ELF>p@@ UHH}HU u]UHE}EHH]UHH H}EEHEH}uHEHHH}HEUHH H}EEuHEH}u-HEHH}HUH}uHEHEH+EHHEHUHH HxHpHhHxH@HEHE@wHp@EfEHEEEf/EvE\EXE*Ef/ErEf(\ME\EHhHp@EfEHE@EEf/EvE\EXE*Ef/ErEf(\ME\EHhHHp@ EfEHE@EEf/EvE\EXE*Ef/ErEf(\ME\EHhHMHp@HhHhHPHp@HhHPHp@ Hx`HhEHEHxh\EEf/EvEEHhHh@EHE@Hxh\EEf/EvEEHhHHh@EHE@Hxh\EEf/EvEEHhHUHSHHHH@H8HH@%EHHH8 HEHHHHEHH0EHH8EH@@HHE؉HHEH@@HHE؉HHEHEHxHEHpEhE쉅dHEHXdt'HpHxHXHHfH~$HpH+xfH*YhfH~HUHEHHH?HHHHEHEHUEEEEHEHE}tHUHMHEHHHEH+EfH*YEfHn\fZEH@H@HEHEH HE@,YEXH8HEH$HE@0YEH8HXHEH(HE@4YEH8HXH8HE@8YEXH8H8HHE@<YEH8HXH8HHE@@YEH8HXH8fZHE@YZH8H8HfZHE@YH8HZH8HfZHE@YH8HZH]UHH HxHpHhHxH@HEHE@wHp@EfEHEEEf/EvE\EXE*Ef/ErEf(\ME\EHhHp@EfEHE@EEf/EvE\EXE*Ef/ErEf(\ME\EHhHHp@EfEHE@EEf/EvE\EXE*Ef/ErEf(\ME\EHhHMHp@HhHhHPHp@HhHPHp@Hx`HhEHEHxh\EEf/EvEEHhHh@EHE@Hxh\EEf/EvEEHhHHh@EHE@Hxh\EEf/EvEEHhHUHSHHXHPHHHX@%EHXH8 HEHXHHEHX0EHX8EHP@XHE؉HHEHP@XHE؉H'HEHEHEHEHxEpE쉅lHEH`lt$HxHMH`HHfH~!HxH+EfH*YpfH~HUHEHHH?HHHHEHEHUEEEEHEHE}tHUHMHEHHHEH+EfH*YEfHn\fZEHPH HP@,YEXHHHPH$HP@0YEHHHXHPH(HP@4YEHHHXHHHP@8YEXHHHHHHP@<YEHHHXHHHHP@@YEHHHXHHfZHE@YZHHHHHfZHE@YHHHZHHHfZHE@YHHHZH]UHH(HxHpHhH`HxH@HEHE@wHp@EfEHEEEf/EvE\EXE*Ef/ErEf(\ME\EH`Hp@EfEHE@EEf/EvE\EXE*Ef/ErEf(\ME\EH`HHp@ EfEHE@EEf/EvE\EXE*Ef/ErEf(\ME\EH`HMHp@H`H`HPHp@H`HPHp@ Hx`H`EHEHxh\EEf/EvEEH`H`@EHE@Hxh\EEf/EvEEH`HH`@EHE@Hxh\EEf/EvEEH`HUHH`H}HuHUHMHE@%EHEH8 HEHEHHEHE0EHE8EHEHEHmHEHEHEHHE}HUHMHEHHZEHUHEHHH?HHHHMHEHHfZM\fZEHUHMHEHHZEHUHEHHH?HHHHMHEHHfZM\fZExHUHEHHH?HHHHHEHfH*YEZEHUHEHHH?HHHHHEHfH*YEZEHEHHE@4YEXHEHEHHE@8YEHEHXHEH HE@<YEHEHXHEH@HHEHEH@@,YEXHEHEHHEH@@0YEHEHXHEHHEH@@4YEHEHXHEH@HHEHEH@@8YEXHEHEHHEH@@<YEHEHXHEHHEH@@@YEHEHXHEfZHE@YZHEHEHfZHE@YHEHZHEHfZHE@YHEHZUHH}HuHUHEH@HEHE@eHE@EfEHEEEf/EvE\EXE*Ef/ErEf(\ME\EHEHE@EfEHE@EEf/EvE\EXE*Ef/ErEf(\ME\EHEHHE@ EfEHE@EEf/EvE\EXE*Ef/ErEf(\ME\EHEH;HE@HEHEHPHE@HEHPHE@ ]UHH`H}HuHUHE@%EHEH8 HEHEHHEHE0EHE@PHEHHEHE@PHEHHEЃ}tjHUHMHEHHZEHUHEHHH?HHHHMHEHHfZM\fZEHE$H ^fH~HEfHn¾HǸHEH0HEHfH~HUfHnH׸HEH$HEHfH~HUfHnH׸HEHHEhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhAAHǸH HEhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhAAHǸH HEHUHHH}HuEMUȉUHEHHE@XEHEDHEDHED HEDHE]HEeHEmHEuHE}HEUHEH`MHEEHEDDxHEDDpHEDDhHEDD`HEXHEPHEHHE@HE8HE0HEH((HE@  HED@DHED(HEDPxHEDHpHED@hHEpXHExPHEhHHE`8HEX@HEP0MEHM؋UHEHHd$D$Hd$D$$Hd$D4$Hd$D<$uuuuuuuuxph`XPH@80( uHd$D,$Hd$D$Hd$D $Hd$D$Hd$4$f(f(f(f(f(f(fHnHǸHHEHUHH0H}HuHUHME7EHcHHHHHHHHEHHEHHEHE؋9E|UH0utmHHHHHhAAHǸHHHUH]@@@?@@@?TotalMass?SmoothedGasMass?UnsmoothedGasMass?DarkMatterMass?StellarMass?BlackHoleMass?StarFormationRate-??3Ey?3Ey?3Ey?;f?;f?3Ey?3Ey?3Ey;f?;f??;f?;f3Ey?3Ey3Ey?;f?;f3Ey?3Ey3Ey;f?;f??;f?;f? @B>{>@B>{>=,?{>@B>{>@B>{>=,?{>=,?    statistics.c[%04i] %s %s:%s():%i: Failed to unlock stats. # Global statistics file ###################################################### # The quantities are all given in internal units! # # (0) Simulation step # Unit = dimensionless # (1) Time since Big Bang (cosmological run), Time since start of the simulation (non-cosmological run). # Unit = %e s # Unit = %e yr # Unit = %e Myr # (2) Scale factor # (3) Redshift # (4) Total mass in the simulation. # Unit = %e gram # Unit = %e Msun # (5) Total gas mass in the simulation (Particle type %d). # (6) Total dark matter mass in the simulation (Particle type %d & %d). # (7) Total sink mass in the simulation (Particle type %d). # (8) Total stellar mass in the simulation (Particle type %d). # (9) Total black hole mass in the simulation (Particle type %d). # (10) Total metal mass in the gas phase. # (11) Total metal mass locked in stars. # (12) Total metal mass locked in black holes. # (13) Total kinetic energy (physical). # Unit = %e erg # (14) Total internal (thermal) energy of the gas (physical). # (15) Total potential energy (physical). # (16) Total radiated energy of the gas (physical). # (17) Total gas entropy (physical). # Unit = %e gram**(%.3f) * cm**(%.3f) * s**(%.3f) # (18) Comoving centre of mass of the simulation (x coordinate). # Unit = %e cm # Unit = %e pc # Unit = %e Mpc # (19) Comoving centre of mass of the simulation (y coordinate). # (20) Comoving centre of mass of the simulation (z coordinate). # (21) Comoving momentum of the simulation (x coordinate). # Unit = %e gram * cm * s**-1 # (22) Comoving momentum of the simulation (y coordinate). # (23) Comoving momentum of the simulation (z coordinate). # (24) Comoving angular momentum of the simulation (x coordinate). # Unit = %e gram * cm**2 * s**-1 # (25) Comoving angular momentum of the simulation (y coordinate). # (26) Comoving angular momentum of the simulation (z coordinate). # (27) Sum of instantaneous accretion rate of all black holes in the simulation. # Unit = %e gram * s**-1 # Unit = %e Msun/yr # (28) Total mass accreted by black holes in the simulation (not including mass accreted by progenitors that have merged in the current BHs). # (29) Total black hole subgrid mass in the simulation. # (30) Total Hydrogen (all species) mass in the gas phase of the simulation. # (31) Total Molecular Hydrogen mass in the gas phase of the simulation. # (32) Total Atomic Hydrogen mass in the gas phase of the simulation. # (33) Total Helium (all species) mass in the gas phase of the simulation. # (34) Total Magnetic Energy B2/(2*mu0) in thesimulation. # (35) Total DivB error in thesimulation. # (36) Total Cross Helicity :: sum(V.B) in thesimulation. # Unit = %e gram * cm * s**-3 * A**-1 # (37) Total Magnetic Helicity :: sum(A.B) in thesimulation. # Unit = %e gram**2 * cm * s**-4 * A**-2 # (38) Total bolometric luminosity of the BHs. # Unit = %e erg * s**-1 # (39) Total jet power of the BHs. (3)(2)(1)(0)#%14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s (39)(38)(37)(36)(35)(34)(33)(32)(31)(30)(29)(28)(27)(26)(25)(24)(23)(22)(21)(20)(19)(18)(17)(16)(15)(14)(13)(12)(11)(10)(9)(8)(7)(6)(5)(4)zaTimeStep#%14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s %14s BH jet powerBH bol. lum.Mag. HelicityCr. HelicityDivB errMag. EnergyGas He massGas HI massGas H2 massGas H massBH sub. massBH acc. massBH acc. rateAng. mom. zAng. mom. yAng. mom. xMom. zMom. yMom. xCoM zCoM yCoM xGas EntropyRad. energyPot. energyInt. EnergyKin. EnergyBH Z massStar Z massGas Z massBH massStar massSink massDM massGas massTotal mass %14d %14e %14.7f %14.7f %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e %14e [%04i] %s %s:%s():%i: Failed to create MPI type for statistics. stats_collect_part_mapperstats_collect_spart_mapperstats_collect_sink_mapperstats_collect_bpart_mapperstats_collect_gpart_mapperstats_create_mpi_type*????.A@UU?GCC: (GNU) 14.1.0zRx &AC a <,AC g \CAC ~ |]AC X AC   AC H| AC   AC H $#AC  D AC  dAC  CAC > AC   AC H| %AC   XAC S (AC  HAC  hAC  AC { AC  AC  AC  uAC p (AC  HgAC b hAC   AC V &&,-RCD]Y0g@ { 8 l l 4@  ?#b  1PCBTfu0Pp  5V~(P8 %]%X%,29@ZfmuW.49-@E G*HuBIe'[y^g_ _,statistics.clock_lockget_integer_timestepget_integer_time_beginget_integer_time_endkernel_coeffslightcone_map_typesrunner_shiftrunner_flipsortlistIDsid_scalesub_sid_flagconvert_bpart_posconvert_bpart_velconvert_gpart_posconvert_gpart_velconvert_part_posconvert_part_velconvert_sink_posconvert_sink_velconvert_spart_posconvert_spart_vel__FUNCTION__.5__FUNCTION__.4__FUNCTION__.3__FUNCTION__.2__FUNCTION__.1__FUNCTION__.0lightcone_map_total_mass_get_valuelightcone_map_total_mass_type_contributeslightcone_map_total_mass_baseline_valuelightcone_map_gas_mass_get_valuelightcone_map_gas_mass_type_contributeslightcone_map_dark_matter_mass_get_valuelightcone_map_dark_matter_mass_type_contributeslightcone_map_stellar_mass_get_valuelightcone_map_stellar_mass_type_contributeslightcone_map_black_hole_mass_get_valuelightcone_map_black_hole_mass_type_contributeslightcone_map_sfr_get_valuelightcone_map_sfr_type_contributescosmology_get_grav_kick_factorcosmology_get_hydro_kick_factorstats_addstats_initstats_collect_part_mappercbrtfstdoutfflushclocks_get_timesincestartengine_rankstderrfprintfompi_mpi_comm_worldMPI_Abortstats_collect_spart_mapperstats_collect_sink_mapperstats_collect_bpart_mapperstats_collect_gpart_mapperstats_collectthreadpool_mapstats_finalizestats_write_file_headerfwriteunits_cgs_conversion_factorstats_write_to_filestatistics_mpi_typestatistics_mpi_reduce_opstats_add_mpistats_create_mpi_typeompi_mpi_byteMPI_Type_contiguousMPI_Type_commitMPI_Op_createstats_free_mpi_typeMPI_Type_freeMPI_Op_free)11 1L 1&1]1221,11Q1&4( ,(67(  + + -3-7-8-9.:.;. . !. 0 ..<9.;A.8K. =P.>9/4 2 2 333738393:3;3 03 3 0 3<3;384 = 4>447 %8 93@97H98M99V9:]9;l9 Pr9 w9 0 9<9;989 =9>:4= = ?3?7?8?9?:?;? p? ? 0 @<@;@8!@ =&@>A4C QD CE3hE7pE8uE9~E:E;E E E 0 E<E;E8E =E>IF 5NFDF ?FD G @GDlG AqGDG BGDH _ HGH HGI IG)I .IGDI IIG_I dIGzI (IGI I<I I I<I I  J J<.J 3JGIJ NJGdJ iJGJ JGJ JGJ 'J<J J >J<K XK<)K '6K<JK aK >nK<K K<K 'K<K K >K<K L<L '%L<9L PL >]L<kL (xL<L 'L<L L >L<L pL<M 'M<#M :M >GM<]M bMGwM 'M<M M >M<M MGM 'M< N $N >1N<GN LNGaN 'nN<N N >N<N PNGNHN zN<O  OGOH1O z>O<TO YOGjOH}O zO<O OGOHO zO<O 8OGPHP P P 9P `FP<\P aPGwP P<P P P<P P P P<Q QG+Q 8Q<IQ `Q mQ<~Q Q Q Q<Q hQGQ Q<Q R !R<2R >R UR bR<xR }RGRHR R<R RGRHR R<S XSG&SH9S FS<\S aSGrSHS S<S SGSHS S<S PSG THT *T<@T ETGVTHiT vT<T T<T 0TGT 'T<U U >$U<:U ?UGTU 'aU<uU U >U<U UGU 'U<U V >V<$V X)VG>V 'KV<_V vV >V<V VGV 'V<V V >V<W WG(W '5W<IW `W >mW<W @WGWHW zW<W WGW WGX  XGXH.X ;X<QX VXGgXHoX X `X<X XGXHX X<X XG YHY +Y<AY FYGOY TY YY ^Y cY hY mY rY wY |Y Y Y Y #Y (Y -Y 2Y 7Y <Y AY FY KY PY UY ZY _Y dY iY nY sY xY }Y Y Y Y Y Z  Z Z Z Z &Z<6Z v;Z @Z EZ JZ OZ TZ YZ ^Z cZ hZ mZ rZ wZ |Z "Z .Z :Z AZ HZ OZ UZ [Z aZ mZ yZ Z Z Z Z Z Z Z Z Z Z Z Z Z Z [  [< [8^ ^<^8^3_ J_ N&_O/_ J4_P?_7G_8L_9U_:\_;k_ q_ v_ _<_;_8_ =_>_ K_ L_Q_ J_S_ K_T@$H%P&p'x('()*+,0-8.`/h0 @&`R (?HbhP8 ]%,%LW.l49-@EG H,'[L^l__.symtab.strtab.shstrtab.rela.text.data.bss.rela.rodata.comment.note.GNU-stack.rela.eh_frame @_@- &`, `6 ` 1@h >0 G3\8W@h  $ ؋8f