat for 0000012277 particles. (took 0.048229 sec)
ngb iteration 24: need to repeat for 0000007809 particles. (took 0.0476401 sec)
ngb iteration 25: need to repeat for 0000004653 particles. (took 0.0476749 sec)
ngb iteration 26: need to repeat for 0000002691 particles. (took 0.0473249 sec)
ngb iteration 27: need to repeat for 0000001518 particles. (took 0.047451 sec)
ngb iteration 28: need to repeat for 0000000885 particles. (took 0.0474319 sec)
ngb iteration 29: need to repeat for 0000000516 particles. (took 0.047467 sec)
ngb iteration 30: need to repeat for 0000000276 particles. (took 0.047282 sec)
ngb iteration 31: need to repeat for 0000000143 particles. (took 0.0472729 sec)
ngb iteration 32: need to repeat for 0000000071 particles. (took 0.0471191 sec)
ngb iteration 33: need to repeat for 0000000037 particles. (took 0.0473571 sec)
ngb iteration 34: need to repeat for 0000000015 particles. (took 0.0473959 sec)
ngb iteration 35: need to repeat for 0000000004 particles. (took 0.047262 sec)
ngb iteration 36: need to repeat for 0000000001 particles. (took 0.047313 sec)
ngb iteration 37: need to repeat for 0000000001 particles. (took 0.047442 sec)
final operations ... 
density and smoothing length for species 0 took 34.1566 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.607002 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0218197019 particles. (took 8.59824 sec)
ngb iteration 2: need to repeat for 0186222683 particles. (took 4.99763 sec)
ngb iteration 3: need to repeat for 0168548310 particles. (took 4.10243 sec)
ngb iteration 4: need to repeat for 0155472035 particles. (took 3.54403 sec)
ngb iteration 5: need to repeat for 0140420673 particles. (took 3.22073 sec)
ngb iteration 6: need to repeat for 0119149103 particles. (took 2.98489 sec)
ngb iteration 7: need to repeat for 0092252750 particles. (took 2.63211 sec)
ngb iteration 8: need to repeat for 0064997299 particles. (took 2.13015 sec)
ngb iteration 9: need to repeat for 0042308670 particles. (took 1.51907 sec)
ngb iteration 10: need to repeat for 0025986540 particles. (took 0.992461 sec)
ngb iteration 11: need to repeat for 0015350756 particles. (took 0.619492 sec)
ngb iteration 12: need to repeat for 0008849758 particles. (took 0.390342 sec)
ngb iteration 13: need to repeat for 0005025290 particles. (took 0.259599 sec)
ngb iteration 14: need to repeat for 0002720319 particles. (took 0.185036 sec)
ngb iteration 15: need to repeat for 0001291897 particles. (took 0.137104 sec)
ngb iteration 16: need to repeat for 0000607580 particles. (took 0.102628 sec)
ngb iteration 17: need to repeat for 0000290535 particles. (took 0.0817521 sec)
ngb iteration 18: need to repeat for 0000141372 particles. (took 0.0674491 sec)
ngb iteration 19: need to repeat for 0000068992 particles. (took 0.0579772 sec)
ngb iteration 20: need to repeat for 0000032793 particles. (took 0.052381 sec)
ngb iteration 21: need to repeat for 0000015360 particles. (took 0.0492609 sec)
ngb iteration 22: need to repeat for 0000006807 particles. (took 0.047873 sec)
ngb iteration 23: need to repeat for 0000002877 particles. (took 0.048094 sec)
ngb iteration 24: need to repeat for 0000001116 particles. (took 0.0483329 sec)
ngb iteration 25: need to repeat for 0000000429 particles. (took 0.046828 sec)
ngb iteration 26: need to repeat for 0000000147 particles. (took 0.0465779 sec)
ngb iteration 27: need to repeat for 0000000033 particles. (took 0.0465372 sec)
ngb iteration 28: need to repeat for 0000000009 particles. (took 0.046227 sec)
ngb iteration 29: need to repeat for 0000000004 particles. (took 0.0464201 sec)
ngb iteration 30: need to repeat for 0000000002 particles. (took 0.0468211 sec)
final operations ... 
density and smoothing length for species 1 took 37.3786 sec
Tree construction for species 4 (8340770).
tree build for species 4 took 0.400895 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0006435232 particles. (took 1.9896 sec)
ngb iteration 2: need to repeat for 0005709379 particles. (took 1.13818 sec)
ngb iteration 3: need to repeat for 0005222178 particles. (took 0.946621 sec)
ngb iteration 4: need to repeat for 0004856381 particles. (took 0.800563 sec)
ngb iteration 5: need to repeat for 0004502985 particles. (took 0.695695 sec)
ngb iteration 6: need to repeat for 0004076910 particles. (took 0.563536 sec)
ngb iteration 7: need to repeat for 0003544478 particles. (took 0.462157 sec)
ngb iteration 8: need to repeat for 0002954160 particles. (took 0.382177 sec)
ngb iteration 9: need to repeat for 0002375600 particles. (took 0.325812 sec)
ngb iteration 10: need to repeat for 0001862459 particles. (took 0.264078 sec)
ngb iteration 11: need to repeat for 0001433222 particles. (took 0.230082 sec)
ngb iteration 12: need to repeat for 0001090939 particles. (took 0.203602 sec)
ngb iteration 13: need to repeat for 0000826867 particles. (took 0.180417 sec)
ngb iteration 14: need to repeat for 0000627037 particles. (took 0.161968 sec)
ngb iteration 15: need to repeat for 0000472395 particles. (took 0.148908 sec)
ngb iteration 16: need to repeat for 0000358383 particles. (took 0.127248 sec)
ngb iteration 17: need to repeat for 0000272324 particles. (took 0.117471 sec)
ngb iteration 18: need to repeat for 0000206443 particles. (took 0.105298 sec)
ngb iteration 19: need to repeat for 0000158036 particles. (took 0.0945258 sec)
ngb iteration 20: need to repeat for 0000121358 particles. (took 0.085134 sec)
ngb iteration 21: need to repeat for 0000094207 particles. (took 0.0808489 sec)
ngb iteration 22: need to repeat for 0000073567 particles. (took 0.072252 sec)
ngb iteration 23: need to repeat for 0000056946 particles. (took 0.0669949 sec)
ngb iteration 24: need to repeat for 0000043581 particles. (took 0.065232 sec)
ngb iteration 25: need to repeat for 0000032527 particles. (took 0.0641921 sec)
ngb iteration 26: need to repeat for 0000023697 particles. (took 0.0635929 sec)
ngb iteration 27: need to repeat for 0000016642 particles. (took 0.0627658 sec)
ngb iteration 28: need to repeat for 0000011326 particles. (took 0.0626791 sec)
ngb iteration 29: need to repeat for 0000007314 particles. (took 0.0626318 sec)
ngb iteration 30: need to repeat for 0000004492 particles. (took 0.0619631 sec)
ngb iteration 31: need to repeat for 0000002617 particles. (took 0.0619891 sec)
ngb iteration 32: need to repeat for 0000001451 particles. (took 0.0620291 sec)
ngb iteration 33: need to repeat for 0000000770 particles. (took 0.0623441 sec)
ngb iteration 34: need to repeat for 0000000374 particles. (took 0.062171 sec)
ngb iteration 35: need to repeat for 0000000181 particles. (took 0.0619152 sec)
ngb iteration 36: need to repeat for 0000000089 particles. (took 0.062495 sec)
ngb iteration 37: need to repeat for 0000000032 particles. (took 0.0621319 sec)
ngb iteration 38: need to repeat for 0000000013 particles. (took 0.061676 sec)
ngb iteration 39: need to repeat for 0000000003 particles. (took 0.0617201 sec)
final operations ... 
density and smoothing length for species 4 took 10.4407 sec
Tree construction.
tree build took 0.87781 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000011072 particles. (took 0.0529292 sec)
ngb iteration 2: need to repeat for 0000009089 particles. (took 0.0691991 sec)
ngb iteration 3: need to repeat for 0000007043 particles. (took 0.0690591 sec)
ngb iteration 4: need to repeat for 0000005504 particles. (took 0.0690749 sec)
ngb iteration 5: need to repeat for 0000004755 particles. (took 0.0689158 sec)
ngb iteration 6: need to repeat for 0000004137 particles. (took 0.068126 sec)
ngb iteration 7: need to repeat for 0000003396 particles. (took 0.068114 sec)
ngb iteration 8: need to repeat for 0000002590 particles. (took 0.0677969 sec)
ngb iteration 9: need to repeat for 0000001830 particles. (took 0.0674119 sec)
ngb iteration 10: need to repeat for 0000001238 particles. (took 0.067137 sec)
ngb iteration 11: need to repeat for 0000000772 particles. (took 0.066689 sec)
ngb iteration 12: need to repeat for 0000000467 particles. (took 0.065969 sec)
ngb iteration 13: need to repeat for 0000000280 particles. (took 0.0660782 sec)
ngb iteration 14: need to repeat for 0000000174 particles. (took 0.0654421 sec)
ngb iteration 15: need to repeat for 0000000108 particles. (took 0.065017 sec)
ngb iteration 16: need to repeat for 0000000064 particles. (took 0.0655029 sec)
ngb iteration 17: need to repeat for 0000000045 particles. (took 0.0640528 sec)
ngb iteration 18: need to repeat for 0000000035 particles. (took 0.0642362 sec)
ngb iteration 19: need to repeat for 0000000029 particles. (took 0.0640502 sec)
ngb iteration 20: need to repeat for 0000000019 particles. (took 0.0639272 sec)
ngb iteration 21: need to repeat for 0000000015 particles. (took 0.062861 sec)
ngb iteration 22: need to repeat for 0000000012 particles. (took 0.062794 sec)
ngb iteration 23: need to repeat for 0000000010 particles. (took 0.06341 sec)
ngb iteration 24: need to repeat for 0000000005 particles. (took 0.0623221 sec)
ngb iteration 25: need to repeat for 0000000002 particles. (took 0.0623682 sec)
ngb iteration 26: need to repeat for 0000000001 particles. (took 0.0628729 sec)
ngb iteration 27: need to repeat for 0000000001 particles. (took 0.0637109 sec)
ngb iteration 28: need to repeat for 0000000001 particles. (took 0.0627279 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.0627739 sec)
final operations ... 
density and smoothing length for species 5 took 2.08353 sec
Tree construction for species 0 (278298584).
tree build for species 0 took 0.587966 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 11.978 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.596226 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 6.37511 sec
Tree construction for species 4 (8340770).
tree build for species 4 took 0.381534 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 4.32659 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.364573 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.18775 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.868837 sec
saving densities took 2.71359 sec

Number of FOF halos treated with collective SubFind code = 2
(the adopted size-limit for the collective algorithm was 2240677 particles.)
the other 207470 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 7455 - 55618466 

subfind_exchange()() took 2.4349 sec

collectively doing halo 1, num=8
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2818.8 MB)
Allocated 38.8141 MByte for top-level domain structure
use of 83.6496 MB of temporary storage for domain decomposition... (presently allocated=2941.26 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2941.27 Mbyte (on task=0), Smallest = 2149.4 Mbyte, Average = 2161.16 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5714  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8579    1020.4293  allocate_memory()/allocate.c/67
   0 2970 0              SphP    743.1358    1763.5652  allocate_memory()/allocate.c/85
   0 2971 0              MetP    158.5184    1922.0836  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.8733    1940.9569  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1941.1327  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1941.3085  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.9312    1968.2396  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.0926    1986.3322  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.1543    2016.4865  fof_fof()/fof.c/337
   0 2978 0             Group      0.4109    2016.8974  fof_fof()/fof.c/380
   0 2979 0          SubGroup    801.9017    2818.7991  subfind()/subfind.c/376
   0 2980 0   DomainStartList      0.1758    2818.9748  domain_allocate()/domain.c/562
   0 2981 0     DomainEndList      0.1758    2819.1506  domain_allocate()/domain.c/565
   0 2982 0          TopNodes     38.4626    2857.6132  domain_allocate()/domain.c/570
   0 2983 0        domain_key     24.4214    2882.0347  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      2.9587    2885.0263  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      2.9587    2887.9849  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      2.9587    2890.9436  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      2.9587    2893.9023  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      2.9587    2896.8719  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      2.9587    2899.8416  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     41.4212    2941.2628  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=399673
After=462457
NTopleaves= 404650  NTopnodes=462457 (space for 775595)
gravity work-load balance=1.02437   memory-balance=1.02437   SPH work-load balance=1.02593
iter=0 exchange of 0007271214 particles (ret=0)
domain decomposition done. (took 3.26373 sec)
Freed 14.3343 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3323.53 Mbyte (on task=0), Smallest = 2531.66 Mbyte, Average = 2543.43 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5714  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8579    1020.4293  allocate_memory()/allocate.c/67
   0 2970 0              SphP    743.1358    1763.5652  allocate_memory()/allocate.c/85
   0 2971 0              MetP    158.5184    1922.0836  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.8733    1940.9569  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1941.1327  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1941.3085  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.9312    1968.2396  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.0926    1986.3322  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.1543    2016.4865  fof_fof()/fof.c/337
   0 2978 0             Group      0.4109    2016.8974  fof_fof()/fof.c/380
   0 2979 0          SubGroup    801.9017    2818.7991  subfind()/subfind.c/376
   0 2980 0   DomainStartList      0.1758    2818.9748  domain_allocate()/domain.c/562
   0 2981 0     DomainEndList      0.1758    2819.1506  domain_allocate()/domain.c/565
   0 2982 0          TopNodes     22.9337    2842.0844  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      1.5436    2843.6280  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    247.4794    3091.1074  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    206.2328    3297.3402  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     13.9749    3311.3151  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     12.2107    3323.5258  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 3.65512 sec  (presently allocated=3323.53 MB)
force_treebuild() took 1.66854 sec (presently allocated=3323.53 MB)
Start find_linkngb (9931 particles on task=0)
find linkngb iteration 1: need to repeat for 0007274741 particles. (took 0.359695 sec)
find linkngb iteration 2: need to repeat for 0007252177 particles. (took 0.226225 sec)
find linkngb iteration 3: need to repeat for 0006840647 particles. (took 0.163667 sec)
find linkngb iteration 4: need to repeat for 0006593635 particles. (took 0.133747 sec)
find linkngb iteration 5: need to repeat for 0005975718 particles. (took 0.126864 sec)
find linkngb iteration 6: need to repeat for 0004932108 particles. (took 0.116387 sec)
find linkngb iteration 7: need to repeat for 0003604791 particles. (took 0.101606 sec)
find linkngb iteration 8: need to repeat for 0002359353 particles. (took 0.0854502 sec)
find linkngb iteration 9: need to repeat for 0001424627 particles. (took 0.0660288 sec)
find linkngb iteration 10: need to repeat for 0000815965 particles. (took 0.0528171 sec)
find linkngb iteration 11: need to repeat for 0000452303 particles. (took 0.0432601 sec)
find linkngb iteration 12: need to repeat for 0000236343 particles. (took 0.036958 sec)
find linkngb iteration 13: need to repeat for 0000084150 particles. (took 0.032074 sec)
find linkngb iteration 14: need to repeat for 0000031229 particles. (took 0.023227 sec)
find linkngb iteration 15: need to repeat for 0000014412 particles. (took 0.0127659 sec)
find linkngb iteration 16: need to repeat for 0000007356 particles. (took 0.00695586 sec)
find linkngb iteration 17: need to repeat for 0000004087 particles. (took 0.00337291 sec)
find linkngb iteration 18: need to repeat for 0000002399 particles. (took 0.00184798 sec)
find linkngb iteration 19: need to repeat for 0000001535 particles. (took 0.00116706 sec)
find linkngb iteration 20: need to repeat for 0000001002 particles. (took 0.000904083 sec)
find linkngb iteration 21: need to repeat for 0000000668 particles. (took 0.000767946 sec)
find linkngb iteration 22: need to repeat for 0000000410 particles. (took 0.000699997 sec)
find linkngb iteration 23: need to repeat for 0000000258 particles. (took 0.00067997 sec)
find linkngb iteration 24: need to repeat for 0000000140 particles. (took 0.00069499 sec)
find linkngb iteration 25: need to repeat for 0000000071 particles. (took 0.000739098 sec)
find linkngb iteration 26: need to repeat for 0000000029 particles. (took 0.000699997 sec)
find linkngb iteration 27: need to repeat for 0000000012 particles. (took 0.000734091 sec)
find linkngb iteration 28: need to repeat for 0000000004 particles. (took 0.000564098 sec)
find linkngb iteration 29: need to repeat for 0000000002 particles. (took 0.000628948 sec)
find_linkngb() took 1.60269 sec
Start finding nearest two (9931 particles on task=0)
find_nearesttwo() took 0.177942 sec (presently allocated=3324.28 MB)
parallel sort of densities done. took 0.117788 sec
building distributed linked list. (presently allocated 3324.18 MB)
identification of primary candidates took 401.471 sec
adding background as candidate took 1.47252 sec
establishing of rank order took 134.552 sec  (p=7280311, grouplen=7280311) presently allocated 3324.18 MB

total number of subhalo candidates=26372

number of subhalo candidates that can be done independently=23044.
(Largest size is 1719, finding them took 0.00939202 sec)
particles are marked (took 92.2932)
independent subhalos are assembled on individual CPUs for unbinding (0.15321 sec, (presently allocated=3324.18 MB)
unbinding of independent ones took 0.0312719 sec
particles have returned to their original processor (0.211587 sec, presently allocated 3324.18 MB)

number of subhalo candidates that can be done independently=2980.
(Largest size is 21388, finding them took 0.803866 sec)
particles are marked (took 61.8972)
independent subhalos are assembled on individual CPUs for unbinding (0.16073 sec, (presently allocated=3324.18 MB)
unbinding of independent ones took 0.878042 sec
particles have returned to their original processor (0.223125 sec, presently allocated 3324.18 MB)

number of subhalo candidates that can be done independently=312.
(Largest size is 42991, finding them took 0.823833 sec)
particles are marked (took 51.8055)
independent subhalos are assembled on individual CPUs for unbinding (0.173133 sec, (presently allocated=3324.18 MB)
unbinding of independent ones took 1.26315 sec
particles have returned to their original processor (0.244976 sec, presently allocated 3324.18 MB)

number of subhalo candidates that can be done independently=30.
(Largest size is 209635, finding them took 0.656648 sec)
particles are marked (took 46.5542)
independent subhalos are assembled on individual CPUs for unbinding (0.178303 sec, (presently allocated=3324.18 MB)
unbinding of independent ones took 2.81429 sec
particles have returned to their original processor (0.258132 sec, presently allocated 3324.18 MB)

number of subhalo candidates that can be done independently=2.
(Largest size is 424129, finding them took 0.462757 sec)
particles are marked (took 40.4062)
independent subhalos are assembled on individual CPUs for unbinding (0.149846 sec, (presently allocated=3324.18 MB)
unbinding of independent ones took 1.62995 sec
particles have returned to their original processor (0.218443 sec, presently allocated 3324.18 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 424129, finding them took 0.43161 sec)
particles are marked (took 38.109)
independent subhalos are assembled on individual CPUs for unbinding (0.142724 sec, (presently allocated=3324.18 MB)
unbinding of independent ones took 0.15509 sec
particles have returned to their original processor (0.204126 sec, presently allocated 3324.18 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 424129, finding them took 0.43563 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=424129 ... maximum alloacted 3324.22 MB
took 17.1086 sec
collective unbinding of nr=1 (3) of length=209635 ... maximum alloacted 3324.22 MB
took 12.2018 sec
collective unbinding of nr=2 (3) of length=7280311 ... maximum alloacted 3324.22 MB
took 385.61 sec

the collective unbinding of remaining halos took 451.766 sec

found 1811 bound substructures in FoF group of length 7280311
determination of parent subhalo took 0.104032 sec (presently allocated 3324.22 MB)
determining substructure properties took 310.864 sec (presently allocated 3324.22 MB)

collectively doing halo 2, num=8
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2818.8 MB)
Allocated 38.8141 MByte for top-level domain structure
use of 83.6496 MB of temporary storage for domain decomposition... (presently allocated=2941.26 MB)
Before=435681
After=487697
NTopleaves= 426735  NTopnodes=487697 (space for 775595)
gravity work-load balance=1.01657   memory-balance=1.01657   SPH work-load balance=1.01583
iter=0 exchange of 0002777765 particles (ret=0)
domain decomposition done. (took 3.21439 sec)
Freed 13.1789 MByte in top-level domain structure
coldomain_Decomposition() took 3.59826 sec  (presently allocated=3329.19 MB)
force_treebuild() took 1.67758 sec (presently allocated=3329.19 MB)
Start find_linkngb (3846 particles on task=0)
find linkngb iteration 1: need to repeat for 0002781801 particles. (took 0.158968 sec)
find linkngb iteration 2: need to repeat for 0002777432 particles. (took 0.111356 sec)
find linkngb iteration 3: need to repeat for 0002623871 particles. (took 0.087209 sec)
find linkngb iteration 4: need to repeat for 0002523355 particles. (took 0.076371 sec)
find linkngb iteration 5: need to repeat for 0002272253 particles. (took 0.072278 sec)
find linkngb iteration 6: need to repeat for 0001852696 particles. (took 0.0665979 sec)
find linkngb iteration 7: need to repeat for 0001341487 particles. (took 0.060189 sec)
find linkngb iteration 8: need to repeat for 0000875217 particles. (took 0.051966 sec)
find linkngb iteration 9: need to repeat for 0000529969 particles. (took 0.0453539 sec)
find linkngb iteration 10: need to repeat for 0000306458 particles. (took 0.0396061 sec)
find linkngb iteration 11: need to repeat for 0000171514 particles. (took 0.035732 sec)
find linkngb iteration 12: need to repeat for 0000088230 particles. (took 0.0321069 sec)
find linkngb iteration 13: need to repeat for 0000032860 particles. (took 0.027282 sec)
find linkngb iteration 14: need to repeat for 0000013794 particles. (took 0.0196688 sec)
find linkngb iteration 15: need to repeat for 0000006592 particles. (took 0.00993705 sec)
find linkngb iteration 16: need to repeat for 0000003338 particles. (took 0.00496697 sec)
find linkngb iteration 17: need to repeat for 0000001813 particles. (took 0.00234389 sec)
find linkngb iteration 18: need to repeat for 0000001115 particles. (took 0.00142193 sec)
find linkngb iteration 19: need to repeat for 0000000703 particles. (took 0.00099802 sec)
find linkngb iteration 20: need to repeat for 0000000459 particles. (took 0.000867844 sec)
find linkngb iteration 21: need to repeat for 0000000284 particles. (took 0.000837803 sec)
find linkngb iteration 22: need to repeat for 0000000189 particles. (took 0.000721931 sec)
find linkngb iteration 23: need to repeat for 0000000111 particles. (took 0.000689983 sec)
find linkngb iteration 24: need to repeat for 0000000065 particles. (took 0.00063014 sec)
find linkngb iteration 25: need to repeat for 0000000044 particles. (took 0.000627995 sec)
find linkngb iteration 26: need to repeat for 0000000030 particles. (took 0.000627041 sec)
find linkngb iteration 27: need to repeat for 0000000016 particles. (took 0.000627041 sec)
find linkngb iteration 28: need to repeat for 0000000006 particles. (took 0.000594854 sec)
find linkngb iteration 29: need to repeat for 0000000003 particles. (took 0.000630856 sec)
find linkngb iteration 30: need to repeat for 0000000001 particles. (took 0.000576973 sec)
find_linkngb() took 0.912808 sec
Start finding nearest two (3846 particles on task=0)
find_nearesttwo() took 0.08374 sec (presently allocated=3329.49 MB)
parallel sort of densities done. took 0.0951741 sec
building distributed linked list. (presently allocated 3329.45 MB)
identification of primary candidates took 164.116 sec
adding background as candidate took 1.46103 sec
establishing of rank order took 53.808 sec  (p=2782062, grouplen=2782062) presently allocated 3329.45 MB

total number of subhalo candidates=10082

number of subhalo candidates that can be done independently=8920.
(Largest size is 1320, finding them took 0.00532913 sec)
particles are marked (took 36.4914)
independent subhalos are assembled on individual CPUs for unbinding (0.144054 sec, (presently allocated=3329.45 MB)
unbinding of independent ones took 0.0157189 sec
particles have returned to their original processor (0.204135 sec, presently allocated 3329.45 MB)

number of subhalo candidates that can be done independently=1056.
(Largest size is 11174, finding them took 0.816593 sec)
particles are marked (took 23.788)
independent subhalos are assembled on individual CPUs for unbinding (0.150435 sec, (presently allocated=3329.45 MB)
unbinding of independent ones took 0.251158 sec
particles have returned to their original processor (0.210851 sec, presently allocated 3329.45 MB)

number of subhalo candidates that can be done independently=96.
(Largest size is 71947, finding them took 0.694733 sec)
particles are marked (took 23.8632)
independent subhalos are assembled on individual CPUs for unbinding (0.168597 sec, (presently allocated=3329.45 MB)
unbinding of independent ones took 4.09989 sec
particles have returned to their original processor (0.246604 sec, presently allocated 3329.45 MB)

number of subhalo candidates that can be done independently=8.
(Largest size is 234515, finding them took 0.759911 sec)
particles are marked (took 16.2112)
independent subhalos are assembled on individual CPUs for unbinding (0.147587 sec, (presently allocated=3329.45 MB)
unbinding of independent ones took 0.557787 sec
particles have returned to their original processor (0.209269 sec, presently allocated 3329.45 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 234515, finding them took 0.72783 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=234515 ... maximum alloacted 3329.46 MB
took 19.3522 sec
collective unbinding of nr=1 (2) of length=2782062 ... maximum alloacted 3329.46 MB
took 173.771 sec

the collective unbinding of remaining halos took 207.228 sec

found 733 bound substructures in FoF group of length 2782062
determination of parent subhalo took 0.086916 sec (presently allocated 3329.46 MB)
determining substructure properties took 123.019 sec (presently allocated 3329.46 MB)
processing of collective halos took 2333.47 sec
sort of local particles()() took 0.47784 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 412.867 sec

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unsorting of local particles()() took 0.398824 sec
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subfind_exchange() (for return to original CPU)  took 3.96161 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2818.8 MB)
Allocated 38.8141 MByte for top-level domain structure
use of 83.6496 MB of temporary storage for domain decomposition... (presently allocated=2941.26 MB)
Before=491729
After=546513
NTopleaves= 478199  NTopnodes=546513 (space for 775595)
gravity work-load balance=1.02429   memory-balance=1.02428   SPH work-load balance=1.02363
iter=0 exchange of 0575328053 particles (ret=0)
domain decomposition done. (took 8.86198 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.4865 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000176756 particles. (took 0.0419579 sec)
SO iteration 2: need to repeat for 0000176756 particles. (took 0.033159 sec)
SO iteration 3: need to repeat for 0000176756 particles. (took 0.0349998 sec)
SO iteration 4: need to repeat for 0000176756 particles. (took 0.0351062 sec)
SO iteration 5: need to repeat for 0000176756 particles. (took 0.035527 sec)
SO iteration 6: need to repeat for 0000176756 particles. (took 0.0359089 sec)
SO iteration 7: need to repeat for 0000176756 particles. (took 0.035898 sec)
SO iteration 8: need to repeat for 0000176756 particles. (took 0.0354409 sec)
SO iteration 9: need to repeat for 0000176756 particles. (took 0.0359721 sec)
SO iteration 10: need to repeat for 0000176756 particles. (took 0.0355411 sec)
SO iteration 11: need to repeat for 0000176756 particles. (took 0.0356491 sec)
SO iteration 12: need to repeat for 0000176756 particles. (took 0.0357308 sec)
SO iteration 13: need to repeat for 0000176756 particles. (took 0.0356441 sec)
SO iteration 14: need to repeat for 0000176756 particles. (took 0.035619 sec)
SO iteration 15: need to repeat for 0000174661 particles. (took 0.036051 sec)
SO iteration 16: need to repeat for 0000001790 particles. (took 0.03529 sec)
SO iteration 17: need to repeat for 0000000051 particles. (took 0.00334907 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.00258088 sec)
SO iteration 1: need to repeat for 0000176756 particles. (took 0.0369959 sec)
SO iteration 2: need to repeat for 0000176756 particles. (took 0.0320179 sec)
SO iteration 3: need to repeat for 0000176756 particles. (took 0.0335541 sec)
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SO iteration 7: need to repeat for 0000176756 particles. (took 0.032665 sec)
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SO iteration 11: need to repeat for 0000176756 particles. (took 0.0329518 sec)
SO iteration 12: need to repeat for 0000176756 particles. (took 0.0326641 sec)
SO iteration 13: need to repeat for 0000176756 particles. (took 0.0329351 sec)
SO iteration 14: need to repeat for 0000176756 particles. (took 0.0332501 sec)
SO iteration 15: need to repeat for 0000175914 particles. (took 0.0327098 sec)
SO iteration 16: need to repeat for 0000068516 particles. (took 0.0322721 sec)
SO iteration 17: need to repeat for 0000000758 particles. (took 0.0191181 sec)
SO iteration 18: need to repeat for 0000000028 particles. (took 0.00248384 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.00198007 sec)
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SO iteration 9: need to repeat for 0000176756 particles. (took 0.0298219 sec)
SO iteration 10: need to repeat for 0000176756 particles. (took 0.029732 sec)
SO iteration 11: need to repeat for 0000176756 particles. (took 0.0299542 sec)
SO iteration 12: need to repeat for 0000176756 particles. (took 0.0293939 sec)
SO iteration 13: need to repeat for 0000176756 particles. (took 0.0300448 sec)
SO iteration 14: need to repeat for 0000176756 particles. (took 0.0297291 sec)
SO iteration 15: need to repeat for 0000176744 particles. (took 0.029285 sec)
SO iteration 16: need to repeat for 0000175489 particles. (took 0.029403 sec)
SO iteration 17: need to repeat for 0000114466 particles. (took 0.0292821 sec)
SO iteration 18: need to repeat for 0000003440 particles. (took 0.0231071 sec)
SO iteration 19: need to repeat for 0000000109 particles. (took 0.00303411 sec)
SO iteration 20: need to repeat for 0000000003 particles. (took 0.00208402 sec)
SO iteration 1: need to repeat for 0000176756 particles. (took 0.0370791 sec)
SO iteration 2: need to repeat for 0000176756 particles. (took 0.0348392 sec)
SO iteration 3: need to repeat for 0000176756 particles. (took 0.0358319 sec)
SO iteration 4: need to repeat for 0000176756 particles. (took 0.0359809 sec)
SO iteration 5: need to repeat for 0000176756 particles. (took 0.0360899 sec)
SO iteration 6: need to repeat for 0000176756 particles. (took 0.035789 sec)
SO iteration 7: need to repeat for 0000176756 particles. (took 0.0362701 sec)
SO iteration 8: need to repeat for 0000176756 particles. (took 0.035682 sec)
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SO iteration 13: need to repeat for 0000176756 particles. (took 0.0359938 sec)
SO iteration 14: need to repeat for 0000176756 particles. (took 0.0356381 sec)
SO iteration 15: need to repeat for 0000174623 particles. (took 0.035835 sec)
SO iteration 16: need to repeat for 0000001457 particles. (took 0.035131 sec)
SO iteration 17: need to repeat for 0000000045 particles. (took 0.00274301 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.00219512 sec)
SO iteration 1: need to repeat for 0000176756 particles. (took 0.036916 sec)
SO iteration 2: need to repeat for 0000176756 particles. (took 0.0327139 sec)
SO iteration 3: need to repeat for 0000176756 particles. (took 0.034297 sec)
SO iteration 4: need to repeat for 0000176756 particles. (took 0.0355871 sec)
SO iteration 5: need to repeat for 0000176756 particles. (took 0.0350449 sec)
SO iteration 6: need to repeat for 0000176756 particles. (took 0.03563 sec)
SO iteration 7: need to repeat for 0000176756 particles. (took 0.0357881 sec)
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SO iteration 12: need to repeat for 0000176756 particles. (took 0.035342 sec)
SO iteration 13: need to repeat for 0000176756 particles. (took 0.0359669 sec)
SO iteration 14: need to repeat for 0000176756 particles. (took 0.0352161 sec)
SO iteration 15: need to repeat for 0000174751 particles. (took 0.0350921 sec)
SO iteration 16: need to repeat for 0000003270 particles. (took 0.0347359 sec)
SO iteration 17: need to repeat for 0000000079 particles. (took 0.003196 sec)
SO iteration 18: need to repeat for 0000000002 particles. (took 0.00216699 sec)
SO iteration 1: need to repeat for 0000176756 particles. (took 0.0364411 sec)
SO iteration 2: need to repeat for 0000176756 particles. (took 0.031646 sec)
SO iteration 3: need to repeat for 0000176756 particles. (took 0.0333469 sec)
SO iteration 4: need to repeat for 0000176756 particles. (took 0.0321729 sec)
SO iteration 5: need to repeat for 0000176756 particles. (took 0.0319901 sec)
SO iteration 6: need to repeat for 0000176756 particles. (took 0.0321829 sec)
SO iteration 7: need to repeat for 0000176756 particles. (took 0.033004 sec)
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SO iteration 9: need to repeat for 0000176756 particles. (took 0.032016 sec)
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SO iteration 11: need to repeat for 0000176756 particles. (took 0.032238 sec)
SO iteration 12: need to repeat for 0000176756 particles. (took 0.0322142 sec)
SO iteration 13: need to repeat for 0000176756 particles. (took 0.0321271 sec)
SO iteration 14: need to repeat for 0000176756 particles. (took 0.031987 sec)
SO iteration 15: need to repeat for 0000176144 particles. (took 0.0321999 sec)
SO iteration 16: need to repeat for 0000113994 particles. (took 0.032047 sec)
SO iteration 17: need to repeat for 0000001236 particles. (took 0.025177 sec)
SO iteration 18: need to repeat for 0000000051 particles. (took 0.00263214 sec)
SO iteration 19: need to repeat for 0000000001 particles. (took 0.00193596 sec)
SO iteration 1: need to repeat for 0000176756 particles. (took 0.0362899 sec)
SO iteration 2: need to repeat for 0000176756 particles. (took 0.031538 sec)
SO iteration 3: need to repeat for 0000176756 particles. (took 0.029021 sec)
SO iteration 4: need to repeat for 0000176756 particles. (took 0.0294631 sec)
SO iteration 5: need to repeat for 0000176756 particles. (took 0.029031 sec)
SO iteration 6: need to repeat for 0000176756 particles. (took 0.0292959 sec)
SO iteration 7: need to repeat for 0000176756 particles. (took 0.029134 sec)
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SO iteration 10: need to repeat for 0000176756 particles. (took 0.0293071 sec)
SO iteration 11: need to repeat for 0000176756 particles. (took 0.0291688 sec)
SO iteration 12: need to repeat for 0000176756 particles. (took 0.029258 sec)
SO iteration 13: need to repeat for 0000176756 particles. (took 0.0297859 sec)
SO iteration 14: need to repeat for 0000176756 particles. (took 0.029032 sec)
SO iteration 15: need to repeat for 0000176747 particles. (took 0.029212 sec)
SO iteration 16: need to repeat for 0000175702 particles. (took 0.029351 sec)
SO iteration 17: need to repeat for 0000144125 particles. (took 0.02894 sec)
SO iteration 18: need to repeat for 0000005913 particles. (took 0.0260251 sec)
SO iteration 19: need to repeat for 0000000153 particles. (took 0.00359106 sec)
SO iteration 20: need to repeat for 0000000005 particles. (took 0.00208402 sec)
SO iteration 21: need to repeat for 0000000002 particles. (took 0.00187612 sec)
determining spherical overdensity masses took 3.92859 sec
finding spherical overdensity particles took 0.557494 sec
determining contamination of halos took 0.503602 sec
Global sort of Groups took 0.509922 sec
Global sort of SubGroups took 0.772998 sec
Global sort of IDs took 0.318825 sec
Writing block 0 (GLEN), n=289, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1156d
Writing block 1 (GOFF), n=289, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1156d
Writing block 2 (MTOT), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 3 (GPOS), n=289, ptype=0, dtype=1, ndim=3, bpb=4 bytes=3468d
Writing block 4 (MMEA), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 5 (RMEA), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 6 (MCRI), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 7 (RCRI), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 8 (MTOP), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 9 (RTOP), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 17 (NCON), n=289, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1156d
Writing block 18 (MCON), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 22 (NSUB), n=289, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1156d
Writing block 23 (FSUB), n=289, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1156d
Writing block 24 (SLEN), n=2105, ptype=1, dtype=0, ndim=1, bpb=4 bytes=8420d
Writing block 25 (SOFF), n=2105, ptype=1, dtype=0, ndim=1, bpb=4 bytes=8420d
Writing block 26 (SSUB), n=2105, ptype=1, dtype=0, ndim=1, bpb=4 bytes=8420d
Writing block 27 (MSUB), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 28 (SPOS), n=2105, ptype=1, dtype=1, ndim=3, bpb=4 bytes=25260d
Writing block 29 (SVEL), n=2105, ptype=1, dtype=1, ndim=3, bpb=4 bytes=25260d
Writing block 30 (SCM ), n=2105, ptype=1, dtype=1, ndim=3, bpb=4 bytes=25260d
Writing block 33 (VMAX), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 34 (RMAX), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 35 (RHMS), n=2105, ptype=1, dtype=1, ndim=6, bpb=4 bytes=50520d
Writing block 36 (MTRH), n=2105, ptype=1, dtype=1, ndim=6, bpb=4 bytes=50520d
Writing block 37 (MBID), n=2105, ptype=1, dtype=2, ndim=1, bpb=8 bytes=16840d
Writing block 38 (GRNR), n=2105, ptype=1, dtype=0, ndim=1, bpb=4 bytes=8420d
Writing block 39 (SUBN), n=2105, ptype=1, dtype=0, ndim=1, bpb=4 bytes=8420d
Writing block 40 (SMST), n=2105, ptype=1, dtype=1, ndim=6, bpb=4 bytes=50520d
Writing block 53 (PID ), n=195536, ptype=2, dtype=2, ndim=1, bpb=8 bytes=1564288d
Writing block 54 (SLEN), n=2105, ptype=1, dtype=0, ndim=6, bpb=4 bytes=50520d
Writing block 55 (STEN), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 56 (SKEN), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 57 (SUEN), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 58 (SUIT), n=2105, ptype=1, dtype=1, ndim=9, bpb=4 bytes=75780d
Writing block 59 (BHMA), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 60 (BHMD), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 61 (SVD ), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 62 (SVDH), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 63 (HMPR), n=2105, ptype=1, dtype=1, ndim=6, bpb=4 bytes=50520d
Writing block 64 (SSFR), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 65 (SSA ), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 66 (SSBZ), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 67 (SSIM), n=2105, ptype=1, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 68 (SSPI), n=2105, ptype=4, dtype=1, ndim=3, bpb=4 bytes=25260d
Writing block 69 (GSPI), n=2105, ptype=1, dtype=1, ndim=3, bpb=4 bytes=25260d
Writing block 70 (FSPI), n=2105, ptype=5, dtype=1, ndim=3, bpb=4 bytes=25260d
Writing block 71 (SFM ), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 72 (SFMT), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 73 (SFME), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 74 (SFAE), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 75 (SFKE), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 76 (SFTE), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 77 (SMWP), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 78 (SMM ), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 79 (SMMS), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 80 (SFZ ), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 81 (SFZS), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 82 (SSIA), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 83 (SIAS), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 84 (SMET), n=2105, ptype=5, dtype=1, ndim=9, bpb=4 bytes=75780d
Writing block 85 (SMTS), n=2105, ptype=5, dtype=1, ndim=9, bpb=4 bytes=75780d
Writing block 86 (MF1 ), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 87 (MeF1), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 88 (MF  ), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 89 (MeF2), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 90 (MFA ), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 91 (MeFA), n=2105, ptype=5, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 92 (NSPI), n=2105, ptype=6, dtype=1, ndim=3, bpb=4 bytes=25260d
Writing block 93 (NFM ), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 94 (NFMT), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 95 (NFME), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 96 (NFAE), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 97 (NFKE), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 98 (NFTE), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 99 (SMWP), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 100 (SMM ), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 101 (SMMS), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 102 (SSIA), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 103 (SIAS), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 104 (SMET), n=2105, ptype=6, dtype=1, ndim=9, bpb=4 bytes=75780d
Writing block 105 (SMTS), n=2105, ptype=6, dtype=1, ndim=9, bpb=4 bytes=75780d
Writing block 106 (MF1 ), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 107 (MeF1), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 108 (MF2 ), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 109 (MeF2), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 110 (MFA ), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 111 (MeFA), n=2105, ptype=6, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 112 (SM  ), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 113 (SFKE), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 114 (SFAE), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 115 (SMWP), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 116 (SMM ), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 117 (SMMS), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 118 (SSIA), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 119 (SIAS), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 120 (SMET), n=2105, ptype=4, dtype=1, ndim=9, bpb=4 bytes=75780d
Writing block 121 (SMTS), n=2105, ptype=4, dtype=1, ndim=9, bpb=4 bytes=75780d
Writing block 122 (MF1 ), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 123 (MeF1), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 124 (MF2 ), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 125 (MeF2), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 126 (MFA ), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 127 (MeFA), n=2105, ptype=4, dtype=1, ndim=1, bpb=4 bytes=8420d
Writing block 128 (MMe5), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 129 (RMe5), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 130 (MCr5), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 131 (RCr5), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 132 (MMe2), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 133 (RMe2), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 134 (MCr2), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 135 (RCr2), n=289, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1156d
Writing block 136 (MAPT), n=2105, ptype=7, dtype=1, ndim=60, bpb=4 bytes=505200d
Writing block 137 (SAPT), n=2105, ptype=8, dtype=1, ndim=10, bpb=4 bytes=84200d
Writing block 138 (VAPT), n=2105, ptype=9, dtype=1, ndim=10, bpb=4 bytes=84200d
Writing block 139 (BEGY), n=195536, ptype=2, dtype=1, ndim=1, bpb=4 bytes=782144d
Subgroup catalogues saved. took = 10.7441 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 4.258308e-01
 eagle_ph_key_ort: type= 1 timed by volker 4.474061e-01
 eagle_ph_key_ort: type= 2 timed by volker 8.966899e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.726099e-02
 eagle_ph_key_ort: type= 4 timed by volker 1.205721e-01
 eagle_ph_key_ort: type= 5 timed by volker 6.110811e-02
 eagle_ph_key_ort: timing parallel sort = 1.217287e+00
 eagle_fetch_elements: we are using 933387097 bytes of memory, FreeBytes= 1166733872

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2837.32 Mbyte (on task=0), Smallest = 2045.33 Mbyte, Average = 2057.01 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5714  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8579    1020.4293  allocate_memory()/allocate.c/67
   0 2970 0              SphP    743.1358    1763.5652  allocate_memory()/allocate.c/85
   0 2971 0              MetP    158.5184    1922.0836  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.8733    1940.9569  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1941.1327  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1941.3085  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.9312    1968.2396  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.0926    1986.3322  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.1543    2016.4865  fof_fof()/fof.c/337
   0 2978 0             Group      0.4109    2016.8974  fof_fof()/fof.c/380
   0 2979 0          SubGroup    801.9017    2818.7991  subfind()/subfind.c/376
   0 2980 0   sort_index_data     18.5168    2837.3159  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1029280 number of bytes = 329369600

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3724.21 Mbyte (on task=0), Smallest = 2925.03 Mbyte, Average = 2941.23 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5714  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8579    1020.4293  allocate_memory()/allocate.c/67
   0 2970 0              SphP    743.1358    1763.5652  allocate_memory()/allocate.c/85
   0 2971 0              MetP    158.5184    1922.0836  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.8733    1940.9569  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1941.1327  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1941.3085  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.9312    1968.2396  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.0926    1986.3322  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.1543    2016.4865  fof_fof()/fof.c/337
   0 2978 0             Group      0.4109    2016.8974  fof_fof()/fof.c/380
   0 2979 0          SubGroup    801.9017    2818.7991  subfind()/subfind.c/376
   0 2980 0   sort_index_data     18.5168    2837.3159  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      3.9264    2841.2423  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      3.9264    2845.1687  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      3.9264    2849.0950  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    314.1113    3163.2064  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    314.1113    3477.3177  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    246.8909    3724.2086  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.854380e+00
 eagle_fetch_elements: we are using 933387097 bytes of memory, FreeBytes= 1166733872
 eagle_fetch_elements: max_bytes= 504, max_elements= 719582 number of bytes = 362669328
 eagle_ph_key_ort: timing parallel SphP exchange = 2.136030e+00
 eagle_fetch_elements: we are using 933387097 bytes of memory, FreeBytes= 1166733872
 eagle_fetch_elements: max_bytes= 384, max_elements= 1174262 number of bytes = 450916608
 eagle_ph_key_ort: timing parallel MetP exchange = 1.541510e-01
 eagle_fetch_elements: we are using 933387097 bytes of memory, FreeBytes= 1166733872
 eagle_fetch_elements: max_bytes= 256, max_elements= 1781249 number of bytes = 455999744
 eagle_ph_key_ort: timing parallel BHP exchange = 7.945061e-03
Sorting particle-data by peano-hilbert key took = 6.65402 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 933387097 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1029280 number of bytes= 329369600
 eagle_ph_restore: timing parallel P exchange = 2.947878e+00
 eagle_send_elements: we are using 933387097 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 719582 number of bytes= 362669328
 eagle_ph_restore: timing parallel SphP exchange = 2.172263e+00
 eagle_send_elements: we are using 933387097 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1174262 number of bytes= 450916608
 eagle_ph_restore: timing parallel MetP exchange = 1.687109e-01
 eagle_send_elements: we are using 933387097 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 1781249 number of bytes= 455999744
 eagle_ph_restore: timing parallel BHP exchange = 6.671190e-03
Restoring original order after ph key sorting took = 5.30904 sec

finished writing particle file...

Finished with SUBFIND.  (total time=3080.2 sec)

Finished computing FoF groups.  (presently allocated=1968.24 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1940.96 MB)
Allocated 38.8141 MByte for top-level domain structure
use of 83.6496 MB of temporary storage for domain decomposition... (presently allocated=2063.42 MB)
Before=484897
After=543257
NTopleaves= 475350  NTopnodes=543257 (space for 775595)
gravity work-load balance=1.02215   memory-balance=1.02215   SPH work-load balance=1.02229
iter=0 exchange of 0575454310 particles (ret=0)
domain decomposition done. (took 8.93835 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.6356 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 45: endrun called with an error level of 124


task 45: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 90: endrun called with an error level of 124


task 90: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 135: endrun called with an error level of 124


task 135: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
task 180: endrun called with an error level of 124


task 180: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
task 225: endrun called with an error level of 124


task 225: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 270: endrun called with an error level of 124


task 270: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 315: endrun called with an error level of 124


task 315: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 360:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 360: endrun called with an error level of 124


task 360: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 360
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 360:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 360
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 405:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 405: endrun called with an error level of 124


task 405: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 405
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 405:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 405
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 450:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 450: endrun called with an error level of 124


task 450: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 450
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 450:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 450
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 495:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 495: endrun called with an error level of 124


task 495: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 495
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 495:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 495
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 540:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 540: endrun called with an error level of 124


task 540: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 540
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 540:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 540
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 585:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 585: endrun called with an error level of 124


task 585: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 585
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 585:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 585
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 630:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 630
task 630: endrun called with an error level of 124


task 630: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 630:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 630
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 675:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 675
task 675: endrun called with an error level of 124


task 675: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 675:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 675
Finished FOF, total time doing fof/subfind = 3121.68 s
task 0: endrun called with an error level of 124


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


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62712.52 Mb (on task=400), Smallest =   62511.38 Mb (on task=0), Average =   62663.80 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=176), Smallest =   64531.71 Mb (on task=224), Average =   64532.01 Mb
Committed_AS:	 Largest =    2020.61 Mb (on task=0), Smallest =    1819.48 Mb (on task=400), Average =    1868.21 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=32), Smallest =   16266.08 Mb (on task=96), Average =   16310.96 Mb
AllocMem:	 Largest =    2020.61 Mb (on task=0), Smallest =    1819.48 Mb (on task=400), Average =    1868.21 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 720 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N16':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 1016.54 MByte for particle storage.

Allocated 746.393 MByte for storage of SPH data.

Allocated 156.662 MByte for storage of MET data.

Allocated 18.9558 MByte for storage of BH data.


reading file `data//snapshot_007_z001p716/snap_007_z001p716.0.hdf5' on task=0 (contains 36373820 particles.)
distributing this file to tasks 0-44
Type 0 (gas):   17432180  (tot=     0279518098) masstab=0
Type 1 (halo):  18131215  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     23305  (tot=     0000254233) masstab=0
Type 3 (bulge):    40327  (tot=     0002602064) masstab=0
Type 4 (stars):   745749  (tot=     0007123095) masstab=0
Type 5 (bndry):     1044  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.15.hdf5' on task=675 (contains 35750534 particles.)
distributing this file to tasks 675-719
Type 0 (gas):   17520487  (tot=     0279518098) masstab=0
Type 1 (halo):  17828814  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12526  (tot=     0000254233) masstab=0
Type 3 (bulge):    33926  (tot=     0002602064) masstab=0
Type 4 (stars):   353757  (tot=     0007123095) masstab=0
Type 5 (bndry):     1024  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.13.hdf5' on task=585 (contains 36002394 particles.)
distributing this file to tasks 585-629
Type 0 (gas):   17565495  (tot=     0279518098) masstab=0
Type 1 (halo):  17793135  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20872  (tot=     0000254233) masstab=0
Type 3 (bulge):   255803  (tot=     0002602064) masstab=0
Type 4 (stars):   366011  (tot=     0007123095) masstab=0
Type 5 (bndry):     1078  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.7.hdf5' on task=315 (contains 35941121 particles.)
distributing this file to tasks 315-359
Type 0 (gas):   17385255  (tot=     0279518098) masstab=0
Type 1 (halo):  17968872  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21070  (tot=     0000254233) masstab=0
Type 3 (bulge):    68950  (tot=     0002602064) masstab=0
Type 4 (stars):   495969  (tot=     0007123095) masstab=0
Type 5 (bndry):     1005  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.9.hdf5' on task=405 (contains 35904897 particles.)
distributing this file to tasks 405-449
Type 0 (gas):   17506442  (tot=     0279518098) masstab=0
Type 1 (halo):  17811218  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8650  (tot=     0000254233) masstab=0
Type 3 (bulge):   218018  (tot=     0002602064) masstab=0
Type 4 (stars):   359486  (tot=     0007123095) masstab=0
Type 5 (bndry):     1083  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.14.hdf5' on task=630 (contains 35739221 particles.)
distributing this file to tasks 630-674
Type 0 (gas):   17451656  (tot=     0279518098) masstab=0
Type 1 (halo):  17898020  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11410  (tot=     0000254233) masstab=0
Type 3 (bulge):     1774  (tot=     0002602064) masstab=0
Type 4 (stars):   375330  (tot=     0007123095) masstab=0
Type 5 (bndry):     1031  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.10.hdf5' on task=450 (contains 35924388 particles.)
distributing this file to tasks 450-494
Type 0 (gas):   17447153  (tot=     0279518098) masstab=0
Type 1 (halo):  17875244  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15197  (tot=     0000254233) masstab=0
Type 3 (bulge):   113856  (tot=     0002602064) masstab=0
Type 4 (stars):   471837  (tot=     0007123095) masstab=0
Type 5 (bndry):     1101  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.12.hdf5' on task=540 (contains 35882168 particles.)
distributing this file to tasks 540-584
Type 0 (gas):   17454718  (tot=     0279518098) masstab=0
Type 1 (halo):  18025411  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      7667  (tot=     0000254233) masstab=0
Type 3 (bulge):      146  (tot=     0002602064) masstab=0
Type 4 (stars):   393163  (tot=     0007123095) masstab=0
Type 5 (bndry):     1063  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.8.hdf5' on task=360 (contains 36072277 particles.)
distributing this file to tasks 360-404
Type 0 (gas):   17559808  (tot=     0279518098) masstab=0
Type 1 (halo):  17914121  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10110  (tot=     0000254233) masstab=0
Type 3 (bulge):   179419  (tot=     0002602064) masstab=0
Type 4 (stars):   407735  (tot=     0007123095) masstab=0
Type 5 (bndry):     1084  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.4.hdf5' on task=180 (contains 36196197 particles.)
distributing this file to tasks 180-224
Type 0 (gas):   17473787  (tot=     0279518098) masstab=0
Type 1 (halo):  17929889  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21263  (tot=     0000254233) masstab=0
Type 3 (bulge):   319473  (tot=     0002602064) masstab=0
Type 4 (stars):   450759  (tot=     0007123095) masstab=0
Type 5 (bndry):     1026  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.6.hdf5' on task=270 (contains 36045331 particles.)
distributing this file to tasks 270-314
Type 0 (gas):   17436561  (tot=     0279518098) masstab=0
Type 1 (halo):  17826577  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     23453  (tot=     0000254233) masstab=0
Type 3 (bulge):   308505  (tot=     0002602064) masstab=0
Type 4 (stars):   449221  (tot=     0007123095) masstab=0
Type 5 (bndry):     1014  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.3.hdf5' on task=135 (contains 36041787 particles.)
distributing this file to tasks 135-179
Type 0 (gas):   17430571  (tot=     0279518098) masstab=0
Type 1 (halo):  17855116  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19062  (tot=     0000254233) masstab=0
Type 3 (bulge):   313809  (tot=     0002602064) masstab=0
Type 4 (stars):   422199  (tot=     0007123095) masstab=0
Type 5 (bndry):     1030  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.1.hdf5' on task=45 (contains 36094582 particles.)
distributing this file to tasks 45-89
Type 0 (gas):   17485689  (tot=     0279518098) masstab=0
Type 1 (halo):  17930943  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21431  (tot=     0000254233) masstab=0
Type 3 (bulge):   117810  (tot=     0002602064) masstab=0
Type 4 (stars):   537687  (tot=     0007123095) masstab=0
Type 5 (bndry):     1022  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.2.hdf5' on task=90 (contains 36045722 particles.)
distributing this file to tasks 90-134
Type 0 (gas):   17444845  (tot=     0279518098) masstab=0
Type 1 (halo):  17992578  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13618  (tot=     0000254233) masstab=0
Type 3 (bulge):    94916  (tot=     0002602064) masstab=0
Type 4 (stars):   498722  (tot=     0007123095) masstab=0
Type 5 (bndry):     1043  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.11.hdf5' on task=495 (contains 36001733 particles.)
distributing this file to tasks 495-539
Type 0 (gas):   17525596  (tot=     0279518098) masstab=0
Type 1 (halo):  17932005  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8934  (tot=     0000254233) masstab=0
Type 3 (bulge):   170026  (tot=     0002602064) masstab=0
Type 4 (stars):   364126  (tot=     0007123095) masstab=0
Type 5 (bndry):     1046  (tot=     0000016743) masstab=0


reading file `data//snapshot_007_z001p716/snap_007_z001p716.5.hdf5' on task=225 (contains 36158791 particles.)
distributing this file to tasks 225-269
Type 0 (gas):   17397855  (tot=     0279518098) masstab=0
Type 1 (halo):  17947572  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15665  (tot=     0000254233) masstab=0
Type 3 (bulge):   365306  (tot=     0002602064) masstab=0
Type 4 (stars):   431344  (tot=     0007123095) masstab=0
Type 5 (bndry):     1049  (tot=     0000016743) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576174963


Setting next time for grid output file to Time_next= 0.36949

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

Setting next time for snipshot file to Time_next= 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=6.20064 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1942.44 MB)
Allocated 1.62149 MByte for top-level domain structure
use of 26.4301 MB of temporary storage for domain decomposition... (presently allocated=1970.49 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1970.5 Mbyte (on task=1), Smallest = 1970.5 Mbyte, Average = 1970.5 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      1.9775       3.8876  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.0527       6.9403  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     12.2107      19.1511  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     12.2107      31.3618  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     12.2107      43.5725  allocate_memory()/allocate.c/61
   1 2969 0                 P    976.8591    1020.4317  allocate_memory()/allocate.c/67
   1 2970 0              SphP    746.3927    1766.8244  allocate_memory()/allocate.c/85
   1 2971 0              MetP    156.6617    1923.4861  allocate_memory()/allocate.c/105
   1 2972 0               BHP     18.9558    1942.4419  allocate_memory()/allocate.c/126
   1 2973 0   DomainStartList      0.1758    1942.6177  domain_allocate()/domain.c/562
   1 2974 0     DomainEndList      0.1758    1942.7935  domain_allocate()/domain.c/565
   1 2975 0          TopNodes      1.2699    1944.0634  domain_allocate()/domain.c/570
   1 2976 0        domain_key     24.4215    1968.4849  domain_Decomposition()/domain.c/231
   1 3001 0          topNodes      1.3676    1970.4936  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0025 MByte for top-level domain structure
use of 27.0163 MB of temporary storage for domain decomposition... (presently allocated=1971.46 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.49776 MByte for top-level domain structure
use of 27.7783 MB of temporary storage for domain decomposition... (presently allocated=1972.72 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.14161 MByte for top-level domain structure
use of 28.7688 MB of temporary storage for domain decomposition... (presently allocated=1974.35 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 3.9786 MByte for top-level domain structure
use of 30.0565 MB of temporary storage for domain decomposition... (presently allocated=1976.48 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.06668 MByte for top-level domain structure
use of 31.7304 MB of temporary storage for domain decomposition... (presently allocated=1979.24 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 6.48122 MByte for top-level domain structure
use of 33.9066 MB of temporary storage for domain decomposition... (presently allocated=1982.83 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 8.3201 MByte for top-level domain structure
use of 36.7357 MB of temporary storage for domain decomposition... (presently allocated=1987.5 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 10.7107 MByte for top-level domain structure
use of 40.4135 MB of temporary storage for domain decomposition... (presently allocated=1993.57 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0652585  new value=0.084836
Allocated 13.8184 MByte for top-level domain structure
use of 45.1946 MB of temporary storage for domain decomposition... (presently allocated=2001.45 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.084836  new value=0.110287
Allocated 17.8584 MByte for top-level domain structure
use of 51.4101 MB of temporary storage for domain decomposition... (presently allocated=2011.71 MB)
Before=296625
Increasing TopNodeAllocFactor=0.110287  new value=0.143373
Allocated 23.1105 MByte for top-level domain structure
use of 59.4902 MB of temporary storage for domain decomposition... (presently allocated=2025.04 MB)
Before=296625
Increasing TopNodeAllocFactor=0.143373  new value=0.186385
Allocated 29.9382 MByte for top-level domain structure
use of 69.9944 MB of temporary storage for domain decomposition... (presently allocated=2042.37 MB)
Before=296625
After=505409
NTopleaves= 442233  NTopnodes=505409 (space for 596613)
gravity work-load balance=1.02235   memory-balance=1.02235   SPH work-load balance=1.02742
iter=0 exchange of 0575280927 particles (ret=0)
domain decomposition done. (took 24.2989 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 4.17499 MByte in top-level domain structure

Allocated 487.272 MByte for BH-tree, and 1.68699 Mbyte for top-leaves.  (presently allocted 2456.81 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 predicted entropy from the internal energies read in 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 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 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 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 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 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 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 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 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...
Ngb-Tree contruction finished 
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 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 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 predicted entropy from the internal energies read in the file...
Computing the weighted densities to get 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 weighted densities to get the temperatures...
Computing the predicted entropy from the internal energies read in 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 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 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 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 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 weighted densities to get 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 2749.73 Mbyte (on task=119), Smallest = 2714.87 Mbyte, Average = 2734.07 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 119 2964 0  Sendcount_matrix      1.9775       3.8876  allocate_memory()/allocate.c/41
 119 2965 0     ProcessedFlag      3.0527       6.9403  allocate_memory()/allocate.c/52
 119 2966 0  NextActiveParticle     12.2107      19.1511  allocate_memory()/allocate.c/55
 119 2967 0     NextInTimeBin     12.2107      31.3618  allocate_memory()/allocate.c/58
 119 2968 0     PrevInTimeBin     12.2107      43.5725  allocate_memory()/allocate.c/61
 119 2969 0                 P    976.8591    1020.4317  allocate_memory()/allocate.c/67
 119 2970 0              SphP    746.3927    1766.8244  allocate_memory()/allocate.c/85
 119 2971 0              MetP    156.6617    1923.4861  allocate_memory()/allocate.c/105
 119 2972 0               BHP     18.9558    1942.4419  allocate_memory()/allocate.c/126
 119 2973 0   DomainStartList      0.1758    1942.6177  domain_allocate()/domain.c/562
 119 2974 0     DomainEndList      0.1758    1942.7935  domain_allocate()/domain.c/565
 119 2975 0          TopNodes     25.0638    1967.8573  domain_allocate()/domain.c/570
 119 2976 0   DomainNodeIndex      1.6870    1969.5443  force_treeallocate()/forcetree.c/4800
 119 2977 0        Nodes_base    251.4120    2220.9563  force_treeallocate()/forcetree.c/4803
 119 2978 0     Extnodes_base    209.5100    2430.4664  force_treeallocate()/forcetree.c/4811
 119 2979 0          Nextnode     14.1387    2444.6051  force_treeallocate()/forcetree.c/4820
 119 2980 0            Father     12.2107    2456.8158  force_treeallocate()/forcetree.c/4827
 119 2981 0           Ngblist      2.9951    2459.8109  density()/density.c/690
 119 2982 0              Left      5.9902    2465.8011  density()/density.c/692
 119 2983 0             Right      5.9902    2471.7913  density()/density.c/693
 119 2984 0    DataIndexTable      7.0175    2478.8089  density()/density.c/738
 119 2985 0      DataNodeList     18.7134    2497.5223  density()/density.c/740
 119 2986 0       DensDataGet     69.1144    2566.6367  density()/density.c/893
 119 2987 0    DensDataResult     91.1053    2657.7421  density()/density.c/931
 119 2988 0       DensDataOut     91.9839    2749.7260  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0003484956 particles.
ngb iteration 2: need to repeat for 0000001311 particles.
ngb iteration 3: need to repeat for 0000000375 particles.
ngb iteration 4: need to repeat for 0000000354 particles.
ngb iteration 5: need to repeat for 0000000165 particles.
ngb iteration 6: need to repeat for 0000000100 particles.
ngb iteration 7: need to repeat for 0000000047 particles.
ngb iteration 8: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.609.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.737.hdf5

Begin to compute FoF group catalogues...  (presently allocated=2456.81 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1942.44 MB)
Allocated 29.9382 MByte for top-level domain structure
use of 69.9944 MB of temporary storage for domain decomposition... (presently allocated=2042.37 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.186385  new value=0.2423
Allocated 38.8142 MByte for top-level domain structure
use of 83.6497 MB of temporary storage for domain decomposition... (presently allocated=2064.9 MB)
Before=490201
After=542721
NTopleaves= 474881  NTopnodes=542721 (space for 775596)
gravity work-load balance=1.02208   memory-balance=1.02207   SPH work-load balance=1.02126
iter=0 exchange of 0575408247 particles (ret=0)
domain decomposition done. (took 12.0909 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.6602 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=1969.71 MB)
Tree construction.

Start linking particles (presently allocated=2502.21 MB)
links on local processor done (took 1.4565 sec).
Marked=0048152973 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=2600.05 MB) 
have done 0001244948 cross links (processed 0048152973, took 1.39382 sec)
have done 0000463169 cross links (processed 0028364919, took 0.77224 sec)
have done 0000288374 cross links (processed 0021426228, took 0.677649 sec)
have done 0000164234 cross links (processed 0011925102, took 0.606643 sec)
have done 0000091818 cross links (processed 0006589595, took 0.507028 sec)
have done 0000053929 cross links (processed 0003526551, took 0.353117 sec)
have done 0000030920 cross links (processed 0001783635, took 0.350628 sec)
have done 0000017118 cross links (processed 0001255225, took 0.259934 sec)
have done 0000010530 cross links (processed 0000892399, took 0.315217 sec)
have done 0000006782 cross links (processed 0000398158, took 0.225522 sec)
have done 0000003237 cross links (processed 0000087461, took 0.050797 sec)
have done 0000001109 cross links (processed 0000017887, took 0.0340481 sec)
have done 0000000388 cross links (processed 0000005402, took 0.033757 sec)
have done 0000000125 cross links (processed 0000001484, took 0.0328059 sec)
have done 0000000050 cross links (processed 0000000506, took 0.032634 sec)
have done 0000000011 cross links (processed 0000000228, took 0.0326772 sec)
have done 0000000006 cross links (processed 0000000060, took 0.0326581 sec)
have done 0000000001 cross links (processed 0000000017, took 0.032567 sec)
have done 0000000001 cross links (processed 0000000010, took 0.0323529 sec)
have done 0000000000 cross links (processed 0000000004, took 0.0325031 sec)
Local groups found.

group finding took = 7.3581 sec
Start finding nearest dm-particle (presently allocated=2502.21 MB)
still finding nearest... (presently allocated=2589.39 MB)
fof-nearest iteration 1: need to repeat for 265853530 particles.
still finding nearest... (presently allocated=2590.05 MB)
fof-nearest iteration 2: need to repeat for 242519694 particles.
still finding nearest... (presently allocated=2591.06 MB)
fof-nearest iteration 3: need to repeat for 220386963 particles.
still finding nearest... (presently allocated=2592.67 MB)
fof-nearest iteration 4: need to repeat for 192835421 particles.
still finding nearest... (presently allocated=2595.14 MB)
fof-nearest iteration 5: need to repeat for 141107459 particles.
still finding nearest... (presently allocated=2597.89 MB)
fof-nearest iteration 6: need to repeat for 67467256 particles.
still finding nearest... (presently allocated=2597.74 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 4.21999 sec
compiling local group data and catalogue took = 0.621361 sec

Total number of groups with at least 32 particles: 211633
Largest group has 5716786 particles.
Total number of particles in groups: 0132520622

group properties are now allocated.. (presently allocated=2019.43 MB)
computation of group properties took = 0.0543199 sec
start global sorting of group catalogues number 7
LargestGroup = 2671.377967; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0445061 sec
Group catalogues globally sorted. took = 1.28789 sec
starting saving of group catalogue number 7
data//groups_007_z001p716
Group catalogues number 7 saved. took = 3.12972 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (279518098).
tree build for species 0 took 0.587484 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0221356183 particles. (took 6.52491 sec)
ngb iteration 2: need to repeat for 0192916199 particles. (took 4.39297 sec)
ngb iteration 3: need to repeat for 0178716099 particles. (took 3.72628 sec)
ngb iteration 4: need to repeat for 0166503717 particles. (took 3.4458 sec)
ngb iteration 5: need to repeat for 0150264751 particles. (took 3.29797 sec)
ngb iteration 6: need to repeat for 0125528604 particles. (took 3.06003 sec)
ngb iteration 7: need to repeat for 0093823027 particles. (took 2.70975 sec)
ngb iteration 8: need to repeat for 0062706299 particles. (took 2.19252 sec)
ngb iteration 9: need to repeat for 0038333177 particles. (took 1.50385 sec)
ngb iteration 10: need to repeat for 0022030401 particles. (took 0.908454 sec)
ngb iteration 11: need to repeat for 0012197797 particles. (took 0.536402 sec)
ngb iteration 12: need to repeat for 0006623299 particles. (took 0.335581 sec)
ngb iteration 13: need to repeat for 0003570371 particles. (took 0.222347 sec)
ngb iteration 14: need to repeat for 0001807277 particles. (took 0.16114 sec)
ngb iteration 15: need to repeat for 0000714432 particles. (took 0.122573 sec)
ngb iteration 16: need to repeat for 0000298516 particles. (took 0.089788 sec)
ngb iteration 17: need to repeat for 0000153595 particles. (took 0.0699151 sec)
ngb iteration 18: need to repeat for 0000092646 particles. (took 0.0578279 sec)
ngb iteration 19: need to repeat for 0000060371 particles. (took 0.0516431 sec)
ngb iteration 20: need to repeat for 0000040289 particles. (took 0.0498581 sec)
ngb iteration 21: need to repeat for 0000026966 particles. (took 0.0499289 sec)
ngb iteration 22: need to repeat for 0000017877 particles. (took 0.0482142 sec)
ngb iteration 23: need to repeat for 0000011289 particles. (took 0.0476081 sec)
ngb iteration 24: need to repeat for 0000006809 particles. (took 0.0473659 sec)
ngb iteration 25: need to repeat for 0000003972 particles. (took 0.0471442 sec)
ngb iteration 26: need to repeat for 0000002187 particles. (took 0.0472109 sec)
ngb iteration 27: need to repeat for 0000001159 particles. (took 0.0477211 sec)
ngb iteration 28: need to repeat for 0000000590 particles. (took 0.04844 sec)
ngb iteration 29: need to repeat for 0000000288 particles. (took 0.0471051 sec)
ngb iteration 30: need to repeat for 0000000127 particles. (took 0.0471339 sec)
ngb iteration 31: need to repeat for 0000000049 particles. (took 0.047174 sec)
ngb iteration 32: need to repeat for 0000000017 particles. (took 0.047158 sec)
ngb iteration 33: need to repeat for 0000000008 particles. (took 0.047462 sec)
ngb iteration 34: need to repeat for 0000000002 particles. (took 0.0471001 sec)
ngb iteration 35: need to repeat for 0000000002 particles. (took 0.0471489 sec)
ngb iteration 36: need to repeat for 0000000002 particles. (took 0.0470109 sec)
final operations ... 
density and smoothing length for species 0 took 34.455 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.599959 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0217795324 particles. (took 8.99225 sec)
ngb iteration 2: need to repeat for 0186287710 particles. (took 5.03537 sec)
ngb iteration 3: need to repeat for 0168619851 particles. (took 4.03634 sec)
ngb iteration 4: need to repeat for 0155523755 particles. (took 3.54092 sec)
ngb iteration 5: need to repeat for 0140487797 particles. (took 3.2227 sec)
ngb iteration 6: need to repeat for 0119302152 particles. (took 2.96791 sec)
ngb iteration 7: need to repeat for 0092504746 particles. (took 2.61134 sec)
ngb iteration 8: need to repeat for 0065275114 particles. (took 2.10555 sec)
ngb iteration 9: need to repeat for 0042557751 particles. (took 1.51275 sec)
ngb iteration 10: need to repeat for 0026175144 particles. (took 0.983214 sec)
ngb iteration 11: need to repeat for 0015475310 particles. (took 0.609649 sec)
ngb iteration 12: need to repeat for 0008917642 particles. (took 0.388797 sec)
ngb iteration 13: need to repeat for 0005051657 particles. (took 0.275177 sec)
ngb iteration 14: need to repeat for 0002726811 particles. (took 0.196845 sec)
ngb iteration 15: need to repeat for 0001288723 particles. (took 0.138585 sec)
ngb iteration 16: need to repeat for 0000596638 particles. (took 0.103565 sec)
ngb iteration 17: need to repeat for 0000280669 particles. (took 0.0815949 sec)
ngb iteration 18: need to repeat for 0000133558 particles. (took 0.0673559 sec)
ngb iteration 19: need to repeat for 0000063590 particles. (took 0.058095 sec)
ngb iteration 20: need to repeat for 0000029583 particles. (took 0.0524881 sec)
ngb iteration 21: need to repeat for 0000013394 particles. (took 0.0494859 sec)
ngb iteration 22: need to repeat for 0000005706 particles. (took 0.047786 sec)
ngb iteration 23: need to repeat for 0000002291 particles. (took 0.0471191 sec)
ngb iteration 24: need to repeat for 0000000852 particles. (took 0.047133 sec)
ngb iteration 25: need to repeat for 0000000304 particles. (took 0.049315 sec)
ngb iteration 26: need to repeat for 0000000081 particles. (took 0.048384 sec)
ngb iteration 27: need to repeat for 0000000027 particles. (took 0.0464139 sec)
ngb iteration 28: need to repeat for 0000000007 particles. (took 0.046356 sec)
ngb iteration 29: need to repeat for 0000000001 particles. (took 0.046428 sec)
final operations ... 
density and smoothing length for species 1 took 37.648 sec
Tree construction for species 4 (7123095).
tree build for species 4 took 0.377372 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0005557716 particles. (took 1.79067 sec)
ngb iteration 2: need to repeat for 0004969770 particles. (took 1.06028 sec)
ngb iteration 3: need to repeat for 0004571504 particles. (took 0.880468 sec)
ngb iteration 4: need to repeat for 0004266159 particles. (took 0.76735 sec)
ngb iteration 5: need to repeat for 0003966187 particles. (took 0.719302 sec)
ngb iteration 6: need to repeat for 0003602180 particles. (took 0.626511 sec)
ngb iteration 7: need to repeat for 0003154099 particles. (took 0.57767 sec)
ngb iteration 8: need to repeat for 0002654780 particles. (took 0.530176 sec)
ngb iteration 9: need to repeat for 0002163014 particles. (took 0.475235 sec)
ngb iteration 10: need to repeat for 0001717834 particles. (took 0.419933 sec)
ngb iteration 11: need to repeat for 0001339373 particles. (took 0.357637 sec)
ngb iteration 12: need to repeat for 0001035801 particles. (took 0.287799 sec)
ngb iteration 13: need to repeat for 0000794663 particles. (took 0.2285 sec)
ngb iteration 14: need to repeat for 0000605058 particles. (took 0.183462 sec)
ngb iteration 15: need to repeat for 0000460755 particles. (took 0.138134 sec)
ngb iteration 16: need to repeat for 0000352901 particles. (took 0.113071 sec)
ngb iteration 17: need to repeat for 0000271654 particles. (took 0.100343 sec)
ngb iteration 18: need to repeat for 0000210560 particles. (took 0.0919039 sec)
ngb iteration 19: need to repeat for 0000164055 particles. (took 0.0837488 sec)
ngb iteration 20: need to repeat for 0000128329 particles. (took 0.0772212 sec)
ngb iteration 21: need to repeat for 0000100200 particles. (took 0.0726299 sec)
ngb iteration 22: need to repeat for 0000077859 particles. (took 0.067698 sec)
ngb iteration 23: need to repeat for 0000059735 particles. (took 0.0650349 sec)
ngb iteration 24: need to repeat for 0000045119 particles. (took 0.0642672 sec)
ngb iteration 25: need to repeat for 0000033249 particles. (took 0.063205 sec)
ngb iteration 26: need to repeat for 0000023659 particles. (took 0.0628648 sec)
ngb iteration 27: need to repeat for 0000016209 particles. (took 0.0627899 sec)
ngb iteration 28: need to repeat for 0000010597 particles. (took 0.0624378 sec)
ngb iteration 29: need to repeat for 0000006634 particles. (took 0.062088 sec)
ngb iteration 30: need to repeat for 0000003894 particles. (took 0.0621731 sec)
ngb iteration 31: need to repeat for 0000002225 particles. (took 0.0620759 sec)
ngb iteration 32: need to repeat for 0000001240 particles. (took 0.0620239 sec)
ngb iteration 33: need to repeat for 0000000637 particles. (took 0.062057 sec)
ngb iteration 34: need to repeat for 0000000322 particles. (took 0.0620909 sec)
ngb iteration 35: need to repeat for 0000000145 particles. (took 0.0616679 sec)
ngb iteration 36: need to repeat for 0000000052 particles. (took 0.0620608 sec)
ngb iteration 37: need to repeat for 0000000018 particles. (took 0.061919 sec)
ngb iteration 38: need to repeat for 0000000007 particles. (took 0.0619068 sec)
ngb iteration 39: need to repeat for 0000000003 particles. (took 0.062243 sec)
final operations ... 
density and smoothing length for species 4 took 10.917 sec
Tree construction.
tree build took 0.885317 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000009998 particles. (took 0.0573161 sec)
ngb iteration 2: need to repeat for 0000008037 particles. (took 0.0660388 sec)
ngb iteration 3: need to repeat for 0000006203 particles. (took 0.0658879 sec)
ngb iteration 4: need to repeat for 0000004824 particles. (took 0.0660119 sec)
ngb iteration 5: need to repeat for 0000004133 particles. (took 0.066123 sec)
ngb iteration 6: need to repeat for 0000003559 particles. (took 0.0655069 sec)
ngb iteration 7: need to repeat for 0000002886 particles. (took 0.0656559 sec)
ngb iteration 8: need to repeat for 0000002175 particles. (took 0.0652189 sec)
ngb iteration 9: need to repeat for 0000001515 particles. (took 0.065167 sec)
ngb iteration 10: need to repeat for 0000000996 particles. (took 0.064841 sec)
ngb iteration 11: need to repeat for 0000000626 particles. (took 0.0648701 sec)
ngb iteration 12: need to repeat for 0000000368 particles. (took 0.0646911 sec)
ngb iteration 13: need to repeat for 0000000233 particles. (took 0.0657279 sec)
ngb iteration 14: need to repeat for 0000000146 particles. (took 0.0649579 sec)
ngb iteration 15: need to repeat for 0000000092 particles. (took 0.0656319 sec)
ngb iteration 16: need to repeat for 0000000065 particles. (took 0.0644071 sec)
ngb iteration 17: need to repeat for 0000000044 particles. (took 0.0645499 sec)
ngb iteration 18: need to repeat for 0000000027 particles. (took 0.0635221 sec)
ngb iteration 19: need to repeat for 0000000019 particles. (took 0.0628159 sec)
ngb iteration 20: need to repeat for 0000000014 particles. (took 0.062866 sec)
ngb iteration 21: need to repeat for 0000000014 particles. (took 0.062675 sec)
ngb iteration 22: need to repeat for 0000000012 particles. (took 0.062664 sec)
ngb iteration 23: need to repeat for 0000000010 particles. (took 0.0624399 sec)
ngb iteration 24: need to repeat for 0000000008 particles. (took 0.0624881 sec)
ngb iteration 25: need to repeat for 0000000005 particles. (took 0.0625539 sec)
ngb iteration 26: need to repeat for 0000000004 particles. (took 0.0628719 sec)
final operations ... 
density and smoothing length for species 5 took 1.87143 sec
Tree construction for species 0 (279518098).
tree build for species 0 took 0.580493 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 11.7586 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.587425 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 6.42191 sec
Tree construction for species 4 (7123095).
tree build for species 4 took 0.430051 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 4.36547 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.409273 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.19848 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.859502 sec
saving densities took 2.61107 sec

Number of FOF halos treated with collective SubFind code = 2
(the adopted size-limit for the collective algorithm was 2240680 particles.)
the other 211631 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 8995 - 46588889 

subfind_exchange()() took 2.18286 sec

collectively doing halo 1, num=7
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2651.56 MB)
Allocated 38.8142 MByte for top-level domain structure
use of 83.6497 MB of temporary storage for domain decomposition... (presently allocated=2774.02 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2774.03 Mbyte (on task=0), Smallest = 2151.6 Mbyte, Average = 2161.47 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5715  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8591    1020.4306  allocate_memory()/allocate.c/67
   0 2970 0              SphP    746.3927    1766.8233  allocate_memory()/allocate.c/85
   0 2971 0              MetP    156.6617    1923.4851  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.9558    1942.4409  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1942.6167  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1942.7925  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.9141    1969.7066  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.5078    1988.2144  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.8463    2019.0607  fof_fof()/fof.c/337
   0 2978 0             Group      0.3673    2019.4280  fof_fof()/fof.c/380
   0 2979 0          SubGroup    632.1285    2651.5565  subfind()/subfind.c/376
   0 2980 0   DomainStartList      0.1758    2651.7323  domain_allocate()/domain.c/562
   0 2981 0     DomainEndList      0.1758    2651.9081  domain_allocate()/domain.c/565
   0 2982 0          TopNodes     38.4626    2690.3707  domain_allocate()/domain.c/570
   0 2983 0        domain_key     24.4215    2714.7922  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      2.9587    2717.7838  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      2.9587    2720.7425  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      2.9587    2723.7011  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      2.9587    2726.6598  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      2.9587    2729.6294  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      2.9587    2732.5991  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     41.4213    2774.0204  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=416009
After=480561
NTopleaves= 420491  NTopnodes=480561 (space for 775596)
gravity work-load balance=1.02469   memory-balance=1.02469   SPH work-load balance=1.02518
iter=0 exchange of 0005707580 particles (ret=0)
domain decomposition done. (took 3.0864 sec)
Freed 13.5056 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3160.36 Mbyte (on task=0), Smallest = 2537.93 Mbyte, Average = 2547.8 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5715  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8591    1020.4306  allocate_memory()/allocate.c/67
   0 2970 0              SphP    746.3927    1766.8233  allocate_memory()/allocate.c/85
   0 2971 0              MetP    156.6617    1923.4851  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.9558    1942.4409  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1942.6167  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1942.7925  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.9141    1969.7066  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.5078    1988.2144  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.8463    2019.0607  fof_fof()/fof.c/337
   0 2978 0             Group      0.3673    2019.4280  fof_fof()/fof.c/380
   0 2979 0          SubGroup    632.1285    2651.5565  subfind()/subfind.c/376
   0 2980 0   DomainStartList      0.1758    2651.7323  domain_allocate()/domain.c/562
   0 2981 0     DomainEndList      0.1758    2651.9081  domain_allocate()/domain.c/565
   0 2982 0          TopNodes     23.8315    2675.7396  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      1.6040    2677.3437  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    249.1371    2926.4808  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    207.6143    3134.0951  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     14.0439    3148.1390  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     12.2107    3160.3498  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 3.44787 sec  (presently allocated=3160.35 MB)
force_treebuild() took 1.48713 sec (presently allocated=3160.35 MB)
Start find_linkngb (7980 particles on task=0)
find linkngb iteration 1: need to repeat for 0005715235 particles. (took 0.299887 sec)
find linkngb iteration 2: need to repeat for 0005704048 particles. (took 0.185652 sec)
find linkngb iteration 3: need to repeat for 0005367410 particles. (took 0.138332 sec)
find linkngb iteration 4: need to repeat for 0005182688 particles. (took 0.115272 sec)
find linkngb iteration 5: need to repeat for 0004686605 particles. (took 0.108016 sec)
find linkngb iteration 6: need to repeat for 0003847693 particles. (took 0.100728 sec)
find linkngb iteration 7: need to repeat for 0002805182 particles. (took 0.087642 sec)
find linkngb iteration 8: need to repeat for 0001841287 particles. (took 0.0729721 sec)
find linkngb iteration 9: need to repeat for 0001117747 particles. (took 0.0592351 sec)
find linkngb iteration 10: need to repeat for 0000644034 particles. (took 0.048223 sec)
find linkngb iteration 11: need to repeat for 0000358179 particles. (took 0.041352 sec)
find linkngb iteration 12: need to repeat for 0000186241 particles. (took 0.035454 sec)
find linkngb iteration 13: need to repeat for 0000067747 particles. (took 0.0312591 sec)
find linkngb iteration 14: need to repeat for 0000027256 particles. (took 0.0220749 sec)
find linkngb iteration 15: need to repeat for 0000012438 particles. (took 0.0125558 sec)
find linkngb iteration 16: need to repeat for 0000006337 particles. (took 0.00668383 sec)
find linkngb iteration 17: need to repeat for 0000003532 particles. (took 0.00328708 sec)
find linkngb iteration 18: need to repeat for 0000002172 particles. (took 0.00173306 sec)
find linkngb iteration 19: need to repeat for 0000001370 particles. (took 0.00121784 sec)
find linkngb iteration 20: need to repeat for 0000000896 particles. (took 0.000869989 sec)
find linkngb iteration 21: need to repeat for 0000000569 particles. (took 0.000797033 sec)
find linkngb iteration 22: need to repeat for 0000000352 particles. (took 0.000739098 sec)
find linkngb iteration 23: need to repeat for 0000000216 particles. (took 0.00067091 sec)
find linkngb iteration 24: need to repeat for 0000000115 particles. (took 0.000681877 sec)
find linkngb iteration 25: need to repeat for 0000000067 particles. (took 0.000655174 sec)
find linkngb iteration 26: need to repeat for 0000000031 particles. (took 0.000647068 sec)
find linkngb iteration 27: need to repeat for 0000000014 particles. (took 0.000596046 sec)
find linkngb iteration 28: need to repeat for 0000000007 particles. (took 0.00070715 sec)
find linkngb iteration 29: need to repeat for 0000000003 particles. (took 0.000618935 sec)
find linkngb iteration 30: need to repeat for 0000000002 particles. (took 0.000584841 sec)
find linkngb iteration 31: need to repeat for 0000000001 particles. (took 0.000636816 sec)
find_linkngb() took 1.38134 sec
Start finding nearest two (7980 particles on task=0)
find_nearesttwo() took 0.143023 sec (presently allocated=3160.96 MB)
parallel sort of densities done. took 0.114172 sec
building distributed linked list. (presently allocated 3160.88 MB)
identification of primary candidates took 315.403 sec
adding background as candidate took 1.46523 sec
establishing of rank order took 106.564 sec  (p=5716786, grouplen=5716786) presently allocated 3160.88 MB

total number of subhalo candidates=20807

number of subhalo candidates that can be done independently=18307.
(Largest size is 1549, finding them took 0.00781703 sec)
particles are marked (took 73.8659)
independent subhalos are assembled on individual CPUs for unbinding (0.134377 sec, (presently allocated=3160.88 MB)
unbinding of independent ones took 0.023236 sec
particles have returned to their original processor (0.179965 sec, presently allocated 3160.88 MB)

number of subhalo candidates that can be done independently=2238.
(Largest size is 7460, finding them took 0.688562 sec)
particles are marked (took 47.7142)
independent subhalos are assembled on individual CPUs for unbinding (0.139696 sec, (presently allocated=3160.88 MB)
unbinding of independent ones took 0.219615 sec
particles have returned to their original processor (0.185099 sec, presently allocated 3160.88 MB)

number of subhalo candidates that can be done independently=240.
(Largest size is 20756, finding them took 0.58929 sec)
particles are marked (took 40.5828)
independent subhalos are assembled on individual CPUs for unbinding (0.140524 sec, (presently allocated=3160.88 MB)
unbinding of independent ones took 0.607831 sec
particles have returned to their original processor (0.190404 sec, presently allocated 3160.88 MB)

number of subhalo candidates that can be done independently=19.
(Largest size is 164650, finding them took 0.405015 sec)
particles are marked (took 38.0783)
independent subhalos are assembled on individual CPUs for unbinding (0.167221 sec, (presently allocated=3160.88 MB)
unbinding of independent ones took 3.47123 sec
particles have returned to their original processor (0.238806 sec, presently allocated 3160.88 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 164650, finding them took 0.398636 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=164650 ... maximum alloacted 3160.91 MB
took 10.6367 sec
collective unbinding of nr=1 (3) of length=135784 ... maximum alloacted 3160.91 MB
took 8.13109 sec
collective unbinding of nr=2 (3) of length=5716786 ... maximum alloacted 3160.91 MB
took 301.262 sec

the collective unbinding of remaining halos took 348.995 sec

found 1512 bound substructures in FoF group of length 5716786
determination of parent subhalo took 0.102143 sec (presently allocated 3160.91 MB)
determining substructure properties took 241.703 sec (presently allocated 3160.91 MB)

collectively doing halo 2, num=7
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2651.56 MB)
Allocated 38.8142 MByte for top-level domain structure
use of 83.6497 MB of temporary storage for domain decomposition... (presently allocated=2774.02 MB)
Before=426865
After=470633
NTopleaves= 411804  NTopnodes=470633 (space for 775596)
gravity work-load balance=1.02018   memory-balance=1.02018   SPH work-load balance=1.02061
iter=0 exchange of 0002545689 particles (ret=0)
domain decomposition done. (took 3.04984 sec)
Freed 13.9601 MByte in top-level domain structure
coldomain_Decomposition() took 3.40284 sec  (presently allocated=3158.12 MB)
force_treebuild() took 1.44963 sec (presently allocated=3158.12 MB)
Start find_linkngb (3559 particles on task=0)
find linkngb iteration 1: need to repeat for 0002548995 particles. (took 0.16683 sec)
find linkngb iteration 2: need to repeat for 0002545067 particles. (took 0.105194 sec)
find linkngb iteration 3: need to repeat for 0002403472 particles. (took 0.0817881 sec)
find linkngb iteration 4: need to repeat for 0002315231 particles. (took 0.0718572 sec)
find linkngb iteration 5: need to repeat for 0002090722 particles. (took 0.0682759 sec)
find linkngb iteration 6: need to repeat for 0001711398 particles. (took 0.0636041 sec)
find linkngb iteration 7: need to repeat for 0001242719 particles. (took 0.0578299 sec)
find linkngb iteration 8: need to repeat for 0000811843 particles. (took 0.0505791 sec)
find linkngb iteration 9: need to repeat for 0000490896 particles. (took 0.043798 sec)
find linkngb iteration 10: need to repeat for 0000282525 particles. (took 0.0384979 sec)
find linkngb iteration 11: need to repeat for 0000157195 particles. (took 0.0347872 sec)
find linkngb iteration 12: need to repeat for 0000081147 particles. (took 0.0313649 sec)
find linkngb iteration 13: need to repeat for 0000030129 particles. (took 0.0267711 sec)
find linkngb iteration 14: need to repeat for 0000012410 particles. (took 0.0173349 sec)
find linkngb iteration 15: need to repeat for 0000005985 particles. (took 0.00908804 sec)
find linkngb iteration 16: need to repeat for 0000003223 particles. (took 0.00441098 sec)
find linkngb iteration 17: need to repeat for 0000001881 particles. (took 0.00233698 sec)
find linkngb iteration 18: need to repeat for 0000001162 particles. (took 0.00144005 sec)
find linkngb iteration 19: need to repeat for 0000000759 particles. (took 0.00103498 sec)
find linkngb iteration 20: need to repeat for 0000000498 particles. (took 0.00079298 sec)
find linkngb iteration 21: need to repeat for 0000000331 particles. (took 0.000729084 sec)
find linkngb iteration 22: need to repeat for 0000000198 particles. (took 0.000662088 sec)
find linkngb iteration 23: need to repeat for 0000000117 particles. (took 0.000679016 sec)
find linkngb iteration 24: need to repeat for 0000000064 particles. (took 0.000603199 sec)
find linkngb iteration 25: need to repeat for 0000000034 particles. (took 0.000617981 sec)
find linkngb iteration 26: need to repeat for 0000000020 particles. (took 0.000594854 sec)
find linkngb iteration 27: need to repeat for 0000000009 particles. (took 0.000591993 sec)
find linkngb iteration 28: need to repeat for 0000000004 particles. (took 0.000598907 sec)
find linkngb iteration 29: need to repeat for 0000000002 particles. (took 0.000645876 sec)
find_linkngb() took 0.884389 sec
Start finding nearest two (3559 particles on task=0)
find_nearesttwo() took 0.0790069 sec (presently allocated=3158.39 MB)
parallel sort of densities done. took 0.0983551 sec
building distributed linked list. (presently allocated 3158.36 MB)
identification of primary candidates took 155.858 sec
adding background as candidate took 1.46342 sec
establishing of rank order took 49.0805 sec  (p=2549204, grouplen=2549204) presently allocated 3158.36 MB

total number of subhalo candidates=8913

number of subhalo candidates that can be done independently=7893.
(Largest size is 4078, finding them took 0.00506806 sec)
particles are marked (took 32.9886)
independent subhalos are assembled on individual CPUs for unbinding (0.130561 sec, (presently allocated=3158.36 MB)
unbinding of independent ones took 0.063431 sec
particles have returned to their original processor (0.176911 sec, presently allocated 3158.36 MB)

number of subhalo candidates that can be done independently=922.
(Largest size is 6175, finding them took 0.673924 sec)
particles are marked (took 21.0511)
independent subhalos are assembled on individual CPUs for unbinding (0.131695 sec, (presently allocated=3158.36 MB)
unbinding of independent ones took 0.139682 sec
particles have returned to their original processor (0.181625 sec, presently allocated 3158.36 MB)

number of subhalo candidates that can be done independently=88.
(Largest size is 32784, finding them took 0.827505 sec)
particles are marked (took 20.7078)
independent subhalos are assembled on individual CPUs for unbinding (0.168134 sec, (presently allocated=3158.36 MB)
unbinding of independent ones took 1.00718 sec
particles have returned to their original processor (0.231306 sec, presently allocated 3158.36 MB)

number of subhalo candidates that can be done independently=8.
(Largest size is 61284, finding them took 0.442075 sec)
particles are marked (took 17.4045)
independent subhalos are assembled on individual CPUs for unbinding (0.172695 sec, (presently allocated=3158.36 MB)
unbinding of independent ones took 1.93039 sec
particles have returned to their original processor (0.262096 sec, presently allocated 3158.36 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 390360, finding them took 0.380359 sec)
too few, I do the rest of 2 collectively

collective unbinding of nr=0 (2) of length=390360 ... maximum alloacted 3158.37 MB
took 16.5997 sec
collective unbinding of nr=1 (2) of length=2549204 ... maximum alloacted 3158.37 MB
took 149.27 sec

the collective unbinding of remaining halos took 178.319 sec

found 759 bound substructures in FoF group of length 2549204
determination of parent subhalo took 0.0849562 sec (presently allocated 3158.37 MB)
determining substructure properties took 122.914 sec (presently allocated 3158.37 MB)
processing of collective halos took 1854.97 sec
sort of local particles()() took 0.517789 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 477.356 sec

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subfind_exchange() (for return to original CPU)  took 3.39546 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2651.56 MB)
Allocated 38.8142 MByte for top-level domain structure
use of 83.6497 MB of temporary storage for domain decomposition... (presently allocated=2774.02 MB)
Before=490177
After=545025
NTopleaves= 476897  NTopnodes=545025 (space for 775596)
gravity work-load balance=1.02019   memory-balance=1.02019   SPH work-load balance=1.02011
iter=0 exchange of 0575137836 particles (ret=0)
domain decomposition done. (took 8.82244 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.5547 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000181769 particles. (took 0.051826 sec)
SO iteration 2: need to repeat for 0000181769 particles. (took 0.0338171 sec)
SO iteration 3: need to repeat for 0000181769 particles. (took 0.0353289 sec)
SO iteration 4: need to repeat for 0000181769 particles. (took 0.035718 sec)
SO iteration 5: need to repeat for 0000181769 particles. (took 0.0359211 sec)
SO iteration 6: need to repeat for 0000181769 particles. (took 0.0359681 sec)
SO iteration 7: need to repeat for 0000181769 particles. (took 0.0358918 sec)
SO iteration 8: need to repeat for 0000181769 particles. (took 0.035697 sec)
SO iteration 9: need to repeat for 0000181769 particles. (took 0.0358238 sec)
SO iteration 10: need to repeat for 0000181769 particles. (took 0.0359459 sec)
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SO iteration 12: need to repeat for 0000181769 particles. (took 0.03578 sec)
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SO iteration 15: need to repeat for 0000179741 particles. (took 0.03579 sec)
SO iteration 16: need to repeat for 0000002057 particles. (took 0.035105 sec)
SO iteration 17: need to repeat for 0000000055 particles. (took 0.00284982 sec)
SO iteration 1: need to repeat for 0000181769 particles. (took 0.0361738 sec)
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SO iteration 9: need to repeat for 0000181769 particles. (took 0.032737 sec)
SO iteration 10: need to repeat for 0000181769 particles. (took 0.033072 sec)
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SO iteration 13: need to repeat for 0000181769 particles. (took 0.03285 sec)
SO iteration 14: need to repeat for 0000181769 particles. (took 0.032527 sec)
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SO iteration 18: need to repeat for 0000000031 particles. (took 0.00258088 sec)
SO iteration 1: need to repeat for 0000181769 particles. (took 0.0360291 sec)
SO iteration 2: need to repeat for 0000181769 particles. (took 0.0319531 sec)
SO iteration 3: need to repeat for 0000181769 particles. (took 0.0297842 sec)
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SO iteration 6: need to repeat for 0000181769 particles. (took 0.0298409 sec)
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SO iteration 12: need to repeat for 0000181769 particles. (took 0.0295451 sec)
SO iteration 13: need to repeat for 0000181769 particles. (took 0.029531 sec)
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SO iteration 15: need to repeat for 0000181760 particles. (took 0.0296361 sec)
SO iteration 16: need to repeat for 0000180538 particles. (took 0.0296459 sec)
SO iteration 17: need to repeat for 0000129048 particles. (took 0.0294251 sec)
SO iteration 18: need to repeat for 0000004999 particles. (took 0.0248861 sec)
SO iteration 19: need to repeat for 0000000149 particles. (took 0.00331998 sec)
SO iteration 20: need to repeat for 0000000002 particles. (took 0.00226188 sec)
SO iteration 1: need to repeat for 0000181769 particles. (took 0.0360692 sec)
SO iteration 2: need to repeat for 0000181769 particles. (took 0.0353541 sec)
SO iteration 3: need to repeat for 0000181769 particles. (took 0.0359509 sec)
SO iteration 4: need to repeat for 0000181769 particles. (took 0.036129 sec)
SO iteration 5: need to repeat for 0000181769 particles. (took 0.036237 sec)
SO iteration 6: need to repeat for 0000181769 particles. (took 0.0360451 sec)
SO iteration 7: need to repeat for 0000181769 particles. (took 0.0361879 sec)
SO iteration 8: need to repeat for 0000181769 particles. (took 0.036217 sec)
SO iteration 9: need to repeat for 0000181769 particles. (took 0.0361919 sec)
SO iteration 10: need to repeat for 0000181769 particles. (took 0.036319 sec)
SO iteration 11: need to repeat for 0000181769 particles. (took 0.0361669 sec)
SO iteration 12: need to repeat for 0000181769 particles. (took 0.035852 sec)
SO iteration 13: need to repeat for 0000181769 particles. (took 0.035974 sec)
SO iteration 14: need to repeat for 0000181769 particles. (took 0.036113 sec)
SO iteration 15: need to repeat for 0000179700 particles. (took 0.0360112 sec)
SO iteration 16: need to repeat for 0000001547 particles. (took 0.0350809 sec)
SO iteration 17: need to repeat for 0000000047 particles. (took 0.00268602 sec)
SO iteration 1: need to repeat for 0000181769 particles. (took 0.036108 sec)
SO iteration 2: need to repeat for 0000181769 particles. (took 0.03211 sec)
SO iteration 3: need to repeat for 0000181769 particles. (took 0.034337 sec)
SO iteration 4: need to repeat for 0000181769 particles. (took 0.0353339 sec)
SO iteration 5: need to repeat for 0000181769 particles. (took 0.0355461 sec)
SO iteration 6: need to repeat for 0000181769 particles. (took 0.0356839 sec)
SO iteration 7: need to repeat for 0000181769 particles. (took 0.0353351 sec)
SO iteration 8: need to repeat for 0000181769 particles. (took 0.0353711 sec)
SO iteration 9: need to repeat for 0000181769 particles. (took 0.0355089 sec)
SO iteration 10: need to repeat for 0000181769 particles. (took 0.035615 sec)
SO iteration 11: need to repeat for 0000181769 particles. (took 0.0354629 sec)
SO iteration 12: need to repeat for 0000181769 particles. (took 0.0353231 sec)
SO iteration 13: need to repeat for 0000181769 particles. (took 0.035548 sec)
SO iteration 14: need to repeat for 0000181769 particles. (took 0.035326 sec)
SO iteration 15: need to repeat for 0000179810 particles. (took 0.0354209 sec)
SO iteration 16: need to repeat for 0000003332 particles. (took 0.0351632 sec)
SO iteration 17: need to repeat for 0000000071 particles. (took 0.0031898 sec)
SO iteration 1: need to repeat for 0000181769 particles. (took 0.0359981 sec)
SO iteration 2: need to repeat for 0000181769 particles. (took 0.0319781 sec)
SO iteration 3: need to repeat for 0000181769 particles. (took 0.0334599 sec)
SO iteration 4: need to repeat for 0000181769 particles. (took 0.0328841 sec)
SO iteration 5: need to repeat for 0000181769 particles. (took 0.032424 sec)
SO iteration 6: need to repeat for 0000181769 particles. (took 0.0324509 sec)
SO iteration 7: need to repeat for 0000181769 particles. (took 0.032552 sec)
SO iteration 8: need to repeat for 0000181769 particles. (took 0.032464 sec)
SO iteration 9: need to repeat for 0000181769 particles. (took 0.0326231 sec)
SO iteration 10: need to repeat for 0000181769 particles. (took 0.0325041 sec)
SO iteration 11: need to repeat for 0000181769 particles. (took 0.032588 sec)
SO iteration 12: need to repeat for 0000181769 particles. (took 0.0325379 sec)
SO iteration 13: need to repeat for 0000181769 particles. (took 0.0325809 sec)
SO iteration 14: need to repeat for 0000181769 particles. (took 0.0325758 sec)
SO iteration 15: need to repeat for 0000181115 particles. (took 0.0324512 sec)
SO iteration 16: need to repeat for 0000115985 particles. (took 0.0323169 sec)
SO iteration 17: need to repeat for 0000001334 particles. (took 0.024884 sec)
SO iteration 18: need to repeat for 0000000037 particles. (took 0.00256801 sec)
SO iteration 1: need to repeat for 0000181769 particles. (took 0.036047 sec)
SO iteration 2: need to repeat for 0000181769 particles. (took 0.0318558 sec)
SO iteration 3: need to repeat for 0000181769 particles. (took 0.029444 sec)
SO iteration 4: need to repeat for 0000181769 particles. (took 0.029752 sec)
SO iteration 5: need to repeat for 0000181769 particles. (took 0.029583 sec)
SO iteration 6: need to repeat for 0000181769 particles. (took 0.029747 sec)
SO iteration 7: need to repeat for 0000181769 particles. (took 0.029562 sec)
SO iteration 8: need to repeat for 0000181769 particles. (took 0.0294449 sec)
SO iteration 9: need to repeat for 0000181769 particles. (took 0.029588 sec)
SO iteration 10: need to repeat for 0000181769 particles. (took 0.0296071 sec)
SO iteration 11: need to repeat for 0000181769 particles. (took 0.0297391 sec)
SO iteration 12: need to repeat for 0000181769 particles. (took 0.0297041 sec)
SO iteration 13: need to repeat for 0000181769 particles. (took 0.0293341 sec)
SO iteration 14: need to repeat for 0000181769 particles. (took 0.0298109 sec)
SO iteration 15: need to repeat for 0000181761 particles. (took 0.0296068 sec)
SO iteration 16: need to repeat for 0000180682 particles. (took 0.0296068 sec)
SO iteration 17: need to repeat for 0000150691 particles. (took 0.0293629 sec)
SO iteration 18: need to repeat for 0000007514 particles. (took 0.027143 sec)
SO iteration 19: need to repeat for 0000000227 particles. (took 0.003824 sec)
SO iteration 20: need to repeat for 0000000005 particles. (took 0.00210714 sec)
determining spherical overdensity masses took 3.94579 sec
finding spherical overdensity particles took 0.619736 sec
determining contamination of halos took 0.43742 sec
Global sort of Groups took 0.514616 sec
Global sort of SubGroups took 0.815735 sec
Global sort of IDs took 0.303568 sec
Writing block 0 (GLEN), n=294, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1176d
Writing block 1 (GOFF), n=294, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1176d
Writing block 2 (MTOT), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 3 (GPOS), n=294, ptype=0, dtype=1, ndim=3, bpb=4 bytes=3528d
Writing block 4 (MMEA), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 5 (RMEA), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 6 (MCRI), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 7 (RCRI), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 8 (MTOP), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 9 (RTOP), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 17 (NCON), n=294, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1176d
Writing block 18 (MCON), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 22 (NSUB), n=294, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1176d
Writing block 23 (FSUB), n=294, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1176d
Writing block 24 (SLEN), n=1809, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7236d
Writing block 25 (SOFF), n=1809, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7236d
Writing block 26 (SSUB), n=1809, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7236d
Writing block 27 (MSUB), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 28 (SPOS), n=1809, ptype=1, dtype=1, ndim=3, bpb=4 bytes=21708d
Writing block 29 (SVEL), n=1809, ptype=1, dtype=1, ndim=3, bpb=4 bytes=21708d
Writing block 30 (SCM ), n=1809, ptype=1, dtype=1, ndim=3, bpb=4 bytes=21708d
Writing block 33 (VMAX), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 34 (RMAX), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 35 (RHMS), n=1809, ptype=1, dtype=1, ndim=6, bpb=4 bytes=43416d
Writing block 36 (MTRH), n=1809, ptype=1, dtype=1, ndim=6, bpb=4 bytes=43416d
Writing block 37 (MBID), n=1809, ptype=1, dtype=2, ndim=1, bpb=8 bytes=14472d
Writing block 38 (GRNR), n=1809, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7236d
Writing block 39 (SUBN), n=1809, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7236d
Writing block 40 (SMST), n=1809, ptype=1, dtype=1, ndim=6, bpb=4 bytes=43416d
Writing block 53 (PID ), n=207151, ptype=2, dtype=2, ndim=1, bpb=8 bytes=1657208d
Writing block 54 (SLEN), n=1809, ptype=1, dtype=0, ndim=6, bpb=4 bytes=43416d
Writing block 55 (STEN), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 56 (SKEN), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 57 (SUEN), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 58 (SUIT), n=1809, ptype=1, dtype=1, ndim=9, bpb=4 bytes=65124d
Writing block 59 (BHMA), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 60 (BHMD), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 61 (SVD ), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 62 (SVDH), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 63 (HMPR), n=1809, ptype=1, dtype=1, ndim=6, bpb=4 bytes=43416d
Writing block 64 (SSFR), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 65 (SSA ), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 66 (SSBZ), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 67 (SSIM), n=1809, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 68 (SSPI), n=1809, ptype=4, dtype=1, ndim=3, bpb=4 bytes=21708d
Writing block 69 (GSPI), n=1809, ptype=1, dtype=1, ndim=3, bpb=4 bytes=21708d
Writing block 70 (FSPI), n=1809, ptype=5, dtype=1, ndim=3, bpb=4 bytes=21708d
Writing block 71 (SFM ), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 72 (SFMT), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 73 (SFME), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 74 (SFAE), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 75 (SFKE), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 76 (SFTE), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 77 (SMWP), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 78 (SMM ), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 79 (SMMS), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 80 (SFZ ), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 81 (SFZS), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 82 (SSIA), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 83 (SIAS), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 84 (SMET), n=1809, ptype=5, dtype=1, ndim=9, bpb=4 bytes=65124d
Writing block 85 (SMTS), n=1809, ptype=5, dtype=1, ndim=9, bpb=4 bytes=65124d
Writing block 86 (MF1 ), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 87 (MeF1), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 88 (MF  ), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 89 (MeF2), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 90 (MFA ), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 91 (MeFA), n=1809, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 92 (NSPI), n=1809, ptype=6, dtype=1, ndim=3, bpb=4 bytes=21708d
Writing block 93 (NFM ), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 94 (NFMT), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 95 (NFME), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 96 (NFAE), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 97 (NFKE), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 98 (NFTE), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 99 (SMWP), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 100 (SMM ), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 101 (SMMS), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 102 (SSIA), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 103 (SIAS), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 104 (SMET), n=1809, ptype=6, dtype=1, ndim=9, bpb=4 bytes=65124d
Writing block 105 (SMTS), n=1809, ptype=6, dtype=1, ndim=9, bpb=4 bytes=65124d
Writing block 106 (MF1 ), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 107 (MeF1), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 108 (MF2 ), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 109 (MeF2), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 110 (MFA ), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 111 (MeFA), n=1809, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 112 (SM  ), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 113 (SFKE), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 114 (SFAE), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 115 (SMWP), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 116 (SMM ), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 117 (SMMS), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 118 (SSIA), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 119 (SIAS), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 120 (SMET), n=1809, ptype=4, dtype=1, ndim=9, bpb=4 bytes=65124d
Writing block 121 (SMTS), n=1809, ptype=4, dtype=1, ndim=9, bpb=4 bytes=65124d
Writing block 122 (MF1 ), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 123 (MeF1), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 124 (MF2 ), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 125 (MeF2), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 126 (MFA ), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 127 (MeFA), n=1809, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7236d
Writing block 128 (MMe5), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 129 (RMe5), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 130 (MCr5), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 131 (RCr5), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 132 (MMe2), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 133 (RMe2), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 134 (MCr2), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 135 (RCr2), n=294, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1176d
Writing block 136 (MAPT), n=1809, ptype=7, dtype=1, ndim=60, bpb=4 bytes=434160d
Writing block 137 (SAPT), n=1809, ptype=8, dtype=1, ndim=10, bpb=4 bytes=72360d
Writing block 138 (VAPT), n=1809, ptype=9, dtype=1, ndim=10, bpb=4 bytes=72360d
Writing block 139 (BEGY), n=207151, ptype=2, dtype=1, ndim=1, bpb=4 bytes=828604d
Subgroup catalogues saved. took = 10.3054 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 4.303961e-01
 eagle_ph_key_ort: type= 1 timed by volker 4.416571e-01
 eagle_ph_key_ort: type= 2 timed by volker 8.822608e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.382061e-03
 eagle_ph_key_ort: type= 4 timed by volker 1.718311e-01
 eagle_ph_key_ort: type= 5 timed by volker 6.426907e-02
 eagle_ph_key_ort: timing parallel sort = 1.216267e+00
 eagle_fetch_elements: we are using 1073716953 bytes of memory, FreeBytes= 1342146192

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2670.04 Mbyte (on task=0), Smallest = 2047.17 Mbyte, Average = 2057.32 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5715  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8591    1020.4306  allocate_memory()/allocate.c/67
   0 2970 0              SphP    746.3927    1766.8233  allocate_memory()/allocate.c/85
   0 2971 0              MetP    156.6617    1923.4851  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.9558    1942.4409  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1942.6167  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1942.7925  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.9141    1969.7066  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.5078    1988.2144  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.8463    2019.0607  fof_fof()/fof.c/337
   0 2978 0             Group      0.3673    2019.4280  fof_fof()/fof.c/380
   0 2979 0          SubGroup    632.1285    2651.5565  subfind()/subfind.c/376
   0 2980 0   sort_index_data     18.4731    2670.0296  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1246119 number of bytes = 398758080

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3691.18 Mbyte (on task=0), Smallest = 3062.48 Mbyte, Average = 3076.37 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5715  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8591    1020.4306  allocate_memory()/allocate.c/67
   0 2970 0              SphP    746.3927    1766.8233  allocate_memory()/allocate.c/85
   0 2971 0              MetP    156.6617    1923.4851  allocate_memory()/allocate.c/105
   0 2972 0               BHP     18.9558    1942.4409  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1942.6167  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1942.7925  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.9141    1969.7066  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.5078    1988.2144  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.8463    2019.0607  fof_fof()/fof.c/337
   0 2978 0             Group      0.3673    2019.4280  fof_fof()/fof.c/380
   0 2979 0          SubGroup    632.1285    2651.5565  subfind()/subfind.c/376
   0 2980 0   sort_index_data     18.4731    2670.0296  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      4.7536    2674.7832  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      4.7536    2679.5368  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      4.7536    2684.2904  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    380.2853    3064.5757  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    380.2853    3444.8610  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    246.3086    3691.1696  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.932303e+00
 eagle_fetch_elements: we are using 1073716953 bytes of memory, FreeBytes= 1342146192
 eagle_fetch_elements: max_bytes= 504, max_elements= 856980 number of bytes = 431917920
 eagle_ph_key_ort: timing parallel SphP exchange = 2.173657e+00
 eagle_fetch_elements: we are using 1073716953 bytes of memory, FreeBytes= 1342146192
 eagle_fetch_elements: max_bytes= 384, max_elements= 1352316 number of bytes = 519289344
 eagle_ph_key_ort: timing parallel MetP exchange = 1.434400e-01
 eagle_fetch_elements: we are using 1073716953 bytes of memory, FreeBytes= 1342146192
 eagle_fetch_elements: max_bytes= 256, max_elements= 2049056 number of bytes = 524558336
 eagle_ph_key_ort: timing parallel BHP exchange = 8.371115e-03
Sorting particle-data by peano-hilbert key took = 6.75741 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1073716953 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1246119 number of bytes= 398758080
 eagle_ph_restore: timing parallel P exchange = 2.869839e+00
 eagle_send_elements: we are using 1073716953 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 856980 number of bytes= 431917920
 eagle_ph_restore: timing parallel SphP exchange = 2.168787e+00
 eagle_send_elements: we are using 1073716953 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1352316 number of bytes= 519289344
 eagle_ph_restore: timing parallel MetP exchange = 1.589181e-01
 eagle_send_elements: we are using 1073716953 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2049056 number of bytes= 524558336
 eagle_ph_restore: timing parallel BHP exchange = 6.345987e-03
Restoring original order after ph key sorting took = 5.21903 sec

finished writing particle file...

Finished with SUBFIND.  (total time=2647.14 sec)

Finished computing FoF groups.  (presently allocated=1969.71 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1942.44 MB)
Allocated 38.8142 MByte for top-level domain structure
use of 83.6497 MB of temporary storage for domain decomposition... (presently allocated=2064.9 MB)
Before=484673
After=542673
NTopleaves= 474839  NTopnodes=542673 (space for 775596)
gravity work-load balance=1.02047   memory-balance=1.02047   SPH work-load balance=1.01981
iter=0 exchange of 0575365175 particles (ret=0)
domain decomposition done. (took 8.89393 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.6624 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 45: endrun called with an error level of 124


task 45: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 90: endrun called with an error level of 124


task 90: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 135: endrun called with an error level of 124


task 135: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 180: endrun called with an error level of 124


task 180: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
task 225: endrun called with an error level of 124


task 225: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 270: endrun called with an error level of 124


task 270: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 315: endrun called with an error level of 124


task 315: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 360:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 360: endrun called with an error level of 124


task 360: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 360
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 360:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 360
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 405:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 405: endrun called with an error level of 124


task 405: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 405
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 405:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 405
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 450:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 450
task 450: endrun called with an error level of 124


task 450: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 450:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 450
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 495:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 495: endrun called with an error level of 124


task 495: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 495
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 495:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 495
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 540:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 540: endrun called with an error level of 124


task 540: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 540
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 540:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 540
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 585:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 585: endrun called with an error level of 124


task 585: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 585
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 585:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 585
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 630:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 630
task 630: endrun called with an error level of 124


task 630: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 630:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 630
task 675: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 675:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 675
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 675:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 675
task 675: endrun called with an error level of 124


Finished FOF, total time doing fof/subfind = 2687.64 s
task 0: endrun called with an error level of 124


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


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62712.62 Mb (on task=400), Smallest =   62511.27 Mb (on task=0), Average =   62663.63 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=176), Smallest =   64531.71 Mb (on task=224), Average =   64532.01 Mb
Committed_AS:	 Largest =    2020.72 Mb (on task=0), Smallest =    1819.38 Mb (on task=400), Average =    1868.39 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=32), Smallest =   16266.08 Mb (on task=96), Average =   16310.99 Mb
AllocMem:	 Largest =    2020.72 Mb (on task=0), Smallest =    1819.38 Mb (on task=400), Average =    1868.39 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 720 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N16':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 1016.54 MByte for particle storage.

Allocated 749.796 MByte for storage of SPH data.

Allocated 154.722 MByte for storage of MET data.

Allocated 19.0422 MByte for storage of BH data.


reading file `data//snapshot_006_z001p993/snap_006_z001p993.0.hdf5' on task=0 (contains 36198121 particles.)
distributing this file to tasks 0-44
Type 0 (gas):   17557657  (tot=     0280792094) masstab=0
Type 1 (halo):  18006520  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12761  (tot=     0000254233) masstab=0
Type 3 (bulge):    71837  (tot=     0002602064) masstab=0
Type 4 (stars):   548384  (tot=     0005850888) masstab=0
Type 5 (bndry):      962  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.14.hdf5' on task=630 (contains 35806830 particles.)
distributing this file to tasks 630-674
Type 0 (gas):   17612518  (tot=     0280792094) masstab=0
Type 1 (halo):  17805780  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8047  (tot=     0000254233) masstab=0
Type 3 (bulge):    56233  (tot=     0002602064) masstab=0
Type 4 (stars):   323361  (tot=     0005850888) masstab=0
Type 5 (bndry):      891  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.3.hdf5' on task=135 (contains 35911371 particles.)
distributing this file to tasks 135-179
Type 0 (gas):   17534545  (tot=     0280792094) masstab=0
Type 1 (halo):  17938834  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8762  (tot=     0000254233) masstab=0
Type 3 (bulge):      158  (tot=     0002602064) masstab=0
Type 4 (stars):   428095  (tot=     0005850888) masstab=0
Type 5 (bndry):      977  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.4.hdf5' on task=180 (contains 36088855 particles.)
distributing this file to tasks 180-224
Type 0 (gas):   17555814  (tot=     0280792094) masstab=0
Type 1 (halo):  17855772  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19359  (tot=     0000254233) masstab=0
Type 3 (bulge):   265430  (tot=     0002602064) masstab=0
Type 4 (stars):   391530  (tot=     0005850888) masstab=0
Type 5 (bndry):      950  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.10.hdf5' on task=450 (contains 36104343 particles.)
distributing this file to tasks 450-494
Type 0 (gas):   17589598  (tot=     0280792094) masstab=0
Type 1 (halo):  17870903  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      7620  (tot=     0000254233) masstab=0
Type 3 (bulge):   323260  (tot=     0002602064) masstab=0
Type 4 (stars):   311974  (tot=     0005850888) masstab=0
Type 5 (bndry):      988  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.9.hdf5' on task=405 (contains 36075628 particles.)
distributing this file to tasks 405-449
Type 0 (gas):   17598530  (tot=     0280792094) masstab=0
Type 1 (halo):  18092535  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      9558  (tot=     0000254233) masstab=0
Type 3 (bulge):    56149  (tot=     0002602064) masstab=0
Type 4 (stars):   317860  (tot=     0005850888) masstab=0
Type 5 (bndry):      996  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.13.hdf5' on task=585 (contains 36256085 particles.)
distributing this file to tasks 585-629
Type 0 (gas):   17551135  (tot=     0280792094) masstab=0
Type 1 (halo):  17943119  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18147  (tot=     0000254233) masstab=0
Type 3 (bulge):   412609  (tot=     0002602064) masstab=0
Type 4 (stars):   330110  (tot=     0005850888) masstab=0
Type 5 (bndry):      965  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.11.hdf5' on task=495 (contains 36030352 particles.)
distributing this file to tasks 495-539
Type 0 (gas):   17588567  (tot=     0280792094) masstab=0
Type 1 (halo):  17881633  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     22463  (tot=     0000254233) masstab=0
Type 3 (bulge):   252359  (tot=     0002602064) masstab=0
Type 4 (stars):   284335  (tot=     0005850888) masstab=0
Type 5 (bndry):      995  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.5.hdf5' on task=225 (contains 36065904 particles.)
distributing this file to tasks 225-269
Type 0 (gas):   17490649  (tot=     0280792094) masstab=0
Type 1 (halo):  18141829  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13284  (tot=     0000254233) masstab=0
Type 3 (bulge):    33484  (tot=     0002602064) masstab=0
Type 4 (stars):   385686  (tot=     0005850888) masstab=0
Type 5 (bndry):      972  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.2.hdf5' on task=90 (contains 35929225 particles.)
distributing this file to tasks 90-134
Type 0 (gas):   17542638  (tot=     0280792094) masstab=0
Type 1 (halo):  17967478  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16052  (tot=     0000254233) masstab=0
Type 3 (bulge):    11464  (tot=     0002602064) masstab=0
Type 4 (stars):   390581  (tot=     0005850888) masstab=0
Type 5 (bndry):     1012  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.15.hdf5' on task=675 (contains 35784772 particles.)
distributing this file to tasks 675-719
Type 0 (gas):   17578993  (tot=     0280792094) masstab=0
Type 1 (halo):  17761764  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     19536  (tot=     0000254233) masstab=0
Type 3 (bulge):   127947  (tot=     0002602064) masstab=0
Type 4 (stars):   295517  (tot=     0005850888) masstab=0
Type 5 (bndry):     1015  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.1.hdf5' on task=45 (contains 36112378 particles.)
distributing this file to tasks 45-89
Type 0 (gas):   17551646  (tot=     0280792094) masstab=0
Type 1 (halo):  17813412  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     29818  (tot=     0000254233) masstab=0
Type 3 (bulge):   221502  (tot=     0002602064) masstab=0
Type 4 (stars):   495059  (tot=     0005850888) masstab=0
Type 5 (bndry):      941  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.6.hdf5' on task=270 (contains 36013880 particles.)
distributing this file to tasks 270-314
Type 0 (gas):   17459446  (tot=     0280792094) masstab=0
Type 1 (halo):  17960997  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     11135  (tot=     0000254233) masstab=0
Type 3 (bulge):   281101  (tot=     0002602064) masstab=0
Type 4 (stars):   300242  (tot=     0005850888) masstab=0
Type 5 (bndry):      959  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.8.hdf5' on task=360 (contains 36045135 particles.)
distributing this file to tasks 360-404
Type 0 (gas):   17496326  (tot=     0280792094) masstab=0
Type 1 (halo):  17886690  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20570  (tot=     0000254233) masstab=0
Type 3 (bulge):   264387  (tot=     0002602064) masstab=0
Type 4 (stars):   376264  (tot=     0005850888) masstab=0
Type 5 (bndry):      898  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.12.hdf5' on task=540 (contains 35920806 particles.)
distributing this file to tasks 540-584
Type 0 (gas):   17508179  (tot=     0280792094) masstab=0
Type 1 (halo):  17962158  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21281  (tot=     0000254233) masstab=0
Type 3 (bulge):   160775  (tot=     0002602064) masstab=0
Type 4 (stars):   267470  (tot=     0005850888) masstab=0
Type 5 (bndry):      943  (tot=     0000015356) masstab=0


reading file `data//snapshot_006_z001p993/snap_006_z001p993.7.hdf5' on task=315 (contains 35831680 particles.)
distributing this file to tasks 315-359
Type 0 (gas):   17575853  (tot=     0280792094) masstab=0
Type 1 (halo):  17771306  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     15840  (tot=     0000254233) masstab=0
Type 3 (bulge):    63369  (tot=     0002602064) masstab=0
Type 4 (stars):   404420  (tot=     0005850888) masstab=0
Type 5 (bndry):      892  (tot=     0000015356) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576175365


Setting next time for grid output file to Time_next= 0.33474

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

Setting next time for snipshot file to Time_next= 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=5.58893 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1943.99 MB)
Allocated 1.62149 MByte for top-level domain structure
use of 26.4301 MB of temporary storage for domain decomposition... (presently allocated=1972.04 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1972.05 Mbyte (on task=1), Smallest = 1972.05 Mbyte, Average = 1972.05 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      1.9775       3.8876  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.0527       6.9403  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     12.2107      19.1511  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     12.2107      31.3618  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     12.2107      43.5725  allocate_memory()/allocate.c/61
   1 2969 0                 P    976.8591    1020.4317  allocate_memory()/allocate.c/67
   1 2970 0              SphP    749.7957    1770.2274  allocate_memory()/allocate.c/85
   1 2971 0              MetP    154.7216    1924.9490  allocate_memory()/allocate.c/105
   1 2972 0               BHP     19.0422    1943.9912  allocate_memory()/allocate.c/126
   1 2973 0   DomainStartList      0.1758    1944.1670  domain_allocate()/domain.c/562
   1 2974 0     DomainEndList      0.1758    1944.3428  domain_allocate()/domain.c/565
   1 2975 0          TopNodes      1.2699    1945.6127  domain_allocate()/domain.c/570
   1 2976 0        domain_key     24.4215    1970.0342  domain_Decomposition()/domain.c/231
   1 3001 0          topNodes      1.3676    1972.0428  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0025 MByte for top-level domain structure
use of 27.0163 MB of temporary storage for domain decomposition... (presently allocated=1973.01 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.49776 MByte for top-level domain structure
use of 27.7783 MB of temporary storage for domain decomposition... (presently allocated=1974.27 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.14161 MByte for top-level domain structure
use of 28.7688 MB of temporary storage for domain decomposition... (presently allocated=1975.9 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 3.9786 MByte for top-level domain structure
use of 30.0565 MB of temporary storage for domain decomposition... (presently allocated=1978.03 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.06668 MByte for top-level domain structure
use of 31.7304 MB of temporary storage for domain decomposition... (presently allocated=1980.79 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 6.48122 MByte for top-level domain structure
use of 33.9066 MB of temporary storage for domain decomposition... (presently allocated=1984.38 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 8.3201 MByte for top-level domain structure
use of 36.7357 MB of temporary storage for domain decomposition... (presently allocated=1989.05 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 10.7107 MByte for top-level domain structure
use of 40.4135 MB of temporary storage for domain decomposition... (presently allocated=1995.11 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0652585  new value=0.084836
Allocated 13.8184 MByte for top-level domain structure
use of 45.1946 MB of temporary storage for domain decomposition... (presently allocated=2003 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.084836  new value=0.110287
Allocated 17.8584 MByte for top-level domain structure
use of 51.4101 MB of temporary storage for domain decomposition... (presently allocated=2013.26 MB)
Before=312969
Increasing TopNodeAllocFactor=0.110287  new value=0.143373
Allocated 23.1105 MByte for top-level domain structure
use of 59.4902 MB of temporary storage for domain decomposition... (presently allocated=2026.59 MB)
Before=312969
Increasing TopNodeAllocFactor=0.143373  new value=0.186385
Allocated 29.9382 MByte for top-level domain structure
use of 69.9944 MB of temporary storage for domain decomposition... (presently allocated=2043.92 MB)
Before=312969
After=506617
NTopleaves= 443290  NTopnodes=506617 (space for 596613)
gravity work-load balance=1.0203   memory-balance=1.02029   SPH work-load balance=1.02317
iter=0 exchange of 0575446017 particles (ret=0)
domain decomposition done. (took 24.7914 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 4.11969 MByte in top-level domain structure

Allocated 487.479 MByte for BH-tree, and 1.69102 Mbyte for top-leaves.  (presently allocted 2458.64 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
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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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 predicted entropy from the internal energies read in the file...
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Computing the predicted entropy from the internal energies read in the file...
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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...
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Computing the predicted entropy from the internal energies read in the file...
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Computing the predicted entropy from the internal energies read in the file...
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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...
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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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 2756.48 Mbyte (on task=111), Smallest = 2716.39 Mbyte, Average = 2735.03 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 111 2964 0  Sendcount_matrix      1.9775       3.8876  allocate_memory()/allocate.c/41
 111 2965 0     ProcessedFlag      3.0527       6.9403  allocate_memory()/allocate.c/52
 111 2966 0  NextActiveParticle     12.2107      19.1511  allocate_memory()/allocate.c/55
 111 2967 0     NextInTimeBin     12.2107      31.3618  allocate_memory()/allocate.c/58
 111 2968 0     PrevInTimeBin     12.2107      43.5725  allocate_memory()/allocate.c/61
 111 2969 0                 P    976.8591    1020.4317  allocate_memory()/allocate.c/67
 111 2970 0              SphP    749.7957    1770.2274  allocate_memory()/allocate.c/85
 111 2971 0              MetP    154.7216    1924.9490  allocate_memory()/allocate.c/105
 111 2972 0               BHP     19.0422    1943.9912  allocate_memory()/allocate.c/126
 111 2973 0   DomainStartList      0.1758    1944.1670  domain_allocate()/domain.c/562
 111 2974 0     DomainEndList      0.1758    1944.3428  domain_allocate()/domain.c/565
 111 2975 0          TopNodes     25.1237    1969.4664  domain_allocate()/domain.c/570
 111 2976 0   DomainNodeIndex      1.6910    1971.1575  force_treeallocate()/forcetree.c/4800
 111 2977 0        Nodes_base    251.5226    2222.6801  force_treeallocate()/forcetree.c/4803
 111 2978 0     Extnodes_base    209.6022    2432.2823  force_treeallocate()/forcetree.c/4811
 111 2979 0          Nextnode     14.1433    2446.4256  force_treeallocate()/forcetree.c/4820
 111 2980 0            Father     12.2107    2458.6364  force_treeallocate()/forcetree.c/4827
 111 2981 0           Ngblist      3.0126    2461.6490  density()/density.c/690
 111 2982 0              Left      6.0253    2467.6743  density()/density.c/692
 111 2983 0             Right      6.0253    2473.6996  density()/density.c/693
 111 2984 0    DataIndexTable      7.0175    2480.7171  density()/density.c/738
 111 2985 0      DataNodeList     18.7134    2499.4306  density()/density.c/740
 111 2986 0       DensDataGet     70.3768    2569.8073  density()/density.c/893
 111 2987 0    DensDataResult     92.7694    2662.5767  density()/density.c/931
 111 2988 0       DensDataOut     93.8989    2756.4756  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0004881275 particles.
ngb iteration 2: need to repeat for 0000001897 particles.
ngb iteration 3: need to repeat for 0000000828 particles.
ngb iteration 4: need to repeat for 0000000796 particles.
ngb iteration 5: need to repeat for 0000000111 particles.
ngb iteration 6: need to repeat for 0000000079 particles.
ngb iteration 7: need to repeat for 0000000042 particles.
ngb iteration 8: need to repeat for 0000000001 particles.
ngb iteration 9: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_1.871.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_2.013.hdf5

Begin to compute FoF group catalogues...  (presently allocated=2458.64 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1943.99 MB)
Allocated 29.9382 MByte for top-level domain structure
use of 69.9944 MB of temporary storage for domain decomposition... (presently allocated=2043.92 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.186385  new value=0.2423
Allocated 38.8142 MByte for top-level domain structure
use of 83.6497 MB of temporary storage for domain decomposition... (presently allocated=2066.45 MB)
Before=487489
After=540081
NTopleaves= 472571  NTopnodes=540081 (space for 775596)
gravity work-load balance=1.02168   memory-balance=1.02168   SPH work-load balance=1.02254
iter=0 exchange of 0575254120 particles (ret=0)
domain decomposition done. (took 12.0182 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.781 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=1971.12 MB)
Tree construction.

Start linking particles (presently allocated=2502.79 MB)
links on local processor done (took 1.31176 sec).
Marked=0044463485 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=2600.51 MB) 
have done 0001189416 cross links (processed 0044463485, took 1.39729 sec)
have done 0000426383 cross links (processed 0024717031, took 0.726132 sec)
have done 0000256465 cross links (processed 0017937364, took 0.597027 sec)
have done 0000141668 cross links (processed 0009577379, took 0.486928 sec)
have done 0000072538 cross links (processed 0004703744, took 0.606667 sec)
have done 0000036053 cross links (processed 0002154549, took 0.484455 sec)
have done 0000018183 cross links (processed 0000984766, took 0.195205 sec)
have done 0000009170 cross links (processed 0000400879, took 0.155063 sec)
have done 0000004718 cross links (processed 0000174662, took 0.192186 sec)
have done 0000002600 cross links (processed 0000112727, took 0.0813951 sec)
have done 0000001378 cross links (processed 0000072368, took 0.072382 sec)
have done 0000000825 cross links (processed 0000030617, took 0.0463049 sec)
have done 0000000575 cross links (processed 0000023856, took 0.0428739 sec)
have done 0000000313 cross links (processed 0000012103, took 0.041801 sec)
have done 0000000099 cross links (processed 0000001438, took 0.03282 sec)
have done 0000000027 cross links (processed 0000000577, took 0.0327599 sec)
have done 0000000012 cross links (processed 0000000204, took 0.033155 sec)
have done 0000000003 cross links (processed 0000000026, took 0.032697 sec)
have done 0000000001 cross links (processed 0000000010, took 0.0328619 sec)
have done 0000000000 cross links (processed 0000000002, took 0.0329731 sec)
Local groups found.

group finding took = 6.72367 sec
Start finding nearest dm-particle (presently allocated=2502.79 MB)
still finding nearest... (presently allocated=2589.9 MB)
fof-nearest iteration 1: need to repeat for 267865523 particles.
still finding nearest... (presently allocated=2590.58 MB)
fof-nearest iteration 2: need to repeat for 243814156 particles.
still finding nearest... (presently allocated=2591.86 MB)
fof-nearest iteration 3: need to repeat for 218497704 particles.
still finding nearest... (presently allocated=2593.98 MB)
fof-nearest iteration 4: need to repeat for 190985194 particles.
still finding nearest... (presently allocated=2597.23 MB)
fof-nearest iteration 5: need to repeat for 140097028 particles.
still finding nearest... (presently allocated=2600.3 MB)
fof-nearest iteration 6: need to repeat for 66078087 particles.
still finding nearest... (presently allocated=2598.88 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 4.33361 sec
compiling local group data and catalogue took = 0.503353 sec

Total number of groups with at least 32 particles: 215251
Largest group has 4999798 particles.
Total number of particles in groups: 0124173126

group properties are now allocated.. (presently allocated=2020.49 MB)
computation of group properties took = 0.0515039 sec
start global sorting of group catalogues number 6
LargestGroup = 2347.210328; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0452878 sec
Group catalogues globally sorted. took = 1.27926 sec
starting saving of group catalogue number 6
data//groups_006_z001p993
Group catalogues number 6 saved. took = 3.05546 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (280792094).
tree build for species 0 took 0.564956 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0221357980 particles. (took 6.51387 sec)
ngb iteration 2: need to repeat for 0192916710 particles. (took 4.45128 sec)
ngb iteration 3: need to repeat for 0178547956 particles. (took 3.73796 sec)
ngb iteration 4: need to repeat for 0166305476 particles. (took 3.45675 sec)
ngb iteration 5: need to repeat for 0150148958 particles. (took 3.29743 sec)
ngb iteration 6: need to repeat for 0125600799 particles. (took 3.05313 sec)
ngb iteration 7: need to repeat for 0094102728 particles. (took 2.71511 sec)
ngb iteration 8: need to repeat for 0063084297 particles. (took 2.19405 sec)
ngb iteration 9: need to repeat for 0038682765 particles. (took 1.50165 sec)
ngb iteration 10: need to repeat for 0022309691 particles. (took 0.913286 sec)
ngb iteration 11: need to repeat for 0012398061 particles. (took 0.527592 sec)
ngb iteration 12: need to repeat for 0006758115 particles. (took 0.327044 sec)
ngb iteration 13: need to repeat for 0003658118 particles. (took 0.221394 sec)
ngb iteration 14: need to repeat for 0001863986 particles. (took 0.162399 sec)
ngb iteration 15: need to repeat for 0000755451 particles. (took 0.12289 sec)
ngb iteration 16: need to repeat for 0000322504 particles. (took 0.0917571 sec)
ngb iteration 17: need to repeat for 0000168062 particles. (took 0.0709679 sec)
ngb iteration 18: need to repeat for 0000102584 particles. (took 0.058573 sec)
ngb iteration 19: need to repeat for 0000066683 particles. (took 0.052371 sec)
ngb iteration 20: need to repeat for 0000044254 particles. (took 0.050154 sec)
ngb iteration 21: need to repeat for 0000029085 particles. (took 0.0491898 sec)
ngb iteration 22: need to repeat for 0000018690 particles. (took 0.048203 sec)
ngb iteration 23: need to repeat for 0000011480 particles. (took 0.0477929 sec)
ngb iteration 24: need to repeat for 0000006781 particles. (took 0.047338 sec)
ngb iteration 25: need to repeat for 0000003716 particles. (took 0.0475588 sec)
ngb iteration 26: need to repeat for 0000001930 particles. (took 0.0470941 sec)
ngb iteration 27: need to repeat for 0000000999 particles. (took 0.047112 sec)
ngb iteration 28: need to repeat for 0000000497 particles. (took 0.047025 sec)
ngb iteration 29: need to repeat for 0000000246 particles. (took 0.0471251 sec)
ngb iteration 30: need to repeat for 0000000105 particles. (took 0.0469921 sec)
ngb iteration 31: need to repeat for 0000000037 particles. (took 0.0473959 sec)
ngb iteration 32: need to repeat for 0000000014 particles. (took 0.0473101 sec)
ngb iteration 33: need to repeat for 0000000003 particles. (took 0.0470741 sec)
ngb iteration 34: need to repeat for 0000000001 particles. (took 0.046988 sec)
ngb iteration 35: need to repeat for 0000000001 particles. (took 0.0471761 sec)
ngb iteration 36: need to repeat for 0000000001 particles. (took 0.0470979 sec)
ngb iteration 37: need to repeat for 0000000001 particles. (took 0.0470638 sec)
ngb iteration 38: need to repeat for 0000000001 particles. (took 0.0470059 sec)
final operations ... 
density and smoothing length for species 0 took 34.6166 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.561959 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0216905284 particles. (took 8.47855 sec)
ngb iteration 2: need to repeat for 0185762569 particles. (took 5.0349 sec)
ngb iteration 3: need to repeat for 0168214789 particles. (took 4.08607 sec)
ngb iteration 4: need to repeat for 0155160703 particles. (took 3.55726 sec)
ngb iteration 5: need to repeat for 0140203514 particles. (took 3.24089 sec)
ngb iteration 6: need to repeat for 0119150700 particles. (took 2.998 sec)
ngb iteration 7: need to repeat for 0092489589 particles. (took 2.64633 sec)
ngb iteration 8: need to repeat for 0065344712 particles. (took 2.12016 sec)
ngb iteration 9: need to repeat for 0042646541 particles. (took 1.52621 sec)
ngb iteration 10: need to repeat for 0026249195 particles. (took 0.995968 sec)
ngb iteration 11: need to repeat for 0015513503 particles. (took 0.618981 sec)
ngb iteration 12: need to repeat for 0008933630 particles. (took 0.388422 sec)
ngb iteration 13: need to repeat for 0005053008 particles. (took 0.25687 sec)
ngb iteration 14: need to repeat for 0002718236 particles. (took 0.184227 sec)
ngb iteration 15: need to repeat for 0001281587 particles. (took 0.13877 sec)
ngb iteration 16: need to repeat for 0000588039 particles. (took 0.10392 sec)
ngb iteration 17: need to repeat for 0000273894 particles. (took 0.0820739 sec)
ngb iteration 18: need to repeat for 0000129257 particles. (took 0.0673671 sec)
ngb iteration 19: need to repeat for 0000060854 particles. (took 0.0578539 sec)
ngb iteration 20: need to repeat for 0000028118 particles. (took 0.052546 sec)
ngb iteration 21: need to repeat for 0000012281 particles. (took 0.0491002 sec)
ngb iteration 22: need to repeat for 0000005241 particles. (took 0.0478709 sec)
ngb iteration 23: need to repeat for 0000002082 particles. (took 0.0470469 sec)
ngb iteration 24: need to repeat for 0000000769 particles. (took 0.0469871 sec)
ngb iteration 25: need to repeat for 0000000283 particles. (took 0.046236 sec)
ngb iteration 26: need to repeat for 0000000091 particles. (took 0.0464351 sec)
ngb iteration 27: need to repeat for 0000000019 particles. (took 0.0463331 sec)
ngb iteration 28: need to repeat for 0000000004 particles. (took 0.0466981 sec)
final operations ... 
density and smoothing length for species 1 took 37.2593 sec
Tree construction for species 4 (5850888).
tree build for species 4 took 0.400426 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0004662452 particles. (took 2.06648 sec)
ngb iteration 2: need to repeat for 0004208089 particles. (took 1.14688 sec)
ngb iteration 3: need to repeat for 0003892765 particles. (took 0.783748 sec)
ngb iteration 4: need to repeat for 0003647353 particles. (took 0.617728 sec)
ngb iteration 5: need to repeat for 0003402150 particles. (took 0.493259 sec)
ngb iteration 6: need to repeat for 0003103630 particles. (took 0.437888 sec)
ngb iteration 7: need to repeat for 0002736860 particles. (took 0.370709 sec)
ngb iteration 8: need to repeat for 0002325914 particles. (took 0.308896 sec)
ngb iteration 9: need to repeat for 0001914911 particles. (took 0.263844 sec)
ngb iteration 10: need to repeat for 0001545348 particles. (took 0.228911 sec)
ngb iteration 11: need to repeat for 0001227334 particles. (took 0.199526 sec)
ngb iteration 12: need to repeat for 0000962054 particles. (took 0.175733 sec)
ngb iteration 13: need to repeat for 0000750527 particles. (took 0.149866 sec)
ngb iteration 14: need to repeat for 0000580767 particles. (took 0.133734 sec)
ngb iteration 15: need to repeat for 0000446243 particles. (took 0.119383 sec)
ngb iteration 16: need to repeat for 0000343293 particles. (took 0.109057 sec)
ngb iteration 17: need to repeat for 0000264872 particles. (took 0.0988379 sec)
ngb iteration 18: need to repeat for 0000205137 particles. (took 0.0919731 sec)
ngb iteration 19: need to repeat for 0000160249 particles. (took 0.083622 sec)
ngb iteration 20: need to repeat for 0000125472 particles. (took 0.0760391 sec)
ngb iteration 21: need to repeat for 0000098889 particles. (took 0.0706131 sec)
ngb iteration 22: need to repeat for 0000077594 particles. (took 0.0673549 sec)
ngb iteration 23: need to repeat for 0000060118 particles. (took 0.065877 sec)
ngb iteration 24: need to repeat for 0000045332 particles. (took 0.0650382 sec)
ngb iteration 25: need to repeat for 0000033030 particles. (took 0.063864 sec)
ngb iteration 26: need to repeat for 0000023367 particles. (took 0.0629759 sec)
ngb iteration 27: need to repeat for 0000015903 particles. (took 0.063201 sec)
ngb iteration 28: need to repeat for 0000010263 particles. (took 0.0625801 sec)
ngb iteration 29: need to repeat for 0000006397 particles. (took 0.0627151 sec)
ngb iteration 30: need to repeat for 0000003673 particles. (took 0.0628211 sec)
ngb iteration 31: need to repeat for 0000002054 particles. (took 0.0624261 sec)
ngb iteration 32: need to repeat for 0000001083 particles. (took 0.063869 sec)
ngb iteration 33: need to repeat for 0000000511 particles. (took 0.0618701 sec)
ngb iteration 34: need to repeat for 0000000243 particles. (took 0.062345 sec)
ngb iteration 35: need to repeat for 0000000099 particles. (took 0.06194 sec)
ngb iteration 36: need to repeat for 0000000039 particles. (took 0.0619161 sec)
ngb iteration 37: need to repeat for 0000000017 particles. (took 0.0620182 sec)
ngb iteration 38: need to repeat for 0000000011 particles. (took 0.0620291 sec)
ngb iteration 39: need to repeat for 0000000003 particles. (took 0.0619631 sec)
final operations ... 
density and smoothing length for species 4 took 9.37072 sec
Tree construction.
tree build took 0.83734 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000009152 particles. (took 0.091996 sec)
ngb iteration 2: need to repeat for 0000007079 particles. (took 0.0655661 sec)
ngb iteration 3: need to repeat for 0000005369 particles. (took 0.0654559 sec)
ngb iteration 4: need to repeat for 0000004143 particles. (took 0.0654941 sec)
ngb iteration 5: need to repeat for 0000003585 particles. (took 0.0657451 sec)
ngb iteration 6: need to repeat for 0000003078 particles. (took 0.0652909 sec)
ngb iteration 7: need to repeat for 0000002504 particles. (took 0.065726 sec)
ngb iteration 8: need to repeat for 0000001871 particles. (took 0.0652461 sec)
ngb iteration 9: need to repeat for 0000001307 particles. (took 0.0650771 sec)
ngb iteration 10: need to repeat for 0000000862 particles. (took 0.0647039 sec)
ngb iteration 11: need to repeat for 0000000542 particles. (took 0.0648251 sec)
ngb iteration 12: need to repeat for 0000000318 particles. (took 0.064374 sec)
ngb iteration 13: need to repeat for 0000000205 particles. (took 0.064523 sec)
ngb iteration 14: need to repeat for 0000000129 particles. (took 0.065563 sec)
ngb iteration 15: need to repeat for 0000000085 particles. (took 0.064606 sec)
ngb iteration 16: need to repeat for 0000000051 particles. (took 0.064841 sec)
ngb iteration 17: need to repeat for 0000000039 particles. (took 0.0642529 sec)
ngb iteration 18: need to repeat for 0000000026 particles. (took 0.063271 sec)
ngb iteration 19: need to repeat for 0000000014 particles. (took 0.0629511 sec)
ngb iteration 20: need to repeat for 0000000011 particles. (took 0.062607 sec)
ngb iteration 21: need to repeat for 0000000010 particles. (took 0.06283 sec)
ngb iteration 22: need to repeat for 0000000005 particles. (took 0.0626299 sec)
ngb iteration 23: need to repeat for 0000000003 particles. (took 0.062418 sec)
ngb iteration 24: need to repeat for 0000000002 particles. (took 0.063097 sec)
final operations ... 
density and smoothing length for species 5 took 1.78041 sec
Tree construction for species 0 (280792094).
tree build for species 0 took 0.563089 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 0 to species 4
finding densities, mode -5 
final operations ... 
density() of species 0 took 11.499 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.562439 sec
calculating density contribution of species 1 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 1 to species 4
finding densities, mode -5 
final operations ... 
density() of species 1 took 6.38569 sec
Tree construction for species 4 (5850888).
tree build for species 4 took 0.358976 sec
calculating density contribution of species 4 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 4 to species 1
finding densities, mode -2 
final operations ... 
density() of species 4 took 4.36218 sec
Tree construction for species 5 (0).
tree build for species 5 took 0.347786 sec
calculating density contribution of species 5 to species 0
finding densities, mode -1 
final operations ... 
calculating density contribution of species 5 to species 1
finding densities, mode -2 
final operations ... 
calculating density contribution of species 5 to species 4
finding densities, mode -5 
final operations ... 
density() of species 5 took 4.19569 sec
start saving smoothing lengths and densities
Sorting of densities in ID sequence took = 0.85148 sec
saving densities took 2.54015 sec

Number of FOF halos treated with collective SubFind code = 1
(the adopted size-limit for the collective algorithm was 2240680 particles.)
the other 215250 FOF halos are treated in parallel with serial code

Unbalance in total number of particles in FOF halos is 8960 - 45656770 

subfind_exchange()() took 2.20458 sec

collectively doing halo 1, num=6
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2574.79 MB)
Allocated 38.8142 MByte for top-level domain structure
use of 83.6497 MB of temporary storage for domain decomposition... (presently allocated=2697.25 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 2697.26 Mbyte (on task=0), Smallest = 2152.91 Mbyte, Average = 2161.63 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5715  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8591    1020.4306  allocate_memory()/allocate.c/67
   0 2970 0              SphP    749.7957    1770.2264  allocate_memory()/allocate.c/85
   0 2971 0              MetP    154.7216    1924.9479  allocate_memory()/allocate.c/105
   0 2972 0               BHP     19.0422    1943.9902  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1944.1659  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1944.3417  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.7832    1971.1249  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.3173    1989.4422  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.5288    2019.9709  fof_fof()/fof.c/337
   0 2978 0             Group      0.5198    2020.4908  fof_fof()/fof.c/380
   0 2979 0          SubGroup    554.2988    2574.7896  subfind()/subfind.c/376
   0 2980 0   DomainStartList      0.1758    2574.9654  domain_allocate()/domain.c/562
   0 2981 0     DomainEndList      0.1758    2575.1411  domain_allocate()/domain.c/565
   0 2982 0          TopNodes     38.4626    2613.6038  domain_allocate()/domain.c/570
   0 2983 0        domain_key     24.4215    2638.0253  domain_Decomposition()/domain.c/231
   0 2994 0        domainWork      2.9587    2641.0169  domain_Decomposition()/domain.c/254
   0 2995 0     domainWorkSph      2.9587    2643.9755  domain_Decomposition()/domain.c/256
   0 2996 0       domainCount      2.9587    2646.9342  domain_Decomposition()/domain.c/258
   0 2997 0    domainCountSph      2.9587    2649.8929  domain_Decomposition()/domain.c/260
   0 3002 0  domainCountStars      2.9587    2652.8625  domain_Decomposition()/domain.c/272
   0 3007 0    domainCountBHs      2.9587    2655.8322  domain_Decomposition()/domain.c/285
   0 3008 0          topNodes     41.4213    2697.2535  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
Before=414897
After=470345
NTopleaves= 411552  NTopnodes=470345 (space for 775596)
gravity work-load balance=1.02014   memory-balance=1.02014   SPH work-load balance=1.02392
iter=0 exchange of 0004993476 particles (ret=0)
domain decomposition done. (took 3.19452 sec)
Freed 13.9733 MByte in top-level domain structure

At 'SUBFIND', subfind_process_group_collectively()/subfind_collective.c/274: Largest Allocation = 3081.29 Mbyte (on task=0), Smallest = 2536.94 Mbyte, Average = 2545.67 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5715  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8591    1020.4306  allocate_memory()/allocate.c/67
   0 2970 0              SphP    749.7957    1770.2264  allocate_memory()/allocate.c/85
   0 2971 0              MetP    154.7216    1924.9479  allocate_memory()/allocate.c/105
   0 2972 0               BHP     19.0422    1943.9902  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1944.1659  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1944.3417  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.7832    1971.1249  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.3173    1989.4422  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.5288    2019.9709  fof_fof()/fof.c/337
   0 2978 0             Group      0.5198    2020.4908  fof_fof()/fof.c/380
   0 2979 0          SubGroup    554.2988    2574.7896  subfind()/subfind.c/376
   0 2980 0   DomainStartList      0.1758    2574.9654  domain_allocate()/domain.c/562
   0 2981 0     DomainEndList      0.1758    2575.1411  domain_allocate()/domain.c/565
   0 2982 0          TopNodes     23.3249    2598.4661  domain_allocate()/domain.c/570
   0 2983 0   DomainNodeIndex      1.5699    2600.0360  force_treeallocate()/forcetree.c/4800
   0 2984 0        Nodes_base    248.2018    2848.2378  force_treeallocate()/forcetree.c/4803
   0 2985 0     Extnodes_base    206.8349    3055.0727  force_treeallocate()/forcetree.c/4811
   0 2986 0          Nextnode     14.0050    3069.0777  force_treeallocate()/forcetree.c/4820
   0 2987 0            Father     12.2107    3081.2884  force_treeallocate()/forcetree.c/4827
----------------------------------------------------------------------------------------
coldomain_Decomposition() took 3.57929 sec  (presently allocated=3081.29 MB)
force_treebuild() took 1.73099 sec (presently allocated=3081.29 MB)
Start find_linkngb (6956 particles on task=0)
find linkngb iteration 1: need to repeat for 0004999130 particles. (took 0.263594 sec)
find linkngb iteration 2: need to repeat for 0004990424 particles. (took 0.161609 sec)
find linkngb iteration 3: need to repeat for 0004693406 particles. (took 0.120694 sec)
find linkngb iteration 4: need to repeat for 0004537440 particles. (took 0.103189 sec)
find linkngb iteration 5: need to repeat for 0004104558 particles. (took 0.097132 sec)
find linkngb iteration 6: need to repeat for 0003371118 particles. (took 0.0894651 sec)
find linkngb iteration 7: need to repeat for 0002461934 particles. (took 0.079355 sec)
find linkngb iteration 8: need to repeat for 0001618860 particles. (took 0.067091 sec)
find linkngb iteration 9: need to repeat for 0000984258 particles. (took 0.055378 sec)
find linkngb iteration 10: need to repeat for 0000567531 particles. (took 0.045799 sec)
find linkngb iteration 11: need to repeat for 0000316990 particles. (took 0.039598 sec)
find linkngb iteration 12: need to repeat for 0000165116 particles. (took 0.034735 sec)
find linkngb iteration 13: need to repeat for 0000061026 particles. (took 0.0300648 sec)
find linkngb iteration 14: need to repeat for 0000025243 particles. (took 0.0214119 sec)
find linkngb iteration 15: need to repeat for 0000011329 particles. (took 0.0122778 sec)
find linkngb iteration 16: need to repeat for 0000005950 particles. (took 0.00607991 sec)
find linkngb iteration 17: need to repeat for 0000003361 particles. (took 0.00299597 sec)
find linkngb iteration 18: need to repeat for 0000002056 particles. (took 0.0017159 sec)
find linkngb iteration 19: need to repeat for 0000001267 particles. (took 0.00111985 sec)
find linkngb iteration 20: need to repeat for 0000000845 particles. (took 0.000904083 sec)
find linkngb iteration 21: need to repeat for 0000000554 particles. (took 0.000753164 sec)
find linkngb iteration 22: need to repeat for 0000000358 particles. (took 0.000746965 sec)
find linkngb iteration 23: need to repeat for 0000000226 particles. (took 0.000673056 sec)
find linkngb iteration 24: need to repeat for 0000000130 particles. (took 0.000664949 sec)
find linkngb iteration 25: need to repeat for 0000000072 particles. (took 0.000629902 sec)
find linkngb iteration 26: need to repeat for 0000000038 particles. (took 0.000611067 sec)
find linkngb iteration 27: need to repeat for 0000000022 particles. (took 0.000602961 sec)
find linkngb iteration 28: need to repeat for 0000000010 particles. (took 0.000620127 sec)
find linkngb iteration 29: need to repeat for 0000000007 particles. (took 0.000597954 sec)
find_linkngb() took 1.24158 sec
Start finding nearest two (6956 particles on task=0)
find_nearesttwo() took 0.124823 sec (presently allocated=3081.82 MB)
parallel sort of densities done. took 0.116138 sec
building distributed linked list. (presently allocated 3081.75 MB)
identification of primary candidates took 304.072 sec
adding background as candidate took 1.46738 sec
establishing of rank order took 92.5993 sec  (p=4999798, grouplen=4999798) presently allocated 3081.75 MB

total number of subhalo candidates=17624

number of subhalo candidates that can be done independently=15469.
(Largest size is 1657, finding them took 0.00713491 sec)
particles are marked (took 63.6936)
independent subhalos are assembled on individual CPUs for unbinding (0.143778 sec, (presently allocated=3081.75 MB)
unbinding of independent ones took 0.0335801 sec
particles have returned to their original processor (0.199232 sec, presently allocated 3081.75 MB)

number of subhalo candidates that can be done independently=1924.
(Largest size is 7385, finding them took 0.849857 sec)
particles are marked (took 42.4563)
independent subhalos are assembled on individual CPUs for unbinding (0.147804 sec, (presently allocated=3081.75 MB)
unbinding of independent ones took 0.141736 sec
particles have returned to their original processor (0.203162 sec, presently allocated 3081.75 MB)

number of subhalo candidates that can be done independently=203.
(Largest size is 30118, finding them took 0.799201 sec)
particles are marked (took 35.7144)
independent subhalos are assembled on individual CPUs for unbinding (0.16096 sec, (presently allocated=3081.75 MB)
unbinding of independent ones took 1.09588 sec
particles have returned to their original processor (0.225301 sec, presently allocated 3081.75 MB)

number of subhalo candidates that can be done independently=24.
(Largest size is 181151, finding them took 0.81711 sec)
particles are marked (took 30.7325)
independent subhalos are assembled on individual CPUs for unbinding (0.157831 sec, (presently allocated=3081.75 MB)
unbinding of independent ones took 4.98958 sec
particles have returned to their original processor (0.24516 sec, presently allocated 3081.75 MB)

number of subhalo candidates that can be done independently=1.
(Largest size is 181151, finding them took 0.469203 sec)
particles are marked (took 27.6263)
independent subhalos are assembled on individual CPUs for unbinding (0.175173 sec, (presently allocated=3081.75 MB)
unbinding of independent ones took 3.60257 sec
particles have returned to their original processor (0.267909 sec, presently allocated 3081.75 MB)

number of subhalo candidates that can be done independently=0.
(Largest size is 181151, finding them took 0.408524 sec)
too few, I do the rest of 3 collectively

collective unbinding of nr=0 (3) of length=181151 ... maximum alloacted 3081.78 MB
took 15.8385 sec
collective unbinding of nr=1 (3) of length=1298929 ... maximum alloacted 3081.78 MB
took 93.6309 sec
collective unbinding of nr=2 (3) of length=4999798 ... maximum alloacted 3081.78 MB
took 286.247 sec

the collective unbinding of remaining halos took 420.324 sec

found 1617 bound substructures in FoF group of length 4999798
determination of parent subhalo took 0.102621 sec (presently allocated 3081.78 MB)
determining substructure properties took 253.635 sec (presently allocated 3081.78 MB)
processing of collective halos took 1302.39 sec
sort of local particles()() took 0.478954 sec
contructing tree for serial subfind of local groups
Start to do local groups with serial subfind algorithm

processing of local groups took took 459.511 sec

Task 694: testing particles ...
unsorting of local particles()() took 0.379336 sec
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subfind_exchange() (for return to original CPU)  took 3.75445 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=2574.79 MB)
Allocated 38.8142 MByte for top-level domain structure
use of 83.6497 MB of temporary storage for domain decomposition... (presently allocated=2697.25 MB)
Before=489057
After=542537
NTopleaves= 474720  NTopnodes=542537 (space for 775596)
gravity work-load balance=1.02151   memory-balance=1.02151   SPH work-load balance=1.02109
iter=0 exchange of 0575383122 particles (ret=0)
domain decomposition done. (took 8.96365 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.6686 MByte in top-level domain structure
SO iteration 1: need to repeat for 0000187172 particles. (took 0.0616581 sec)
SO iteration 2: need to repeat for 0000187172 particles. (took 0.0332139 sec)
SO iteration 3: need to repeat for 0000187172 particles. (took 0.034632 sec)
SO iteration 4: need to repeat for 0000187172 particles. (took 0.035428 sec)
SO iteration 5: need to repeat for 0000187172 particles. (took 0.0355041 sec)
SO iteration 6: need to repeat for 0000187172 particles. (took 0.035805 sec)
SO iteration 7: need to repeat for 0000187172 particles. (took 0.0359151 sec)
SO iteration 8: need to repeat for 0000187172 particles. (took 0.0356908 sec)
SO iteration 9: need to repeat for 0000187172 particles. (took 0.0356719 sec)
SO iteration 10: need to repeat for 0000187172 particles. (took 0.0356669 sec)
SO iteration 11: need to repeat for 0000187172 particles. (took 0.035846 sec)
SO iteration 12: need to repeat for 0000187172 particles. (took 0.035569 sec)
SO iteration 13: need to repeat for 0000187172 particles. (took 0.0357409 sec)
SO iteration 14: need to repeat for 0000187172 particles. (took 0.0356729 sec)
SO iteration 15: need to repeat for 0000185146 particles. (took 0.035702 sec)
SO iteration 16: need to repeat for 0000002401 particles. (took 0.035398 sec)
SO iteration 17: need to repeat for 0000000038 particles. (took 0.00297594 sec)
SO iteration 1: need to repeat for 0000187172 particles. (took 0.0362868 sec)
SO iteration 2: need to repeat for 0000187172 particles. (took 0.0322478 sec)
SO iteration 3: need to repeat for 0000187172 particles. (took 0.033499 sec)
SO iteration 4: need to repeat for 0000187172 particles. (took 0.0330901 sec)
SO iteration 5: need to repeat for 0000187172 particles. (took 0.033216 sec)
SO iteration 6: need to repeat for 0000187172 particles. (took 0.033216 sec)
SO iteration 7: need to repeat for 0000187172 particles. (took 0.0331221 sec)
SO iteration 8: need to repeat for 0000187172 particles. (took 0.0332198 sec)
SO iteration 9: need to repeat for 0000187172 particles. (took 0.0332031 sec)
SO iteration 10: need to repeat for 0000187172 particles. (took 0.033365 sec)
SO iteration 11: need to repeat for 0000187172 particles. (took 0.0332019 sec)
SO iteration 12: need to repeat for 0000187172 particles. (took 0.0329001 sec)
SO iteration 13: need to repeat for 0000187172 particles. (took 0.0330639 sec)
SO iteration 14: need to repeat for 0000187172 particles. (took 0.03299 sec)
SO iteration 15: need to repeat for 0000186292 particles. (took 0.0332761 sec)
SO iteration 16: need to repeat for 0000091837 particles. (took 0.0331118 sec)
SO iteration 17: need to repeat for 0000001027 particles. (took 0.0221331 sec)
SO iteration 18: need to repeat for 0000000022 particles. (took 0.00244808 sec)
SO iteration 1: need to repeat for 0000187172 particles. (took 0.0365729 sec)
SO iteration 2: need to repeat for 0000187172 particles. (took 0.032254 sec)
SO iteration 3: need to repeat for 0000187172 particles. (took 0.0301049 sec)
SO iteration 4: need to repeat for 0000187172 particles. (took 0.0300801 sec)
SO iteration 5: need to repeat for 0000187172 particles. (took 0.030488 sec)
SO iteration 6: need to repeat for 0000187172 particles. (took 0.0298879 sec)
SO iteration 7: need to repeat for 0000187172 particles. (took 0.0300329 sec)
SO iteration 8: need to repeat for 0000187172 particles. (took 0.0302601 sec)
SO iteration 9: need to repeat for 0000187172 particles. (took 0.030488 sec)
SO iteration 10: need to repeat for 0000187172 particles. (took 0.030144 sec)
SO iteration 11: need to repeat for 0000187172 particles. (took 0.0304151 sec)
SO iteration 12: need to repeat for 0000187172 particles. (took 0.0304019 sec)
SO iteration 13: need to repeat for 0000187172 particles. (took 0.030241 sec)
SO iteration 14: need to repeat for 0000187172 particles. (took 0.0301359 sec)
SO iteration 15: need to repeat for 0000187168 particles. (took 0.030077 sec)
SO iteration 16: need to repeat for 0000185954 particles. (took 0.0302231 sec)
SO iteration 17: need to repeat for 0000143893 particles. (took 0.0299489 sec)
SO iteration 18: need to repeat for 0000007100 particles. (took 0.0260122 sec)
SO iteration 19: need to repeat for 0000000279 particles. (took 0.00379801 sec)
SO iteration 20: need to repeat for 0000000007 particles. (took 0.00219917 sec)
SO iteration 1: need to repeat for 0000187172 particles. (took 0.0365951 sec)
SO iteration 2: need to repeat for 0000187172 particles. (took 0.0353072 sec)
SO iteration 3: need to repeat for 0000187172 particles. (took 0.0356591 sec)
SO iteration 4: need to repeat for 0000187172 particles. (took 0.035846 sec)
SO iteration 5: need to repeat for 0000187172 particles. (took 0.0359919 sec)
SO iteration 6: need to repeat for 0000187172 particles. (took 0.0359321 sec)
SO iteration 7: need to repeat for 0000187172 particles. (took 0.0359309 sec)
SO iteration 8: need to repeat for 0000187172 particles. (took 0.036078 sec)
SO iteration 9: need to repeat for 0000187172 particles. (took 0.036283 sec)
SO iteration 10: need to repeat for 0000187172 particles. (took 0.0359681 sec)
SO iteration 11: need to repeat for 0000187172 particles. (took 0.0357611 sec)
SO iteration 12: need to repeat for 0000187172 particles. (took 0.0357721 sec)
SO iteration 13: need to repeat for 0000187172 particles. (took 0.0359969 sec)
SO iteration 14: need to repeat for 0000187172 particles. (took 0.035933 sec)
SO iteration 15: need to repeat for 0000185093 particles. (took 0.036267 sec)
SO iteration 16: need to repeat for 0000001688 particles. (took 0.03566 sec)
SO iteration 17: need to repeat for 0000000029 particles. (took 0.00281 sec)
SO iteration 1: need to repeat for 0000187172 particles. (took 0.0366988 sec)
SO iteration 2: need to repeat for 0000187172 particles. (took 0.0326889 sec)
SO iteration 3: need to repeat for 0000187172 particles. (took 0.034945 sec)
SO iteration 4: need to repeat for 0000187172 particles. (took 0.0350649 sec)
SO iteration 5: need to repeat for 0000187172 particles. (took 0.035691 sec)
SO iteration 6: need to repeat for 0000187172 particles. (took 0.035697 sec)
SO iteration 7: need to repeat for 0000187172 particles. (took 0.035533 sec)
SO iteration 8: need to repeat for 0000187172 particles. (took 0.0354872 sec)
SO iteration 9: need to repeat for 0000187172 particles. (took 0.0353 sec)
SO iteration 10: need to repeat for 0000187172 particles. (took 0.0356281 sec)
SO iteration 11: need to repeat for 0000187172 particles. (took 0.0358651 sec)
SO iteration 12: need to repeat for 0000187172 particles. (took 0.0355489 sec)
SO iteration 13: need to repeat for 0000187172 particles. (took 0.0353432 sec)
SO iteration 14: need to repeat for 0000187172 particles. (took 0.0357699 sec)
SO iteration 15: need to repeat for 0000185203 particles. (took 0.0354099 sec)
SO iteration 16: need to repeat for 0000003485 particles. (took 0.035017 sec)
SO iteration 17: need to repeat for 0000000056 particles. (took 0.00334787 sec)
SO iteration 18: need to repeat for 0000000001 particles. (took 0.0021069 sec)
SO iteration 1: need to repeat for 0000187172 particles. (took 0.0362918 sec)
SO iteration 2: need to repeat for 0000187172 particles. (took 0.0323911 sec)
SO iteration 3: need to repeat for 0000187172 particles. (took 0.033545 sec)
SO iteration 4: need to repeat for 0000187172 particles. (took 0.033124 sec)
SO iteration 5: need to repeat for 0000187172 particles. (took 0.032721 sec)
SO iteration 6: need to repeat for 0000187172 particles. (took 0.0329082 sec)
SO iteration 7: need to repeat for 0000187172 particles. (took 0.03299 sec)
SO iteration 8: need to repeat for 0000187172 particles. (took 0.033103 sec)
SO iteration 9: need to repeat for 0000187172 particles. (took 0.0329099 sec)
SO iteration 10: need to repeat for 0000187172 particles. (took 0.0329251 sec)
SO iteration 11: need to repeat for 0000187172 particles. (took 0.0331428 sec)
SO iteration 12: need to repeat for 0000187172 particles. (took 0.0329609 sec)
SO iteration 13: need to repeat for 0000187172 particles. (took 0.032989 sec)
SO iteration 14: need to repeat for 0000187172 particles. (took 0.033057 sec)
SO iteration 15: need to repeat for 0000186453 particles. (took 0.0333731 sec)
SO iteration 16: need to repeat for 0000120460 particles. (took 0.032963 sec)
SO iteration 17: need to repeat for 0000001437 particles. (took 0.0261011 sec)
SO iteration 18: need to repeat for 0000000027 particles. (took 0.00262785 sec)
SO iteration 1: need to repeat for 0000187172 particles. (took 0.036792 sec)
SO iteration 2: need to repeat for 0000187172 particles. (took 0.0324719 sec)
SO iteration 3: need to repeat for 0000187172 particles. (took 0.0302949 sec)
SO iteration 4: need to repeat for 0000187172 particles. (took 0.0302849 sec)
SO iteration 5: need to repeat for 0000187172 particles. (took 0.030813 sec)
SO iteration 6: need to repeat for 0000187172 particles. (took 0.03017 sec)
SO iteration 7: need to repeat for 0000187172 particles. (took 0.029907 sec)
SO iteration 8: need to repeat for 0000187172 particles. (took 0.0298479 sec)
SO iteration 9: need to repeat for 0000187172 particles. (took 0.0301561 sec)
SO iteration 10: need to repeat for 0000187172 particles. (took 0.030252 sec)
SO iteration 11: need to repeat for 0000187172 particles. (took 0.0302122 sec)
SO iteration 12: need to repeat for 0000187172 particles. (took 0.0303061 sec)
SO iteration 13: need to repeat for 0000187172 particles. (took 0.030153 sec)
SO iteration 14: need to repeat for 0000187172 particles. (took 0.0300589 sec)
SO iteration 15: need to repeat for 0000187168 particles. (took 0.0302701 sec)
SO iteration 16: need to repeat for 0000186055 particles. (took 0.029932 sec)
SO iteration 17: need to repeat for 0000158589 particles. (took 0.030093 sec)
SO iteration 18: need to repeat for 0000009667 particles. (took 0.027698 sec)
SO iteration 19: need to repeat for 0000000370 particles. (took 0.00441098 sec)
SO iteration 20: need to repeat for 0000000011 particles. (took 0.00229621 sec)
determining spherical overdensity masses took 3.99086 sec
finding spherical overdensity particles took 0.566606 sec
determining contamination of halos took 0.505681 sec
Global sort of Groups took 0.510755 sec
Global sort of SubGroups took 0.794286 sec
Global sort of IDs took 0.300643 sec
Writing block 0 (GLEN), n=299, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1196d
Writing block 1 (GOFF), n=299, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1196d
Writing block 2 (MTOT), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 3 (GPOS), n=299, ptype=0, dtype=1, ndim=3, bpb=4 bytes=3588d
Writing block 4 (MMEA), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 5 (RMEA), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 6 (MCRI), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 7 (RCRI), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 8 (MTOP), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 9 (RTOP), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 17 (NCON), n=299, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1196d
Writing block 18 (MCON), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 22 (NSUB), n=299, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1196d
Writing block 23 (FSUB), n=299, ptype=0, dtype=0, ndim=1, bpb=4 bytes=1196d
Writing block 24 (SLEN), n=1922, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7688d
Writing block 25 (SOFF), n=1922, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7688d
Writing block 26 (SSUB), n=1922, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7688d
Writing block 27 (MSUB), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 28 (SPOS), n=1922, ptype=1, dtype=1, ndim=3, bpb=4 bytes=23064d
Writing block 29 (SVEL), n=1922, ptype=1, dtype=1, ndim=3, bpb=4 bytes=23064d
Writing block 30 (SCM ), n=1922, ptype=1, dtype=1, ndim=3, bpb=4 bytes=23064d
Writing block 33 (VMAX), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 34 (RMAX), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 35 (RHMS), n=1922, ptype=1, dtype=1, ndim=6, bpb=4 bytes=46128d
Writing block 36 (MTRH), n=1922, ptype=1, dtype=1, ndim=6, bpb=4 bytes=46128d
Writing block 37 (MBID), n=1922, ptype=1, dtype=2, ndim=1, bpb=8 bytes=15376d
Writing block 38 (GRNR), n=1922, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7688d
Writing block 39 (SUBN), n=1922, ptype=1, dtype=0, ndim=1, bpb=4 bytes=7688d
Writing block 40 (SMST), n=1922, ptype=1, dtype=1, ndim=6, bpb=4 bytes=46128d
Writing block 53 (PID ), n=176019, ptype=2, dtype=2, ndim=1, bpb=8 bytes=1408152d
Writing block 54 (SLEN), n=1922, ptype=1, dtype=0, ndim=6, bpb=4 bytes=46128d
Writing block 55 (STEN), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 56 (SKEN), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 57 (SUEN), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 58 (SUIT), n=1922, ptype=1, dtype=1, ndim=9, bpb=4 bytes=69192d
Writing block 59 (BHMA), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 60 (BHMD), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 61 (SVD ), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 62 (SVDH), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 63 (HMPR), n=1922, ptype=1, dtype=1, ndim=6, bpb=4 bytes=46128d
Writing block 64 (SSFR), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 65 (SSA ), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 66 (SSBZ), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 67 (SSIM), n=1922, ptype=1, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 68 (SSPI), n=1922, ptype=4, dtype=1, ndim=3, bpb=4 bytes=23064d
Writing block 69 (GSPI), n=1922, ptype=1, dtype=1, ndim=3, bpb=4 bytes=23064d
Writing block 70 (FSPI), n=1922, ptype=5, dtype=1, ndim=3, bpb=4 bytes=23064d
Writing block 71 (SFM ), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 72 (SFMT), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 73 (SFME), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 74 (SFAE), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 75 (SFKE), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 76 (SFTE), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 77 (SMWP), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 78 (SMM ), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 79 (SMMS), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 80 (SFZ ), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 81 (SFZS), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 82 (SSIA), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 83 (SIAS), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 84 (SMET), n=1922, ptype=5, dtype=1, ndim=9, bpb=4 bytes=69192d
Writing block 85 (SMTS), n=1922, ptype=5, dtype=1, ndim=9, bpb=4 bytes=69192d
Writing block 86 (MF1 ), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 87 (MeF1), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 88 (MF  ), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 89 (MeF2), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 90 (MFA ), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 91 (MeFA), n=1922, ptype=5, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 92 (NSPI), n=1922, ptype=6, dtype=1, ndim=3, bpb=4 bytes=23064d
Writing block 93 (NFM ), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 94 (NFMT), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 95 (NFME), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 96 (NFAE), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 97 (NFKE), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 98 (NFTE), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 99 (SMWP), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 100 (SMM ), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 101 (SMMS), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 102 (SSIA), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 103 (SIAS), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 104 (SMET), n=1922, ptype=6, dtype=1, ndim=9, bpb=4 bytes=69192d
Writing block 105 (SMTS), n=1922, ptype=6, dtype=1, ndim=9, bpb=4 bytes=69192d
Writing block 106 (MF1 ), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 107 (MeF1), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 108 (MF2 ), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 109 (MeF2), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 110 (MFA ), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 111 (MeFA), n=1922, ptype=6, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 112 (SM  ), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 113 (SFKE), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 114 (SFAE), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 115 (SMWP), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 116 (SMM ), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 117 (SMMS), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 118 (SSIA), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 119 (SIAS), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 120 (SMET), n=1922, ptype=4, dtype=1, ndim=9, bpb=4 bytes=69192d
Writing block 121 (SMTS), n=1922, ptype=4, dtype=1, ndim=9, bpb=4 bytes=69192d
Writing block 122 (MF1 ), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 123 (MeF1), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 124 (MF2 ), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 125 (MeF2), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 126 (MFA ), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 127 (MeFA), n=1922, ptype=4, dtype=1, ndim=1, bpb=4 bytes=7688d
Writing block 128 (MMe5), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 129 (RMe5), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 130 (MCr5), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 131 (RCr5), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 132 (MMe2), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 133 (RMe2), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 134 (MCr2), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 135 (RCr2), n=299, ptype=0, dtype=1, ndim=1, bpb=4 bytes=1196d
Writing block 136 (MAPT), n=1922, ptype=7, dtype=1, ndim=60, bpb=4 bytes=461280d
Writing block 137 (SAPT), n=1922, ptype=8, dtype=1, ndim=10, bpb=4 bytes=76880d
Writing block 138 (VAPT), n=1922, ptype=9, dtype=1, ndim=10, bpb=4 bytes=76880d
Writing block 139 (BEGY), n=176019, ptype=2, dtype=1, ndim=1, bpb=4 bytes=704076d
Subgroup catalogues saved. took = 10.097 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.

writing particle file...
 eagle_ph_key_ort: type= 0 timed by volker 4.256129e-01
 eagle_ph_key_ort: type= 1 timed by volker 4.309649e-01
 eagle_ph_key_ort: type= 2 timed by volker 8.984518e-02
 eagle_ph_key_ort: type= 3 timed by volker 5.283904e-02
 eagle_ph_key_ort: type= 4 timed by volker 1.188700e-01
 eagle_ph_key_ort: type= 5 timed by volker 6.769419e-02
 eagle_ph_key_ort: timing parallel sort = 1.199175e+00
 eagle_fetch_elements: we are using 1138142112 bytes of memory, FreeBytes= 1422677640

At 'EAGLE_FETCH_ELEMENTS_START', eagle_fetch_elements()/eagle/eagle_sort_particles.c/158: Largest Allocation = 2593.23 Mbyte (on task=0), Smallest = 2048.61 Mbyte, Average = 2057.48 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5715  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8591    1020.4306  allocate_memory()/allocate.c/67
   0 2970 0              SphP    749.7957    1770.2264  allocate_memory()/allocate.c/85
   0 2971 0              MetP    154.7216    1924.9479  allocate_memory()/allocate.c/105
   0 2972 0               BHP     19.0422    1943.9902  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1944.1659  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1944.3417  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.7832    1971.1249  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.3173    1989.4422  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.5288    2019.9709  fof_fof()/fof.c/337
   0 2978 0             Group      0.5198    2020.4908  fof_fof()/fof.c/380
   0 2979 0          SubGroup    554.2988    2574.7896  subfind()/subfind.c/376
   0 2980 0   sort_index_data     18.4393    2593.2289  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
----------------------------------------------------------------------------------------
 eagle_fetch_elements: max_bytes= 320, max_elements= 1344412 number of bytes = 430211840

At 'EAGLE_FETCH_ELEMENTS', eagle_fetch_elements()/eagle/eagle_sort_particles.c/191: Largest Allocation = 3675.04 Mbyte (on task=0), Smallest = 3125.03 Mbyte, Average = 3137.65 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   0 2964 0  Sendcount_matrix      1.9775       3.8866  allocate_memory()/allocate.c/41
   0 2965 0     ProcessedFlag      3.0527       6.9393  allocate_memory()/allocate.c/52
   0 2966 0  NextActiveParticle     12.2107      19.1500  allocate_memory()/allocate.c/55
   0 2967 0     NextInTimeBin     12.2107      31.3607  allocate_memory()/allocate.c/58
   0 2968 0     PrevInTimeBin     12.2107      43.5715  allocate_memory()/allocate.c/61
   0 2969 0                 P    976.8591    1020.4306  allocate_memory()/allocate.c/67
   0 2970 0              SphP    749.7957    1770.2264  allocate_memory()/allocate.c/85
   0 2971 0              MetP    154.7216    1924.9479  allocate_memory()/allocate.c/105
   0 2972 0               BHP     19.0422    1943.9902  allocate_memory()/allocate.c/126
   0 2973 0   DomainStartList      0.1758    1944.1659  domain_allocate()/domain.c/562
   0 2974 0     DomainEndList      0.1758    1944.3417  domain_allocate()/domain.c/565
   0 2975 0          TopNodes     26.7832    1971.1249  domain_allocate()/domain.c/570
   0 2976 0         FOF_PList     18.3173    1989.4422  fof_fof()/fof.c/249
   0 2977 0         FOF_GList     30.5288    2019.9709  fof_fof()/fof.c/337
   0 2978 0             Group      0.5198    2020.4908  fof_fof()/fof.c/380
   0 2979 0          SubGroup    554.2988    2574.7896  subfind()/subfind.c/376
   0 2980 0   sort_index_data     18.4393    2593.2289  eagle_ph_key_sort()/eagle/eagle_sort_particles.c/602
   0 2981 0          sort_idx      5.1285    2598.3574  eagle_fetch_elements()/eagle/eagle_sort_particles.c/184
   0 2982 0       idx_to_recv      5.1285    2603.4859  eagle_fetch_elements()/eagle/eagle_sort_particles.c/185
   0 2983 0       idx_to_send      5.1285    2608.6144  eagle_fetch_elements()/eagle/eagle_sort_particles.c/186
   0 2984 0           sendbuf    410.2820    3018.8964  eagle_fetch_elements()/eagle/eagle_sort_particles.c/187
   0 2985 0           recvbuf    410.2820    3429.1784  eagle_fetch_elements()/eagle/eagle_sort_particles.c/188
   0 2986 0            result    245.8572    3675.0357  eagle_fetch_elements()/eagle/eagle_sort_particles.c/189
----------------------------------------------------------------------------------------
 eagle_ph_key_ort: timing parallel P exchange = 2.895612e+00
 eagle_fetch_elements: we are using 1138142112 bytes of memory, FreeBytes= 1422677640
 eagle_fetch_elements: max_bytes= 504, max_elements= 919061 number of bytes = 463206744
 eagle_ph_key_ort: timing parallel SphP exchange = 2.137705e+00
 eagle_fetch_elements: we are using 1138142112 bytes of memory, FreeBytes= 1422677640
 eagle_fetch_elements: max_bytes= 384, max_elements= 1435950 number of bytes = 551404800
 eagle_ph_key_ort: timing parallel MetP exchange = 1.396649e-01
 eagle_fetch_elements: we are using 1138142112 bytes of memory, FreeBytes= 1422677640
 eagle_fetch_elements: max_bytes= 256, max_elements= 2172005 number of bytes = 556033280
 eagle_ph_key_ort: timing parallel BHP exchange = 8.095026e-03
Sorting particle-data by peano-hilbert key took = 6.66361 sec
Calculating hash table
Writing hash table
 eagle_send_elements: we are using 1138142112 bytes of memory
 eagle_send_elements: max_bytes= 320, max_elements= 1344412 number of bytes= 430211840
 eagle_ph_restore: timing parallel P exchange = 2.904287e+00
 eagle_send_elements: we are using 1138142112 bytes of memory
 eagle_send_elements: max_bytes= 504, max_elements= 919061 number of bytes= 463206744
 eagle_ph_restore: timing parallel SphP exchange = 2.210184e+00
 eagle_send_elements: we are using 1138142112 bytes of memory
 eagle_send_elements: max_bytes= 384, max_elements= 1435950 number of bytes= 551404800
 eagle_ph_restore: timing parallel MetP exchange = 1.467359e-01
 eagle_send_elements: we are using 1138142112 bytes of memory
 eagle_send_elements: max_bytes= 256, max_elements= 2172005 number of bytes= 556033280
 eagle_ph_restore: timing parallel BHP exchange = 6.189823e-03
Restoring original order after ph key sorting took = 5.28499 sec

finished writing particle file...

Finished with SUBFIND.  (total time=2051.26 sec)

Finished computing FoF groups.  (presently allocated=1971.12 MB)

Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1943.99 MB)
Allocated 38.8142 MByte for top-level domain structure
use of 83.6497 MB of temporary storage for domain decomposition... (presently allocated=2066.45 MB)
Before=483265
After=540009
NTopleaves= 472508  NTopnodes=540009 (space for 775596)
gravity work-load balance=1.0261   memory-balance=1.0261   SPH work-load balance=1.02361
iter=0 exchange of 0575227881 particles (ret=0)
domain decomposition done. (took 8.90606 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 10.7843 MByte in top-level domain structure
Tree construction.
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 45: endrun called with an error level of 124


task 45: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 45:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 45
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 90: endrun called with an error level of 124


task 90: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 90:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 90
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 135: endrun called with an error level of 124


task 135: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 135:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 135
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
task 180: endrun called with an error level of 124


task 180: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 180:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 180
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 225: endrun called with an error level of 124


task 225: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 225:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 225
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 270: endrun called with an error level of 124


task 270: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 270:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 270
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 315: endrun called with an error level of 124


task 315: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 315:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 315
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 360:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 360: endrun called with an error level of 124


task 360: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 360
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 360:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 360
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 405:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 405: endrun called with an error level of 124


task 405: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 405
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 405:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 405
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 450:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 450: endrun called with an error level of 124


task 450: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 450
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 450:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 450
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 495:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 495: endrun called with an error level of 124


task 495: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 495
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 495:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 495
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 540:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 540: endrun called with an error level of 124


task 540: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 540
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 540:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 540
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 585:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 585: endrun called with an error level of 124


task 585: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 585
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 585:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 585
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 630:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 630
task 630: endrun called with an error level of 124


task 630: endrun called with an error level of 124


 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 630:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 630
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 675:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 675: endrun called with an error level of 124


task 675: endrun called with an error level of 124


application called MPI_Abort(MPI_COMM_WORLD, 124) - process 675
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 675:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 675
Finished FOF, total time doing fof/subfind = 2091.1 s
 An HDF5 error was detected, we'd better stop.
HDF5-DIAG: Error detected in HDF5 (1.8.12) MPI-process 0:
  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
task 0: endrun called with an error level of 124


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


  #000: ../../hdf5-1.8.12/src/H5E.c line 1615 in H5Eget_auto2(): wrong API function, H5Eset_auto1 has been called
    major: Error API
    minor: Can't get value
application called MPI_Abort(MPI_COMM_WORLD, 124) - process 0
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
/afs/@cell/common/usr/modules/amd64_sles11/Modules/3.2.10/bin/modulecmd: Command not found.
-------------------------------------------------------------------------------------------
AvailMem:	 Largest =   62712.36 Mb (on task=400), Smallest =   62511.16 Mb (on task=0), Average =   62663.73 Mb
Total Mem:	 Largest =   64532.39 Mb (on task=176), Smallest =   64531.71 Mb (on task=224), Average =   64532.01 Mb
Committed_AS:	 Largest =    2020.83 Mb (on task=0), Smallest =    1819.64 Mb (on task=400), Average =    1868.29 Mb
SwapTotal:	 Largest =   16384.00 Mb (on task=0), Smallest =   16384.00 Mb (on task=0), Average =   16384.00 Mb
SwapFree:	 Largest =   16384.00 Mb (on task=32), Smallest =   16266.08 Mb (on task=96), Average =   16311.01 Mb
AllocMem:	 Largest =    2020.83 Mb (on task=0), Smallest =    1819.64 Mb (on task=400), Average =    1868.29 Mb
-------------------------------------------------------------------------------------------
Task with the maximum commited memoryodin131

This is P-Gadget, version 3.0.

Running on 720 MPI tasks.

Code was compiled with settings:

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

Size of particle structure       320  [bytes]

Size of sph particle structure   504  [bytes]

Size of star particle structure 384  [bytes]


Size of BH particle structure    256  [bytes]

Obtaining parameters from file 'eagle.param.subfind.N16':
RunLabel                           "HaloF6_N256_ODIN_ID207"
InitCondFile                       ../ICs/snap_000
OutputDir                          data
EnergyFile                         energy.txt
InfoFile                           info.txt
TimingsFile                        timings.txt
CpuFile                            cpu.txt
TimebinFile                        timebins.txt
SnapshotFileBase                   snap
SmallSnapshotFileBase              snip
RestartFile                        restart
CoolTablePath                      /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/
YieldTablePath                     /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/YieldTables/
TimeLimitCPU                       96000
ResubmitOn                         1
ResubmitCommand                    ./autoresubmit.sh
MaxMemSize                         3950
SnapFormat                         3
FoFFormat                          3
ICFormat                           3
NumFilesPerSnapshot                16
NumFilesWrittenInParallel          16
SmallOutputTar                     1
ComovingIntegrationOn              1
CoolingOn                          1
MetDepCoolingOn                    1
StarformationOn                    1
StellarEnergyFeedbackOn            1
StellarMetalFeedbackOn             1
SNII_MassTransferOn                1
SNII_EnergyTransferOn              1
SNII_WindIsotropicOn               1
SNIa_MassTransferOn                1
SNIa_EnergyTransferOn              1
SNIa_EnergyTransferStochastic      1
AGB_MassTransferOn                 1
AGB_EnergyTransferOn               1
StellarEvol_FeedbackOn             1
PartAllocFactor                    4
MetAllocFactor                     0.25
BHAllocFactor                      0.05
BufferSize                         400
TimeBegin                          0.0078125
TimeMax                            1
UnitLength_in_cm                   3.08568e+24
UnitMass_in_g                      1.989e+43
UnitVelocity_in_cm_per_s           100000
GravityConstantInternal            0
PeriodicBoundariesOn               1
BoxSize                            2168.64
Omega0                             0.307
OmegaLambda                        0.693
OmegaBaryon                        0.0482519
HubbleParam                        0.6777
MinGasHsmlFractional               0.1
SofteningGas                       0.00180239
SofteningHalo                      0.00180239
SofteningDisk                      0.01
SofteningBulge                     0.05
SofteningStars                     0.00180239
SofteningBndry                     0.00180239
SofteningGasMaxPhys                0.00047439
SofteningHaloMaxPhys               0.00047439
SofteningDiskMaxPhys               0.0025
SofteningBulgeMaxPhys              0.0125
SofteningStarsMaxPhys              0.00047439
SofteningBndryMaxPhys              0.00047439
OutputListOn                       1
OutputListFilename                 /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snapshots_plus.dat
TimeBetSnapshot                    0
TimeOfFirstSnapshot                0
SmallOutputListOn                  1
ExtraOutputListFilename            /ptmp/mpa/ybahe/HYDRANGEA/OutputLists/hydrangea_snipshots_minimal.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 1 times in small output-list.

found 1 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 1016.55 MByte for particle storage.

Allocated 753.395 MByte for storage of SPH data.

Allocated 152.668 MByte for storage of MET data.

Allocated 19.1338 MByte for storage of BH data.


reading file `data//snapshot_005_z002p348/snap_005_z002p348.0.hdf5' on task=0 (contains 36070023 particles.)
distributing this file to tasks 0-44
Type 0 (gas):   17683670  (tot=     0282140476) masstab=0
Type 1 (halo):  17968202  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     13430  (tot=     0000254233) masstab=0
Type 3 (bulge):   154636  (tot=     0002602064) masstab=0
Type 4 (stars):   249230  (tot=     0004504656) masstab=0
Type 5 (bndry):      855  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.9.hdf5' on task=405 (contains 35995784 particles.)
distributing this file to tasks 405-449
Type 0 (gas):   17637921  (tot=     0282140476) masstab=0
Type 1 (halo):  17875069  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      5379  (tot=     0000254233) masstab=0
Type 3 (bulge):   148228  (tot=     0002602064) masstab=0
Type 4 (stars):   328295  (tot=     0004504656) masstab=0
Type 5 (bndry):      892  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.15.hdf5' on task=675 (contains 36191078 particles.)
distributing this file to tasks 675-719
Type 0 (gas):   17669043  (tot=     0282140476) masstab=0
Type 1 (halo):  18028336  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14419  (tot=     0000254233) masstab=0
Type 3 (bulge):   165531  (tot=     0002602064) masstab=0
Type 4 (stars):   312898  (tot=     0004504656) masstab=0
Type 5 (bndry):      851  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.10.hdf5' on task=450 (contains 36228502 particles.)
distributing this file to tasks 450-494
Type 0 (gas):   17735768  (tot=     0282140476) masstab=0
Type 1 (halo):  18010892  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21000  (tot=     0000254233) masstab=0
Type 3 (bulge):   186854  (tot=     0002602064) masstab=0
Type 4 (stars):   273136  (tot=     0004504656) masstab=0
Type 5 (bndry):      852  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.13.hdf5' on task=585 (contains 35933890 particles.)
distributing this file to tasks 585-629
Type 0 (gas):   17633214  (tot=     0282140476) masstab=0
Type 1 (halo):  17920493  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     14033  (tot=     0000254233) masstab=0
Type 3 (bulge):   110451  (tot=     0002602064) masstab=0
Type 4 (stars):   254892  (tot=     0004504656) masstab=0
Type 5 (bndry):      807  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.7.hdf5' on task=315 (contains 36088805 particles.)
distributing this file to tasks 315-359
Type 0 (gas):   17686517  (tot=     0282140476) masstab=0
Type 1 (halo):  17977377  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     26992  (tot=     0000254233) masstab=0
Type 3 (bulge):   156779  (tot=     0002602064) masstab=0
Type 4 (stars):   240248  (tot=     0004504656) masstab=0
Type 5 (bndry):      892  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.2.hdf5' on task=90 (contains 36097723 particles.)
distributing this file to tasks 90-134
Type 0 (gas):   17670282  (tot=     0282140476) masstab=0
Type 1 (halo):  17959398  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     22907  (tot=     0000254233) masstab=0
Type 3 (bulge):   196226  (tot=     0002602064) masstab=0
Type 4 (stars):   248037  (tot=     0004504656) masstab=0
Type 5 (bndry):      873  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.4.hdf5' on task=180 (contains 36102238 particles.)
distributing this file to tasks 180-224
Type 0 (gas):   17721891  (tot=     0282140476) masstab=0
Type 1 (halo):  17793972  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     18961  (tot=     0000254233) masstab=0
Type 3 (bulge):   288589  (tot=     0002602064) masstab=0
Type 4 (stars):   278015  (tot=     0004504656) masstab=0
Type 5 (bndry):      810  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.11.hdf5' on task=495 (contains 36046030 particles.)
distributing this file to tasks 495-539
Type 0 (gas):   17606609  (tot=     0282140476) masstab=0
Type 1 (halo):  17998334  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16964  (tot=     0000254233) masstab=0
Type 3 (bulge):   135818  (tot=     0002602064) masstab=0
Type 4 (stars):   287439  (tot=     0004504656) masstab=0
Type 5 (bndry):      866  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.1.hdf5' on task=45 (contains 35767360 particles.)
distributing this file to tasks 45-89
Type 0 (gas):   17652790  (tot=     0282140476) masstab=0
Type 1 (halo):  17734666  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     12885  (tot=     0000254233) masstab=0
Type 3 (bulge):   113611  (tot=     0002602064) masstab=0
Type 4 (stars):   252592  (tot=     0004504656) masstab=0
Type 5 (bndry):      816  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.6.hdf5' on task=270 (contains 35874376 particles.)
distributing this file to tasks 270-314
Type 0 (gas):   17587325  (tot=     0282140476) masstab=0
Type 1 (halo):  17827232  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):      8839  (tot=     0000254233) masstab=0
Type 3 (bulge):   170120  (tot=     0002602064) masstab=0
Type 4 (stars):   280006  (tot=     0004504656) masstab=0
Type 5 (bndry):      854  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.14.hdf5' on task=630 (contains 36025519 particles.)
distributing this file to tasks 630-674
Type 0 (gas):   17577891  (tot=     0282140476) masstab=0
Type 1 (halo):  17902980  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     16706  (tot=     0000254233) masstab=0
Type 3 (bulge):   231889  (tot=     0002602064) masstab=0
Type 4 (stars):   295176  (tot=     0004504656) masstab=0
Type 5 (bndry):      877  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.5.hdf5' on task=225 (contains 36041643 particles.)
distributing this file to tasks 225-269
Type 0 (gas):   17648658  (tot=     0282140476) masstab=0
Type 1 (halo):  17916869  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     20160  (tot=     0000254233) masstab=0
Type 3 (bulge):   162295  (tot=     0002602064) masstab=0
Type 4 (stars):   292848  (tot=     0004504656) masstab=0
Type 5 (bndry):      813  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.8.hdf5' on task=360 (contains 35816279 particles.)
distributing this file to tasks 360-404
Type 0 (gas):   17483172  (tot=     0282140476) masstab=0
Type 1 (halo):  17915876  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10274  (tot=     0000254233) masstab=0
Type 3 (bulge):   102562  (tot=     0002602064) masstab=0
Type 4 (stars):   303506  (tot=     0004504656) masstab=0
Type 5 (bndry):      889  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.12.hdf5' on task=540 (contains 35720058 particles.)
distributing this file to tasks 540-584
Type 0 (gas):   17458977  (tot=     0282140476) masstab=0
Type 1 (halo):  17850323  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     10101  (tot=     0000254233) masstab=0
Type 3 (bulge):    40017  (tot=     0002602064) masstab=0
Type 4 (stars):   359766  (tot=     0004504656) masstab=0
Type 5 (bndry):      874  (tot=     0000013681) masstab=0


reading file `data//snapshot_005_z002p348/snap_005_z002p348.3.hdf5' on task=135 (contains 36176532 particles.)
distributing this file to tasks 135-179
Type 0 (gas):   17686748  (tot=     0282140476) masstab=0
Type 1 (halo):  17980711  (tot=     0286660730) masstab=0.000658237
Type 2 (disk):     21183  (tot=     0000254233) masstab=0
Type 3 (bulge):   238458  (tot=     0002602064) masstab=0
Type 4 (stars):   248572  (tot=     0004504656) masstab=0
Type 5 (bndry):      860  (tot=     0000013681) masstab=0

 Converting element abundances to metal masses ... 
reading done.
Total number of particles :  0576175840


Setting next time for grid output file to Time_next= 0.303258

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

Setting next time for snipshot file to Time_next= 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=5.03453 sec
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1945.63 MB)
Allocated 1.62149 MByte for top-level domain structure
use of 26.4302 MB of temporary storage for domain decomposition... (presently allocated=1973.68 MB)

At 'DOMAIN', domain_Decomposition()/domain.c/310: Largest Allocation = 1973.69 Mbyte (on task=1), Smallest = 1973.69 Mbyte, Average = 1973.69 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
   1 2964 0  Sendcount_matrix      1.9775       3.8876  allocate_memory()/allocate.c/41
   1 2965 0     ProcessedFlag      3.0527       6.9403  allocate_memory()/allocate.c/52
   1 2966 0  NextActiveParticle     12.2108      19.1511  allocate_memory()/allocate.c/55
   1 2967 0     NextInTimeBin     12.2108      31.3618  allocate_memory()/allocate.c/58
   1 2968 0     PrevInTimeBin     12.2108      43.5726  allocate_memory()/allocate.c/61
   1 2969 0                 P    976.8604    1020.4329  allocate_memory()/allocate.c/67
   1 2970 0              SphP    753.3949    1773.8278  allocate_memory()/allocate.c/85
   1 2971 0              MetP    152.6678    1926.4956  allocate_memory()/allocate.c/105
   1 2972 0               BHP     19.1338    1945.6294  allocate_memory()/allocate.c/126
   1 2973 0   DomainStartList      0.1758    1945.8052  domain_allocate()/domain.c/562
   1 2974 0     DomainEndList      0.1758    1945.9810  domain_allocate()/domain.c/565
   1 2975 0          TopNodes      1.2699    1947.2509  domain_allocate()/domain.c/570
   1 2976 0        domain_key     24.4215    1971.6724  domain_Decomposition()/domain.c/231
   1 3001 0          topNodes      1.3676    1973.6811  domain_Decomposition()/domain.c/290
----------------------------------------------------------------------------------------
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.008  new value=0.0104
Allocated 2.0025 MByte for top-level domain structure
use of 27.0163 MB of temporary storage for domain decomposition... (presently allocated=1974.65 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0104  new value=0.01352
Allocated 2.49776 MByte for top-level domain structure
use of 27.7783 MB of temporary storage for domain decomposition... (presently allocated=1975.9 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.01352  new value=0.017576
Allocated 3.14161 MByte for top-level domain structure
use of 28.7688 MB of temporary storage for domain decomposition... (presently allocated=1977.54 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.017576  new value=0.0228488
Allocated 3.9786 MByte for top-level domain structure
use of 30.0565 MB of temporary storage for domain decomposition... (presently allocated=1979.66 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0228488  new value=0.0297034
Allocated 5.06668 MByte for top-level domain structure
use of 31.7305 MB of temporary storage for domain decomposition... (presently allocated=1982.43 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0297034  new value=0.0386145
Allocated 6.48122 MByte for top-level domain structure
use of 33.9067 MB of temporary storage for domain decomposition... (presently allocated=1986.02 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0386145  new value=0.0501988
Allocated 8.32015 MByte for top-level domain structure
use of 36.7358 MB of temporary storage for domain decomposition... (presently allocated=1990.68 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0501988  new value=0.0652585
Allocated 10.7107 MByte for top-level domain structure
use of 40.4136 MB of temporary storage for domain decomposition... (presently allocated=1996.75 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.0652585  new value=0.084836
Allocated 13.8184 MByte for top-level domain structure
use of 45.1947 MB of temporary storage for domain decomposition... (presently allocated=2004.64 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.084836  new value=0.110287
Allocated 17.8585 MByte for top-level domain structure
use of 51.4102 MB of temporary storage for domain decomposition... (presently allocated=2014.9 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.110287  new value=0.143373
Allocated 23.1105 MByte for top-level domain structure
use of 59.4902 MB of temporary storage for domain decomposition... (presently allocated=2028.23 MB)
Before=393897
Increasing TopNodeAllocFactor=0.143373  new value=0.186385
Allocated 29.9382 MByte for top-level domain structure
use of 69.9944 MB of temporary storage for domain decomposition... (presently allocated=2045.56 MB)
Before=393897
After=510873
NTopleaves= 447014  NTopnodes=510873 (space for 596613)
gravity work-load balance=1.01658   memory-balance=1.01658   SPH work-load balance=1.01737
iter=0 exchange of 0575596664 particles (ret=0)
domain decomposition done. (took 27.1046 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 3.92487 MByte in top-level domain structure

Allocated 488.21 MByte for BH-tree, and 1.70522 Mbyte for top-leaves.  (presently allocted 2461.23 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 predicted entropy from the internal energies read in the file...
Computing the predicted entropy from the internal energies read in the file...
Ngb-Tree contruction finished 
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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...

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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
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 weighted densities to get the temperatures...
Computing the weighted densities to get the temperatures...

At 'SPH_DENSITY', density()/density.c/935: Largest Allocation = 2752.87 Mbyte (on task=165), Smallest = 2719.18 Mbyte, Average = 2736.84 Mbyte

------------------------ Allocated Memory Blocks----------------------------------------
Task   Nr F          Variable      MBytes   Cumulative         Function/File/Linenumber
----------------------------------------------------------------------------------------
 165 2964 0  Sendcount_matrix      1.9775       3.8876  allocate_memory()/allocate.c/41
 165 2965 0     ProcessedFlag      3.0527       6.9403  allocate_memory()/allocate.c/52
 165 2966 0  NextActiveParticle     12.2108      19.1511  allocate_memory()/allocate.c/55
 165 2967 0     NextInTimeBin     12.2108      31.3618  allocate_memory()/allocate.c/58
 165 2968 0     PrevInTimeBin     12.2108      43.5726  allocate_memory()/allocate.c/61
 165 2969 0                 P    976.8604    1020.4329  allocate_memory()/allocate.c/67
 165 2970 0              SphP    753.3949    1773.8278  allocate_memory()/allocate.c/85
 165 2971 0              MetP    152.6678    1926.4956  allocate_memory()/allocate.c/105
 165 2972 0               BHP     19.1338    1945.6294  allocate_memory()/allocate.c/126
 165 2973 0   DomainStartList      0.1758    1945.8052  domain_allocate()/domain.c/562
 165 2974 0     DomainEndList      0.1758    1945.9810  domain_allocate()/domain.c/565
 165 2975 0          TopNodes     25.3347    1971.3157  domain_allocate()/domain.c/570
 165 2976 0   DomainNodeIndex      1.7052    1973.0210  force_treeallocate()/forcetree.c/4800
 165 2977 0        Nodes_base    251.9126    2224.9335  force_treeallocate()/forcetree.c/4803
 165 2978 0     Extnodes_base    209.9271    2434.8607  force_treeallocate()/forcetree.c/4811
 165 2979 0          Nextnode     14.1596    2449.0202  force_treeallocate()/forcetree.c/4820
 165 2980 0            Father     12.2108    2461.2310  force_treeallocate()/forcetree.c/4827
 165 2981 0           Ngblist      3.0303    2464.2613  density()/density.c/690
 165 2982 0              Left      6.0605    2470.3218  density()/density.c/692
 165 2983 0             Right      6.0605    2476.3823  density()/density.c/693
 165 2984 0    DataIndexTable      7.0175    2483.3998  density()/density.c/738
 165 2985 0      DataNodeList     18.7134    2502.1133  density()/density.c/740
 165 2986 0       DensDataGet     68.6805    2570.7938  density()/density.c/893
 165 2987 0    DensDataResult     90.5334    2661.3272  density()/density.c/931
 165 2988 0       DensDataOut     91.5383    2752.8655  density()/density.c/933
----------------------------------------------------------------------------------------
ngb iteration 1: need to repeat for 0000358446 particles.
ngb iteration 2: need to repeat for 0000000171 particles.
ngb iteration 3: need to repeat for 0000000058 particles.
ngb iteration 4: need to repeat for 0000000055 particles.
ngb iteration 5: need to repeat for 0000000015 particles.
ngb iteration 6: need to repeat for 0000000011 particles.
ngb iteration 7: need to repeat for 0000000003 particles.
ngb iteration 8: need to repeat for 0000000001 particles.
GetCoolingTables: Redshift 1 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_2.316.hdf5
GetCoolingTables: Redshift 2 /ptmp/mpa/ybahe/HYDRANGEA/BG_Tables/CoolingTables/z_2.479.hdf5

Begin to compute FoF group catalogues...  (presently allocated=2461.23 MB)
Blackholes: Eliminated 0 gas particles and merged away 0 black holes.
domain decomposition... LevelToTimeBin[TakeLevel=0]=0  (presently allocated=1945.63 MB)
Allocated 29.9382 MByte for top-level domain structure
use of 69.9944 MB of temporary storage for domain decomposition... (presently allocated=2045.56 MB)
can't combine trees due to lack of storage. Will try again.
Increasing TopNodeAllocFactor=0.186385  new value=0.2423
Allocated 38.8142 MByte for top-level domain structure
use of 83.6498 MB of temporary storage for domain decomposition... (presently allocated=2068.09 MB)
Before=479569
After=533217
NTopleaves= 466565  NTopnodes=533217 (space for 775597)
gravity work-load balance=1.02102   memory-balance=1.02102   SPH work-load balance=1.02184
iter=0 exchange of 0575191569 particles (ret=0)
domain decomposition done. (took 12.0726 sec)
begin Peano-Hilbert order...
Peano-Hilbert done.
Freed 11.0953 MByte in top-level domain structure

Comoving linking length: 0.00901747    (presently allocated=1972.42 MB)
Tree construction.

Start linking particles (presently allocated=2503.27 MB)
links on local processor done (took 1.59913 sec).
Marked=0040410777 out of the 0286660730 primaries which are linked

linking across processors (presently allocated=2601.12 MB) 
have done 0001126340 cross links (processed 0040410777, took 1.34669 sec)
have done 0000382688 cross links (processed 0020748953, took 0.562797 sec)
have done 0000216625 cross links (processed 0014547922, took 0.525337 sec)
have done 0000111591 cross links (processed 0007466500, took 0.430341 sec)
have done 0000058553 cross links (processed 0003756734, took 0.332794 sec)
have done 0000030055 cross links (processed 0001823787, took 0.269763 sec)
have done 0000015429 cross links (processed 0001172945, took 0.222024 sec)
have done 0000007653 cross links (processed 0000543892, took 0.170816 sec)
have done 0000003388 cross links (processed 0000138781, took 0.0795331 sec)
have done 0000001448 cross links (processed 0000032673, took 0.043226 sec)
have done 0000000801 cross links (processed 0000023500, took 0.0437641 sec)
have done 0000000484 cross links (processed 0000021021, took 0.047312 sec)
have done 0000000280 cross links (processed 0000010659, took 0.0468881 sec)
have done 0000000144 cross links (processed 0000002887, took 0.0337849 sec)
have done 0000000055 cross links (processed 0000001256, took 0.0335219 sec)
have done 0000000014 cross links (processed 0000000277, took 0.032753 sec)
have done 0000000005 cross links (processed 0000000054, took 0.032485 sec)
have done 0000000002 cross links (processed 0000000008, took 0.032398 sec)
have done 0000000000 cross links (processed 0000000004, took 0.032598 sec)
Local groups found.

group finding took = 6.00181 sec
Start finding nearest dm-particle (presently allocated=2503.27 MB)
still finding nearest... (presently allocated=2591.41 MB)
fof-nearest iteration 1: need to repeat for 270284287 particles.
still finding nearest... (presently allocated=2591.1 MB)
fof-nearest iteration 2: need to repeat for 246426862 particles.
still finding nearest... (presently allocated=2592.12 MB)
fof-nearest iteration 3: need to repeat for 216316285 particles.
still finding nearest... (presently allocated=2593.62 MB)
fof-nearest iteration 4: need to repeat for 187409659 particles.
still finding nearest... (presently allocated=2595.98 MB)
fof-nearest iteration 5: need to repeat for 137181480 particles.
still finding nearest... (presently allocated=2598.57 MB)
fof-nearest iteration 6: need to repeat for 63228060 particles.
still finding nearest... (presently allocated=2597.65 MB)
done finding nearest dm-particle
attaching gas and star particles to nearest dm particles took = 4.32713 sec
compiling local group data and catalogue took = 0.604698 sec

Total number of groups with at least 32 particles: 219621
Largest group has 2399409 particles.
Total number of particles in groups: 0113788628

group properties are now allocated.. (presently allocated=2022.23 MB)
computation of group properties took = 0.046087 sec
start global sorting of group catalogues number 5
LargestGroup = 1135.127740; SmallestGroup = 0.021064
tagging gas particles with halo masses took = 0.0461121 sec
Group catalogues globally sorted. took = 1.29367 sec
starting saving of group catalogue number 5
data//groups_005_z002p348
Group catalogues number 5 saved. took = 3.05308 sec

We now execute a parallel version of SUBFIND.
Tree construction for species 0 (282140476).
tree build for species 0 took 0.626037 sec
finding densities, mode 0 
ngb iteration 1: need to repeat for 0221160547 particles. (took 6.6687 sec)
ngb iteration 2: need to repeat for 0192769544 particles. (took 4.45833 sec)
ngb iteration 3: need to repeat for 0178270509 particles. (took 3.77249 sec)
ngb iteration 4: need to repeat for 0165981609 particles. (took 3.47734 sec)
ngb iteration 5: need to repeat for 0149873846 particles. (took 3.32932 sec)
ngb iteration 6: need to repeat for 0125486404 particles. (took 3.08059 sec)
ngb iteration 7: need to repeat for 0094212833 particles. (took 2.74552 sec)
ngb iteration 8: need to repeat for 0063361157 particles. (took 2.22741 sec)
ngb iteration 9: need to repeat for 0039009960 particles. (took 1.53353 sec)
ngb iteration 10: need to repeat for 0022603818 particles. (took 0.932263 sec)
ngb iteration 11: need to repeat for 0012627924 particles. (took 0.546513 sec)
ngb iteration 12: need to repeat for 0006929140 particles. (took 0.342505 sec)
ngb iteration 13: need to repeat for 0003780280 particles. (took 0.232863 sec)
ngb iteration 14: need to repeat for 0001950280 particles. (took 0.166741 sec)
ngb iteration 15: need to repeat for 0000819044 particles. (took 0.124599 sec)
ngb iteration 16: need to repeat for 0000366511 particles. (took 0.0924699 sec)
ngb iteration 17: need to repeat for 0000199038 particles. (took 0.0709941 sec)
ngb iteration 18: need to repeat for 0000124079 particles. (took 0.0584311 sec)
ngb iteration 19: need to repeat for 0000081888 particles. (took 0.0528202 sec)
ngb iteration 20: need to repeat for 0000054976 particles. (took 0.0503469 sec)
ngb iteration 21: need to repeat for 0000036051 particles. (took 0.048686 sec)
ngb iteration 22: need to repeat for 0000022720 particles. (took 0.0504129 sec)
ngb iteration 23: need to repeat for 0000013521 particles. (took 0.0480199 sec)
ngb iteration 24: need to repeat for 0000007756 particles. (took 0.0475838 sec)
ngb iteration 25: need to repeat for 0000004206 particles. (took 0.0474172 sec)
ngb iteration 26: need to repeat for 0000002187 particles. (took 0.0469952 sec)
ngb iteration 27: need to repeat for 0000001089 particles. (took 0.047262 sec)
ngb iteration 28: need to repeat for 0000000513 particles. (took 0.048439 sec)
ngb iteration 29: need to repeat for 0000000225 particles. (took 0.046922 sec)
ngb iteration 30: need to repeat for 0000000083 particles. (took 0.0471981 sec)
ngb iteration 31: need to repeat for 0000000020 particles. (took 0.046751 sec)
ngb iteration 32: need to repeat for 0000000009 particles. (took 0.0472372 sec)
ngb iteration 33: need to repeat for 0000000001 particles. (took 0.0464489 sec)
final operations ... 
density and smoothing length for species 0 took 34.8206 sec
Tree construction for species 1 (286660730).
tree build for species 1 took 0.581213 sec
finding densities, mode 1 
ngb iteration 1: need to repeat for 0215924897 particles. (took 8.73225 sec)
ngb iteration 2: need to repeat for 0185222388 particles. (took 5.02064 sec)
ngb iteration 3: need to repeat for 0167874666 particles. (took 4.06964 sec)
ngb iteration 4: need to repeat for 0154886066 particles. (took 3.49919 sec)
ngb iteration 5: need to repeat for 0139928507 particles. (took 3.20556 sec)
ngb iteration 6: need to repeat for 0118870185 particles. (took 2.95813 sec)
ngb iteration 7: need to repeat for 0092221185 particles. (took 2.64566 sec)
ngb iteration 8: need to repeat for 0065117240 particles. (took 2.15644 sec)
ngb iteration 9: need to repeat for 0042469279 particles. (took 1.51752 sec)
ngb iteration 10: need to repeat for 0026111385 particles. (took 1.00609 sec)
ngb iteration 11: need to repeat for 0015420923 particles. (took 0.617767 sec)
ngb iteration 12: need to repeat for 0008864187 particles. (took 0.38918 sec)
ngb iteration 13: need to repeat for 0004999760 particles. (took 0.26081 sec)
ngb iteration 14: need to repeat for 0002677321 particles. (took 0.187738 sec)
ngb iteration 15: need to repeat for 0001252739 particles. (took 0.13937 sec)
ngb iteration 16: need to repeat for 0000567856 particles. (took 0.104701 sec)
ngb iteration 17: need to repeat for 0000260401 particles. (took 0.0816569 sec)
ngb iteration 18: need to repeat for 0000120011 particles. (took 0.066843 sec)
ngb iteration 19: need to repeat for 0000055312 particles. (took 0.0575299 sec)
ngb iteration 20: need to repeat for 0000024857 particles. (took 0.0517991 sec)
ngb iteration 21: need to repeat for 0000010720 particles. (took 0.04932 sec)
ngb iteration 22: need to repeat for 0000004306 particles. (took 0.04773 sec)
ngb iteration 23: need to repeat for 0000001608 particles. (took 0.046859 sec)
ngb iteration 24: need to repeat for 0000000559 particles. (took 0.0467069 sec)
ngb iteration 25: need to repeat for 0000000157 particles. (took 0.046509 sec)
ngb iteration 26: need to repeat for 0000000044 particles. (took 0.0463789 sec)
ngb iteration 27: need to repeat for 0000000012 particles. (took 0.0465941 sec)
ngb iteration 28: need to repeat for 0000000001 particles. (took 0.0464621 sec)
final operations ... 
density and smoothing length for species 1 took 37.3859 sec
Tree construction for species 4 (4504656).
tree build for species 4 took 0.374194 sec
finding densities, mode 4 
ngb iteration 1: need to repeat for 0003682101 particles. (took 1.47388 sec)
ngb iteration 2: need to repeat for 0003366430 particles. (took 0.962376 sec)
ngb iteration 3: need to repeat for 0003144732 particles. (took 0.737682 sec)
ngb iteration 4: need to repeat for 0002964221 particles. (took 0.580761 sec)
ngb iteration 5: need to repeat for 0002775232 particles. (took 0.459927 sec)
ngb iteration 6: need to repeat for 0002546045 particles. (took 0.394788 sec)
ngb iteration 7: need to repeat for 0002267882 particles. (took 0.292091 sec)
ngb iteration 8: need to repeat for 0001951373 particles. (took 0.247627 sec)
ngb iteration 9: need to repeat for 0001635938 particles. (took 0.213252 sec)
ngb iteration 10: need to repeat for 0001337718 particles. (took 0.190305 sec)
ngb iteration 11: need to repeat for 0001075009 particles. (took 0.170727 sec)
ngb iteration 12: need to repeat for 0000855514 particles. (took 0.15411 sec)
ngb iteration 13: need to repeat for 0000673863 particles. (took 0.145467 sec)
ngb iteration 14: need to repeat for 0000525087 particles. (took 0.137637 sec)
ngb iteration 15: need to repeat for 0000405420 particles. (took 0.122011 sec)
ngb iteration 16: need to repeat for 0000313757 particles. (took 0.111061 sec)
ngb iteration 17: need to repeat for 0000243668 particles. (took 0.094058 sec)
ngb iteration 18: need to repeat for 0000190690 particles. (took 0.08724 sec)
ngb iteration 19: need to repeat for 0000149635 particles. (took 0.0819769 sec)
ngb iteration 20: need to repeat for 0000117232 particles. (took 0.074018 sec)
ngb iteration 21: need to repeat for 0000091998 particles. (took 0.068897 sec)
ngb iteration 22: need to repeat for 0000071529 particles. (took 0.066258 sec)
ngb iteration 23: need to repeat for 0000055032 particles. (took 0.0645189 sec)
ngb iteration 24: need to repeat for 0000041253 particles. (took 0.0636179 sec)
ngb iteration 25: need to repeat for 0000029799 particles. (took 0.0634341 sec)
ngb iteration 26: need to repeat for 0000020611 particles. (took 0.0629919 sec)
ngb iteration 27: need to repeat for 0000013601 particles. (took 0.0627189 sec)
ngb iteration 28: need to repeat for 0000008553 particles. (took 0.062114 sec)
ngb iteration 29: need to repeat for 0000005215 particles. (took 0.062217 sec)
ngb iteration 30: need to repeat for 0000003013 particles. (took 0.0621979 sec)
ngb iteration 31: need to repeat for 0000001748 particles. (took 0.062145 sec)
ngb iteration 32: need to repeat for 0000001016 particles. (took 0.061981 sec)
ngb iteration 33: need to repeat for 0000000607 particles. (took 0.061975 sec)
ngb iteration 34: need to repeat for 0000000359 particles. (took 0.0620821 sec)
ngb iteration 35: need to repeat for 0000000217 particles. (took 0.062458 sec)
ngb iteration 36: need to repeat for 0000000128 particles. (took 0.0647781 sec)
ngb iteration 37: need to repeat for 0000000061 particles. (took 0.0621102 sec)
ngb iteration 38: need to repeat for 0000000037 particles. (took 0.0621181 sec)
ngb iteration 39: need to repeat for 0000000021 particles. (took 0.0619159 sec)
ngb iteration 40: need to repeat for 0000000014 particles. (took 0.0618398 sec)
ngb iteration 41: need to repeat for 0000000007 particles. (took 0.062073 sec)
ngb iteration 42: need to repeat for 0000000006 particles. (took 0.0621831 sec)
ngb iteration 43: need to repeat for 0000000002 particles. (took 0.0629799 sec)
ngb iteration 44: need to repeat for 0000000001 particles. (took 0.0621271 sec)
ngb iteration 45: need to repeat for 0000000001 particles. (took 0.062011 sec)
final operations ... 
density and smoothing length for species 4 took 8.5083 sec
Tree construction.
tree build took 0.867428 sec
finding densities, mode 5 
ngb iteration 1: need to repeat for 0000007879 particles. (took 0.0572481 sec)
ngb iteration 2: need to repeat for 0000005902 particles. (took 0.065871 sec)
ngb iteration 3: need to repeat for 0000004373 particles. (took 0.0654762 sec)
ngb iteration 4: need to repeat for 0000003374 particles. (took 0.0659292 sec)
ngb iteration 5: need to repeat for 0000002912 particles. (took 0.0655708 sec)
ngb iteration 6: need to repeat for 0000002501 particles. (took 0.0653639 sec)
ngb iteration 7: need to repeat for 0000002002 particles. (took 0.065285 sec)
ngb iteration 8: need to repeat for 0000001497 particles. (took 0.065119 sec)
ngb iteration 9: need to repeat for 0000001004 particles. (took 0.0651209 sec)
ngb iteration 10: need to repeat for 0000000655 particles. (took 0.064934 sec)
ngb iteration 11: need to repeat for 0000000401 particles. (took 0.065593 sec)
ngb iteration 12: need to repeat for 0000000264 particles. (took 0.0646529 sec)
ngb iteration 13: need to repeat for 0000000166 particles. (took 0.0647991 sec)
ngb iteration 14: need to repeat for 0000000096 particles. (took 0.064549 sec)
ngb iteration 15: need to repeat for 0000000055 particles. (took 0.064554 sec)
ngb iteration 16: need to repeat for 0000000038 particles. (took 0.0641899 sec)
ngb iteration 17: need to repeat for 0000000030 particles. (took 0.0639641 sec)
ngb iteration 18: need to repeat for 0000000017 particles. (took 0.063668 sec)
ngb iteration 19: need to repeat for 0000000013 particles. (took 0.063082 sec)
ngb iteration 20: need to repeat for 0000000009 particles. (took 0.0634458 sec)
ngb iteration 21: need to repeat for 0000000006 particles. (took 0.063127 sec)
ngb iteration 22: need to repeat for 0000000005 particles. (took 0.062628 sec)
ngb iteration 23: need to repeat for 0000000004 particles. (took 0.0632281 sec)
ngb iteration 24: need to repeat for 0000000004 particles. (took 0.062444 sec)
ngb iteration 25: need to repeat for 0000000004 particles. (took 0.06248 sec)
ngb iteration 26: need to repeat for 0000000001 particles. (took 0.062495 sec)
ngb iteration 27: need to repeat for 0000000001 particles. (took 0.06265 sec)
ngb iteration 28: need to repeat for 0000000001 particles. (took 0.062541 sec)
final operations ... 
density and smoothing length for species 5 took 1.99417 sec
Tree construction for species 0 (282140476).
tree build for species 0 took 0.579957 sec
calculating density contribution of species 0 to species 1
finding densities, mode -2 
