DATE: 2025-12-02 TIME: 18:18:52 run inlist_to_he_dep_header DATE: 2025-12-02 TIME: 18:18:52 reading user weak rate file /home/jenkins/workspace/mesa_main/data/rates_data/rate_tables/S13_r_be7_wk_li7.h5 version_number 7067e26 WARNING: Failed to find colors namelist in file: inlist read inlist_to_he_dep read inlist_ppisn read inlist_extra The terminal output contains the following information 'step' is the number of steps since the start of the run, 'lg_dt' is log10 timestep in years, 'age_yr' is the simulated years since the start run, 'lg_Tcntr' is log10 center temperature (K), 'lg_Dcntr' is log10 center density (g/cm^3), 'lg_Tmax' is log10 max temperature (K), 'Teff' is the surface temperature (K), 'lg_R' is log10 surface radius (Rsun), 'lg_L' is log10 surface luminosity (Lsun), 'lg_LH' is log10 total PP and CNO hydrogen burning power (Lsun), 'lg_L3a' is log10 total triple-alpha helium burning power (Lsun), 'lg_gsurf' is log10 surface gravity, 'lg_Lnuc' is log10 nuclear power (Lsun), 'lg_Lneu' is log10 total neutrino power (Lsun), 'lg_Lphoto' is log10 total photodisintegration (Lsun), 'Mass' is the total stellar baryonic mass (Msun), 'lg_Mdot' is log10 magnitude of rate of change of mass (Msun/year), 'lg_Dsurf' is log10 surface density (g/cm^3), 'H_env' is the amount of mass where H is dominant, 'He_core' is the largest mass where He is dominant. 'CO_core' is the largest mass where CO is dominant. 'H_cntr' is the center H1 mass fraction, 'He_cntr' is the center He4 mass fraction, 'C_cntr' is the center C12 mass fraction, 'N_cntr' is the center N14 mass fraction, 'O_cntr' is the center O16 mass fraction, 'Ne_cntr' is the center Ne20 mass fraction, 'gam_cntr' is the center plasma interaction parameter, 'eta_cntr' is the center electron degeneracy parameter, 'zones' is the number of zones in the current model, 'iters' is the number of solver iterations for the current step, 'retry' is the number of step retries required during the run, 'dt_limit' is an indication of what limited the timestep. All this and more are saved in the LOGS directory during the run. create pre-main-sequence model set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 6 1.0000000000000000 create rate data for r_c12_ag_o16 create rate data for r_he4_he4_he4_to_c12 write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_ag_o16_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_he4_he4_he4_to_c12_0.bin set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 6 1.0000000000000000 species mass 8 7.2500000000000000D+01 write /home/jenkins/workspace/mesa_main/data/eosDT_data/cache/mesa-FreeEOS_02z00x.bin write /home/jenkins/workspace/mesa_main/data/kap_data/cache/gs98_z0.001_x0.0.bin write /home/jenkins/workspace/mesa_main/data/kap_data/cache/gs98_z0.002_x0.0.bin write /home/jenkins/workspace/mesa_main/data/kap_data/cache/lowT_fa05_gs98_z0.001_x0.0.bin write /home/jenkins/workspace/mesa_main/data/kap_data/cache/lowT_fa05_gs98_z0.002_x0.0.bin relax_num_steps 300 write /home/jenkins/workspace/mesa_main/data/kap_data/cache/lowT_fa05_gs98_z0.001_x0.1.bin write /home/jenkins/workspace/mesa_main/data/kap_data/cache/lowT_fa05_gs98_z0.002_x0.1.bin write /home/jenkins/workspace/mesa_main/data/kap_data/cache/gs98_z0.001_x0.1.bin write /home/jenkins/workspace/mesa_main/data/kap_data/cache/gs98_z0.002_x0.1.bin 10 5.496733 7489.925 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401695 1839 0 -5.0000E+00 5.496733 3.027371 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015265 3 9.8000E-05 -6.238111 6.507345 -99.000000 -99.000000 -7.613684 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 20 5.496739 7493.303 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401675 1840 0 -5.0000E+00 5.496739 3.027377 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015265 3 1.9800E-04 -6.238092 6.508141 -99.000000 -99.000000 -7.614349 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 30 5.496733 7511.184 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401692 1839 0 -5.0000E+00 5.496733 3.027409 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015265 3 2.9800E-04 -6.238109 6.512346 -99.000000 -99.000000 -7.617862 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 40 5.496726 7526.906 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401654 1839 0 -5.0000E+00 5.496726 3.027438 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015265 3 3.9800E-04 -6.238102 6.516035 -99.000000 -99.000000 -7.620937 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 50 5.496722 7540.344 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401607 1839 0 -5.0000E+00 5.496722 3.027462 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015265 3 4.9800E-04 -6.238089 6.519182 -99.000000 -99.000000 -7.623553 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 60 5.496720 7551.133 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401564 1840 0 -5.0000E+00 5.496720 3.027481 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 3 5.9800E-04 -6.238073 6.521705 -99.000000 -99.000000 -7.625645 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 70 5.496720 7560.335 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401526 1841 0 -5.0000E+00 5.496720 3.027498 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 3 6.9800E-04 -6.238057 6.523853 -99.000000 -99.000000 -7.627423 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 80 5.496721 7568.104 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401493 1837 0 -5.0000E+00 5.496721 3.027512 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 3 7.9800E-04 -6.238040 6.525666 -99.000000 -99.000000 -7.628919 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 90 5.496723 7575.110 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401464 1837 0 -5.0000E+00 5.496723 3.027524 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 3 8.9800E-04 -6.238024 6.527298 -99.000000 -99.000000 -7.630265 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 100 5.496726 7581.605 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401437 1839 0 -5.0000E+00 5.496726 3.027536 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 3 9.9800E-04 -6.238008 6.528811 -99.000000 -99.000000 -7.631509 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 110 5.496730 7587.253 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401411 1839 0 -5.0000E+00 5.496730 3.027546 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 3 1.0980E-03 -6.237992 6.530125 -99.000000 -99.000000 -7.632589 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 120 5.496734 7592.373 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401387 1840 0 -5.0000E+00 5.496734 3.027555 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 3 1.1980E-03 -6.237975 6.531315 -99.000000 -99.000000 -7.633565 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 130 5.496738 7597.113 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401363 1840 0 -5.0000E+00 5.496738 3.027564 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 1.2980E-03 -6.237958 6.532416 -99.000000 -99.000000 -7.634467 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 140 5.496743 7601.780 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401340 1841 0 -5.0000E+00 5.496743 3.027572 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 1.3980E-03 -6.237941 6.533499 -99.000000 -99.000000 -7.635353 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 150 5.496748 7605.856 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401317 1841 0 -5.0000E+00 5.496748 3.027579 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 1.4980E-03 -6.237923 6.534444 -99.000000 -99.000000 -7.636125 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 160 5.496753 7609.591 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401294 1841 0 -5.0000E+00 5.496753 3.027585 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 1.5980E-03 -6.237905 6.535310 -99.000000 -99.000000 -7.636832 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 170 5.496759 7613.065 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401271 1841 0 -5.0000E+00 5.496759 3.027591 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 1.6980E-03 -6.237887 6.536114 -99.000000 -99.000000 -7.637487 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 180 5.496765 7616.307 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401248 1841 0 -5.0000E+00 5.496765 3.027596 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 1.7980E-03 -6.237868 6.536864 -99.000000 -99.000000 -7.638098 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 190 5.496771 7619.347 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401225 1841 0 -5.0000E+00 5.496771 3.027601 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 1.8980E-03 -6.237849 6.537567 -99.000000 -99.000000 -7.638670 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 200 5.496777 7622.863 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401204 1841 0 -5.0000E+00 5.496777 3.027607 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 1.9980E-03 -6.237831 6.538380 -99.000000 -99.000000 -7.639331 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 210 5.496783 7625.751 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401181 1841 0 -5.0000E+00 5.496783 3.027611 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 2.0980E-03 -6.237812 6.539047 -99.000000 -99.000000 -7.639872 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 220 5.496789 7628.385 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401158 1841 0 -5.0000E+00 5.496789 3.027615 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 2.1980E-03 -6.237793 6.539654 -99.000000 -99.000000 -7.640365 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 230 5.496796 7630.880 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401135 1840 0 -5.0000E+00 5.496796 3.027619 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 2.2980E-03 -6.237773 6.540229 -99.000000 -99.000000 -7.640831 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 240 5.496802 7633.249 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401112 1840 0 -5.0000E+00 5.496802 3.027622 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 2.3980E-03 -6.237753 6.540775 -99.000000 -99.000000 -7.641273 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 250 5.496809 7635.620 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401089 1840 0 -5.0000E+00 5.496809 3.027625 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 2.4980E-03 -6.237733 6.541321 -99.000000 -99.000000 -7.641714 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 260 5.496816 7637.815 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401066 1840 0 -5.0000E+00 5.496816 3.027628 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 2.5980E-03 -6.237713 6.541826 -99.000000 -99.000000 -7.642123 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 270 5.496823 7639.891 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401043 1840 0 -5.0000E+00 5.496823 3.027630 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 2.6980E-03 -6.237693 6.542303 -99.000000 -99.000000 -7.642508 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 280 5.496829 7642.140 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.401020 1841 0 -5.0000E+00 5.496829 3.027633 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 2.7980E-03 -6.237673 6.542819 -99.000000 -99.000000 -7.642925 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt 290 5.496836 7644.107 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.400997 1841 0 -5.0000E+00 5.496836 3.027635 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 2.8980E-03 -6.237652 6.543271 -99.000000 -99.000000 -7.643290 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 300 5.496843 7645.953 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.400973 1840 0 -5.0000E+00 5.496843 3.027637 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015266 2 2.9980E-03 -6.237631 6.543694 -99.000000 -99.000000 -7.643631 0.000000 0.000252 0.000133 0.001420 0.000E+00 max_dt finished doing relax num steps relax_to_radiative_core 10 5.497637 7715.797 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.398437 1840 0 -2.2907E+00 5.497637 3.027435 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015265 3 1.0230E-02 -6.235339 6.559087 -99.000000 -99.000000 -7.655944 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase waiting for fully convective core to develop 10 2.7963516614752035D-03 20 5.570517 7940.445 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -15.147899 1848 0 -6.9362E-01 5.570517 2.975159 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015259 3 1.1376E+00 -6.017220 6.504392 -99.000000 -99.000000 -7.625015 0.000000 0.000252 0.000133 0.001420 0.000E+00 varcontrol relative mass of radiative core still tiny 20 7.8173676202442739D-08 30 5.685508 8206.067 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -14.733373 1855 0 -4.7232E-01 5.685508 2.891832 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015348 3 3.8599E+00 -5.664716 6.394898 -99.000000 -99.000000 -7.553136 0.000000 0.000252 0.000133 0.001420 0.000E+00 varcontrol relative mass of radiative core still tiny 30 7.8173675314264319D-08 40 5.797788 8479.876 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -14.335251 1899 0 -2.5478E-01 5.797788 2.806788 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015400 3 8.3429E+00 -5.323411 6.281827 -99.000000 -99.000000 -7.477872 0.000000 0.000252 0.000133 0.001420 0.000E+00 varcontrol relative mass of radiative core still tiny 40 7.8173675980398134D-08 finished relax to begin radiative core 49 4.3360962569477268D-01 finished doing relax_to_radiative_core set_initial_number_retries 0 new_w_div_wc_flag T setting w_div_wc flag T new_rotation_flag T net name basic.net rotation_flag T w_div_wc_flag T set_cumulative_energy_error 0.0000000000000000D+00 kap_option gs98 kap_CO_option gs98_co kap_lowT_option lowT_fa05_gs98 OMP_NUM_THREADS 4 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9849201585933813E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ save LOGS/profile1.data for model 1 10 5.897266 8736.137 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -13.985830 1927 0 -4.2874E+00 5.897266 2.728828 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015430 3 2.5959E-04 -5.022448 6.177628 -99.000000 -99.000000 -7.414146 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -10.9359071282055087 rel_E_err 1.1590251816388806D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9849205757444894E-002 20 5.897286 8735.863 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -13.985762 1927 0 -3.4956E+00 5.897286 2.728813 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015430 3 1.8669E-03 -5.022388 6.177542 -99.000000 -99.000000 -7.414084 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -10.9391607204657362 rel_E_err 1.1503745881050929D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9849208423389914E-002 30 5.897411 8736.133 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -13.985335 1927 0 -2.7037E+00 5.897411 2.728717 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015430 2 1.1819E-02 -5.022015 6.177405 -99.000000 -99.000000 -7.414004 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -10.9303209170537396 rel_E_err 1.1740296982079340D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9849220420494287E-002 40 5.898184 8738.099 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -13.982658 1927 0 -1.9119E+00 5.898184 2.728123 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015430 3 7.3439E-02 -5.019694 6.176607 -99.000000 -99.000000 -7.413546 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -10.9483015655016445 rel_E_err 1.1264150242322316D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9849283700739178E-002 50 5.902897 8749.787 -99.000000 -99.000000 72.500000 0.000000 0.000000 0.000074 0.998580 -13.966075 1931 0 -1.1201E+00 5.902897 2.724456 -99.000000 -99.000000 -99.000000 72.500000 0.998580 0.000610 0.001420 0.015432 4 4.5497E-01 -5.005422 6.171595 -99.000000 -99.000000 -7.410669 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -10.9409177613219590 rel_E_err 1.1457298780954795D-11 save photos/x050 for model 50 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9849646305247937E-002 60 5.919641 8792.357 -99.000000 -99.000000 72.499973 0.000000 0.000000 0.000074 0.998580 -13.906980 1926 0 -8.4362E-01 5.919641 2.711587 -99.000000 -99.000000 -4.741529 72.499973 0.998580 0.000610 0.001420 0.015438 4 1.8773E+00 -4.954641 6.154288 -99.000000 -99.000000 -7.400974 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -10.9545318802085134 rel_E_err 1.1103710234551257D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9850935376486940E-002 70 5.938761 8840.582 -99.000000 -99.000000 72.499943 0.000000 0.000000 0.000074 0.998580 -13.839082 1933 0 -7.3773E-01 5.938761 2.697458 -99.000000 -99.000000 -4.775997 72.499943 0.998580 0.000610 0.001420 0.015448 4 3.6283E+00 -4.896471 6.135533 -99.000000 -99.000000 -7.390898 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -10.9664107692748516 rel_E_err 1.0804115808875377D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9852268405695082E-002 80 5.956769 8884.252 -99.000000 -99.000000 72.499914 0.000000 0.000000 0.000074 0.998580 -13.774737 1930 0 -7.7598E-01 5.956769 2.684899 -99.000000 -99.000000 -4.807336 72.499914 0.998580 0.000610 0.001420 0.015459 4 5.4033E+00 -4.841513 6.118976 -99.000000 -99.000000 -7.382403 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -10.9785712752201778 rel_E_err 1.0505790225663249D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9853245948446529E-002 90 5.975539 8929.439 -99.000000 -99.000000 72.499885 0.000000 0.000000 0.000074 0.998580 -13.707303 1926 0 -5.9980E-01 5.975539 2.672775 -99.000000 -99.000000 -4.835506 72.499885 0.998580 0.000610 0.001420 0.015473 4 7.3859E+00 -4.784069 6.103540 -99.000000 -99.000000 -7.375086 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.0027447179200237 rel_E_err 9.9369998228997618D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9853888202512875E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 100 5.993780 8971.995 -99.000000 -99.000000 72.499856 0.000000 0.000000 0.000074 0.998580 -13.641442 1947 0 -7.1121E-01 5.993780 2.662160 -99.000000 -99.000000 -4.861529 72.499856 0.998580 0.000610 0.001420 0.015487 4 9.4408E+00 -4.728101 6.090570 -99.000000 -99.000000 -7.369571 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.0178513466389649 rel_E_err 9.5972907810079277D-12 save LOGS/profile2.data for model 100 save photos/x100 for model 100 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9854207489455191E-002 110 6.011859 9012.991 -99.000000 -99.000000 72.499827 0.000000 0.000000 0.000074 0.998580 -13.575902 1951 0 -6.2521E-01 6.011859 2.652985 -99.000000 -99.000000 -4.882024 72.499827 0.998580 0.000610 0.001420 0.015503 3 1.1599E+01 -4.672515 6.080139 -99.000000 -99.000000 -7.365921 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -11.0153112540395046 rel_E_err 9.6535876908026888D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9854428759624087E-002 120 6.030561 9054.497 -99.000000 -99.000000 72.499797 0.000000 0.000000 0.000074 0.998580 -13.507889 1958 0 -6.0742E-01 6.030561 2.645111 -99.000000 -99.000000 -4.898711 72.499797 0.998580 0.000610 0.001420 0.015521 3 1.3952E+01 -4.614921 6.072372 -99.000000 -99.000000 -7.364372 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.0348829440563705 rel_E_err 9.2282012251805367D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9854870770611864E-002 130 6.048468 9092.793 -99.000000 -99.000000 72.499767 0.000000 0.000000 0.000074 0.998580 -13.442617 1952 0 -6.4737E-01 6.048468 2.639303 -99.000000 -99.000000 -4.909350 72.499767 0.998580 0.000610 0.001420 0.015539 3 1.6310E+01 -4.559709 6.068089 -99.000000 -99.000000 -7.365124 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.0405579036786410 rel_E_err 9.1084000355969489D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9855855628414389E-002 140 6.066230 9130.484 -99.000000 -99.000000 72.499737 0.000000 0.000000 0.000074 0.998580 -13.377809 1962 0 -6.4634E-01 6.066230 2.635351 -99.000000 -99.000000 -4.914008 72.499737 0.998580 0.000610 0.001420 0.015557 3 1.8738E+01 -4.504915 6.067371 -99.000000 -99.000000 -7.368456 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.0441920319337754 rel_E_err 9.0324999547883374D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9857788706052413E-002 150 6.084310 9168.532 -99.000000 -99.000000 72.499706 0.000000 0.000000 0.000074 0.998580 -13.311856 1971 0 -5.5788E-01 6.084310 2.633267 -99.000000 -99.000000 -4.912542 72.499706 0.998580 0.000610 0.001420 0.015575 3 2.1288E+01 -4.449147 6.070427 -99.000000 -99.000000 -7.374638 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -11.0557714604354231 rel_E_err 8.7948520815813267D-12 save photos/x150 for model 150 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9861192951678348E-002 160 6.102804 9206.037 -99.000000 -99.000000 72.499673 0.000000 0.000000 0.000074 0.998580 -13.244483 1965 0 -4.7049E-01 6.102804 2.633192 -99.000000 -99.000000 -4.904946 72.499673 0.998580 0.000610 0.001420 0.015593 3 2.3960E+01 -4.392140 6.077368 -99.000000 -99.000000 -7.383690 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.0823972879574058 rel_E_err 8.2718511737822762D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9866637018588048E-002 170 6.120959 9241.485 -99.000000 -99.000000 72.499640 0.000000 0.000000 0.000074 0.998580 -13.178503 1965 0 -5.4158E-01 6.120959 2.635063 -99.000000 -99.000000 -4.890902 72.499640 0.998580 0.000610 0.001420 0.015610 3 2.6629E+01 -4.336248 6.087787 -99.000000 -99.000000 -7.395184 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.0915113985942462 rel_E_err 8.1000668177709669D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9874312832819132E-002 180 6.138844 9276.003 -99.000000 -99.000000 72.499605 0.000000 0.000000 0.000074 0.998580 -13.113714 1964 0 -5.3643E-01 6.138844 2.638563 -99.000000 -99.000000 -4.871878 72.499605 0.998580 0.000610 0.001420 0.015626 3 2.9289E+01 -4.281276 6.101264 -99.000000 -99.000000 -7.408998 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.0992878609998673 rel_E_err 7.9563181138823088D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9884472301061795E-002 190 6.156784 9307.564 -99.000000 -99.000000 72.499567 0.000000 0.000000 0.000074 0.998580 -13.048987 1968 0 -5.3262E-01 6.156784 2.643521 -99.000000 -99.000000 -4.848651 72.499567 0.998580 0.000610 0.001420 0.015641 3 3.1975E+01 -4.226249 6.117079 -99.000000 -99.000000 -7.424372 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1007531491274527 rel_E_err 7.9295191242678464D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9897503401167430E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 200 6.174449 9335.095 -99.000000 -99.000000 72.499529 0.000000 0.000000 0.000074 0.998580 -12.985532 1968 0 -4.5104E-01 6.174449 2.649526 -99.000000 -99.000000 -4.823394 72.499529 0.998580 0.000610 0.001420 0.015654 3 3.4631E+01 -4.172188 6.134221 -99.000000 -99.000000 -7.440409 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1057881990305596 rel_E_err 7.8381180655779142D-12 save LOGS/profile3.data for model 200 save photos/x200 for model 200 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9913156868887041E-002 210 6.191766 9357.644 -99.000000 -99.000000 72.499488 0.000000 0.000000 0.000074 0.998580 -12.923602 1967 0 -5.2797E-01 6.191766 2.656233 -99.000000 -99.000000 -4.795676 72.499488 0.998580 0.000610 0.001420 0.015665 3 3.7241E+01 -4.119310 6.151827 -99.000000 -99.000000 -7.456282 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -11.1212487686022357 rel_E_err 7.5639949704744892D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9931042615892306E-002 220 6.209515 9374.950 -99.000000 -99.000000 72.499443 0.000000 0.000000 0.000074 0.998580 -12.860413 1969 0 -6.0500E-01 6.209515 2.663741 -99.000000 -99.000000 -4.766522 72.499443 0.998580 0.000610 0.001420 0.015675 3 3.9922E+01 -4.065235 6.170051 -99.000000 -99.000000 -7.471963 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1345647548809623 rel_E_err 7.3355932990953081D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9951650581530451E-002 230 6.227629 9386.188 -99.000000 -99.000000 72.499395 0.000000 0.000000 0.000074 0.998580 -12.796215 1967 0 -6.0243E-01 6.227629 2.671883 -99.000000 -99.000000 -4.737147 72.499395 0.998580 0.000610 0.001420 0.015683 3 4.2666E+01 -4.010175 6.188417 -99.000000 -99.000000 -7.486884 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1326624727401917 rel_E_err 7.3677948918059081D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9974633239476605E-002 240 6.245774 9390.502 -99.000000 -99.000000 72.499342 0.000000 0.000000 0.000074 0.998580 -12.732181 1962 0 -5.9903E-01 6.245774 2.680433 -99.000000 -99.000000 -4.707999 72.499342 0.998580 0.000610 0.001420 0.015690 3 4.5425E+01 -3.955139 6.206315 -99.000000 -99.000000 -7.500366 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1479988038164706 rel_E_err 7.1121547256162003D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9999216811035011E-002 250 6.263956 9388.929 -99.000000 -99.000000 72.499286 0.000000 0.000000 0.000074 0.998580 -12.668284 1965 0 -5.9567E-01 6.263956 2.689285 -99.000000 -99.000000 -4.679207 72.499286 0.998580 0.000610 0.001420 0.015696 3 4.8204E+01 -3.900109 6.223729 -99.000000 -99.000000 -7.512504 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1478734917508753 rel_E_err 7.1142071748845863D-12 save photos/x250 for model 250 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0025142455365998E-002 260 6.282165 9382.248 -99.000000 -99.000000 72.499225 0.000000 0.000000 0.000074 0.998580 -12.604537 1963 0 -5.9176E-01 6.282165 2.698366 -99.000000 -99.000000 -4.650838 72.499225 0.998580 0.000610 0.001420 0.015701 3 5.1007E+01 -3.845100 6.240653 -99.000000 -99.000000 -7.523391 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1600408158238267 rel_E_err 6.9176595437985518D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0052266804204370E-002 270 6.300403 9371.769 -99.000000 -99.000000 72.499159 0.000000 0.000000 0.000074 0.998580 -12.540931 1963 0 -5.8734E-01 6.300403 2.707600 -99.000000 -99.000000 -4.622819 72.499159 0.998580 0.000610 0.001420 0.015704 3 5.3836E+01 -3.790110 6.257181 -99.000000 -99.000000 -7.533312 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1515836477533554 rel_E_err 7.0536897262056633D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0080389219729281E-002 280 6.318666 9357.947 -99.000000 -99.000000 72.499089 0.000000 0.000000 0.000074 0.998580 -12.477462 1955 0 -5.8244E-01 6.318666 2.716915 -99.000000 -99.000000 -4.595285 72.499089 0.998580 0.000610 0.001420 0.015706 3 5.6696E+01 -3.735139 6.273246 -99.000000 -99.000000 -7.542297 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1514198313921664 rel_E_err 7.0563508876738760D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0109144691729635E-002 290 6.336955 9343.110 -99.000000 -99.000000 72.499013 0.000000 0.000000 0.000074 0.998580 -12.414119 1956 0 -5.7710E-01 6.336955 2.726174 -99.000000 -99.000000 -4.568194 72.499013 0.998580 0.000610 0.001420 0.015708 3 5.9590E+01 -3.680185 6.289007 -99.000000 -99.000000 -7.550892 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1594597830085949 rel_E_err 6.9269207186245185D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0138069520159827E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 300 6.355609 9326.567 -99.000000 -99.000000 72.498929 0.000000 0.000000 0.000074 0.998580 -12.349724 1945 0 -4.9262E-01 6.355609 2.735499 -99.000000 -99.000000 -4.541760 72.498929 0.998580 0.000610 0.001420 0.015707 4 6.2576E+01 -3.624226 6.304578 -99.000000 -99.000000 -7.559054 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -11.1752570385162660 rel_E_err 6.6794847321264151D-12 save LOGS/profile4.data for model 300 save photos/x300 for model 300 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0167216221427282E-002 310 6.374680 9309.687 -99.000000 -99.000000 72.498837 0.000000 0.000000 0.000074 0.998580 -12.284095 1948 0 -4.0775E-01 6.374680 2.744761 -99.000000 -99.000000 -4.515628 72.498837 0.998580 0.000610 0.001420 0.015706 4 6.5670E+01 -3.567104 6.319957 -99.000000 -99.000000 -7.567037 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1636657105954544 rel_E_err 6.8601607029037611D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0196152237176614E-002 320 6.393371 9293.159 -99.000000 -99.000000 72.498740 0.000000 0.000000 0.000074 0.998580 -12.219958 1947 0 -4.8000E-01 6.393371 2.753563 -99.000000 -99.000000 -4.489842 72.498740 0.998580 0.000610 0.001420 0.015704 4 6.8747E+01 -3.511199 6.334474 -99.000000 -99.000000 -7.574487 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1755275359254700 rel_E_err 6.6753257551292738D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0223227193363565E-002 330 6.411906 9277.692 -99.000000 -99.000000 72.498637 0.000000 0.000000 0.000074 0.998580 -12.156531 1949 0 -5.1206E-01 6.411906 2.761948 -99.000000 -99.000000 -4.465533 72.498637 0.998580 0.000610 0.001420 0.015701 3 7.1846E+01 -3.455836 6.348350 -99.000000 -99.000000 -7.581686 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1820500349286114 rel_E_err 6.5758207317040308D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0248407782497675E-002 340 6.430377 9263.108 -99.000000 -99.000000 72.498526 0.000000 0.000000 0.000074 0.998580 -12.093487 1949 0 -5.2377E-01 6.430377 2.769927 -99.000000 -99.000000 -4.442469 72.498526 0.998580 0.000610 0.001420 0.015698 3 7.4987E+01 -3.400736 6.361575 -99.000000 -99.000000 -7.588593 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1812258989848292 rel_E_err 6.5883111402180207D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0271513619476837E-002 350 6.448822 9249.720 -99.000000 -99.000000 72.498408 0.000000 0.000000 0.000074 0.998580 -12.030676 1943 0 -5.2507E-01 6.448822 2.777503 -99.000000 -99.000000 -4.420518 72.498408 0.998580 0.000610 0.001420 0.015693 3 7.8182E+01 -3.345773 6.374214 -99.000000 -99.000000 -7.595308 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1769868168306079 rel_E_err 6.6529335112060714D-12 save photos/x350 for model 350 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0292339329478958E-002 360 6.467263 9237.448 -99.000000 -99.000000 72.498281 0.000000 0.000000 0.000074 0.998580 -11.968023 1943 0 -5.2094E-01 6.467263 2.784705 -99.000000 -99.000000 -4.399583 72.498281 0.998580 0.000610 0.001420 0.015688 3 8.1438E+01 -3.290887 6.386311 -99.000000 -99.000000 -7.601843 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1865627393831790 rel_E_err 6.5078458990578599D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0310696652183630E-002 370 6.485706 9226.315 -99.000000 -99.000000 72.498145 0.000000 0.000000 0.000074 0.998580 -11.905488 1943 0 -5.1388E-01 6.485706 2.791521 -99.000000 -99.000000 -4.379654 72.498145 0.998580 0.000610 0.001420 0.015682 3 8.4762E+01 -3.236046 6.397849 -99.000000 -99.000000 -7.608186 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1843219600766748 rel_E_err 6.5415104562118181D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0326414468600868E-002 380 6.504155 9216.882 -99.000000 -99.000000 72.498000 0.000000 0.000000 0.000074 0.998580 -11.843051 1966 0 -5.0509E-01 6.504155 2.797891 -99.000000 -99.000000 -4.360804 72.498000 0.998580 0.000610 0.001420 0.015676 3 8.8161E+01 -3.181239 6.408812 -99.000000 -99.000000 -7.614419 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1810532794279585 rel_E_err 6.5909303247649295D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0339361622991437E-002 390 6.522945 9208.573 -99.000000 -99.000000 72.497842 0.000000 0.000000 0.000074 0.998580 -11.779567 1977 0 -4.1649E-01 6.522945 2.804049 -99.000000 -99.000000 -4.342742 72.497842 0.998580 0.000610 0.001420 0.015668 3 9.1703E+01 -3.125465 6.419560 -99.000000 -99.000000 -7.620696 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -11.1828140494022374 rel_E_err 6.5642626625515559D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0349646186053797E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 400 6.542479 9201.580 -99.000000 -99.000000 72.497666 0.000000 0.000000 0.000074 0.998580 -11.713666 1984 0 -4.0559E-01 6.542479 2.809984 -99.000000 -99.000000 -4.324745 72.497666 0.998580 0.000610 0.001420 0.015660 3 9.5478E+01 -3.067521 6.430111 -99.000000 -99.000000 -7.627061 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1863873003740295 rel_E_err 6.5104753606866808D-12 save LOGS/profile5.data for model 400 save photos/x400 for model 400 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0357046212579792E-002 410 6.561197 9196.336 -99.000000 -99.000000 72.497487 0.000000 0.000000 0.000074 0.998580 -11.650590 1981 0 -4.5370E-01 6.561197 2.815333 -99.000000 -99.000000 -4.308031 72.497487 0.998580 0.000610 0.001420 0.015653 4 9.9190E+01 -3.012030 6.439818 -99.000000 -99.000000 -7.633123 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1893901179475943 rel_E_err 6.4656156164178190D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0361018790300466E-002 420 6.579739 9192.844 -99.000000 -99.000000 72.497297 0.000000 0.000000 0.000074 0.998580 -11.588157 1987 0 -4.5705E-01 6.579739 2.820245 -99.000000 -99.000000 -4.292579 72.497297 0.998580 0.000610 0.001420 0.015644 4 1.0296E+02 -2.957081 6.448984 -99.000000 -99.000000 -7.639097 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1823333558178604 rel_E_err 6.5715322595223074D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0361841920677707E-002 430 6.598576 9190.005 -99.000000 -99.000000 72.497093 0.000000 0.000000 0.000074 0.998580 -11.524770 1983 0 -3.6974E-01 6.598576 2.824921 -99.000000 -99.000000 -4.278046 72.497093 0.998580 0.000610 0.001420 0.015636 5 1.0690E+02 -2.901275 6.457799 -99.000000 -99.000000 -7.644934 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -11.1265312194868038 rel_E_err 7.4725491544864863D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0359589155446147E-002 440 6.618132 9189.701 -99.000000 -85.609552 72.496867 0.000000 0.000000 0.000074 0.998580 -11.458987 1996 0 -3.5891E-01 6.618132 2.829345 -99.000000 -99.000000 -4.263424 72.496867 0.998580 0.000610 0.001420 0.015627 5 1.1110E+02 -2.843347 6.466589 -85.609552 -99.000000 -7.651189 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1923717790691928 rel_E_err 6.4213777802758631D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0353849471263016E-002 450 6.636850 9191.593 -99.000000 -83.860384 72.496638 0.000000 0.000000 0.000074 0.998580 -11.396032 2018 0 -4.0573E-01 6.636850 2.833145 -99.000000 -99.000000 -4.250245 72.496638 0.998580 0.000610 0.001420 0.015619 4 1.1524E+02 -2.787903 6.474546 -83.860384 -99.000000 -7.657228 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1862350240751258 rel_E_err 6.5127585232847769D-12 save photos/x450 for model 450 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0345188081375387E-002 460 6.655387 9194.889 -99.000000 -82.306659 72.496397 0.000000 0.000000 0.000074 0.998580 -11.333696 2021 0 -4.0785E-01 6.655387 2.836617 -99.000000 -99.000000 -4.237969 72.496397 0.998580 0.000610 0.001420 0.015610 3 1.1946E+02 -2.733000 6.482114 -82.306659 -99.000000 -7.663243 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1774886351847229 rel_E_err 6.6452506227393511D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0333611548205580E-002 470 6.674214 9200.026 -99.000000 -80.745229 72.496138 0.000000 0.000000 0.000074 0.998580 -11.270397 2031 0 -3.1948E-01 6.674214 2.839789 -82.386776 -99.000000 -4.226386 72.496138 0.998580 0.000610 0.001420 0.015601 3 1.2387E+02 -2.677241 6.489428 -80.755257 -99.000000 -7.669413 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -11.1885738609529231 rel_E_err 6.4777791757813801D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0318741592059355E-002 480 6.693755 9208.491 -99.000000 -79.157795 72.495853 0.000000 0.000000 0.000074 0.998580 -11.204715 2047 0 -3.0726E-01 6.693755 2.842584 -80.792234 -99.000000 -4.215167 72.495853 0.998580 0.000610 0.001420 0.015592 4 1.2859E+02 -2.619376 6.496615 -79.167991 -99.000000 -7.676107 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1837982805439786 rel_E_err 6.5494030762383900D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0300009745664129E-002 490 6.712459 9219.306 -99.000000 -77.660867 72.495565 0.000000 0.000000 0.000074 0.998580 -11.141854 2059 0 -3.5254E-01 6.712459 2.844785 -79.342448 -99.000000 -4.205198 72.495565 0.998580 0.000610 0.001420 0.015584 3 1.3326E+02 -2.563990 6.503057 -77.670003 -99.000000 -7.682727 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1858336843788297 rel_E_err 6.5187798676787550D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0279021031157086E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 500 6.730982 9232.919 -99.000000 -76.198619 72.495264 0.000000 0.000000 0.000074 0.998580 -11.079615 2079 0 -3.5314E-01 6.730982 2.846517 -77.927446 -99.000000 -4.196237 72.495264 0.998580 0.000610 0.001420 0.015575 4 1.3804E+02 -2.509144 6.509084 -76.206805 -99.000000 -7.689617 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1765769482478632 rel_E_err 6.6592152294410233D-12 save LOGS/profile6.data for model 500 save photos/x500 for model 500 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0255392661280181E-002 510 6.749796 9250.642 -99.000000 -74.733687 72.494941 0.000000 0.000000 0.000074 0.998580 -11.016415 2093 0 -2.6346E-01 6.749796 2.847758 -76.509176 -99.000000 -4.187994 72.494941 0.998580 0.000610 0.001420 0.015566 4 1.4305E+02 -2.453443 6.514897 -74.741031 -99.000000 -7.697207 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -11.1854506527432118 rel_E_err 6.5245317259891239D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0228295337666236E-002 520 6.769317 9275.442 -99.000000 -73.235039 72.494589 0.000000 0.000000 0.000074 0.998580 -10.950856 2117 0 -2.4960E-01 6.769317 2.847963 -75.057448 -99.000000 -4.181379 72.494589 0.998580 0.000610 0.001420 0.015557 4 1.4844E+02 -2.395655 6.519958 -73.241626 -99.000000 -7.705750 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1792004249111674 rel_E_err 6.6191096433100753D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0196922625869141E-002 530 6.788001 9305.962 -99.000000 -71.820653 72.494234 0.000000 0.000000 0.000074 0.998580 -10.888109 2127 0 -2.9280E-01 6.788001 2.847259 -73.686538 -99.000000 -4.176560 72.494234 0.998580 0.000610 0.001420 0.015548 4 1.5379E+02 -2.340344 6.524257 -71.826608 -99.000000 -7.715089 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1740864502551638 rel_E_err 6.6975127608100015D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0164088753882752E-002 540 6.806499 9344.799 -99.000000 -70.439361 72.493866 0.000000 0.000000 0.000074 0.998580 -10.825986 2142 0 -2.9124E-01 6.806499 2.845382 -72.346910 -99.000000 -4.173497 72.493866 0.998580 0.000610 0.001420 0.015539 4 1.5928E+02 -2.285580 6.527738 -70.444768 -99.000000 -7.725871 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1782405189255627 rel_E_err 6.6337558110915903D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0128818964443442E-002 550 6.825270 9397.997 -99.000000 -69.056778 72.493477 0.000000 0.000000 0.000074 0.998580 -10.762935 2162 0 -1.9889E-01 6.825270 2.841355 -71.005201 -99.000000 -4.173616 72.493477 0.998580 0.000610 0.001420 0.015531 4 1.6508E+02 -2.230001 6.529545 -69.061696 -99.000000 -7.739052 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -11.1740858544372372 rel_E_err 6.6975219492778877D-12 save photos/x550 for model 550 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0090371580037792E-002 560 6.844719 9474.800 -99.000000 -67.644336 72.493059 0.000000 0.000000 0.000074 0.998580 -10.697580 2164 0 -1.8111E-01 6.844719 2.833937 -69.633615 -99.000000 -4.180118 72.493059 0.998580 0.000610 0.001420 0.015522 5 1.7137E+02 -2.172403 6.528847 -67.648811 -99.000000 -7.756758 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1804017156452407 rel_E_err 6.6008259939406237D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0048135840849566E-002 570 6.863312 9578.157 -99.000000 -66.312832 72.492648 0.000000 0.000000 0.000074 0.998580 -10.635045 2190 0 -2.1836E-01 6.863312 2.823205 -68.339742 -99.000000 -4.192023 72.492648 0.998580 0.000610 0.001420 0.015513 5 1.7767E+02 -2.117314 6.526232 -66.316933 -99.000000 -7.781464 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1817191160253877 rel_E_err 6.5808332122489028D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 6.0006642158460591E-002 580 6.881957 9738.362 -99.000000 -64.995774 72.492229 0.000000 0.000000 0.000074 0.998580 -10.572250 2198 0 -1.3288E-01 6.881957 2.805388 -67.059015 -99.000000 -4.212274 72.492229 0.998580 0.000610 0.001420 0.015506 5 1.8434E+02 -2.062031 6.519413 -64.999545 -99.000000 -7.822879 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -11.1789467193810204 rel_E_err 6.6229775149814706D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9964650255558201E-002 590 6.900665 1.002E+04 -99.000000 -63.692286 72.491811 0.000000 0.000000 0.000074 0.998580 -10.509115 2211 0 -1.6194E-01 6.900665 2.775280 -65.790556 -99.000000 -4.249083 72.491811 0.998580 0.000610 0.001420 0.015499 5 1.9147E+02 -2.006503 6.509271 -63.695763 -99.000000 -7.915784 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.0737499342378207 rel_E_err 8.4382048780267174D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9923975923468570E-002 residual_norm > tol_residual_norm 596 1.3618944978387022D-05 9.9999999999999995D-07 max_residual > tol_max_residual 596 8.5980196513571638D-02 1.0000000000000000D-03 correction_norm > tol_correction_norm*coeff 596 2.3355155409090045D-05 1.3136869917052199D-05 4.3789566390173995D-01 max_abs_correction > tol_max_correction*coeff 596 1.0772502703380208D-02 1.3136869917052198D-03 4.3789566390173995D-01 solver rejected trial model s% model_number 596 s% solver_call_number 945 nz 2197 s% num_retries 0 dt 2.2739064600760210D+07 log dt/secyer -1.4233137160086723D-01 retry: avg+max corr+resid -- give up in solver 596 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 600 6.915940 1.078E+04 -99.000000 -62.641304 72.491484 0.000000 0.000000 0.000074 0.998580 -10.457482 2185 1 -1.6164E-01 6.915940 2.709710 -64.767125 -99.000000 -4.298327 72.491484 0.998580 0.000610 0.001420 0.015493 7 1.9760E+02 -1.961129 6.505030 -62.644567 -99.000000 -8.263144 0.000000 0.000252 0.000133 0.001420 0.000E+00 varcontrol log_rel_run_E_err -11.1772916263642870 rel_E_err 6.6482657887751881D-12 save LOGS/profile7.data for model 600 save photos/x600 for model 600 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9891130485589077E-002 residual_norm > tol_residual_norm 605 5.8059522376797679D-02 9.9999999999999995D-07 max_residual > tol_max_residual 605 5.7953395911483722D+02 1.0000000000000000D-03 correction_norm > tol_correction_norm*coeff 605 2.3938475716347059D-03 1.9972517622957560D-06 6.6575058743191862D-02 max_abs_correction > tol_max_correction*coeff 605 1.5020640144793904D+00 1.9972517622957560D-04 6.6575058743191862D-02 solver rejected trial model s% model_number 605 s% solver_call_number 955 nz 2205 s% num_retries 1 dt 2.2201581555265408D+07 log dt/secyer -1.5272005406434791D-01 retry: avg+max corr+resid -- give up in solver 605 residual_norm > tol_residual_norm 608 3.9628838142782050D-02 9.9999999999999995D-07 max_residual > tol_max_residual 608 4.2645393580518123D+02 1.0000000000000000D-03 correction_norm > tol_correction_norm*coeff 608 9.7610216955433635D-04 3.0000000000000001D-06 1.0000000000000001D-01 max_abs_correction > tol_max_correction*coeff 608 3.6143035203469603D-01 3.0000000000000003D-04 1.0000000000000001D-01 solver rejected trial model s% model_number 608 s% solver_call_number 959 nz 2235 s% num_retries 2 dt 1.7813655113157287D+07 log dt/secyer -2.4835092731832800D-01 retry: avg+max corr+resid -- give up in solver 608 610 6.928073 1.434E+04 -99.000000 -61.814892 72.491267 0.000000 0.000000 0.000074 0.998580 -10.416393 2222 3 -3.9102E-01 6.928073 2.454257 -63.961918 -99.000000 -4.417939 72.491267 0.998580 0.000610 0.001420 0.015489 5 2.0270E+02 -1.925053 6.488995 -61.817998 -99.000000 -10.159861 0.000000 0.000252 0.000133 0.001420 0.000E+00 max increase log_rel_run_E_err -11.0939946020343854 rel_E_err 8.0538845153152755D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9869398380491400E-002 residual_norm > tol_residual_norm 612 1.7689008480971498D-02 9.9999999999999995D-07 max_residual > tol_max_residual 612 2.0380460112920849D+02 1.0000000000000000D-03 correction_norm > tol_correction_norm*coeff 612 1.0828732602657990D-03 6.3896800989128987D-06 2.1298933663042996D-01 max_abs_correction > tol_max_correction*coeff 612 4.6950707289875149D-01 6.3896800989128989D-04 2.1298933663042996D-01 solver rejected trial model s% model_number 612 s% solver_call_number 964 nz 2206 s% num_retries 3 dt 1.7499302191153683D+07 log dt/secyer -2.5608323614599932D-01 retry: avg+max corr+resid -- give up in solver 612 620 6.940393 2.015E+04 -99.000000 -60.983254 72.491024 0.000000 0.000000 0.000074 0.998580 -10.374307 2204 4 -6.6376E-02 6.940393 2.128709 -63.151077 -99.000000 -4.380592 72.491024 0.998580 0.000610 0.001420 0.015487 4 2.0853E+02 -1.888261 6.428794 -60.986215 -99.000000 -9.687764 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1782341048997598 rel_E_err 6.6338537846945873D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9862007566474723E-002 630 6.958592 2.114E+04 -99.000000 -59.768625 72.490633 0.000000 0.000000 0.000074 0.998580 -10.311798 2205 4 -5.7859E-02 6.958592 2.083564 -61.965954 -99.000000 -4.375625 72.490633 0.998580 0.000610 0.001420 0.015486 3 2.1792E+02 -1.833765 6.422277 -59.771391 -99.000000 -9.596916 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1656879628787102 rel_E_err 6.8282912521534683D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9857647117427311E-002 640 6.977862 2.171E+04 -99.000000 -58.500126 72.490188 0.000000 0.000000 0.000074 0.998580 -10.245588 2203 4 1.1468E-01 6.977862 2.061223 -60.727307 -99.000000 -4.360399 72.490188 0.998580 0.000610 0.001420 0.015485 3 2.2829E+02 -1.776050 6.423936 -58.502707 -99.000000 -9.554497 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1777924224949956 rel_E_err 6.6406039209964947D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9852945667284933E-002 650 6.996577 2.219E+04 -99.000000 -57.285216 72.489721 0.000000 0.000000 0.000074 0.998580 -10.181294 2203 4 1.2795E-02 6.996577 2.043633 -59.540046 -99.000000 -4.343441 72.489721 0.998580 0.000610 0.001420 0.015484 3 2.3876E+02 -1.719998 6.426800 -57.287638 -99.000000 -9.521964 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1822531242697565 rel_E_err 6.5727463963191078D-12 save photos/x650 for model 650 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9848206939441234E-002 660 7.014930 2.263E+04 -99.000000 -50.662132 72.489228 0.000000 0.000000 0.000074 0.998580 -10.118260 2201 4 -9.8859E-04 7.014930 2.028205 -58.390495 -11.843724 -4.326809 72.489228 0.998580 0.000610 0.001420 0.015483 3 2.4941E+02 -1.665034 6.430145 -50.662132 -99.000000 -9.493746 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1868851997239869 rel_E_err 6.5030156665350878D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9843403633646340E-002 670 7.033206 2.306E+04 -99.000000 -49.497458 72.488700 0.000000 0.000000 0.000074 0.998580 -10.055524 2199 4 6.8905E-03 7.033206 2.013918 -57.260251 -10.543536 -4.310142 72.488700 0.998580 0.000610 0.001420 0.015482 3 2.6038E+02 -1.610315 6.433787 -49.497458 -99.000000 -9.468081 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1787701866164824 rel_E_err 6.6256701814433982D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9838476803387101E-002 680 7.052517 2.350E+04 -99.000000 -48.384832 72.488099 0.000000 0.000000 0.000074 0.998580 -9.989263 2203 4 1.7749E-01 7.052517 1.999389 -56.081240 -9.753056 -4.293114 72.488099 0.998580 0.000610 0.001420 0.015480 3 2.7239E+02 -1.552504 6.437786 -48.384832 -99.000000 -9.443014 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1842672195948456 rel_E_err 6.5423350303602488D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9833120279787572E-002 690 7.071254 2.394E+04 -99.000000 -47.329412 72.487302 0.000000 0.000000 0.000074 0.998580 -9.925003 2204 4 7.4567E-02 7.071254 1.985061 -54.952161 -9.194226 -4.138151 72.487302 0.998580 0.000610 0.001420 0.015478 3 2.8447E+02 -1.496423 6.441604 -47.329412 -99.000000 -9.419819 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1667343168022892 rel_E_err 6.8118595232543889D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9827835335228306E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 700 7.089625 2.439E+04 -99.000000 -46.309365 72.486403 0.000000 0.000000 0.000074 0.998580 -9.862030 2203 4 6.0469E-02 7.089625 1.970708 -53.859143 -8.748953 -4.132552 72.486403 0.998580 0.000610 0.001420 0.015477 3 2.9674E+02 -1.441449 6.445297 -46.309365 -99.000000 -9.398736 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1732403638024689 rel_E_err 6.7105734799873661D-12 save LOGS/profile8.data for model 700 save photos/x700 for model 700 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9822526900733176E-002 710 7.107911 2.487E+04 -99.000000 -45.307554 72.485465 0.000000 0.000000 0.000074 0.998580 -9.799372 2205 4 6.8487E-02 7.107911 1.955534 -52.784610 -8.368051 -4.127314 72.485465 0.998580 0.000610 0.001420 0.015475 3 3.0938E+02 -1.386736 6.448762 -45.307554 -99.000000 -9.379327 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1759684074287264 rel_E_err 6.6685527755876927D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9817075761015463E-002 720 7.127228 2.543E+04 -99.000000 -44.263694 72.484426 0.000000 0.000000 0.000074 0.998580 -9.733210 2207 4 2.3947E-01 7.127228 1.938059 -51.663754 -8.011834 -4.122433 72.484426 0.998580 0.000610 0.001420 0.015473 4 3.2323E+02 -1.328949 6.452099 -44.263694 -99.000000 -9.361485 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1768599552684744 rel_E_err 6.6548771804342814D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9811121068896758E-002 730 7.145965 2.602E+04 -99.000000 -43.265085 72.483367 0.000000 0.000000 0.000074 0.998580 -9.669053 2213 4 1.3736E-01 7.145965 1.919533 -50.589975 -7.699515 -4.117963 72.483367 0.998580 0.000610 0.001420 0.015471 3 3.3717E+02 -1.272899 6.454949 -43.265085 -99.000000 -9.348338 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1848629900480940 rel_E_err 6.5333663286749312D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9805129800622157E-002 740 7.164329 2.666E+04 -99.000000 -42.299464 72.482281 0.000000 0.000000 0.000074 0.998580 -9.606188 2216 4 1.2437E-01 7.164329 1.899561 -49.549677 -7.417842 -4.114295 72.482281 0.998580 0.000610 0.001420 0.015469 3 3.5137E+02 -1.217968 6.457341 -42.299464 -99.000000 -9.340797 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1797420530304112 rel_E_err 6.6108598003610682D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9799033907810037E-002 750 7.182605 2.737E+04 -99.000000 -41.351233 72.481149 0.000000 0.000000 0.000074 0.998580 -9.543637 2213 4 1.3366E-01 7.182605 1.877795 -48.525324 -7.156683 -4.111316 72.481149 0.998580 0.000610 0.001420 0.015467 3 3.6603E+02 -1.163304 6.459283 -41.351233 -99.000000 -9.341777 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1823621832594284 rel_E_err 6.5710960712147148D-12 save photos/x750 for model 750 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9792729146677354E-002 760 7.201904 2.819E+04 -99.000000 -40.363496 72.479898 0.000000 0.000000 0.000074 0.998580 -9.477593 2218 4 3.0574E-01 7.201904 1.852817 -47.454045 -6.897666 -4.108980 72.479898 0.998580 0.000610 0.001420 0.015465 4 3.8215E+02 -1.105578 6.460841 -40.363496 -99.000000 -9.363445 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1954685959639821 rel_E_err 6.3757518272612751D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9785793981754973E-002 770 7.220622 2.907E+04 -99.000000 -39.418685 72.478628 0.000000 0.000000 0.000074 0.998580 -9.413541 2222 4 2.0531E-01 7.220622 1.826824 -46.423728 -6.659807 -4.107293 72.478628 0.998580 0.000610 0.001420 0.015463 3 3.9843E+02 -1.049590 6.461888 -39.418685 -99.000000 -9.423099 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1804412504728710 rel_E_err 6.6002251328864054D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9778768441858837E-002 780 7.238964 2.999E+04 -99.000000 -38.505148 72.477328 0.000000 0.000000 0.000074 0.998580 -9.350765 2230 4 1.9384E-01 7.238964 1.799981 -45.420818 -6.437061 -4.106316 72.477328 0.998580 0.000610 0.001420 0.015462 3 4.1506E+02 -0.994715 6.462497 -38.505148 -99.000000 -9.527699 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1830996402171632 rel_E_err 6.5599474411063599D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9771573429869898E-002 790 7.257217 3.097E+04 -99.000000 -37.608113 72.475977 0.000000 0.000000 0.000074 0.998580 -9.288290 2232 4 2.0451E-01 7.257217 1.772076 -44.428369 -6.223753 -4.105908 72.475977 0.998580 0.000610 0.001420 0.015460 3 4.3229E+02 -0.940103 6.462738 -37.608113 -99.000000 -9.681021 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1818761208807764 rel_E_err 6.5784545588960459D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9764083949522713E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 800 7.276488 3.208E+04 -99.000000 -36.673820 72.474489 0.000000 0.000000 0.000074 0.998580 -9.222318 2241 4 3.7762E-01 7.276488 1.741441 -43.385637 -6.006043 -4.105981 72.474489 0.998580 0.000610 0.001420 0.015458 4 4.5129E+02 -0.882433 6.462648 -36.673820 -99.000000 -9.866120 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1691276046099208 rel_E_err 6.7744243191034319D-12 save LOGS/profile9.data for model 800 save photos/x800 for model 800 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9755792093820717E-002 810 7.295178 3.323E+04 -99.000000 -35.780059 72.472982 0.000000 0.000000 0.000074 0.998580 -9.158316 2246 4 2.7848E-01 7.295178 1.710758 -42.378809 -5.801186 -4.106467 72.472982 0.998580 0.000610 0.001420 0.015457 4 4.7054E+02 -0.826490 6.462315 -35.780059 -99.000000 -9.999660 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1757845563781224 rel_E_err 6.6713763895841653D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9747338627117383E-002 820 7.313497 3.441E+04 -99.000000 -34.915713 72.471441 0.000000 0.000000 0.000074 0.998580 -9.095570 2250 4 2.6800E-01 7.313497 1.680103 -41.395810 -5.605750 -4.107186 72.471441 0.998580 0.000610 0.001420 0.015455 3 4.9024E+02 -0.771651 6.461828 -34.915713 -99.000000 -10.070330 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1821712726393407 rel_E_err 6.5739852808365101D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9738634879420958E-002 830 7.331751 3.564E+04 -99.000000 -34.065752 72.469845 0.000000 0.000000 0.000074 0.998580 -9.033025 2251 4 2.7871E-01 7.331751 1.649490 -40.419242 -5.415872 -4.108043 72.469845 0.998580 0.000610 0.001420 0.015454 4 5.1070E+02 -0.717036 6.461251 -34.065752 -99.000000 -10.087931 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1818802387194420 rel_E_err 6.5783921844306618D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9729613395137382E-002 840 7.351078 3.696E+04 -99.000000 -33.177876 72.468094 0.000000 0.000000 0.000074 0.998580 -8.966764 2261 4 4.4980E-01 7.351078 1.617401 -39.386374 -5.219812 -4.108949 72.468094 0.998580 0.000610 0.001420 0.015451 3 5.3318E+02 -0.659232 6.460620 -33.177876 -99.000000 -10.057451 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1846939978393323 rel_E_err 6.5359090799443853D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9719971871435878E-002 850 7.369852 3.827E+04 -99.000000 -32.327274 72.466341 0.000000 0.000000 0.000074 0.998580 -8.902362 2263 4 3.4476E-01 7.369852 1.587013 -38.380429 -5.034110 -4.109822 72.466341 0.998580 0.000610 0.001420 0.015450 4 5.5573E+02 -0.603061 6.460070 -32.327274 -99.000000 -10.004343 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1881142666279025 rel_E_err 6.4846379467770161D-12 save photos/x850 for model 850 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9710782605904067E-002 860 7.388227 3.955E+04 -99.000000 -31.505842 72.464573 0.000000 0.000000 0.000074 0.998580 -8.839296 2264 4 3.2857E-01 7.388227 1.558065 -37.386534 -4.856696 -4.110530 72.464573 0.998580 0.000610 0.001420 0.015449 3 5.7852E+02 -0.548015 6.459609 -31.505842 -99.000000 -9.945140 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1730246161907250 rel_E_err 6.7139079683040231D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9701940106631664E-002 870 7.406469 4.084E+04 -99.000000 -30.701129 72.462758 0.000000 0.000000 0.000074 0.998580 -8.776673 2269 4 3.3683E-01 7.406469 1.530062 -36.379925 -4.684624 -4.111119 72.462758 0.998580 0.000610 0.001420 0.015448 3 6.0195E+02 -0.493317 6.459223 -30.701130 -99.000000 -9.885758 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1757251780572187 rel_E_err 6.6722885867830344D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9693025260344666E-002 880 7.425706 4.221E+04 -99.000000 -29.863933 72.460766 0.000000 0.000000 0.000074 0.998580 -8.710631 2273 4 5.0941E-01 7.425706 1.501254 -35.279476 -4.507241 -4.111615 72.460766 0.998580 0.000610 0.001420 0.015448 4 6.2769E+02 -0.435623 6.458881 -29.863935 -99.000000 -9.821784 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1806197027460303 rel_E_err 6.5975136473035822D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9683168449002143E-002 890 7.444356 4.355E+04 -99.000000 -29.063305 72.458750 0.000000 0.000000 0.000074 0.998580 -8.646604 2275 4 4.1028E-01 7.444356 1.473947 -34.159193 -4.338968 -4.112019 72.458750 0.998580 0.000610 0.001420 0.015448 3 6.5377E+02 -0.379684 6.458634 -29.063309 -99.000000 -9.757730 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1810410971048118 rel_E_err 6.5911152084614897D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9673002137414548E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 900 7.462632 4.488E+04 -99.000000 -28.289058 72.456688 0.000000 0.000000 0.000074 0.998580 -8.583862 2273 4 4.0017E-01 7.462632 1.447809 -33.017271 -4.177355 -4.112284 72.456688 0.998580 0.000610 0.001420 0.015448 3 6.8046E+02 -0.324860 6.458466 -28.289066 -99.000000 -9.697874 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1653829150451163 rel_E_err 6.8330891191405985D-12 save LOGS/profile10.data for model 900 save photos/x900 for model 900 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9662367110794499E-002 910 7.480821 4.621E+04 -99.000000 -27.528567 72.454545 0.000000 0.000000 0.000074 0.998580 -8.521429 2274 4 4.1208E-01 7.480821 1.422340 -31.866160 -4.019597 -4.112447 72.454545 0.998580 0.000610 0.001420 0.015448 3 7.0822E+02 -0.270294 6.458363 -27.528587 -99.000000 -9.643691 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1823789943870420 rel_E_err 6.5708417152392269D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9651065090988768E-002 920 7.500028 4.764E+04 -99.000000 -26.736222 72.452178 0.000000 0.000000 0.000074 0.998580 -8.455512 2277 4 5.8608E-01 7.500028 1.395869 -30.656172 -3.856245 -4.112530 72.452178 0.998580 0.000610 0.001420 0.015448 3 7.3890E+02 -0.212672 6.458305 -26.736275 -99.000000 -9.589576 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1696129077866733 rel_E_err 6.7668584540773603D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9638309771198175E-002 930 7.518661 4.904E+04 -99.000000 -25.977856 72.449774 0.000000 0.000000 0.000074 0.998580 -8.391572 2280 4 4.8800E-01 7.518661 1.370658 -29.495264 -3.700834 -4.112545 72.449774 0.998580 0.000610 0.001420 0.015448 3 7.7005E+02 -0.156766 6.458307 -25.977988 -99.000000 -9.538667 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1797250119567178 rel_E_err 6.6111192058197748D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9625090546986712E-002 940 7.536929 5.044E+04 -99.000000 -25.244054 72.447308 0.000000 0.000000 0.000074 0.998580 -8.328899 2283 4 4.7829E-01 7.536929 1.346279 -28.376438 -3.550961 -4.112486 72.447308 0.998580 0.000610 0.001420 0.015448 3 8.0200E+02 -0.101954 6.458350 -25.244374 -99.000000 -9.490168 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1727551473295481 rel_E_err 6.7180750728933753D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9611296739847927E-002 950 7.555113 5.185E+04 -99.000000 -24.522869 72.444743 0.000000 0.000000 0.000074 0.998580 -8.266526 2289 4 4.9029E-01 7.555113 1.322341 -27.287231 -3.403649 -4.112379 72.444743 0.998580 0.000610 0.001420 0.015448 3 8.3524E+02 -0.047391 6.458423 -24.523617 -99.000000 -9.443391 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1748356015326120 rel_E_err 6.6859696134192152D-12 save photos/x950 for model 950 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9596723543434725E-002 960 7.574318 5.337E+04 -99.000000 -23.770799 72.441907 0.000000 0.000000 0.000074 0.998580 -8.200669 2288 4 6.6422E-01 7.574318 1.297334 -26.166207 -3.249548 -4.112234 72.441907 0.998580 0.000610 0.001420 0.015448 3 8.7196E+02 0.010236 6.458519 -23.772550 -99.000000 -9.395218 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1706324954137468 rel_E_err 6.7509906202632674D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9580399439302940E-002 970 7.592951 5.487E+04 -99.000000 -23.049833 72.439027 0.000000 0.000000 0.000074 0.998580 -8.136787 2291 4 5.6590E-01 7.592951 1.273332 -25.107959 -3.101034 -4.112052 72.439027 0.998580 0.000610 0.001420 0.015449 3 9.0925E+02 0.066152 6.458647 -23.053648 -99.000000 -9.349394 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1798584565472598 rel_E_err 6.6090881356413593D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9563620105752550E-002 980 7.611220 5.636E+04 -99.000000 -22.350247 72.436074 0.000000 0.000000 0.000074 0.998580 -8.074172 2288 4 5.5591E-01 7.611220 1.250076 -24.098224 -2.956042 -4.111824 72.436074 0.998580 0.000610 0.001420 0.015449 3 9.4746E+02 0.120974 6.458801 -22.358076 -99.000000 -9.305388 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1723749071177316 rel_E_err 6.7239595613949026D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9546250221753902E-002 990 7.629405 5.787E+04 -99.000000 -21.659332 72.433002 0.000000 0.000000 0.000074 0.998580 -8.011858 2290 4 5.6757E-01 7.629405 1.227193 -23.119709 -2.812075 -4.111554 72.433002 0.998580 0.000610 0.001420 0.015449 3 9.8718E+02 0.175550 6.458983 -21.674644 -99.000000 -9.262720 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1676988542720306 rel_E_err 6.7967476502265255D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9528035459167558E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1000 7.648612 5.950E+04 -99.000000 -20.932810 72.429608 0.000000 0.000000 0.000074 0.998580 -7.946064 2293 4 7.4120E-01 7.648612 1.203233 -22.114127 -2.660263 -4.111242 72.429608 0.998580 0.000610 0.001420 0.015449 3 1.0310E+03 0.233194 6.459195 -20.962402 -99.000000 -9.218859 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1595577166731381 rel_E_err 6.9253588699790105D-12 save LOGS/profile11.data for model 1000 save photos/1000 for model 1000 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9507773986066624E-002 1010 7.667248 6.110E+04 -99.000000 -20.227348 72.426163 0.000000 0.000000 0.000074 0.998580 -7.882245 2293 4 6.4241E-01 7.667248 1.180243 -21.164897 -2.513152 -4.110880 72.426163 0.998580 0.000610 0.001420 0.015450 3 1.0755E+03 0.289127 6.459440 -20.280633 -99.000000 -9.177548 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1738878635846479 rel_E_err 6.7005759839219554D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9487079495598526E-002 1020 7.685520 6.270E+04 -99.000000 -19.530952 72.422633 0.000000 0.000000 0.000074 0.998580 -7.819695 2301 4 6.3195E-01 7.685520 1.157982 -20.258614 -2.369119 -4.110473 72.422633 0.998580 0.000610 0.001420 0.015450 3 1.1211E+03 0.343967 6.459712 -19.620975 -99.000000 -9.138171 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1775540764921217 rel_E_err 6.6442493640446161D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9465771630833594E-002 1030 7.703707 6.432E+04 -99.000000 -15.338625 72.418963 0.000000 0.000000 0.000074 0.998580 -7.757448 2305 4 6.4315E-01 7.703707 1.136018 -19.379550 -2.225986 -4.110018 72.418963 0.998580 0.000610 0.001420 0.015450 3 1.1684E+03 0.398561 6.460019 -15.338665 -99.000000 -9.099955 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1731738215469409 rel_E_err 6.7116017474984499D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9443530898805108E-002 1040 7.722917 6.605E+04 -99.000000 -12.828904 72.414911 0.000000 0.000000 0.000074 0.998580 -7.691726 2307 4 8.1642E-01 7.722917 1.113081 -18.475165 -2.075109 -4.109495 72.414911 0.998580 0.000610 0.001420 0.015451 3 1.2205E+03 0.456225 6.460380 -12.828905 -99.000000 -9.061111 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1566541606352203 rel_E_err 6.9718147585272655D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9418896547772000E-002 1050 7.741555 6.776E+04 -99.000000 -11.913402 72.410799 0.000000 0.000000 0.000074 0.998580 -7.627984 2309 4 7.1713E-01 7.741555 1.091127 -17.620464 -1.929002 -4.108871 72.410799 0.998580 0.000610 0.001420 0.015451 3 1.2734E+03 0.512175 6.460797 -11.913402 -99.000000 -9.025578 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1779430277057354 rel_E_err 6.6383014828928178D-12 save photos/x050 for model 1050 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9393839100125904E-002 1060 7.759828 6.945E+04 -99.000000 -11.330389 72.406588 0.000000 0.000000 0.000074 0.998580 -7.565515 2313 4 7.0623E-01 7.759828 1.069890 -16.803426 -1.785947 -4.108160 72.406588 0.998580 0.000610 0.001420 0.015452 3 1.3275E+03 0.567032 6.461275 -11.330390 -99.000000 -8.993025 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1757360965921784 rel_E_err 6.6721208418462070D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9368137066652060E-002 1070 7.778018 7.117E+04 -99.000000 -10.891853 72.402210 0.000000 0.000000 0.000074 0.998580 -7.503357 2312 4 7.1700E-01 7.778018 1.048973 -16.009732 -1.643608 -4.107357 72.402210 0.998580 0.000610 0.001420 0.015452 3 1.3836E+03 0.621642 6.461815 -10.891856 -99.000000 -8.962736 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1775009615474961 rel_E_err 6.6450620165956256D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9341402395515434E-002 1080 7.797232 7.301E+04 -31.516631 -10.462121 72.397377 0.000000 0.000000 0.000074 0.998580 -7.437731 2319 4 8.8991E-01 7.797232 1.027125 -15.191014 -1.493194 -4.106455 72.397377 0.998580 0.000610 0.001420 0.015453 4 1.4454E+03 0.679326 6.462439 -10.462129 -99.000000 -8.932896 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1704084846442449 rel_E_err 6.7544737054912451D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9311879172928676E-002 1090 7.815873 7.482E+04 -30.465583 -9.986550 72.392474 0.000000 0.000000 0.000074 0.998580 -7.374089 2321 4 7.9008E-01 7.815873 1.006137 -14.412192 -1.347111 -4.105448 72.392474 0.998580 0.000610 0.001420 0.015453 3 1.5080E+03 0.735296 6.463102 -9.986567 -99.000000 -8.905828 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1722174533610801 rel_E_err 6.7263977794205344D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9281926322702377E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1100 7.834149 7.663E+04 -27.405724 -9.489986 72.387454 0.000000 0.000000 0.000074 0.998580 -7.311726 2325 4 7.7873E-01 7.834149 0.985743 -13.653780 -1.203761 -4.104409 72.387454 0.998580 0.000610 0.001420 0.015454 3 1.5719E+03 0.790169 6.463794 -9.490016 -99.000000 -8.880908 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1851269695087705 rel_E_err 6.5293963255112577D-12 save LOGS/profile12.data for model 1100 save photos/x100 for model 1100 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9251269296949009E-002 1110 7.852341 7.846E+04 -29.329055 -8.988199 72.382236 0.000000 0.000000 0.000074 0.998580 -7.249683 2330 4 7.8914E-01 7.852341 0.965596 -12.880927 -1.061047 -4.103326 72.382236 0.998580 0.000610 0.001420 0.015454 3 1.6381E+03 0.844792 6.464518 -8.988255 -99.000000 -8.857936 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1812634904257209 rel_E_err 6.5877408972127686D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9219442439372903E-002 1120 7.871557 8.043E+04 -30.941433 -8.460184 72.376477 0.000000 0.000000 0.000074 0.998580 -7.184187 2332 4 9.6181E-01 7.871557 0.944440 -12.002085 -0.910487 -4.102177 72.376477 0.998580 0.000610 0.001420 0.015455 3 1.7111E+03 0.902490 6.465310 -8.460309 -99.000000 -8.835984 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1814319724751119 rel_E_err 6.5851857166417281D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9184359769847698E-002 1130 7.890200 8.238E+04 -30.109242 -7.953125 72.370635 0.000000 0.000000 0.000074 0.998580 -7.120681 2336 4 8.6169E-01 7.890200 0.924057 -11.058578 -0.764826 -4.100942 72.370635 0.998580 0.000610 0.001420 0.015455 3 1.7849E+03 0.958470 6.466119 -7.953466 -99.000000 -8.816932 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1736144377026747 rel_E_err 6.7047959034271873D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9148828302425432E-002 1140 7.908478 8.433E+04 -26.638522 -7.461590 72.364653 0.000000 0.000000 0.000074 0.998580 -7.058461 2337 4 8.5006E-01 7.908478 0.904183 -10.068069 -0.622589 -4.099709 72.364653 0.998580 0.000610 0.001420 0.015456 4 1.8603E+03 1.013354 6.466938 -7.462666 -99.000000 -8.799891 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1722229762729679 rel_E_err 6.7263122405348650D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9112511025163468E-002 1150 7.926672 8.630E+04 -31.914681 -6.976749 72.358438 0.000000 0.000000 0.000074 0.998580 -6.996563 2339 4 8.6020E-01 7.926672 0.884490 -9.063674 -0.481599 -4.098464 72.358438 0.998580 0.000610 0.001420 0.015457 3 1.9383E+03 1.067987 6.467768 -6.980319 -99.000000 -8.784332 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1686577964614617 rel_E_err 6.7817566753012077D-12 save photos/x150 for model 1150 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9074844605265089E-002 1160 7.945889 8.843E+04 -31.094313 -6.465197 72.351580 0.000000 0.000000 0.000074 0.998580 -6.931226 2339 4 1.0327E+00 7.945889 0.863750 -8.019583 -0.333182 -4.097191 72.351580 0.998580 0.000610 0.001420 0.015457 4 2.0242E+03 1.125696 6.468643 -6.477486 -99.000000 -8.769847 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1772297038131470 rel_E_err 6.6492137790116453D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.9033354773696325E-002 1170 7.964533 9.054E+04 -30.363428 -5.957957 72.344624 0.000000 0.000000 0.000074 0.998580 -6.867881 2342 4 9.3225E-01 7.964533 0.843739 -7.036267 -0.189384 -4.095863 72.344624 0.998580 0.000610 0.001420 0.015458 3 2.1111E+03 1.181687 6.469510 -5.995825 -99.000000 -8.758376 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1628511183067864 rel_E_err 6.8730401622451367D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8991360038937797E-002 1180 7.982810 9.264E+04 -20.661467 -5.426342 72.337506 0.000000 0.000000 0.000074 0.998580 -6.805825 2344 4 9.2041E-01 7.982810 0.824223 -6.105231 -0.048208 -4.094554 72.337506 0.998580 0.000610 0.001420 0.015459 3 2.1997E+03 1.236578 6.470380 -5.528420 -99.000000 -8.749441 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1673096342691256 rel_E_err 6.8028417086086018D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8948460781994699E-002 1190 8.001002 9.477E+04 -21.216500 -4.830930 72.330112 0.000000 0.000000 0.000074 0.998580 -6.744098 2346 4 9.3034E-01 8.001002 0.804911 -5.211810 0.092874 -4.093219 72.330112 0.998580 0.000610 0.001420 0.015459 3 2.2915E+03 1.291219 6.471271 -5.064537 -99.000000 -8.742165 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1756644203600821 rel_E_err 6.6732221037042983D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8903992366164296E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1200 8.020218 9.707E+04 -17.990408 -4.114227 72.321954 0.000000 0.000000 0.000074 0.998580 -6.678946 2349 4 1.1026E+00 8.020218 0.784623 -4.303732 0.241851 -4.091821 72.321954 0.998580 0.000610 0.001420 0.015460 4 2.3924E+03 1.348938 6.472236 -4.565702 -99.000000 -8.735590 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1787869473271311 rel_E_err 6.6254144821367591D-12 save LOGS/profile13.data for model 1200 save photos/x200 for model 1200 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8855034638040087E-002 1210 8.038860 9.933E+04 -19.959987 -3.357882 72.313683 0.000000 0.000000 0.000074 0.998580 -6.615786 2352 4 1.0019E+00 8.038860 0.765089 -3.456683 0.385892 -4.090324 72.313683 0.998580 0.000610 0.001420 0.015461 4 2.4944E+03 1.404939 6.473215 -4.049371 -99.000000 -8.730403 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1841188347505192 rel_E_err 6.5445707235765283D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8805506348316459E-002 1220 8.057135 1.016E+05 -18.669647 -2.596281 72.305218 0.000000 0.000000 0.000074 0.998580 -6.553918 2354 4 9.8981E-01 8.057135 0.746085 -2.657561 0.526865 -4.088822 72.305218 0.998580 0.000610 0.001420 0.015462 4 2.5984E+03 1.459841 6.474213 -3.477031 -99.000000 -8.726730 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1717014297108470 rel_E_err 6.7343947570151502D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8754935524622395E-002 1230 8.075325 1.039E+05 -19.302541 -1.843487 72.296429 0.000000 0.000000 0.000074 0.998580 -6.492385 2356 4 9.9945E-01 8.075325 0.727305 -1.891673 0.667205 -4.087278 72.296429 0.998580 0.000610 0.001420 0.015463 3 2.7060E+03 1.514493 6.475245 -2.822226 -99.000000 -8.725145 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1732341641231798 rel_E_err 6.7106692760476522D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8702539190030732E-002 1240 8.094539 1.063E+05 -18.661088 -1.067004 72.286732 0.000000 0.000000 0.000074 0.998580 -6.427444 2356 4 1.1715E+00 8.094539 0.707607 -1.113399 0.815619 -4.085652 72.286732 0.998580 0.000610 0.001420 0.015464 3 2.8243E+03 1.572225 6.476369 -2.061308 -99.000000 -8.726532 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1689462439463654 rel_E_err 6.7772538983641827D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8644879656276419E-002 1250 8.113178 1.087E+05 -20.561561 -0.336963 72.276902 0.000000 0.000000 0.000074 0.998580 -6.364499 2358 4 1.0705E+00 8.113178 0.688676 -0.387283 0.959792 -4.083902 72.276902 0.998580 0.000610 0.001420 0.015465 3 2.9438E+03 1.628238 6.477512 -1.297921 -99.000000 -8.731487 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1646440085799359 rel_E_err 6.8447247985199141D-12 save photos/x250 for model 1250 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8586579567471798E-002 1260 8.131449 1.111E+05 -18.439147 0.355098 72.266843 0.000000 0.000000 0.000074 0.998580 -6.302852 2364 4 1.0581E+00 8.131449 0.670288 0.298033 1.101219 -4.082140 72.266843 0.998580 0.000610 0.001420 0.015466 3 3.0655E+03 1.683150 6.478684 -0.554538 -99.000000 -8.740105 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1856149086028953 rel_E_err 6.5220645292509660D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8527086075041188E-002 1270 8.149636 1.136E+05 -16.350622 1.020765 72.256398 0.000000 0.000000 0.000074 0.998580 -6.241549 2364 4 1.0674E+00 8.149636 0.652153 0.955202 1.241945 -4.080316 72.256398 0.998580 0.000610 0.001420 0.015468 3 3.1915E+03 1.737813 6.479904 0.167266 -99.000000 -8.753198 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1708788197394142 rel_E_err 6.7471626607172570D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8465480326593267E-002 1280 8.168846 1.162E+05 -17.991948 1.699353 72.244874 0.000000 0.000000 0.000074 0.998580 -6.176862 2365 4 1.2392E+00 8.168846 0.633169 1.623434 1.390385 -4.078380 72.244874 0.998580 0.000610 0.001420 0.015469 4 3.3298E+03 1.795559 6.481246 0.904512 -99.000000 -8.772801 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1726277268012897 rel_E_err 6.7200464225176736D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8397723162694370E-002 1290 8.187482 1.187E+05 -15.541708 2.334314 72.233191 0.000000 0.000000 0.000074 0.998580 -6.114172 2370 4 1.1378E+00 8.187482 0.614967 2.247293 1.534066 -4.076287 72.233191 0.998580 0.000610 0.001420 0.015470 3 3.4693E+03 1.851585 6.482611 1.593373 -99.000000 -8.798056 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1786057749140237 rel_E_err 6.6281789490705062D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8329252629535665E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1300 8.205750 1.212E+05 -14.813961 2.935177 72.221237 0.000000 0.000000 0.000074 0.998580 -6.052788 2373 4 1.1251E+00 8.205750 0.597300 2.836462 1.674545 -4.074188 72.221237 0.998580 0.000610 0.001420 0.015472 3 3.6115E+03 1.906509 6.484007 2.243355 -99.000000 -8.828638 0.000000 0.000252 0.000133 0.001420 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1723617057365505 rel_E_err 6.7241639547410181D-12 save LOGS/profile14.data for model 1300 save photos/x300 for model 1300 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8259421029169776E-002 1310 8.223930 1.238E+05 -13.699081 3.512681 72.208820 0.000000 0.000000 0.000074 0.998580 -5.991765 2374 4 1.1343E+00 8.223930 0.579890 3.401734 1.814005 -4.072031 72.208820 0.998579 0.000610 0.001420 0.015473 4 3.7584E+03 1.961177 6.485447 2.865719 -99.000000 -8.864259 0.000000 0.000252 0.000133 0.001421 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1770252205590843 rel_E_err 6.6523452325919526D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8187157990349382E-002 retry: check_lgL_nuc_change hard limit 1319 1320 8.240956 1.262E+05 -12.062299 4.035429 72.196688 0.000000 0.000000 0.000073 0.998580 -5.934676 2375 5 1.0054E+00 8.240956 0.563736 3.912828 1.944347 -4.069898 72.196688 0.998578 0.000610 0.001420 0.015475 3 3.9012E+03 2.012381 6.486836 3.426280 -99.000000 -8.902471 0.000000 0.000253 0.000133 0.001422 0.000E+00 max increase log_rel_run_E_err -11.1831487238588920 rel_E_err 6.5592060825840992D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8116885476196700E-002 1330 8.253191 1.280E+05 -14.314240 4.400183 72.187636 0.000000 0.000000 0.000073 0.998580 -5.893688 2377 5 9.8815E-01 8.253191 0.552259 4.269553 2.037877 -4.068333 72.187636 0.998575 0.000610 0.001420 0.015476 4 4.0073E+03 2.049182 6.487872 3.814764 -99.000000 -8.933863 0.000000 0.000256 0.000134 0.001425 0.000E+00 Lnuc log_rel_run_E_err -11.1731375271850020 rel_E_err 6.7121626652445985D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8064779591646465E-002 1340 8.263480 1.295E+05 -13.612951 4.699432 72.179770 0.000000 0.000000 0.000072 0.998580 -5.859243 2377 5 9.4781E-01 8.263480 0.542671 4.562928 2.116468 -4.066994 72.179770 0.998570 0.000610 0.001420 0.015477 3 4.0992E+03 2.080133 6.488755 4.130326 -99.000000 -8.963692 0.000000 0.000260 0.000135 0.001430 0.000E+00 Lnuc log_rel_run_E_err -11.1870531540811271 rel_E_err 6.5005012467260550D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.8019888285450266E-002 1350 8.272892 1.308E+05 -11.932032 4.966289 72.172326 0.000000 0.000000 0.000070 0.998580 -5.827760 2381 5 9.3304E-01 8.272892 0.533939 4.826095 2.188308 -4.065769 72.172326 0.998562 0.000610 0.001420 0.015479 4 4.1859E+03 2.108445 6.489567 4.407023 -99.000000 -8.994274 0.000000 0.000268 0.000138 0.001438 0.000E+00 Lnuc log_rel_run_E_err -11.1718111184649391 rel_E_err 6.7326940812644488D-12 save photos/x350 for model 1350 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.7977945713901850E-002 1360 8.283554 1.324E+05 -12.718297 5.258530 72.163500 0.000000 0.000000 0.000066 0.998580 -5.792125 2382 5 1.0511E+00 8.283554 0.524062 5.118369 2.269647 -4.064421 72.163500 0.998542 0.000610 0.001420 0.015480 3 4.2885E+03 2.140517 6.490483 4.699178 -99.000000 -9.032710 0.000000 0.000286 0.000144 0.001458 0.000E+00 Lnuc log_rel_run_E_err -11.1809456426110216 rel_E_err 6.5925640426933079D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.7929378137869227E-002 1370 8.294113 1.340E+05 -9.431572 5.533115 72.154139 0.000000 0.000000 0.000057 0.998580 -5.756867 2382 5 1.0279E+00 8.294113 0.514279 5.401844 2.350162 -4.063050 72.154139 0.998502 0.000610 0.001420 0.015482 3 4.3968E+03 2.172282 6.491385 4.949518 -99.000000 -9.073692 0.000000 0.000323 0.000156 0.001498 0.000E+00 Lnuc log_rel_run_E_err -11.1852059192473572 rel_E_err 6.5282094642871607D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.7880106443756664E-002 1380 8.306141 1.358E+05 -11.649276 5.818466 72.142158 0.000000 0.000000 0.000040 0.998580 -5.716757 2382 5 1.1461E+00 8.306141 0.503052 5.717595 2.441821 -4.061545 72.142158 0.998401 0.000610 0.001420 0.015487 3 4.5351E+03 2.208458 6.492398 5.134986 -99.000000 -9.121519 0.000000 0.000416 0.000181 0.001599 0.000E+00 Lnuc log_rel_run_E_err -11.2097763401197756 rel_E_err 6.1691262754410717D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.7822399963166522E-002 1390 8.319632 1.379E+05 -10.140296 6.100713 72.125198 0.000000 0.000000 0.000013 0.998580 -5.671848 2386 5 1.4320E+00 8.319632 0.490193 6.062806 2.544562 -4.059963 72.125198 0.998107 0.000610 0.001420 0.015496 3 4.7301E+03 2.249024 6.493481 5.022830 -99.000000 -9.174749 0.000000 0.000698 0.000220 0.001893 0.000E+00 Lnuc log_rel_run_E_err -11.3895123652070414 rel_E_err -4.0783794966775438D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.7755022444894034E-002 write /home/jenkins/workspace/mesa_main/data/kap_data/cache/gs98_co_z0.004_x0.0.bin write /home/jenkins/workspace/mesa_main/data/kap_data/cache/gs98_co_z0.004_x0.03.bin __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1400 8.331639 1.400E+05 -9.721723 6.364044 72.098621 0.000000 0.000000 0.000001 0.998580 -5.631990 2385 5 1.6201E+00 8.331639 0.477772 6.361609 2.635929 -4.058771 72.098621 0.997185 0.000611 0.001420 0.015522 3 5.0347E+03 2.285099 6.494177 4.111657 -99.000000 -9.220315 0.000000 0.001614 0.000237 0.002815 0.000E+00 max increase log_rel_run_E_err -11.1550113456620679 rel_E_err 6.9982371332219324D-12 save LOGS/profile15.data for model 1400 save photos/x400 for model 1400 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.7689911088033390E-002 num_steps_to_relax_rotation 100 1410 8.337003 1.416E+05 -9.958020 6.489163 72.026653 0.000000 0.000000 0.000000 0.998580 -5.614302 2384 5 0.0000E+00 8.337003 0.467945 6.488186 2.676636 -99.000000 72.026653 0.993342 0.000617 0.001420 0.015626 2 6.0764E+03 2.301171 6.494657 3.840465 -99.000000 -9.257698 0.000000 0.005451 0.000238 0.006658 0.000E+00 max_dt log_rel_run_E_err -7.4086439219874922 rel_E_err 4.2410048471858530D-10 relax to omega: wanted-current, current, wanted 1410 1.8880736224550669D-05 1.9071258483814833D-07 1.9071448809388817D-05 1420 8.337014 1.416E+05 -9.957907 6.489419 72.026653 0.000000 0.000000 0.000000 0.998580 -5.614270 2384 5 0.0000E+00 8.337014 0.467898 6.488443 2.676718 -99.000000 72.026653 0.993342 0.000617 0.001420 0.015626 2 6.0864E+03 2.301201 6.494649 3.840689 -99.000000 -9.257672 0.000000 0.005451 0.000238 0.006658 0.000E+00 max_dt log_rel_run_E_err -7.3651619909872617 rel_E_err 3.9783953264429574D-10 relax to omega: wanted-current, current, wanted 1420 1.6979384359914716D-05 2.0985245003409552D-06 1.9077908860255671D-05 1430 8.337023 1.416E+05 -9.957809 6.489644 72.026653 0.000000 0.000000 0.000000 0.998580 -5.614242 2384 5 0.0000E+00 8.337023 0.467848 6.488668 2.676789 -99.000000 72.026653 0.993342 0.000617 0.001420 0.015626 2 6.0964E+03 2.301228 6.494637 3.840886 -99.000000 -9.257576 0.000000 0.005451 0.000238 0.006658 0.000E+00 max_dt log_rel_run_E_err -7.3285338094143873 rel_E_err 3.6437620350272191D-10 relax to omega: wanted-current, current, wanted 1430 1.5078026800784882D-05 4.0079368274600626D-06 1.9085963628244945D-05 1440 8.337031 1.416E+05 -9.957723 6.489839 72.026653 0.000000 0.000000 0.000000 0.998580 -5.614217 2384 5 0.0000E+00 8.337031 0.467797 6.488863 2.676852 -99.000000 72.026653 0.993342 0.000617 0.001420 0.015626 2 6.1064E+03 2.301251 6.494622 3.841057 -99.000000 -9.257436 0.000000 0.005451 0.000238 0.006658 0.000E+00 max_dt log_rel_run_E_err -7.2977602581929055 rel_E_err 3.2848201949244502D-10 relax to omega: wanted-current, current, wanted 1440 1.3175911199781020D-05 5.9193103981415096D-06 1.9095221597922530D-05 1450 8.337038 1.416E+05 -9.957650 6.490006 72.026653 0.000000 0.000000 0.000000 0.998580 -5.614196 2384 5 0.0000E+00 8.337038 0.467747 6.489030 2.676905 -99.000000 72.026653 0.993342 0.000617 0.001420 0.015626 2 6.1164E+03 2.301271 6.494606 3.841203 -99.000000 -9.257260 0.000000 0.005451 0.000238 0.006658 0.000E+00 max_dt log_rel_run_E_err -7.2719731885046075 rel_E_err 2.9180228777175744D-10 relax to omega: wanted-current, current, wanted 1450 1.1272597581865537D-05 7.8329533621811958D-06 1.9105550944046733D-05 1460 8.337043 1.416E+05 -9.957588 6.490145 72.026653 0.000000 0.000000 0.000000 0.998580 -5.614179 2384 5 0.0000E+00 8.337043 0.467699 6.489169 2.676950 -99.000000 72.026653 0.993342 0.000617 0.001420 0.015626 2 6.1264E+03 2.301287 6.494587 3.841325 -99.000000 -9.257052 0.000000 0.005451 0.000238 0.006658 0.000E+00 max_dt log_rel_run_E_err -7.2504426182222073 rel_E_err 2.5566305319257969D-10 relax to omega: wanted-current, current, wanted 1460 9.3677304370653641D-06 9.7491530380110587D-06 1.9116883475076423D-05 1470 8.337048 1.416E+05 -9.957538 6.490259 72.026653 0.000000 0.000000 0.000000 0.998580 -5.614164 2384 5 0.0000E+00 8.337048 0.467652 6.489283 2.676986 -99.000000 72.026653 0.993342 0.000617 0.001420 0.015626 2 6.1364E+03 2.301301 6.494567 3.841424 -99.000000 -9.256816 0.000000 0.005451 0.000238 0.006658 0.000E+00 max_dt log_rel_run_E_err -7.2325417997323704 rel_E_err 2.2115933381648236D-10 relax to omega: wanted-current, current, wanted 1470 7.4609923236634220D-06 1.1668185748123487D-05 1.9129178071786909D-05 1480 8.337052 1.416E+05 -9.957498 6.490348 72.026653 0.000000 0.000000 0.000000 0.998580 -5.614153 2384 5 0.0000E+00 8.337052 0.467607 6.489372 2.677015 -99.000000 72.026653 0.993342 0.000617 0.001420 0.015626 2 6.1464E+03 2.301311 6.494545 3.841502 -99.000000 -9.256554 0.000000 0.005451 0.000238 0.006658 0.000E+00 max_dt log_rel_run_E_err -7.2177189263763086 rel_E_err 1.8930551543382386D-10 relax to omega: wanted-current, current, wanted 1480 5.5520866032497912D-06 1.3590321408340676D-05 1.9142408011590467D-05 1490 8.337054 1.416E+05 -9.957468 6.490414 72.026653 0.000000 0.000000 0.000000 0.998580 -5.614145 2384 5 0.0000E+00 8.337054 0.467565 6.489438 2.677036 -99.000000 72.026653 0.993342 0.000617 0.001420 0.015626 2 6.1564E+03 2.301319 6.494523 3.841560 -99.000000 -9.256266 0.000000 0.005451 0.000238 0.006658 0.000E+00 max_dt log_rel_run_E_err -7.2054694852899441 rel_E_err 1.6099880110578496D-10 relax to omega: wanted-current, current, wanted 1490 3.6407291008526046D-06 1.5515826135738899D-05 1.9156555236591504D-05 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1500 8.337056 1.416E+05 -9.957449 6.490457 72.026653 0.000000 0.000000 0.000000 0.998580 -5.614139 2384 5 0.0000E+00 8.337056 0.467525 6.489481 2.677050 -99.000000 72.026653 0.993342 0.000617 0.001420 0.015626 2 6.1664E+03 2.301324 6.494499 3.841597 -99.000000 -9.255955 0.000000 0.005451 0.000238 0.006658 0.000E+00 max_dt log_rel_run_E_err -7.1953197726402029 rel_E_err 1.3711209653747557D-10 relax to omega: wanted-current, current, wanted 1500 1.7266434875744302D-06 1.7444963920288130D-05 1.9171607407862560D-05 final step: wanted-current, current, wanted 1509 1.4095169304190018D-09 1.9184511600891924D-05 1.9185921117822343D-05 finished doing relax uniform omega 1410 8.336999 1.423E+05 -8.996700 6.486208 71.983704 0.000000 0.000000 0.000000 0.998580 -5.614183 2383 5 2.4120E+00 8.336999 0.461206 6.484977 2.676415 -4.045298 71.983704 0.991039 0.000625 0.001420 0.015690 3 6.3336E+03 2.301215 6.490080 3.938162 -99.000000 -9.200423 0.000000 0.007747 0.000238 0.008961 0.000E+00 max increase log_rel_run_E_err -11.0626090256073653 rel_E_err 8.6574695832188856D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.7630595567887417E-002 1420 8.338694 1.426E+05 -10.425860 6.480093 71.269916 0.000000 0.000000 0.000000 0.998580 -5.604449 2367 5 3.2038E+00 8.338694 0.456984 6.473376 2.684855 -4.054685 71.269916 0.952232 0.001136 0.001420 0.016804 5 1.4377E+04 2.308093 6.484651 4.666104 -99.000000 -9.186866 0.000000 0.046042 0.000238 0.047768 0.000E+00 max increase log_rel_run_E_err -11.1777479863808740 rel_E_err 6.6412834086312711D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.7411249974485282E-002 1430 8.344131 1.416E+05 -9.523985 6.470846 69.323301 0.000000 0.000000 0.000000 0.998580 -5.574827 2333 5 3.4046E+00 8.344131 0.457847 6.445678 2.713612 -4.076281 69.323301 0.844250 0.006730 0.001420 0.020297 5 3.7087E+04 2.329461 6.475015 5.221389 -99.000000 -9.211795 0.000000 0.148430 0.000238 0.155750 0.000E+00 max increase log_rel_run_E_err -10.0089763996627106 rel_E_err 9.7954321408898501D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.6758484429876264E-002 1440 8.350786 1.408E+05 -8.658557 6.460910 67.276518 0.000000 0.000000 0.000000 0.998580 -5.540660 2440 5 3.4164E+00 8.350786 0.457832 6.409882 2.750738 -4.095448 67.276518 0.728486 0.020937 0.001420 0.024836 5 6.2108E+04 2.354714 6.464735 5.505667 -99.000000 -9.242301 0.000000 0.249987 0.000238 0.271514 0.000E+00 XHe_cntr log_rel_run_E_err -10.0076425084141842 rel_E_err 9.8255640624764730D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.5997945586265217E-002 1450 8.358148 1.402E+05 -9.909467 6.451571 65.339440 0.000000 0.000000 0.000000 0.998580 -5.504714 2549 5 3.3693E+00 8.358148 0.456491 6.367255 2.793653 -4.112482 65.339440 0.618357 0.045037 0.001420 0.030199 5 8.6757E+04 2.381854 6.455076 5.698222 -99.000000 -9.281602 0.000000 0.336016 0.000238 0.381643 0.000E+00 XHe_cntr log_rel_run_E_err -11.1170000585603717 rel_E_err 7.6383568058189672D-12 save photos/x450 for model 1450 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.5222147243482934E-002 1460 8.366922 1.415E+05 -7.486636 6.441491 63.361140 0.000000 0.000000 0.000000 0.887130 -5.463497 2604 5 3.4571E+00 8.366922 0.444084 6.310193 2.846555 -4.125794 63.361140 0.507260 0.084122 0.112870 0.037093 5 1.1284E+05 2.413506 6.445498 5.857969 -99.000000 -9.084532 0.000000 0.408027 0.000239 0.492740 0.000E+00 max increase log_rel_run_E_err -9.8889925112964843 rel_E_err 1.2912415387863262D-10 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.4397984112608183E-002 1470 8.376878 1.419E+05 -7.588351 6.431631 61.452877 0.000000 0.000000 0.000000 0.761768 -5.418319 2657 5 3.4451E+00 8.376878 0.436661 6.236679 2.908410 -4.140871 61.452877 0.403542 0.140026 0.238232 0.045547 5 1.3882E+05 2.448744 6.435839 5.989938 -99.000000 -8.956815 0.000000 0.455838 0.000242 0.596458 0.000E+00 max increase log_rel_run_E_err -9.9603686276338976 rel_E_err 1.0955479041639415D-10 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.3596466780611432E-002 1480 8.388594 1.422E+05 -8.267314 6.421487 59.562292 0.000000 0.000000 0.000000 0.648401 -5.366896 2690 5 3.4245E+00 8.388594 0.429881 6.136907 2.983211 -4.155667 59.562292 0.306308 0.218155 0.351599 0.056277 5 1.6546E+05 2.489476 6.425836 6.103358 -99.000000 -8.853713 0.000000 0.474934 0.000251 0.693692 0.000E+00 adjust_J_q log_rel_run_E_err -10.4571978378884332 rel_E_err 3.4898130481808166D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.2812030087790757E-002 retry: check_adjust_J_q hard limit 1485 1490 8.402087 1.425E+05 -11.258937 6.411590 57.774355 0.000000 0.000000 0.000000 0.541500 -5.309695 2684 6 3.3594E+00 8.402087 0.423203 6.004683 3.071644 -4.171673 57.774355 0.221109 0.318001 0.458500 0.069383 5 1.9156E+05 2.535535 6.416017 6.195618 -99.000000 -8.796003 0.000000 0.460251 0.000287 0.778891 0.000E+00 adjust_J_q log_rel_run_E_err -11.1177052863408914 rel_E_err 7.6259633484914147D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.2089765434586564E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1500 8.416851 1.433E+05 -10.659986 6.402654 56.214827 0.000000 0.000000 0.000000 0.458061 -5.249351 2674 6 3.3058E+00 8.416851 0.413947 5.840421 3.170830 -4.183316 56.214827 0.153377 0.429152 0.541939 0.084023 5 2.1509E+05 2.584992 6.407339 6.263584 -99.000000 -8.753594 0.000000 0.416705 0.000413 0.846623 0.000E+00 XO_cntr log_rel_run_E_err -10.9823059330594806 rel_E_err 1.0415834410867936D-11 save LOGS/profile16.data for model 1500 save photos/x500 for model 1500 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.1478995641331113E-002 1510 8.431608 1.438E+05 -11.244103 6.395466 54.997709 0.000000 0.000000 0.000000 0.379406 -5.191263 2674 6 3.2511E+00 8.431608 0.407203 5.656647 3.272199 -4.195039 54.997709 0.105466 0.532269 0.620594 0.098166 5 2.3392E+05 2.633495 6.400571 6.307972 -99.000000 -8.706854 0.000000 0.361131 0.000776 0.894534 0.000E+00 XO_cntr log_rel_run_E_err -11.0196757938129899 rel_E_err 9.5570576593075493D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.1012141386820455E-002 1520 8.448030 1.452E+05 -13.169865 6.389188 53.974163 0.000000 0.000000 0.000000 0.321805 -5.129004 2670 6 3.1601E+00 8.448030 0.396409 5.424991 3.387203 -4.203338 53.974163 0.068572 0.629891 0.678195 0.112490 5 2.5012E+05 2.686480 6.395160 6.339264 -99.000000 -8.690483 49.119218 0.299296 0.001863 0.931428 0.000E+00 lgRho_cntr log_rel_run_E_err -11.0007331008721163 rel_E_err 9.9831339677669643D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.0609853535817324E-002 1530 8.464985 1.465E+05 -10.436133 6.384189 53.203278 0.000000 0.000000 0.000000 0.287602 -5.066965 2668 6 3.0348E+00 8.464985 0.386483 5.137654 3.507856 -4.209028 53.203278 0.042698 0.707926 0.712398 0.125195 4 2.6252E+05 2.740263 6.391589 6.358846 -99.000000 -8.679868 49.119218 0.244307 0.004592 0.957302 0.000E+00 lgRho_cntr log_rel_run_E_err -11.0037488357725248 rel_E_err 9.9140513549480786D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 5.0278773519358992E-002 1540 8.482316 1.481E+05 -10.810643 6.379829 52.639701 0.000000 0.000000 0.000000 0.258682 -5.005466 2669 6 2.8971E+00 8.482316 0.376351 4.746140 3.632684 -4.212473 52.639701 0.024599 0.762897 0.741318 0.135893 4 2.7169E+05 2.794463 6.389631 6.369615 -99.000000 -8.676807 49.119218 0.201237 0.010397 0.975401 0.000E+00 lgRho_cntr log_rel_run_E_err -11.1977313238179637 rel_E_err 6.3426197593373345D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.9994005900274321E-002 1550 8.500308 1.501E+05 -11.432391 6.374044 52.244755 0.000000 0.000000 0.000000 0.237773 -4.943339 2671 6 2.7227E+00 8.500308 0.364353 4.141740 3.763499 -4.213325 52.244755 0.012019 0.793532 0.762227 0.144451 4 2.7814E+05 2.850047 6.389136 6.371493 -99.000000 -8.680054 49.119218 0.172278 0.020157 0.987981 0.000E+00 lgRho_cntr log_rel_run_E_err -10.9871436144502681 rel_E_err 1.0300454440617781D-11 save photos/x550 for model 1550 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.9735072167895175E-002 set special rate factor for r_c12_ag_o16 1 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 10 1.0000000000000000 create rate data for r_c12_ag_o16 create rate data for r_o16_ga_c12 create rate data for r_c12_to_he4_he4_he4 create rate data for r_he4_he4_he4_to_c12 write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_ag_o16_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_o16_ga_c12_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_to_he4_he4_he4_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_he4_he4_he4_to_c12_0.bin set special rate factor for r_c12_ag_o16 1 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 10 1.0000000000000000 change to "co_burn.net" number of species 9 new net = co_burn.net 1560 8.511238 1.516E+05 -8.362312 6.366598 52.090444 0.000000 0.000000 0.000000 0.232105 -4.906391 2670 6 2.4027E+00 8.511238 0.356052 3.637284 3.843510 -4.213096 52.090444 0.007028 0.800865 0.767895 0.148144 3 2.8066E+05 2.883499 6.389561 6.365787 -60.504095 -8.684755 49.119218 0.162417 0.026636 0.000000 0.000E+00 max increase log_rel_run_E_err -10.7436989715947977 rel_E_err 1.8042679241483439D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.9594167256182292E-002 1570 8.532098 1.546E+05 -15.580402 6.326630 51.936067 0.000000 0.000000 0.000000 0.225689 -4.837189 2672 6 2.1997E+00 8.532098 0.339754 2.380146 3.997074 -4.209630 51.936067 0.002030 0.802448 0.774311 0.152046 4 2.8317E+05 2.946843 6.391517 6.326581 -56.248164 -8.692657 49.119218 0.154793 0.035895 0.000000 0.000E+00 lgRho_cntr log_rel_run_E_err -10.9829822455128010 rel_E_err 1.0399626799006065D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.9356880732684828E-002 stop because have dropped below central lower limit for he4 0.9386944081E-03 0.1000000000E-02 1575 8.542872 1.563E+05 -11.933492 6.271972 51.899892 0.000000 0.000000 0.000000 0.222709 -4.801869 2671 6 1.9712E+00 8.542872 0.331336 1.556726 4.076592 -4.207821 51.899892 0.000939 0.801486 0.777291 0.152936 4 2.8375E+05 2.979412 6.392847 6.271963 -54.160805 -8.694751 49.119218 0.153651 0.038555 0.000000 0.000E+00 lgRho_cntr log_rel_run_E_err -11.5832968264647338 rel_E_err 2.6103766351676299D-12 save LOGS/profile17.data for model 1575 solver retries 4 Lnuc retries 1 adjust_J_q retries 1 varcontrol dt limit 45 max increase dt limit 673 max decrease dt limit 1 Lnuc dt limit 74 lgRho_cntr dt limit 1152 XHe_cntr dt limit 34 XO_cntr dt limit 17 adjust_J_q dt limit 26 model saved to he_dep.mod save photos/x575 for model 1575 termination code: xa_central_lower_limit runtime (minutes), retries, steps 39.67 6 1575 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1575 8.542872 1.563E+05 -11.933492 6.271972 51.899892 0.000000 0.000000 0.000000 0.222709 -4.801869 2671 6 1.9712E+00 8.542872 0.331336 1.556726 4.076592 -4.207821 51.899892 0.000939 0.801486 0.777291 0.152936 4 2.8375E+05 2.979412 6.392847 6.271963 -54.160805 -8.694751 49.119218 0.153651 0.038555 0.000000 0.000E+00 lgRho_cntr log_rel_run_E_err -11.5832968264647338 rel_E_err 2.6103766351676299D-12 DATE: 2025-12-02 TIME: 19:01:29 finished inlist_to_he_dep_header run inlist_pulses_header DATE: 2025-12-02 TIME: 19:01:29 reading user weak rate file /home/jenkins/workspace/mesa_main/data/rates_data/rate_tables/S13_r_be7_wk_li7.h5 version_number 7067e26 WARNING: Failed to find colors namelist in file: inlist read inlist_pulses read inlist_ppisn read inlist_extra The terminal output contains the following information 'step' is the number of steps since the start of the run, 'lg_dt' is log10 timestep in years, 'age_yr' is the simulated years since the start run, 'lg_Tcntr' is log10 center temperature (K), 'lg_Dcntr' is log10 center density (g/cm^3), 'lg_Tmax' is log10 max temperature (K), 'Teff' is the surface temperature (K), 'lg_R' is log10 surface radius (Rsun), 'lg_L' is log10 surface luminosity (Lsun), 'lg_LH' is log10 total PP and CNO hydrogen burning power (Lsun), 'lg_L3a' is log10 total triple-alpha helium burning power (Lsun), 'lg_gsurf' is log10 surface gravity, 'lg_Lnuc' is log10 nuclear power (Lsun), 'lg_Lneu' is log10 total neutrino power (Lsun), 'lg_Lphoto' is log10 total photodisintegration (Lsun), 'Mass' is the total stellar baryonic mass (Msun), 'lg_Mdot' is log10 magnitude of rate of change of mass (Msun/year), 'lg_Dsurf' is log10 surface density (g/cm^3), 'H_env' is the amount of mass where H is dominant, 'He_core' is the largest mass where He is dominant. 'CO_core' is the largest mass where CO is dominant. 'H_cntr' is the center H1 mass fraction, 'He_cntr' is the center He4 mass fraction, 'C_cntr' is the center C12 mass fraction, 'N_cntr' is the center N14 mass fraction, 'O_cntr' is the center O16 mass fraction, 'Ne_cntr' is the center Ne20 mass fraction, 'gam_cntr' is the center plasma interaction parameter, 'eta_cntr' is the center electron degeneracy parameter, 'zones' is the number of zones in the current model, 'iters' is the number of solver iterations for the current step, 'retry' is the number of step retries required during the run, 'dt_limit' is an indication of what limited the timestep. All this and more are saved in the LOGS directory during the run. load saved model he_dep.mod set special rate factor for r_c12_ag_o16 1 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 10 1.0000000000000000 create rate data for r_c12_ag_o16 create rate data for r_o16_ga_c12 create rate data for r_c12_to_he4_he4_he4 create rate data for r_he4_he4_he4_to_c12 write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_ag_o16_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_o16_ga_c12_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_to_he4_he4_he4_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_he4_he4_he4_to_c12_0.bin set special rate factor for r_c12_ag_o16 1 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 10 1.0000000000000000 set_initial_number_retries 0 new_v_flag T new_w_div_wc_flag T setting w_div_wc flag T new_rotation_flag T net name co_burn.net v_flag T rotation_flag T w_div_wc_flag T set_cumulative_energy_error 0.0000000000000000D+00 kap_option gs98 kap_CO_option gs98_co kap_lowT_option lowT_fa05_gs98 OMP_NUM_THREADS 4 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ save LOGS/profile18.data for model 1576 1580 8.560423 1.583E+05 -12.109488 6.085146 51.899892 0.000000 0.000000 0.000000 0.222709 -4.744979 2671 0 1.8898E+00 8.560423 0.323809 -0.136840 4.206368 -99.000000 51.899892 0.000205 0.800278 0.777291 0.153543 4 2.8424E+05 3.032241 6.399725 6.085146 -50.893431 -8.733058 49.119218 0.153103 0.040646 0.000000 -0.113E-07 lgRho_cntr log_rel_run_E_err -11.2620154390439478 rel_E_err 5.4699651697943860D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.9055071705066976E-002 1590 8.581029 1.614E+05 -15.766976 5.171959 51.899892 0.000000 0.000000 0.000000 0.222709 -4.678260 2674 0 1.1267E+00 8.581029 0.308129 -4.253685 4.358428 -99.000000 51.899892 0.000007 0.799812 0.777291 0.153735 5 2.8454E+05 3.094321 6.403049 5.171959 -47.238564 -8.733462 49.119218 0.153008 0.041294 0.000000 -0.185E-07 lg_XHe_cntr log_rel_run_E_err -10.9800282347874774 rel_E_err 1.0470604732947149D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.8838931888177041E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1600 8.589283 1.627E+05 -17.393097 3.998888 51.899892 0.000000 0.000000 0.000000 0.222709 -4.651538 2674 0 1.0836E+00 8.589283 0.302010 -7.125269 4.419253 -99.000000 51.899892 0.000000 0.799794 0.777291 0.153755 5 2.8463E+05 3.119214 6.404381 3.998888 -45.824042 -8.732329 49.119218 0.153006 0.041318 0.000000 -0.183E-07 max increase log_rel_run_E_err -10.9824754946181340 rel_E_err 1.0411768551268552D-11 save LOGS/profile19.data for model 1600 save photos/x600 for model 1600 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.8751541316033528E-002 1610 8.606542 1.653E+05 -19.088177 -0.113393 51.899892 0.000000 0.000000 0.000000 0.222709 -4.595757 2693 0 1.2817E+00 8.606542 0.289759 -6.474433 4.546397 -99.000000 51.899892 0.000000 0.799793 0.777291 0.153789 3 2.8483E+05 3.171276 6.407271 -0.113394 -42.950635 -8.729398 49.119218 0.153006 0.041319 0.000000 -0.158E-07 lgRho_cntr log_rel_run_E_err -10.9896591096569161 rel_E_err 1.0240965199635837D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.8564558073455166E-002 1620 8.625034 1.680E+05 -20.224084 -0.306408 51.899892 0.000000 0.000000 0.000000 0.222709 -4.536142 2830 0 1.3699E+00 8.625034 0.277550 -5.773200 4.682747 -99.000000 51.899892 0.000000 0.799793 0.777291 0.153827 4 2.8504E+05 3.227072 6.410518 -0.306410 -39.993737 -8.726484 49.119218 0.153006 0.041319 0.000000 -0.136E-07 max increase log_rel_run_E_err -10.9682365832983422 rel_E_err 1.0758789654806063D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.8357314497095974E-002 1630 8.644240 1.715E+05 -20.351514 0.064466 51.891917 0.000000 0.000000 0.000000 0.222087 -4.474301 2867 0 1.3487E+00 8.644240 0.258719 -5.080464 4.824957 -4.175683 51.891917 0.000000 0.799793 0.777913 0.153873 5 2.8528E+05 3.285082 6.409253 0.064463 -37.050149 -8.675394 49.119218 0.153006 0.041319 0.000000 -0.152E-07 lgRho_cntr log_rel_run_E_err -10.9691849776821986 rel_E_err 1.0735320688144395D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.8137584610219906E-002 1640 8.662428 1.743E+05 -19.285706 0.409441 51.876528 0.000000 0.000000 0.000000 0.221352 -4.415650 2868 0 1.3395E+00 8.662428 0.245783 -4.457668 4.961160 -4.170029 51.876528 0.000000 0.799793 0.778648 0.153932 5 2.8551E+05 3.340143 6.411799 0.409435 -34.377488 -8.661185 49.119218 0.153006 0.041319 0.000000 -0.123E-07 lgRho_cntr log_rel_run_E_err -10.9655841827410523 rel_E_err 1.0824698710767986D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.7925206347952672E-002 1650 8.680566 1.770E+05 -19.344611 0.748702 51.860678 0.000000 0.000000 0.000000 0.221041 -4.357031 2873 0 1.3361E+00 8.680566 0.234107 -3.860397 5.100415 -4.164054 51.860678 0.000000 0.799793 0.778959 0.154008 5 2.8574E+05 3.395198 6.414577 0.748692 -31.818649 -8.649617 49.119218 0.153006 0.041319 0.000000 -0.106E-07 lgRho_cntr log_rel_run_E_err -10.9696885296400115 rel_E_err 1.0722880605996756D-11 save photos/x650 for model 1650 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.7706141275481742E-002 1660 8.698629 1.795E+05 -17.779414 1.081905 51.844461 0.000000 0.000000 0.000000 0.220873 -4.298359 2888 0 1.3394E+00 8.698629 0.223304 -3.288434 5.245944 -4.157966 51.844461 0.000000 0.799793 0.779127 0.154109 5 2.8597E+05 3.450245 6.417430 1.081886 -29.371624 -8.639069 49.119236 0.153006 0.041319 0.000000 -0.939E-08 lgRho_cntr log_rel_run_E_err -10.9702716828411173 rel_E_err 1.0708492014625256D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.7480577363101462E-002 1670 8.714989 1.817E+05 -19.066404 1.379754 51.829492 0.000000 0.000000 0.000000 0.220787 -4.244664 2916 0 1.3279E+00 8.714989 0.214155 -2.789777 5.388347 -4.152243 51.829492 0.000000 0.799793 0.779213 0.154239 5 2.8619E+05 3.500424 6.420044 1.379725 -27.239039 -8.630333 49.119236 0.153006 0.041319 0.000000 -0.849E-08 lgRho_cntr log_rel_run_E_err -10.9714548714360092 rel_E_err 1.0679357584972487D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.7269733360280439E-002 1680 8.731212 1.837E+05 -18.975056 1.671700 51.814529 0.000000 0.000000 0.000000 0.220677 -4.190384 2931 0 1.3193E+00 8.731212 0.205647 -2.312824 5.545431 -4.146851 51.814529 0.000000 0.799793 0.779323 0.154430 5 2.8640E+05 3.550708 6.422641 1.671655 -25.199841 -8.622557 49.119236 0.153006 0.041319 0.000000 -0.768E-08 lgRho_cntr log_rel_run_E_err -10.9798021592279458 rel_E_err 1.0476056711151668D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.7054288200879264E-002 1690 8.747259 1.857E+05 -18.655146 1.957118 51.799855 0.000000 0.000000 0.000000 0.220369 -4.134733 2939 0 1.2985E+00 8.747259 0.197711 -1.858002 5.722463 -4.139974 51.799855 0.000000 0.799793 0.779631 0.154730 4 2.8660E+05 3.601371 6.425171 1.957052 -23.253916 -8.615459 49.119236 0.153006 0.041319 0.000000 -0.737E-08 lgRho_cntr log_rel_run_E_err -10.9746991141374792 rel_E_err 1.0599878466424330D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.6834680420739509E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1700 8.763002 1.875E+05 -18.681811 2.233198 51.786008 0.000000 0.000000 0.000000 0.219776 -4.076674 2956 0 1.2579E+00 8.763002 0.190345 -1.428045 5.921315 -4.134361 51.786008 0.000000 0.799793 0.780224 0.155211 5 2.8679E+05 3.652650 6.427613 2.233103 -21.410553 -8.609092 49.119236 0.153006 0.041319 0.000000 -0.733E-08 lgRho_cntr log_rel_run_E_err -10.9828055425348108 rel_E_err 1.0403858993973623D-11 save LOGS/profile20.data for model 1700 save photos/x700 for model 1700 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.6612557072406434E-002 1710 8.778277 1.893E+05 -19.388211 2.495811 51.773665 0.000000 0.000000 0.000000 0.218994 -4.014942 2959 0 1.1887E+00 8.778277 0.183394 -1.026381 6.138435 -4.129234 51.773665 0.000000 0.799793 0.781006 0.155968 4 2.8696E+05 3.704809 6.429896 2.495680 -19.681849 -8.602656 49.119236 0.153005 0.041319 0.000000 -0.800E-08 lgRho_cntr log_rel_run_E_err -10.9767131689061266 rel_E_err 1.0550834993926025D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.6390310380285564E-002 1720 8.792930 1.910E+05 -18.840941 2.743777 51.763452 0.000000 0.000000 0.000000 0.218195 -3.948571 2968 0 1.0857E+00 8.792930 0.176631 -0.655374 6.365814 -4.124630 51.763452 0.000000 0.799792 0.781805 0.157077 4 2.8710E+05 3.758002 6.431961 2.743604 -18.076486 -8.595112 49.119236 0.153004 0.041321 0.000000 -0.980E-08 lgRho_cntr log_rel_run_E_err -10.9868466371957059 rel_E_err 1.0307500458797495D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.6170349426089580E-002 1730 8.806904 1.927E+05 -18.820792 2.986786 51.755635 0.000000 0.000000 0.000000 0.217511 -3.877472 2975 0 9.5060E-01 8.806904 0.169815 -0.314325 6.595110 -4.120625 51.755635 0.000000 0.799791 0.782489 0.158560 4 2.8720E+05 3.812159 6.433781 2.986568 -16.592212 -8.585524 49.119236 0.153001 0.041326 0.000000 -0.134E-07 lgRho_cntr log_rel_run_E_err -10.9846324674569882 rel_E_err 1.0360185523489032D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.5953843056692006E-002 1740 8.820264 1.944E+05 -19.184482 3.244879 51.750034 0.000000 0.000000 0.000000 0.216993 -3.802448 2986 0 7.9150E-01 8.820264 0.162760 0.000778 6.821053 -4.117196 51.750034 0.000000 0.799787 0.783007 0.160371 4 2.8727E+05 3.867032 6.435365 3.244631 -15.214502 -8.573367 49.119236 0.152996 0.041335 0.000000 -0.198E-07 lgRho_cntr log_rel_run_E_err -10.9881943833834583 rel_E_err 1.0275562771474982D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.5739986310979711E-002 1750 8.833156 1.963E+05 -18.903056 3.534542 51.746197 0.000000 0.000000 0.000000 0.216632 -3.724673 2996 0 6.1737E-01 8.833156 0.155366 0.295503 7.041714 -4.114234 51.746197 0.000000 0.799779 0.783368 0.162435 4 2.8732E+05 3.922348 6.436747 3.534292 -13.922697 -8.558536 49.119236 0.152984 0.041354 0.000000 -0.305E-07 lgRho_cntr log_rel_run_E_err -10.9973000179594749 rel_E_err 1.0062363036694864D-11 save photos/x750 for model 1750 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.5526401520509054E-002 1760 8.845736 1.982E+05 -19.079885 3.859647 51.743640 0.000000 0.000000 0.000000 0.216391 -3.645229 3004 0 4.3514E-01 8.845736 0.147601 0.575116 7.257071 -4.111654 51.743640 0.000000 0.799766 0.783609 0.164675 5 2.8736E+05 3.977900 6.437969 3.859421 -12.696973 -8.541178 49.119236 0.152964 0.041388 0.000000 -0.490E-07 lgRho_cntr log_rel_run_E_err -10.9883069796071151 rel_E_err 1.0272899049868461D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.5309989139615953E-002 1770 8.858137 2.002E+05 -19.922024 4.214663 51.741958 0.000000 0.000000 0.000000 0.216233 -3.564933 3012 0 2.4926E-01 8.858137 0.139470 0.843703 7.467723 -4.109436 51.741958 0.000000 0.799742 0.783767 0.167030 4 2.8738E+05 4.033555 6.439065 4.214479 -11.521731 -8.521537 49.119236 0.152927 0.041448 0.000000 -0.758E-07 lgRho_cntr log_rel_run_E_err -10.9997136323522771 rel_E_err 1.0006596033194179D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.5087486410126096E-002 1780 8.870458 2.022E+05 -19.564668 4.590970 51.740858 0.000000 0.000000 0.000000 0.216130 -3.484351 3017 0 6.2369E-02 8.870458 0.131006 1.104134 7.674288 -4.107448 51.740858 0.000000 0.799700 0.783870 0.169459 4 2.8739E+05 4.089235 6.440064 4.590829 -10.385877 -8.499989 49.119236 0.152863 0.041553 0.000000 -0.119E-06 lgRho_cntr log_rel_run_E_err -10.9945205490972224 rel_E_err 1.0126968308721336D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.4855598291379938E-002 1790 8.882768 2.044E+05 -19.536503 4.980829 51.740140 0.000000 0.000000 0.000000 0.216061 -3.403862 3029 0 -1.2396E-01 8.882768 0.122239 1.358324 7.877221 -4.105636 51.740140 0.000000 0.799628 0.783939 0.171932 4 2.8740E+05 4.144891 6.440987 4.980725 -9.281869 -8.476869 49.119236 0.152753 0.041733 0.000000 -0.190E-06 lgRho_cntr log_rel_run_E_err -10.9982459004568902 rel_E_err 1.0040471310650219D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.4610900157268159E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1800 8.895116 2.066E+05 -20.007782 5.378680 51.739669 0.000000 0.000000 0.000000 0.216015 -3.323724 3038 0 -3.0873E-01 8.895116 0.113204 1.607530 8.076825 -4.104048 51.739669 0.000000 0.799505 0.783985 0.174435 4 2.8741E+05 4.200494 6.441850 5.378606 -8.204543 -8.452518 49.119236 0.152566 0.042040 0.000000 -0.289E-06 lgRho_cntr log_rel_run_E_err -10.9981219585687970 rel_E_err 1.0043337136979987D-11 save LOGS/profile21.data for model 1800 save photos/x800 for model 1800 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.4349644037358554E-002 1810 8.907534 2.089E+05 -19.689949 5.780963 51.739360 0.000000 0.000000 0.000000 0.215986 -3.244121 3046 0 -4.9130E-01 8.907534 0.103938 1.852602 8.273304 -4.102578 51.739360 0.000000 0.799296 0.784014 0.176960 4 2.8741E+05 4.256025 6.442666 5.780911 -7.150102 -8.427226 49.119236 0.152248 0.042563 0.000000 -0.443E-06 lgRho_cntr log_rel_run_E_err -10.9895727122900393 rel_E_err 1.0243002712151743D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.4067537624384201E-002 1820 8.920053 2.113E+05 -19.098988 6.185520 51.739155 0.000000 0.000000 0.000000 0.215967 -3.165203 3053 0 -6.7116E-01 8.920053 0.094467 2.094158 8.466828 -4.101230 51.739155 0.000000 0.798940 0.784033 0.179512 4 2.8741E+05 4.311467 6.443447 6.185485 -6.115279 -8.401187 49.119236 0.151705 0.043455 0.000001 -0.675E-06 lgRho_cntr log_rel_run_E_err -11.0003006741471570 rel_E_err 9.9930791179450464D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.3759507890315914E-002 1830 8.932700 2.138E+05 -18.085628 6.591078 51.739019 0.000000 0.000000 0.000000 0.215955 -3.087123 3063 0 -8.4782E-01 8.932700 0.084830 2.332731 8.657591 -4.100747 51.739019 0.000000 0.798331 0.784045 0.182109 4 2.8742E+05 4.366805 6.444212 6.591054 -5.096567 -8.374410 49.119236 0.150779 0.044976 0.000001 -0.101E-05 lgRho_cntr log_rel_run_E_err -10.9964600736811402 rel_E_err 1.0081842912631140D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.3419421329496895E-002 1840 8.945513 2.163E+05 -16.945250 6.996878 51.738928 0.000000 0.000000 0.000000 0.215946 -3.010076 3071 0 -1.0207E+00 8.945513 0.075010 2.568893 8.845884 -4.098964 51.738928 0.000000 0.797293 0.784054 0.184788 5 2.8742E+05 4.422020 6.444947 6.996862 -4.089407 -8.346430 49.119236 0.149197 0.047575 0.000002 -0.151E-05 lgRho_cntr log_rel_run_E_err -11.0092000890117028 rel_E_err 9.7903881678715089D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.3039709068805700E-002 1850 8.958545 2.181E+05 -15.803009 7.402431 51.738871 0.000000 0.000000 0.000000 0.215941 -2.934351 3077 0 -1.1889E+00 8.958545 0.070407 2.803400 9.032180 -99.000000 51.738871 0.000000 0.795519 0.784059 0.187621 4 2.8742E+05 4.477083 6.450062 7.402420 -3.087235 -8.358928 49.119236 0.146491 0.052013 0.000004 0.939E-05 lgRho_cntr log_rel_run_E_err -11.0101519880052763 rel_E_err 9.7689528166062828D-12 save photos/x850 for model 1850 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.2610781913601896E-002 1860 8.971882 2.202E+05 -14.628711 7.807259 51.738871 0.000000 0.000000 0.000000 0.215941 -2.860402 3088 0 -1.3513E+00 8.971882 0.063142 3.037383 9.217252 -99.000000 51.738871 0.000000 0.792498 0.784059 0.190733 3 2.8742E+05 4.531952 6.452034 7.807252 -2.080494 -8.344640 49.119236 0.141874 0.059570 0.000007 -0.284E-05 lgRho_cntr log_rel_run_E_err -11.4366402546425991 rel_E_err -3.6589775543570596D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.2120052085655231E-002 1870 8.985654 2.228E+05 -13.549683 8.210380 51.738871 0.000000 0.000000 0.000000 0.215941 -2.788905 3097 0 -1.5058E+00 8.985654 0.053455 3.272449 9.402289 -99.000000 51.738871 0.000000 0.787413 0.784059 0.194342 3 2.8742E+05 4.586566 6.453045 8.210375 -1.056184 -8.315526 49.119236 0.134070 0.072292 0.000014 -0.433E-05 lgRho_cntr log_rel_run_E_err -11.4193276294614954 rel_E_err -3.8077845775808059D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.1550422749339788E-002 1880 9.000031 2.256E+05 -12.455505 8.609015 51.738871 0.000000 0.000000 0.000000 0.215941 -2.720690 3107 0 -1.6506E+00 9.000031 0.043160 3.510840 9.588927 -99.000000 51.738871 0.000000 0.779107 0.784059 0.198796 3 2.8742E+05 4.640871 6.453992 8.609012 0.000368 -8.282727 49.119236 0.121236 0.093074 0.000027 -0.631E-05 lgRho_cntr log_rel_run_E_err -11.4962847664512733 rel_E_err -3.1894458529032007D-12 set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 24 1.0000000000000000 create rate data for r_c12_ag_o16 create rate data for r_o16_ga_c12 create rate data for r_c12_to_he4_he4_he4 create rate data for r_he4_he4_he4_to_c12 write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_ag_o16_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_o16_ga_c12_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_to_he4_he4_he4_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_he4_he4_he4_to_c12_0.bin set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 24 1.0000000000000000 change to "approx21_plus_co56.net" number of species 22 new net = approx21_plus_co56.net Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.0878094092117755E-002 1890 9.007974 2.271E+05 -14.597162 8.817379 51.738871 0.000000 0.000000 0.000000 0.215941 -2.685786 3108 0 -1.7579E+00 9.007974 0.037496 3.639677 9.689428 -99.000000 51.738871 0.000000 0.773041 0.784059 0.201645 3 2.8742E+05 4.669702 6.454501 8.817376 0.578368 -8.264299 49.119236 0.111792 0.108251 0.000039 -0.762E-05 Lnuc log_rel_run_E_err -12.0415782940992049 rel_E_err -9.0870246448486851D-13 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 4.0468110202000931E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 1900 9.023053 2.301E+05 -14.915897 9.182891 51.738871 0.000000 0.000000 0.000000 0.215941 -2.623896 3109 0 -1.8551E+00 9.023053 0.026648 3.880759 9.876263 -99.000000 51.738871 0.000000 0.758582 0.784059 0.208003 4 2.8742E+05 4.722594 6.455442 9.182889 1.665531 -8.228535 49.119236 0.089005 0.144428 0.000072 -0.106E-04 lgRho_cntr log_rel_run_E_err -11.0121454697748966 rel_E_err 9.7242145030032517D-12 save LOGS/profile22.data for model 1900 save photos/x900 for model 1900 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 3.9600660559613941E-002 1910 9.038485 2.332E+05 -12.413828 9.513146 51.738871 0.000000 0.000000 0.000000 0.215941 -2.560096 3083 0 -1.9979E+00 9.038485 0.015359 4.126315 10.065121 -99.000000 51.738871 0.000000 0.742024 0.784059 0.215584 3 2.8742E+05 4.776953 6.456413 9.513145 2.757207 -8.191255 49.119236 0.062371 0.185864 0.000126 -0.145E-04 lgRho_cntr log_rel_run_E_err -12.9271010606142713 rel_E_err 1.1827662931978429D-13 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 3.8561384583023078E-002 1920 9.053021 2.363E+05 -14.329567 9.783651 51.738871 0.000000 0.000000 0.000000 0.215941 -2.491615 3054 0 -2.1564E+00 9.053021 0.004431 4.359688 10.243170 -99.000000 51.738871 0.000000 0.728217 0.784059 0.223053 3 2.8742E+05 4.831765 6.457359 9.783650 3.754228 -8.155502 49.119236 0.039630 0.220422 0.000189 -0.196E-04 lgRho_cntr log_rel_run_E_err -11.7270152223442157 rel_E_err 1.8749287892687796D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 3.7404063362082740E-002 1930 9.066405 2.392E+05 -14.356972 10.002234 51.738871 0.000000 0.000000 0.000000 0.215941 -2.418482 3023 0 -2.3162E+00 9.066405 -0.005808 4.575360 10.406373 -99.000000 51.738871 0.000000 0.719032 0.784059 0.229538 3 2.8742E+05 4.886558 6.458266 10.002232 4.631758 -8.122432 49.119236 0.024155 0.243412 0.000246 -0.262E-04 lgRho_cntr log_rel_run_E_err -11.3914927697656090 rel_E_err 4.0598242208401527D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 3.6166915847322255E-002 1940 9.079009 2.420E+05 -12.599297 10.187177 51.738871 0.000000 0.000000 0.000000 0.215941 -2.342832 2991 0 -2.4675E+00 9.079009 -0.015446 4.776163 10.557134 -99.000000 51.738871 0.000000 0.713478 0.784059 0.235023 3 2.8742E+05 4.941070 6.459144 10.187175 5.415665 -8.091687 49.119236 0.014607 0.257312 0.000290 -0.347E-04 lgRho_cntr log_rel_run_E_err -11.2501804087450878 rel_E_err 5.6210777346871582D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 3.4853966085570481E-002 1950 9.091242 2.447E+05 -11.961657 10.352286 51.738871 0.000000 0.000000 0.000000 0.215941 -2.266296 2944 0 -2.6101E+00 9.091242 -0.024709 4.966621 10.699090 -99.000000 51.738871 0.000000 0.710190 0.784059 0.239772 3 2.8742E+05 4.995317 6.460014 10.352285 6.137428 -8.062495 49.119236 0.008849 0.265536 0.000324 -0.461E-04 lgRho_cntr log_rel_run_E_err -10.9866026327621285 rel_E_err 1.0313293262032514D-11 save photos/x950 for model 1950 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 3.3452470112922961E-002 1960 9.103365 2.474E+05 -11.883277 10.505629 51.738871 0.000000 0.000000 0.000000 0.215941 -2.189767 2924 0 -2.7464E+00 9.103365 -0.033683 5.150115 10.834923 -99.000000 51.738871 0.000000 0.708242 0.784059 0.244013 3 2.8742E+05 5.049379 6.460892 10.505627 6.818825 -8.034599 49.119236 0.005372 0.270400 0.000350 -0.609E-04 lgRho_cntr log_rel_run_E_err -10.8398015937845180 rel_E_err 1.4461002667108450D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 3.1949176070306111E-002 1970 9.115529 2.501E+05 -11.686508 10.651810 51.738871 0.000000 0.000000 0.000000 0.215941 -2.113712 2888 0 -2.8786E+00 9.115529 -0.042525 5.328817 10.966372 -99.000000 51.738871 0.000000 0.707096 0.784059 0.247900 3 2.8742E+05 5.103320 6.461786 10.651808 7.473195 -8.007500 49.119236 0.003260 0.273251 0.000372 -0.804E-04 lgRho_cntr log_rel_run_E_err -10.7178177630790330 rel_E_err 1.9150593460214008D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 3.0334450181240313E-002 1980 9.127820 2.527E+05 -11.725972 10.793651 51.738871 0.000000 0.000000 0.000000 0.215941 -2.038389 2856 0 -3.0082E+00 9.127820 -0.051307 5.504165 11.094581 -99.000000 51.738871 0.000000 0.706470 0.784059 0.251526 3 2.8742E+05 5.157182 6.462708 10.793648 8.108578 -7.981020 49.119236 0.001974 0.274797 0.000395 -0.108E-03 lgRho_cntr log_rel_run_E_err -10.6601166677971584 rel_E_err 2.1871739880034856D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 2.8602322982418795E-002 1990 9.140293 2.554E+05 -10.924742 10.933137 51.738871 0.000000 0.000000 0.000000 0.215941 -1.963985 2819 0 -3.1358E+00 9.140293 -0.060012 5.677215 11.220373 -99.000000 51.738871 0.000000 0.706299 0.784059 0.254944 3 2.8742E+05 5.210988 6.463655 10.933135 8.729904 -7.955238 49.119236 0.001189 0.275202 0.000427 -0.141E-03 lgRho_cntr log_rel_run_E_err -10.5629566838990510 rel_E_err 2.7355415529024953D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 2.6749647977494528E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 2000 9.153003 2.581E+05 -15.094686 11.072136 51.738871 0.000000 0.000000 0.000000 0.215941 -1.890762 2796 0 -3.2615E+00 9.153003 -0.068755 5.848904 11.344475 -99.000000 51.738871 0.000000 0.706874 0.784059 0.258175 4 2.8742E+05 5.264727 6.464643 11.072133 9.340362 -7.929848 49.119236 0.000710 0.273763 0.000500 -0.185E-03 lgRho_cntr log_rel_run_E_err -11.0097452232463890 rel_E_err 9.7781068062889976D-12 save LOGS/profile23.data for model 2000 save photos/2000 for model 2000 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 2.4774393726648126E-002 2010 9.166057 2.609E+05 -14.336549 11.213379 51.738871 0.000000 0.000000 0.000000 0.215941 -1.819370 2766 0 -3.3827E+00 9.166057 -0.077485 6.020490 11.467816 -99.000000 51.738871 0.000000 0.709390 0.784059 0.261186 4 2.8742E+05 5.318311 6.465681 11.213377 9.942385 -7.905056 49.119236 0.000417 0.267572 0.000731 -0.243E-03 lgRho_cntr log_rel_run_E_err -11.0074224956290507 rel_E_err 9.8305429361824147D-12 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 2.2671090297726237E-002 retry: check_lgL_power_photo_change hard limit 2012 2020 9.174293 2.627E+05 -10.907578 11.303935 51.738871 0.000000 0.000000 0.000000 0.215941 -1.777382 2748 1 -3.7000E+00 9.174293 -0.082944 6.126111 11.543472 -99.000000 51.738871 0.000000 0.713175 0.784059 0.262861 3 2.8742E+05 5.350830 6.466348 11.303932 10.307013 -7.889805 49.119236 0.000297 0.258352 0.001134 -0.287E-03lgL_power_phot log_rel_run_E_err -10.8714952922654291 rel_E_err 1.3443263390353152D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 2.1315815677257835E-002 2030 9.182226 2.643E+05 -10.967193 11.392226 51.738871 0.000000 0.000000 0.000000 0.215941 -1.740330 2724 1 -3.7638E+00 9.182226 -0.088032 6.225594 11.614513 -99.000000 51.738871 0.000000 0.720002 0.784059 0.264241 3 2.8742E+05 5.380712 6.467006 11.392223 10.643230 -7.875849 49.119236 0.000212 0.241927 0.002098 -0.333E-03lgL_power_phot log_rel_run_E_err -10.8488817039345236 rel_E_err 1.4161794759601329D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 2.0000973843911016E-002 2040 9.190388 2.660E+05 -10.075896 11.484847 51.738871 0.000000 0.000000 0.000000 0.215941 -1.707029 2708 1 -3.8204E+00 9.190388 -0.093270 6.325392 11.685556 -99.000000 51.738871 0.000000 0.732201 0.784059 0.265342 3 2.8742E+05 5.409407 6.467651 11.484844 10.968681 -7.861445 49.119236 0.000148 0.213195 0.004638 -0.383E-03lgL_power_phot log_rel_run_E_err -10.8357236351572759 rel_E_err 1.4597428773666504D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 1.8648126638734837E-002 2050 9.198807 2.677E+05 -13.849837 11.582271 51.738871 0.000000 0.000000 0.000000 0.215941 -1.678635 2694 1 -3.8643E+00 9.198807 -0.098522 6.425783 11.756809 -99.000000 51.738871 0.000000 0.752001 0.784059 0.266110 4 2.8742E+05 5.436464 6.468317 11.582268 11.275799 -7.847188 49.119236 0.000099 0.168329 0.011142 -0.426E-03lgL_power_phot log_rel_run_E_err -10.9999022524661925 rel_E_err 1.0002250973448281D-11 save photos/x050 for model 2050 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 1.7256681537599305E-002 2060 9.207475 2.695E+05 -9.254518 11.682850 51.738871 0.000000 0.000000 0.000000 0.215941 -1.653791 2672 1 -3.8887E+00 9.207475 -0.103946 6.528186 11.829285 -99.000000 51.738871 0.000000 0.779192 0.784059 0.266694 3 2.8742E+05 5.462437 6.469024 11.682846 11.555091 -7.832649 49.119236 0.000061 0.110658 0.025365 -0.474E-03lgL_power_phot log_rel_run_E_err -10.6038615538704217 rel_E_err 2.4896508526354798D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 1.5809773844201219E-002 2070 9.218008 2.718E+05 -11.836526 11.800827 51.738871 0.000000 0.000000 0.000000 0.215941 -1.620022 2662 1 -3.7657E+00 9.218008 -0.110914 6.656624 11.919845 -99.000000 51.738871 0.000000 0.812426 0.784059 0.267816 4 2.8742E+05 5.495523 6.469834 11.800824 11.838188 -7.813717 49.119236 0.000028 0.047813 0.052625 -0.529E-03lgL_power_phot log_rel_run_E_err -10.9940726002403988 rel_E_err 1.0137419061298387D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 1.3963270577912924E-002 2080 9.231135 2.749E+05 -11.756616 11.942346 51.738871 0.000000 0.000000 0.000000 0.215941 -1.559501 2640 1 -3.8123E+00 9.231135 -0.120063 6.825681 12.038350 -99.000000 51.738871 0.000000 0.836421 0.784059 0.270538 4 2.8742E+05 5.544710 6.470988 11.942343 12.109061 -7.789535 49.119236 0.000007 0.009769 0.081005 -0.679E-03 lgRho_cntr log_rel_run_E_err -10.9965308294418218 rel_E_err 1.0080200500886481D-11 Setting energy conservation error to zero until hydro is turned on for the first time check gamma integral 1.1494170733022240E-002 Turning on Riemann hydro! save LOGS/prehydro_prof001.data for model 2086 2090 9.239286 2.753E+05 -10.690017 12.030575 51.738871 0.000000 0.000000 0.000000 0.215941 -1.514646 2695 1 -5.2616E+00 9.239286 -0.125545 6.932615 12.112909 -99.000000 51.738871 0.000000 0.841931 0.784059 0.272653 5 2.8742E+05 5.578410 6.462676 12.030572 12.241194 -7.436459 49.119236 0.000002 0.002308 0.088919 0.186E-01 max increase log_rel_run_E_err -8.3170660942004275 rel_E_err 1.0384628102099405D-11 check gamma integral 9.9183554958956390E-003 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 2100 9.240786 2.742E+05 -11.163629 12.048041 51.738871 0.000000 0.000000 0.000000 0.215941 -1.506353 2814 1 -4.8001E+00 9.240786 -0.118233 6.952040 12.126446 -99.000000 51.738871 0.000000 0.842439 0.784059 0.273032 5 2.8742E+05 5.584631 6.470785 12.048038 12.263821 -7.485631 49.119236 0.000001 0.001645 0.089686 0.215E-02 max_dt log_rel_run_E_err -8.3083352732867386 rel_E_err 9.8480156637883061D-12 save LOGS/profile24.data for model 2100 save photos/x100 for model 2100 check gamma integral 9.6311269993344627E-003 2110 9.242703 2.745E+05 -11.384323 12.069485 51.738871 0.000000 0.000000 0.000000 0.215941 -1.495644 2970 1 -4.8001E+00 9.242703 -0.118533 6.976645 12.143582 -99.000000 51.738871 0.000000 0.842923 0.784059 0.273522 5 2.8742E+05 5.592629 6.471872 12.069481 12.290794 -7.487397 49.119236 0.000001 0.001016 0.090430 -0.969E-03 max_dt log_rel_run_E_err -8.3004083957429202 rel_E_err 9.1887047193438752D-12 check gamma integral 9.2671064231234120E-003 2120 9.244697 2.749E+05 -10.932787 12.091197 51.738871 0.000000 0.000000 0.000000 0.215941 -1.484408 3134 1 -4.8001E+00 9.244697 -0.119671 7.002096 12.161300 -99.000000 51.738871 0.000000 0.843261 0.784059 0.274038 5 2.8742E+05 5.600992 6.472194 12.091193 12.317199 -7.483818 49.119236 0.000001 0.000575 0.090965 -0.122E-02 max_dt log_rel_run_E_err -8.2929838712044788 rel_E_err 9.0007684214098985D-12 check gamma integral 8.8903343319925894E-003 2130 9.246784 2.754E+05 -11.724231 12.113484 51.738871 0.000000 0.000000 0.000000 0.215941 -1.472604 3286 1 -4.8001E+00 9.246784 -0.120971 7.028560 12.179719 -99.000000 51.738871 0.000000 0.843473 0.784059 0.274578 5 2.8742E+05 5.609767 6.472449 12.113480 12.343433 -7.479424 49.119236 0.000000 0.000292 0.091320 -0.134E-02 max_dt log_rel_run_E_err -8.2861226056494797 rel_E_err 8.2044324237044673D-12 check gamma integral 8.4983667079586728E-003 2140 9.248978 2.759E+05 -12.350988 12.136490 51.738871 0.000000 0.000000 0.000000 0.215941 -1.460205 3335 1 -4.8001E+00 9.248978 -0.122370 7.056190 12.198921 -99.000000 51.738871 0.000000 0.843586 0.784059 0.275143 5 2.8742E+05 5.618986 6.472689 12.136487 12.369702 -7.474600 49.119236 0.000000 0.000130 0.091535 -0.143E-02 max_dt log_rel_run_E_err -8.2797856962607135 rel_E_err 7.6583851043565140D-12 check gamma integral 8.0895331807898253E-003 2150 9.251304 2.764E+05 -10.721783 12.160786 51.738871 0.000000 0.000000 0.000000 0.215941 -1.447135 2979 1 -4.8001E+00 9.251304 -0.123975 7.085172 12.219114 -99.000000 51.738871 0.000000 0.843631 0.784059 0.275736 5 2.8742E+05 5.628732 6.472944 12.160782 12.396735 -7.469003 49.119236 0.000000 0.000051 0.091657 -0.182E-02 max_dt log_rel_run_E_err -8.2747496783301902 rel_E_err 5.9391610739098540D-12 save photos/x150 for model 2150 check gamma integral 7.6594935740521078E-003 2160 9.253774 2.770E+05 -10.763557 12.186341 51.738871 0.000000 0.000000 0.000000 0.215941 -1.433370 2793 1 -4.8001E+00 9.253774 -0.125592 7.115736 12.240360 -99.000000 51.738871 0.000000 0.843632 0.784059 0.276356 5 2.8742E+05 5.639033 6.473192 12.186337 12.424518 -7.463343 49.119236 0.000000 0.000020 0.091728 -0.160E-02 max_dt log_rel_run_E_err -8.2704875300284790 rel_E_err 5.4338613566109442D-12 check gamma integral 7.2070833431388025E-003 2170 9.256410 2.775E+05 -10.400381 12.213449 51.738871 0.000000 0.000000 0.000000 0.215941 -1.418838 2657 1 -4.8001E+00 9.256410 -0.127291 7.148003 12.262816 -99.000000 51.738871 0.000000 0.843610 0.784059 0.277006 5 2.8742E+05 5.649959 6.473455 12.213445 12.453426 -7.457394 49.119236 0.000000 0.000010 0.091782 -0.171E-02 max_dt log_rel_run_E_err -8.2667616337297982 rel_E_err 4.8021047120892840D-12 check gamma integral 6.7291664332986547E-003 2180 9.259227 2.782E+05 -10.146303 12.242190 51.738871 0.000000 0.000000 0.000000 0.215941 -1.403473 2608 1 -4.8001E+00 9.259227 -0.129075 7.182280 12.286597 -99.000000 51.738871 0.000000 0.843575 0.784059 0.277690 5 2.8742E+05 5.661569 6.473731 12.242186 12.483560 -7.451139 49.119236 0.000000 0.000008 0.091838 -0.182E-02 max_dt log_rel_run_E_err -8.2634603846399965 rel_E_err 4.6437685770814915D-12 check gamma integral 6.2235574318947840E-003 2190 9.262255 2.788E+05 -10.787648 12.272932 51.738871 0.000000 0.000000 0.000000 0.215941 -1.387163 2606 1 -4.8001E+00 9.262255 -0.130977 7.218794 12.311918 -99.000000 51.738871 0.000000 0.843526 0.784059 0.278410 5 2.8742E+05 5.673963 6.474029 12.272929 12.515348 -7.444470 49.119236 0.000000 0.000007 0.091909 -0.192E-02 max_dt log_rel_run_E_err -8.2601364876946164 rel_E_err 4.5630486547771002D-12 check gamma integral 5.6860539222392866E-003 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 2200 9.265523 2.795E+05 -10.091689 12.305929 51.738871 0.000000 0.000000 0.000000 0.215941 -1.369790 2603 1 -4.8001E+00 9.265523 -0.133004 7.257844 12.338986 -99.000000 51.738871 0.000000 0.843461 0.784059 0.279174 5 2.8742E+05 5.687243 6.474355 12.305925 12.549050 -7.437377 49.066893 0.000000 0.000007 0.092002 -0.205E-02 max_dt log_rel_run_E_err -8.2568241704950562 rel_E_err 4.6922275407945989D-12 save LOGS/profile25.data for model 2200 save photos/x200 for model 2200 check gamma integral 5.1127928547215562E-003 2210 9.269067 2.803E+05 -9.615516 12.341515 51.738871 0.000000 0.000000 0.000000 0.215941 -1.351206 2604 1 -4.8001E+00 9.269067 -0.135183 7.299800 12.368062 -99.000000 51.738871 0.000000 0.843373 0.784059 0.279986 5 2.8742E+05 5.701539 6.474707 12.341511 12.585007 -7.429749 49.066893 0.000000 0.000007 0.092128 -0.221E-02 max_dt log_rel_run_E_err -8.2534601165223798 rel_E_err 4.6718738870714055D-12 check gamma integral 4.4989660006485768E-003 2220 9.272933 2.811E+05 -9.885107 12.380133 51.738871 0.000000 0.000000 0.000000 0.215941 -1.331230 2605 1 -4.8001E+00 9.272933 -0.137536 7.345141 12.399477 -99.000000 51.738871 0.000000 0.843251 0.784059 0.280857 5 2.8742E+05 5.717011 6.475093 12.380129 12.623663 -7.421508 49.066893 0.000000 0.000007 0.092303 -0.235E-02 max_dt log_rel_run_E_err -8.2500423081202818 rel_E_err 4.5249053215746238D-12 check gamma integral 3.8385522111492975E-003 2230 9.277179 2.820E+05 -9.050937 12.422325 51.738871 0.000000 0.000000 0.000000 0.215941 -1.309643 2604 1 -4.8001E+00 9.277179 -0.140094 7.394456 12.433643 -99.000000 51.738871 0.000000 0.843076 0.784059 0.281797 5 2.8742E+05 5.733861 6.475515 12.422321 12.665543 -7.412544 49.066893 0.000000 0.000006 0.092555 -0.261E-02 max_dt log_rel_run_E_err -8.2464781233002586 rel_E_err 4.8831992613568792D-12 check gamma integral 3.1242685900908242E-003 2240 9.281880 2.830E+05 -7.914981 12.468786 51.738871 0.000000 0.000000 0.000000 0.215941 -1.286171 2606 1 -4.8001E+00 9.281880 -0.142891 7.448501 12.471090 -99.000000 51.738871 0.000000 0.842815 0.784059 0.282823 5 2.8742E+05 5.752340 6.475986 12.468782 12.711311 -7.402747 49.066893 0.000000 0.000006 0.092928 -0.284E-02 max_dt log_rel_run_E_err -8.2426411421591617 rel_E_err 5.5799712074582283D-12 check gamma integral 2.3470189840135635E-003 2250 9.287137 2.841E+05 -6.589425 12.520410 51.738871 0.000000 0.000000 0.000000 0.215941 -1.260482 2607 1 -4.8001E+00 9.287137 -0.145986 7.508241 12.512506 -99.000000 51.738871 0.000000 0.842412 0.784059 0.283959 5 2.8742E+05 5.772773 6.476514 12.520406 12.761797 -7.391899 49.066893 0.000000 0.000006 0.093506 -0.315E-02 max_dt log_rel_run_E_err -8.2356748196836236 rel_E_err 1.6294527357413720D-11 save photos/x250 for model 2250 check gamma integral 1.4954115612312684E-003 reached high velocities 0.39067704102755713 stopping in at least 1486.4292168606314 seconds 2260 9.293821 2.855E+05 -4.905471 12.582751 51.738871 0.000000 0.000000 0.000000 0.215941 -1.228506 2608 1 -4.5626E+00 9.293821 -0.149862 7.582931 12.564401 -99.000000 51.738871 0.000000 0.841631 0.784059 0.285431 5 2.8742E+05 5.798476 6.477190 12.582747 12.821904 -7.378304 49.066893 0.000000 0.000005 0.094624 -0.344E-02 max increase log_rel_run_E_err -8.1850531141843295 rel_E_err 8.3912587343360111D-12 check gamma integral 4.4241182867495470E-004 save LOGS/gamma1_prof001.data for model 2263 retry: check_lgL_power_photo_change hard limit 2266 hydro_solver_step returned ierr -1 s% model_number 2269 nz 2609 s% num_retries 2 retry: some xa < min_xa_hard_limit 2269 solver rejected trial model s% model_number 2270 s% solver_call_number 698 nz 2609 s% num_retries 3 dt 3.4240398799335071D+02 log dt/secyer -4.9645651528049370D+00 retry: max correction jumped -- give up in solver 2270 2270 9.291433 2.846E+05 -4.410993 12.255165 51.738871 0.000000 0.000000 0.000000 0.215941 -1.216867 2609 4 -5.2656E+00 9.291433 -0.146936 7.529101 12.535221 -99.000000 51.738871 0.000000 0.839290 0.784059 0.287883 5 2.8742E+05 5.799215 6.477902 12.255156 12.407778 -7.391805 49.066893 0.000000 0.000006 0.097969 0.343E-01 retry log_rel_run_E_err -8.0387973032027169 rel_E_err 4.6948915247213097D-12 check gamma integral 1.0595771311583476E-003 solver rejected trial model s% model_number 2271 s% solver_call_number 700 nz 2609 s% num_retries 4 dt 2.0544239279601041D+02 log dt/secyer -5.1864139024212932D+00 retry: max correction jumped -- give up in solver 2271 retry: check_lgL_power_photo_change hard limit 2272 retry: check_lgL_power_photo_change hard limit 2273 retry: check_lgL_power_photo_change hard limit 2275 retry: check_lgL_power_photo_change hard limit 2277 2280 9.298458 2.854E+05 -4.259329 12.470834 51.738871 0.000000 0.000000 0.000000 0.215941 -1.195394 2609 9 -6.1931E+00 9.298458 -0.151304 7.617272 12.593932 -99.000000 51.738871 0.000000 0.839223 0.784059 0.288066 5 2.8742E+05 5.821028 6.473650 12.470828 12.673378 -7.372308 49.066893 0.000000 0.000005 0.098065 -0.187E+00lgL_power_phot log_rel_run_E_err -8.0367259313944537 rel_E_err 4.8168630347779440D-12 check gamma integral -1.2572280598043274E-004 retry: check_lgL_power_photo_change hard limit 2281 retry: check_lgL_power_photo_change hard limit 2286 2290 9.308129 2.865E+05 -4.010617 12.780882 51.738871 0.000000 0.000000 0.000000 0.215941 -1.166619 2609 11 -6.5841E+00 9.308129 -0.157049 7.738261 12.674308 -99.000000 51.738871 0.000000 0.839183 0.784059 0.288232 5 2.8742E+05 5.850734 6.469184 12.780878 13.038043 -7.347665 49.066893 0.000000 0.000005 0.098123 -0.374E+00lgL_power_phot log_rel_run_E_err -8.0344168816829278 rel_E_err 4.9011204908825409D-12 check gamma integral -1.7077734498439385E-003 retry: check_lgL_power_photo_change hard limit 2295 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 2300 9.318967 2.873E+05 -3.736981 13.136903 51.738871 0.000000 0.000000 0.000000 0.215941 -1.134333 2610 12 -6.8469E+00 9.318967 -0.162590 7.870256 12.763177 -99.000000 51.738871 0.000000 0.839128 0.784059 0.288430 5 2.8742E+05 5.884065 6.463104 13.136901 13.436711 -7.323453 49.066893 0.000000 0.000005 0.098202 -0.584E+00lgL_power_phot log_rel_run_E_err -8.0319991661976555 rel_E_err 5.1251126276971755D-12 save LOGS/profile26.data for model 2300 save photos/x300 for model 2300 check gamma integral -3.3833346813861962E-003 2310 9.331411 2.879E+05 -3.457056 13.552041 51.738871 0.000000 0.000000 0.000000 0.215941 -1.097179 2614 12 -6.9819E+00 9.331411 -0.168051 8.017394 12.863677 -99.000000 51.738871 0.000000 0.839030 0.784059 0.288684 5 2.8742E+05 5.922407 6.455444 13.552040 13.879198 -7.299458 49.066893 0.000000 0.000004 0.098344 -0.825E+00lgL_power_phot log_rel_run_E_err -8.0294032587674717 rel_E_err 5.1724502597155392D-12 check gamma integral -5.1707734582754870E-003 2320 9.345146 2.881E+05 -3.235502 14.008102 51.738871 0.000000 0.000000 0.000000 0.215941 -1.056142 2615 12 -7.1393E+00 9.345146 -0.173241 8.175333 12.972827 -99.000000 51.738871 0.000000 0.838824 0.784059 0.289009 3 2.8742E+05 5.964792 6.446417 14.008101 14.343572 -7.276619 49.066893 0.000000 0.000004 0.098642 -0.109E+01lgL_power_phot log_rel_run_E_err -8.0264362208338564 rel_E_err 5.2700702394901381D-12 check gamma integral -6.9672755262330114E-003 2330 9.359162 2.881E+05 -3.135809 14.453218 51.738871 0.000000 0.000000 0.000000 0.215941 -1.014436 2617 12 -7.2797E+00 9.359162 -0.177868 8.332970 13.082456 -99.000000 51.738871 0.000000 0.838372 0.784059 0.289414 4 2.8742E+05 6.008037 6.437018 14.453218 14.780022 -7.256333 49.066893 0.000000 0.000004 0.099297 -0.135E+01lgL_power_phot log_rel_run_E_err -8.0228664591456660 rel_E_err 5.3053891413357861D-12 check gamma integral -8.6070976317914483E-003 2340 9.373396 2.879E+05 -2.979654 14.858185 51.738871 0.000000 0.000000 0.000000 0.215941 -0.972701 2622 12 -7.3840E+00 9.373396 -0.182067 8.491414 13.192189 -99.000000 51.738871 0.000000 0.837312 0.784059 0.289967 5 2.8742E+05 6.051762 6.427508 14.858185 15.165037 -7.238143 49.066893 0.000001 0.000003 0.100838 -0.162E+01lgL_power_phot log_rel_run_E_err -8.0182846169146806 rel_E_err 5.7819108868550431D-12 check gamma integral -1.0076558312732103E-002 2350 9.388534 2.876E+05 -2.625668 15.209904 51.738871 0.000000 0.000000 0.000000 0.215941 -0.930147 2625 12 -7.4433E+00 9.388534 -0.186143 8.660817 13.307166 -99.000000 51.738871 0.000000 0.834493 0.784059 0.290921 3 2.8742E+05 6.097548 6.417596 15.209903 15.487585 -7.220798 49.066893 0.000001 0.000003 0.104958 -0.190E+01lgL_power_phot log_rel_run_E_err -8.0110541761586376 rel_E_err 6.6738927256534762D-12 save photos/x350 for model 2350 check gamma integral -1.1429680744779794E-002 2360 9.405921 2.872E+05 -2.195551 15.513116 51.738871 0.000000 0.000000 0.000000 0.215941 -0.887396 2629 12 -7.4682E+00 9.405921 -0.190484 8.859232 13.436323 -99.000000 51.738871 0.000000 0.825247 0.784059 0.293301 3 2.8742E+05 6.147512 6.406300 15.513116 15.742988 -7.202820 49.066893 0.000003 0.000004 0.118495 -0.222E+01 lgRho_cntr log_rel_run_E_err -7.9983787210443564 rel_E_err 1.1447010668465377D-11 check gamma integral -1.2717479508814944E-002 2370 9.428984 2.865E+05 -1.649043 15.820468 51.738871 0.000000 0.000000 0.000000 0.215941 -0.859549 2634 12 -7.4269E+00 9.428984 -0.195832 9.128000 13.599423 -99.000000 51.738871 0.000000 0.780559 0.784059 0.303861 5 2.8742E+05 6.200674 6.391313 15.820468 15.945246 -7.181482 49.066893 0.000006 0.000006 0.181134 -0.265E+01 lgRho_cntr log_rel_run_E_err -7.9742765530980346 rel_E_err 6.7229125287613646D-12 check gamma integral -1.3982577660757825E-002 2380 9.448704 2.857E+05 -1.228596 16.048224 51.738871 0.000000 0.000000 0.000000 0.215941 -0.884553 2645 12 -7.7434E+00 9.448704 -0.200318 9.367915 13.732165 -99.000000 51.738871 0.000000 0.662527 0.784059 0.335933 4 2.8742E+05 6.222507 6.377932 16.048224 16.068661 -7.164303 49.066893 0.000012 0.000018 0.249364 -0.304E+01 XO_cntr log_rel_run_E_err -7.9416811932216627 rel_E_err 7.4215627885546615D-12 check gamma integral -1.4729888687977583E-002 2390 9.458704 2.852E+05 -1.035574 16.154468 51.738871 0.000000 0.000000 0.000000 0.215941 -0.917656 2653 12 -7.9362E+00 9.458704 -0.202806 9.503282 13.800787 -99.000000 51.738871 0.000000 0.552462 0.784059 0.371609 4 2.8742E+05 6.222616 6.369795 16.154468 16.166539 -7.154257 49.066893 0.000016 0.000018 0.287379 -0.326E+01 XO_cntr log_rel_run_E_err -7.9156957779824584 rel_E_err 8.3788033735425879D-12 check gamma integral -1.5031339497758343E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 2400 9.465703 2.849E+05 -0.910848 16.224536 51.738871 0.000000 0.000000 0.000000 0.215941 -0.948255 2657 12 -7.9909E+00 9.465703 -0.204850 9.614044 13.852818 -99.000000 51.738871 0.000000 0.449921 0.784059 0.410280 4 2.8742E+05 6.218079 6.363540 16.224536 16.278672 -7.143795 49.066893 0.000019 0.000017 0.326206 -0.345E+01 XO_cntr log_rel_run_E_err -7.8896922383434465 rel_E_err 8.9991388730182830D-12 save LOGS/profile27.data for model 2400 save photos/x400 for model 2400 check gamma integral -1.5230945431288029E-002 2410 9.471980 2.844E+05 -0.816011 16.280890 51.738871 0.000000 0.000000 0.000000 0.215941 -0.978585 2659 12 -7.8905E+00 9.471980 -0.207195 9.738677 13.906146 -99.000000 51.738871 0.000000 0.340258 0.784059 0.459229 4 2.8742E+05 6.211628 6.355874 16.280890 16.432878 -7.131934 49.066893 0.000021 0.000015 0.362208 -0.368E+01 max increase log_rel_run_E_err -7.8557639376420303 rel_E_err 9.9431260518753073D-12 check gamma integral -1.5419005707400915E-002 2420 9.477258 2.837E+05 -0.784766 16.314123 51.738871 0.000000 0.000000 0.000000 0.215941 -1.004365 2668 12 -7.9009E+00 9.477258 -0.210057 9.882612 13.960038 -99.000000 51.738871 0.000000 0.237464 0.784059 0.515356 4 2.8742E+05 6.205268 6.346174 16.314123 16.621183 -7.119320 49.066893 0.000022 0.000012 0.386322 -0.396E+01 dX_nuc o16 log_rel_run_E_err -7.8097596499925217 rel_E_err 1.1021442787444194D-11 check gamma integral -1.5603987171744771E-002 2430 9.480900 2.829E+05 -0.912349 16.306637 51.738871 0.000000 0.000000 0.000000 0.215941 -1.023994 2668 12 -7.7721E+00 9.480900 -0.213619 10.038427 14.007899 -99.000000 51.738871 0.000000 0.156619 0.784059 0.570501 4 2.8742E+05 6.199366 6.333778 16.306636 16.799429 -7.106502 49.066893 0.000020 0.000009 0.392649 -0.432E+01 dX_nuc o16 log_rel_run_E_err -7.7492375199777923 rel_E_err 1.2913849790927318D-11 check gamma integral -1.5790507983868229E-002 2440 9.481561 2.816E+05 -1.620067 16.214364 51.738871 0.000000 0.000000 0.000000 0.215941 -1.043551 2677 12 -7.6427E+00 9.481561 -0.218593 10.185141 14.037364 -99.000000 51.738871 0.000001 0.099467 0.784059 0.619193 4 2.8742E+05 6.189088 6.316210 16.214363 16.889236 -7.092282 49.066893 0.000015 0.000006 0.384240 -0.485E+01 dX_nuc o16 log_rel_run_E_err -7.6700383872838724 rel_E_err 1.4957673702246927D-11 check gamma integral -1.6031035638382041E-002 2450 9.470450 2.789E+05 -4.180915 15.783231 51.738871 0.000000 0.000000 0.000000 0.215941 -1.093784 2684 12 -7.5099E+00 9.470450 -0.227968 10.191913 13.981263 -99.000000 51.738871 0.000000 0.066317 0.784059 0.651901 5 2.8742E+05 6.145519 6.280696 15.783230 16.537344 -7.070781 49.106303 0.000009 0.000004 0.372625 -0.594E+01 lgRho_cntr log_rel_run_E_err -7.5803360261756554 rel_E_err 1.9362999788946222D-11 save photos/x450 for model 2450 check gamma integral -1.6582891302375325E-002 2460 9.453170 2.768E+05 -4.522475 15.250054 51.738871 0.000000 0.000000 0.000000 0.215941 -1.155208 2658 12 -7.7851E+00 9.453170 -0.235095 10.023459 13.863327 -99.000000 51.738871 0.000000 0.061533 0.784059 0.654785 5 2.8742E+05 6.087898 6.252925 15.250051 15.897397 -7.055633 49.106303 0.000006 0.000003 0.371926 -0.683E+01 lgRho_cntr log_rel_run_E_err -7.3768460223563848 rel_E_err 1.1575233296296144D-08 check gamma integral -1.6972409957787874E-002 2470 9.436910 2.752E+05 -3.687723 14.778425 51.738871 0.000000 0.000000 0.000000 0.215941 -1.212674 2647 12 -7.9127E+00 9.436910 -0.240250 9.843765 13.747570 -99.000000 51.738871 0.000000 0.060791 0.784059 0.653277 8 2.8742E+05 6.034358 6.232671 14.778420 15.272807 -7.044721 49.106303 0.000004 0.000002 0.372339 -0.751E+01 lgRho_cntr log_rel_run_E_err -6.4827776087851898 rel_E_err 9.1913181148032407D-08 check gamma integral -1.7065564334739134E-002 2480 9.421051 2.739E+05 -6.759879 14.339072 51.738871 0.000000 0.000000 0.000000 0.215941 -1.269480 2628 12 -7.9924E+00 9.421051 -0.244677 9.664953 13.632380 -99.000000 51.738871 0.000000 0.060634 0.784059 0.651131 7 2.8742E+05 5.982130 6.215603 14.339063 14.649742 -7.035303 49.106303 0.000003 0.000001 0.372499 -0.811E+01 lgRho_cntr log_rel_run_E_err -6.4374316415037116 rel_E_err 1.9776375600874553D-11 check gamma integral -1.6900023976075672E-002 residual_norm > tol_residual_norm 2489 5.5251486355309312D-02 9.9999999999999995D-07 max_residual > tol_max_residual 2489 5.2351297937243244D+03 1.0000000000000000D-03 max_abs_correction > tol_max_correction*coeff 2489 7.8797559842960288D-02 5.9999999999999998D-02 2.0000000000000001D-01 solver rejected trial model s% model_number 2489 s% solver_call_number 926 nz 2609 s% num_retries 12 dt 2.8549322210458283D-01 log dt/secyer -8.0435081649675286D+00 retry: max corr, avg+max resid -- give up in solver 2489 2490 9.406823 2.728E+05 -7.191742 13.961017 51.738871 0.000000 0.000000 0.000000 0.215941 -1.321154 2613 13 -8.2654E+00 9.406823 -0.248374 9.504055 13.527313 -99.000000 51.738871 0.000000 0.060599 0.784059 0.649053 14 2.8742E+05 5.935198 6.201581 13.961002 14.081738 -7.022145 49.106303 0.000003 0.000001 0.372524 -0.865E+01 max increase log_rel_run_E_err -6.4362636486222744 rel_E_err 1.7802157546298964D-11 k, q, energy_removed_layers before adjustment is 203 0.99999804458181418 1.0380063781949343E+047 k, q, energy_removed_layers after adjustment is 219 0.99998799992271370 2.2306958715180122E+047 Layers above q= 0.99998799992271370 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10411.654296875000 max vel inside fraction of cutoff 1608.8067439149863 max c/cs inside fraction of cutoff 0.56999809502016796 average v/vesc outside cutoff 0.87805478250326463 Kinetic plus potential energy outside cutoff 2.2306958715180122E+047 mass inside cutoff 219 51.738250521988917 relax counter 0 log max v [km/s]= 3.9780074536824350 check gamma integral -1.6521763901886657E-002 residual_norm > tol_residual_norm 2493 3.9033502012926524D+03 9.9999999999999995D-07 max_residual > tol_max_residual 2493 4.5070505969593281D+08 1.0000000000000000D-03 correction_norm > tol_correction_norm*coeff 2493 2.7269070913944395D-03 6.5902739698651291D-06 2.1967579899550430D-03 max_abs_correction > tol_max_correction*coeff 2493 4.5521627988728298D+01 6.5902739698651285D-04 2.1967579899550430D-03 solver rejected trial model s% model_number 2493 s% solver_call_number 931 nz 2613 s% num_retries 13 dt 2.9599937267803145D-01 log dt/secyer -8.0278131764410112D+00 retry: avg+max corr+resid -- give up in solver 2493 residual_norm > tol_residual_norm 2495 1.4104365729084648D+01 9.9999999999999995D-07 max_residual > tol_max_residual 2495 1.7342148302736378D+06 1.0000000000000000D-03 max_abs_correction > tol_max_correction*coeff 2495 5.3071935573625129D-01 2.9999999999999999D-02 1.0000000000000001D-01 solver rejected trial model s% model_number 2495 s% solver_call_number 934 nz 2613 s% num_retries 14 dt 2.1311954832818261D-01 log dt/secyer -8.1704806800097423D+00 retry: max corr, avg+max resid -- give up in solver 2495 residual_norm > tol_residual_norm 2497 9.2401567452303879D-01 9.9999999999999995D-07 max_residual > tol_max_residual 2497 8.0132524880529978D+04 1.0000000000000000D-03 max_abs_correction > tol_max_correction*coeff 2497 2.6059342697285143D-01 1.1512185993519090D-01 3.8373953311730302D-01 solver rejected trial model s% model_number 2497 s% solver_call_number 937 nz 2613 s% num_retries 15 dt 1.5344607479629149D-01 log dt/secyer -8.3131481835784751D+00 retry: max corr, avg+max resid -- give up in solver 2497 max_residual > tol_max_residual 2498 7.0670512346825681D-03 1.0000000000000000D-03 solver rejected trial model s% model_number 2498 s% solver_call_number 939 nz 2613 s% num_retries 16 dt 9.2067644877774898D-02 log dt/secyer -8.5349969331948312D+00 retry: max resid -- give up in solver 2498 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 2500 9.399793 2.723E+05 -7.399344 13.779442 51.738871 0.000000 0.000000 0.000000 0.215941 -1.346907 2613 17 -8.6777E+00 9.399793 -0.250139 9.424535 13.474780 -99.000000 51.738871 0.000000 0.060592 0.784059 0.648006 7 2.8742E+05 5.911990 6.194326 13.779423 13.798891 -7.017335 49.106303 0.000002 0.000001 0.372525 -0.891E+01 max increase log_rel_run_E_err -6.4359459378031456 rel_E_err 5.3297579866418155D-11 save LOGS/profile28.data for model 2500 save photos/x500 for model 2500 k, q, energy_removed_layers before adjustment is 208 0.99999633627705353 2.1183053447663527E+047 k, q, energy_removed_layers after adjustment is 220 0.99998701780667754 2.9902826701944031E+047 Layers above q= 0.99998701780667754 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10412.910156250000 max vel inside fraction of cutoff 1693.2103601060733 max c/cs inside fraction of cutoff 0.60615521209009160 average v/vesc outside cutoff 1.0375473932268331 Kinetic plus potential energy outside cutoff 2.9902826701944031E+047 mass inside cutoff 220 51.738199708413639 relax counter 0 log max v [km/s]= 4.1388889453817228 check gamma integral -1.6250302478530397E-002 write /home/jenkins/workspace/mesa_main/data/kap_data/cache/lowT_fa05_gs98_z0.1_x0.0.bin write /home/jenkins/workspace/mesa_main/data/kap_data/cache/lowT_fa05_gs98_z0.1_x0.1.bin hydro_solver_step returned ierr -1 s% model_number 2501 nz 2613 s% num_retries 17 retry: adjust_correction failed in eval_equations -- give up in solver 2501 residual_norm > tol_residual_norm 2505 9.9714650011832084D+00 9.9999999999999995D-07 max_residual > tol_max_residual 2505 1.2765187104851408D+06 1.0000000000000000D-03 max_abs_correction > tol_max_correction*coeff 2505 1.6404958377798431D+00 1.8287153986687555D-02 6.0957179955625190D-02 solver rejected trial model s% model_number 2505 s% solver_call_number 948 nz 2613 s% num_retries 18 dt 8.2473754356815324D-02 log dt/secyer -8.5827882021894197D+00 retry: max corr, avg+max resid -- give up in solver 2505 2510 9.396203 2.720E+05 -7.504533 13.687951 51.738871 0.000000 0.000000 0.000000 0.215941 -1.360108 2613 19 -8.4879E+00 9.396203 -0.251030 9.383904 13.447786 -99.000000 51.738871 0.000000 0.060590 0.784059 0.647470 20 2.8742E+05 5.900136 6.190766 13.687929 13.654090 -7.015458 49.106303 0.000002 0.000001 0.372525 -0.904E+01 max increase log_rel_run_E_err -6.4357124858876134 rel_E_err 1.7303857445998026D-11 k, q, energy_removed_layers before adjustment is 209 0.99999565156432357 2.4368125017927772E+047 k, q, energy_removed_layers after adjustment is 220 0.99998701780667754 3.3191554363588013E+047 Layers above q= 0.99998701780667754 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10413.529296875000 max vel inside fraction of cutoff 1734.1720374420884 max c/cs inside fraction of cutoff 0.62408305801165576 average v/vesc outside cutoff 1.0936202662523593 Kinetic plus potential energy outside cutoff 3.3191554363588013E+047 mass inside cutoff 220 51.738199708413639 relax counter 0 log max v [km/s]= 4.2471734335631695 check gamma integral -1.6089333617359418E-002 residual_norm > tol_residual_norm 2511 2.1502517867781051D-02 9.9999999999999995D-07 max_residual > tol_max_residual 2511 1.0948084030091013D+03 1.0000000000000000D-03 max_abs_correction > tol_max_correction*coeff 2511 3.1103691487288676D-01 9.6451573962724885D-02 3.2150524654241630D-01 solver rejected trial model s% model_number 2511 s% solver_call_number 955 nz 2616 s% num_retries 19 dt 1.2313265546469040D-01 log dt/secyer -8.4087307215676521D+00 retry: max corr, avg+max resid -- give up in solver 2511 residual_norm > tol_residual_norm 2520 1.0046380523868576D-02 9.9999999999999995D-07 max_residual > tol_max_residual 2520 7.3492834465601413D+02 1.0000000000000000D-03 max_abs_correction > tol_max_correction*coeff 2520 3.1022028721064926D-01 9.6705474260711591D-02 3.2235158086903865D-01 solver rejected trial model s% model_number 2520 s% solver_call_number 965 nz 2598 s% num_retries 20 dt 1.8185324298871361D-01 log dt/secyer -8.2393829168523460D+00 retry: max corr, avg+max resid -- give up in solver 2520 2520 9.388510 2.713E+05 -7.728750 13.494483 51.738871 0.000000 0.000000 0.000000 0.215941 -1.388536 2598 21 -8.5404E+00 9.388510 -0.252913 9.296761 13.389552 -99.000000 51.738871 0.000000 0.060588 0.784059 0.646309 6 2.8742E+05 5.874714 6.182899 13.494455 13.343388 -7.012638 49.106303 0.000002 0.000001 0.372524 -0.931E+01 retry log_rel_run_E_err -6.4354899122399951 rel_E_err 1.7298779692698264D-11 k, q, energy_removed_layers before adjustment is 181 0.99999389999684651 3.1335413252235771E+047 k, q, energy_removed_layers after adjustment is 195 0.99998413529491126 3.9023563512176536E+047 Layers above q= 0.99998413529491126 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10414.822265625000 max vel inside fraction of cutoff 1817.1241221130117 max c/cs inside fraction of cutoff 0.66124138296633928 average v/vesc outside cutoff 1.0825482053032063 Kinetic plus potential energy outside cutoff 3.9023563512176536E+047 mass inside cutoff 195 51.738050570508072 relax counter 0 log max v [km/s]= 4.3410943924953651 check gamma integral -1.5692456879249247E-002 residual_norm > tol_residual_norm 2524 9.1652928999558930D-04 9.9999999999999995D-07 max_residual > tol_max_residual 2524 6.4889027714841831D+01 1.0000000000000000D-03 max_abs_correction > tol_max_correction*coeff 2524 2.8035317916871612D+00 1.0700788230386376D-02 3.5669294101287920D-02 solver rejected trial model s% model_number 2524 s% solver_call_number 970 nz 2598 s% num_retries 21 dt 1.8854544233069825D-01 log dt/secyer -8.2236879283258286D+00 retry: max corr, avg+max resid -- give up in solver 2524 solver rejected trial model s% model_number 2529 s% solver_call_number 976 nz 2598 s% num_retries 22 dt 2.3458069753016147D-01 log dt/secyer -8.1288116937516843D+00 retry: max correction jumped -- give up in solver 2529 2530 9.380123 2.707E+05 -7.973043 13.287375 51.738871 0.000000 0.000000 0.000000 0.215941 -1.419715 2598 23 -8.3507E+00 9.380123 -0.254939 9.201621 13.325460 -99.000000 51.738871 0.000000 0.060586 0.784059 0.645034 10 2.8742E+05 5.846975 6.174581 13.287340 13.004736 -7.010937 49.106303 0.000002 0.000001 0.372522 -0.959E+01 max increase log_rel_run_E_err -6.4352897873118078 rel_E_err 1.6481544708346977D-11 k, q, energy_removed_layers before adjustment is 184 0.99999248086938397 3.6878371037501636E+047 k, q, energy_removed_layers after adjustment is 197 0.99998187825267759 4.3954011965304331E+047 Layers above q= 0.99998187825267759 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10416.177734375000 max vel inside fraction of cutoff 1901.2759719244220 max c/cs inside fraction of cutoff 0.70013245383138123 average v/vesc outside cutoff 1.1185559656680311 Kinetic plus potential energy outside cutoff 4.3954011965304331E+047 mass inside cutoff 197 51.737933793690217 relax counter 0 log max v [km/s]= 4.3552282209540190 check gamma integral -1.5177543175296260E-002 2540 9.364819 1.826E+06 -8.423626 12.918561 51.738871 0.000000 0.000000 0.000000 0.215941 -1.477083 2580 23 -8.1370E+00 9.364819 -0.247978 9.027501 13.206870 -99.000000 51.738871 0.000000 0.060585 0.784059 0.642681 5 2.8742E+05 5.796298 9.504550 12.918505 12.390985 -6.952837 49.106303 0.000002 0.000000 0.372521 0.442E+01 lgRho_cntr log_rel_run_E_err -6.4351093008889926 rel_E_err 1.6910120562083596D-11 k, q, energy_removed_layers before adjustment is 153 0.99998978679968920 4.4888325950618359E+047 k, q, energy_removed_layers after adjustment is 166 0.99997967130973109 5.0692649808542733E+047 Layers above q= 0.99997967130973109 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10418.531250000000 max vel inside fraction of cutoff 2040.1673488822382 max c/cs inside fraction of cutoff 0.76722567372435524 average v/vesc outside cutoff 1.1727759934271826 Kinetic plus potential energy outside cutoff 5.0692649808542733E+047 mass inside cutoff 166 51.737819608952933 relax counter 0 log max v [km/s]= 4.4085346198561863 check gamma integral -1.4012528263708992E-002 hydro_solver_step returned ierr -1 s% model_number 2547 nz 2585 s% num_retries 23 retry: get_T_tau -- L <= 0 2547 2550 9.351534 8.986E+05 -8.824431 12.606458 51.738871 0.000000 0.000000 0.000000 0.215941 -1.527251 2583 24 -8.2177E+00 9.351534 -0.206962 8.875526 13.102112 -99.000000 51.738871 0.000000 0.060585 0.784059 0.640635 5 2.8742E+05 5.752287 8.354984 12.606377 11.866623 -1.612174 49.106303 0.000002 0.000000 0.372521 0.263E+03 max increase log_rel_run_E_err -6.4349364156810136 rel_E_err 1.5957066071438867D-11 Using fixed_vsurf 20000.000000000000 save photos/x550 for model 2550 k, q, energy_removed_layers before adjustment is 156 0.99998751859595902 5.0524987543271577E+047 k, q, energy_removed_layers after adjustment is 172 0.99997752360621051 5.5191408798472842E+047 Layers above q= 0.99997752360621051 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10420.478515625000 max vel inside fraction of cutoff 2148.0768588298511 max c/cs inside fraction of cutoff 0.82200674721127287 average v/vesc outside cutoff 1.2063961502910603 Kinetic plus potential energy outside cutoff 5.5191408798472842E+047 mass inside cutoff 172 51.737708489196699 relax counter 0 log max v [km/s]= 4.3468097248414184 check gamma integral -1.2760884869334490E-002 2560 9.335433 2.029E+06 -9.325459 12.235637 51.738871 0.000000 0.000000 0.000000 0.215941 -1.588404 2595 24 -8.1756E+00 9.335433 -0.163670 8.689751 12.972719 -99.000000 51.738871 0.000000 0.060585 0.784059 0.638162 5 2.8742E+05 5.698945 9.856441 12.235513 11.245081 -1.867864 49.106303 0.000002 0.000000 0.372520 0.153E+03 lgRho_cntr log_rel_run_E_err -6.4347720734784479 rel_E_err 1.5081222956587403D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 171 0.99998566440608361 5.5252943759711935E+047 k, q, energy_removed_layers after adjustment is 184 0.99997636762008490 5.9613570985099306E+047 Layers above q= 0.99997636762008490 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10422.742187500000 max vel inside fraction of cutoff 2265.7182355148734 max c/cs inside fraction of cutoff 0.88464676500063566 average v/vesc outside cutoff 1.2632504153579620 Kinetic plus potential energy outside cutoff 5.9613570985099306E+047 mass inside cutoff 184 51.737648679779220 relax counter 0 log max v [km/s]= 4.3318600288059725 check gamma integral -1.0941655030455450E-002 hydro_solver_step returned ierr -1 s% model_number 2564 nz 2605 s% num_retries 24 retry: get_T_tau -- L <= 0 2564 hydro_solver_step returned ierr -1 s% model_number 2564 nz 2602 s% num_retries 25 retry: get_T_tau -- L <= 0 2564 hydro_solver_step returned ierr -1 s% model_number 2564 nz 2602 s% num_retries 26 retry: get_T_tau -- L <= 0 2564 hydro_solver_step returned ierr -1 s% model_number 2564 nz 2602 s% num_retries 27 retry: get_T_tau -- L <= 0 2564 hydro_solver_step returned ierr -1 s% model_number 2564 nz 2602 s% num_retries 28 retry: get_T_tau -- L <= 0 2564 hydro_solver_step returned ierr -1 s% model_number 2564 nz 2602 s% num_retries 29 retry: get_T_tau -- L <= 0 2564 hydro_solver_step returned ierr -1 s% model_number 2564 nz 2602 s% num_retries 30 retry: get_T_tau -- L <= 0 2564 hydro_solver_step returned ierr -1 s% model_number 2564 nz 2602 s% num_retries 31 retry: get_T_tau -- L <= 0 2564 2570 9.330789 1.758E+06 -9.473287 12.129832 51.738871 0.000000 0.000000 0.000000 0.215941 -1.606089 2605 32 -1.0115E+01 9.330789 -0.152217 8.635775 12.934876 -99.000000 51.738871 0.000000 0.060585 0.784059 0.637453 4 2.8742E+05 5.683564 9.630486 12.129692 11.068438 -2.049181 49.106303 0.000002 0.000000 0.372520 0.166E+03 max increase log_rel_run_E_err -6.4345989923962712 rel_E_err 1.4981453982000785D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 178 0.99998518499697708 5.6436351748039431E+047 k, q, energy_removed_layers after adjustment is 192 0.99997493890232436 6.0711186442697441E+047 Layers above q= 0.99997493890232436 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10423.378906250000 max vel inside fraction of cutoff 2297.4581742477899 max c/cs inside fraction of cutoff 0.90208449919899547 average v/vesc outside cutoff 1.2328437036262181 Kinetic plus potential energy outside cutoff 6.0711186442697441E+047 mass inside cutoff 192 51.737574759534745 relax counter 0 log max v [km/s]= 4.3021570039392580 check gamma integral -1.0355499329037806E-002 2580 9.330237 1.687E+06 -9.490929 12.117311 51.738871 0.000000 0.000000 0.000000 0.215941 -1.608185 2605 32 -9.3231E+00 9.330237 -0.150882 8.629361 12.930369 -99.000000 51.738871 0.000000 0.060585 0.784059 0.637371 5 2.8742E+05 5.681741 9.561868 12.117169 11.047526 -1.795459 49.106303 0.000002 0.000000 0.372520 0.173E+03 max increase log_rel_run_E_err -6.4344215436412462 rel_E_err 1.5123967004452204D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 178 0.99998518499697708 5.6524771474215754E+047 k, q, energy_removed_layers after adjustment is 193 0.99997419239258079 6.0844482415810685E+047 Layers above q= 0.99997419239258079 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10423.453125000000 max vel inside fraction of cutoff 2301.1869618732367 max c/cs inside fraction of cutoff 0.90414359469216610 average v/vesc outside cutoff 1.2240980289873749 Kinetic plus potential energy outside cutoff 6.0844482415810685E+047 mass inside cutoff 193 51.737536135963126 relax counter 0 log max v [km/s]= 4.3034734149284724 check gamma integral -1.0284093156290171E-002 2590 9.326808 1.550E+06 -9.601153 12.039557 51.738871 0.000000 0.000000 0.000000 0.215941 -1.621234 2605 32 -8.5313E+00 9.326808 -0.142705 8.589396 12.902257 -99.000000 51.738871 0.000000 0.060585 0.784059 0.636855 5 2.8742E+05 5.670398 9.430097 12.039403 10.917758 -1.686900 49.106303 0.000002 0.000000 0.372520 0.184E+03 max increase log_rel_run_E_err -6.4342474873992543 rel_E_err 1.4845572664174691D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 180 0.99998466857588841 5.7536346138101754E+047 k, q, energy_removed_layers after adjustment is 194 0.99997419239258079 6.1657959142086530E+047 Layers above q= 0.99997419239258079 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10423.921875000000 max vel inside fraction of cutoff 2324.0944824803591 max c/cs inside fraction of cutoff 0.91687029740730530 average v/vesc outside cutoff 1.2359476519615851 Kinetic plus potential energy outside cutoff 6.1657959142086530E+047 mass inside cutoff 194 51.737536135963126 relax counter 0 log max v [km/s]= 4.3137149681434641 check gamma integral -9.8313794787841836E-003 hydro_solver_step returned ierr -1 s% model_number 2597 nz 2608 s% num_retries 32 retry: get_T_tau -- L <= 0 2597 hydro_solver_step returned ierr -1 s% model_number 2597 nz 2609 s% num_retries 33 retry: get_T_tau -- L <= 0 2597 hydro_solver_step returned ierr -1 s% model_number 2598 nz 2609 s% num_retries 34 retry: get_T_tau -- L <= 0 2598 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 2600 9.317175 1.505E+06 -9.915352 11.821913 51.738871 0.000000 0.000000 0.000000 0.215941 -1.657954 2609 35 -8.7900E+00 9.317175 -0.120809 8.476406 12.822554 -99.000000 51.738871 0.000000 0.060585 0.784059 0.635404 5 2.8742E+05 5.638529 9.423419 11.821717 10.555273 -1.660710 49.106303 0.000002 0.000000 0.372520 0.189E+03 max increase log_rel_run_E_err -6.4340823353196450 rel_E_err 1.4673389402244976D-11 Using fixed_vsurf 20000.000000000000 save LOGS/profile29.data for model 2600 save photos/x600 for model 2600 k, q, energy_removed_layers before adjustment is 187 0.99998358807097165 5.9842177179077192E+047 k, q, energy_removed_layers after adjustment is 201 0.99997261785577929 6.3707606963730061E+047 Layers above q= 0.99997261785577929 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10425.214843750000 max vel inside fraction of cutoff 2386.1106453594771 max c/cs inside fraction of cutoff 0.95197829429855518 average v/vesc outside cutoff 1.2454125240604683 Kinetic plus potential energy outside cutoff 6.3707606963730061E+047 mass inside cutoff 201 51.737454671206052 relax counter 0 log max v [km/s]= 4.3071977869081248 check gamma integral -8.4811652513621747E-003 2610 9.305776 1.850E+06 -10.295795 11.565668 51.738871 0.000000 0.000000 0.000000 0.215941 -1.701408 2614 35 -8.1386E+00 9.305776 -0.096650 8.341349 12.726831 -99.000000 51.738871 0.000000 0.060585 0.784059 0.633714 5 2.8742E+05 5.600859 9.829801 11.565409 10.127880 -1.769106 49.106303 0.000002 0.000000 0.372520 0.163E+03 lgRho_cntr log_rel_run_E_err -6.4339213887471569 rel_E_err 1.4322168797654580D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 189 0.99998246031137439 6.2240763231173606E+047 k, q, energy_removed_layers after adjustment is 206 0.99997178512774942 6.5893840279926445E+047 Layers above q= 0.99997178512774942 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10426.718750000000 max vel inside fraction of cutoff 2455.8918471757720 max c/cs inside fraction of cutoff 0.99254979055039161 average v/vesc outside cutoff 1.2668682625646783 Kinetic plus potential energy outside cutoff 6.5893840279926445E+047 mass inside cutoff 206 51.737411586797613 relax counter 0 log max v [km/s]= 4.3221354936553738 check gamma integral -6.7374709987131094E-003 hydro_solver_step returned ierr -1 s% model_number 2615 nz 2618 s% num_retries 35 retry: get_T_tau -- L <= 0 2615 hydro_solver_step returned ierr -1 s% model_number 2615 nz 2618 s% num_retries 36 retry: get_T_tau -- L <= 0 2615 hydro_solver_step returned ierr -1 s% model_number 2615 nz 2618 s% num_retries 37 retry: get_T_tau -- L <= 0 2615 hydro_solver_step returned ierr -1 s% model_number 2615 nz 2618 s% num_retries 38 retry: get_T_tau -- L <= 0 2615 hydro_solver_step returned ierr -1 s% model_number 2615 nz 2618 s% num_retries 39 retry: get_T_tau -- L <= 0 2615 hydro_solver_step returned ierr -1 s% model_number 2615 nz 2618 s% num_retries 40 retry: get_T_tau -- L <= 0 2615 hydro_solver_step returned ierr -1 s% model_number 2615 nz 2618 s% num_retries 41 retry: get_T_tau -- L <= 0 2615 hydro_solver_step returned ierr -1 s% model_number 2615 nz 2618 s% num_retries 42 retry: get_T_tau -- L <= 0 2615 hydro_solver_step returned ierr -1 s% model_number 2615 nz 2618 s% num_retries 43 retry: get_T_tau -- L <= 0 2615 hydro_solver_step returned ierr -1 s% model_number 2615 nz 2618 s% num_retries 44 retry: get_T_tau -- L <= 0 2615 2620 9.299471 1.638E+06 -10.510284 11.424266 51.738871 0.000000 0.000000 0.000000 0.215941 -1.725424 2618 45 -1.0816E+01 9.299471 -0.084001 8.265968 12.673220 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632791 3 2.8742E+05 5.580047 9.644158 11.423964 9.891081 -1.962533 49.106303 0.000002 0.000000 0.372520 0.175E+03 max increase log_rel_run_E_err -6.4337602797056919 rel_E_err 1.4136779633699640D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 194 0.99998187825267726 6.3430061468557740E+047 k, q, energy_removed_layers after adjustment is 211 0.99997093561245443 6.6981461192998026E+047 Layers above q= 0.99997093561245443 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10427.537109375000 max vel inside fraction of cutoff 2492.9820956130493 max c/cs inside fraction of cutoff 1.0145888323362391 average v/vesc outside cutoff 1.2724133772037753 Kinetic plus potential energy outside cutoff 6.6981461192998026E+047 mass inside cutoff 211 51.737367633835014 relax counter 0 log max v [km/s]= 4.3011708815717551 check gamma integral -5.7078310519265056E-003 2630 9.299355 1.596E+06 -10.514237 11.421679 51.738871 0.000000 0.000000 0.000000 0.215941 -1.725862 2618 45 -1.0024E+01 9.299355 -0.083773 8.264585 12.672234 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632775 4 2.8742E+05 5.579667 9.599699 11.421376 9.886738 -1.950132 49.106303 0.000002 0.000000 0.372520 0.179E+03 max increase log_rel_run_E_err -6.4335945603489408 rel_E_err 1.3879406276506917D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 194 0.99998187825267726 6.3443814097457865E+047 k, q, energy_removed_layers after adjustment is 211 0.99997093561245443 6.7001546000680801E+047 Layers above q= 0.99997093561245443 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10427.552734375000 max vel inside fraction of cutoff 2493.6547404977755 max c/cs inside fraction of cutoff 1.0149904847950812 average v/vesc outside cutoff 1.2727199536734124 Kinetic plus potential energy outside cutoff 6.7001546000680801E+047 mass inside cutoff 211 51.737367633835014 relax counter 0 log max v [km/s]= 4.3018886244831114 check gamma integral -5.6885556463736834E-003 hydro_solver_step returned ierr -1 s% model_number 2638 nz 2618 s% num_retries 45 retry: get_T_tau -- L <= 0 2638 2640 9.298820 1.584E+06 -10.532586 11.409690 51.738871 0.000000 0.000000 0.000000 0.215941 -1.727896 2618 46 -9.5330E+00 9.298820 -0.082719 8.258169 12.667659 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632698 5 2.8742E+05 5.577903 9.588709 11.409383 9.866590 -1.831232 49.106303 0.000002 0.000000 0.372520 0.181E+03 max increase log_rel_run_E_err -6.4334298093145454 rel_E_err 1.3797497179871362D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 194 0.99998187825267726 6.3506817515377534E+047 k, q, energy_removed_layers after adjustment is 211 0.99997093561245443 6.7093808040046017E+047 Layers above q= 0.99997093561245443 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10427.623046875000 max vel inside fraction of cutoff 2496.7702333497532 max c/cs inside fraction of cutoff 1.0168523377577843 average v/vesc outside cutoff 1.2741373878299105 Kinetic plus potential energy outside cutoff 6.7093808040046017E+047 mass inside cutoff 211 51.737367633835014 relax counter 0 log max v [km/s]= 4.3026262644828108 check gamma integral -5.5989561020561122E-003 hydro_solver_step returned ierr -1 s% model_number 2642 nz 2618 s% num_retries 46 retry: get_T_tau -- L <= 0 2642 2650 9.297669 1.471E+06 -10.572093 11.383932 51.738871 0.000000 0.000000 0.000000 0.215941 -1.732267 2619 47 -9.0422E+00 9.297669 -0.080465 8.244364 12.657813 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632533 4 2.8742E+05 5.574111 9.464533 11.383617 9.823261 -1.652804 49.106303 0.000002 0.000000 0.372520 0.192E+03 max increase log_rel_run_E_err -6.4332661244249438 rel_E_err 1.3878622816476290D-11 Using fixed_vsurf 20000.000000000000 save photos/x650 for model 2650 k, q, energy_removed_layers before adjustment is 195 0.99998128128134334 6.4096694162291736E+047 k, q, energy_removed_layers after adjustment is 211 0.99997093561245443 6.7290393119336509E+047 Layers above q= 0.99997093561245443 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10427.771484375000 max vel inside fraction of cutoff 2503.4424129638446 max c/cs inside fraction of cutoff 1.0208478934606466 average v/vesc outside cutoff 1.2771695769350950 Kinetic plus potential energy outside cutoff 6.7290393119336509E+047 mass inside cutoff 211 51.737367633835014 relax counter 0 log max v [km/s]= 4.3037761034959452 check gamma integral -5.4053029389319667E-003 2660 9.290772 1.483E+06 -10.810968 11.229487 51.738871 0.000000 0.000000 0.000000 0.215941 -1.758462 2620 47 -8.2504E+00 9.290772 -0.067265 8.161201 12.598453 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631549 5 2.8742E+05 5.551389 9.504795 11.229115 9.562684 -1.647001 49.106303 0.000002 0.000000 0.372520 0.192E+03 max increase log_rel_run_E_err -6.4331087637031050 rel_E_err 1.3401237340854953D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 197 0.99998066585929390 6.5222490173211583E+047 k, q, energy_removed_layers after adjustment is 213 0.99997005782976134 6.8418351939633846E+047 Layers above q= 0.99997005782976134 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10428.664062500000 max vel inside fraction of cutoff 2542.7487428592813 max c/cs inside fraction of cutoff 1.0446281467122043 average v/vesc outside cutoff 1.2929038222395377 Kinetic plus potential energy outside cutoff 6.8418351939633846E+047 mass inside cutoff 213 51.737322218349149 relax counter 0 log max v [km/s]= 4.3153491342216190 check gamma integral -4.2144453963663875E-003 2670 9.274506 1.675E+06 -11.388477 10.864435 51.738871 0.000000 0.000000 0.000000 0.215941 -1.820034 2627 47 -8.2108E+00 9.274506 -0.037966 7.962227 12.456043 -99.000000 51.738871 0.000000 0.060585 0.784059 0.629283 5 2.8742E+05 5.497910 9.774999 10.863891 8.939542 -1.790067 49.106303 0.000002 0.000000 0.372520 0.175E+03 lgRho_cntr log_rel_run_E_err -6.4329575256558993 rel_E_err 1.3598521692506298D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 205 0.99997967130973076 6.7536321138865825E+047 k, q, energy_removed_layers after adjustment is 220 0.99996880872967597 7.0804587705863324E+047 Layers above q= 0.99996880872967597 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10430.742187500000 max vel inside fraction of cutoff 2631.6682505532522 max c/cs inside fraction of cutoff 1.0998507024433137 average v/vesc outside cutoff 1.3152512982382039 Kinetic plus potential energy outside cutoff 7.0804587705863324E+047 mass inside cutoff 220 51.737257591320471 relax counter 0 log max v [km/s]= 4.3138799469409683 check gamma integral -1.2137404381593526E-003 2680 9.259216 1.602E+06 -11.949699 10.519411 51.738871 0.000000 0.000000 0.000000 0.215941 -1.877409 2628 47 -8.2134E+00 9.259216 -0.012377 7.771371 12.318930 -99.000000 51.738871 0.000000 0.060585 0.784059 0.627265 5 2.8742E+05 5.447853 9.749067 10.518635 8.337547 -1.810526 49.106303 0.000002 0.000000 0.372520 0.180E+03 lgRho_cntr log_rel_run_E_err -6.4328086961164850 rel_E_err 1.2800309608725266D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 209 0.99997807898697089 6.9898249105502957E+047 k, q, energy_removed_layers after adjustment is 222 0.99996749069503288 7.2807160512604702E+047 Layers above q= 0.99996749069503288 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10432.675781250000 max vel inside fraction of cutoff 2711.5999024161820 max c/cs inside fraction of cutoff 1.1510914004839208 average v/vesc outside cutoff 1.3306649942016995 Kinetic plus potential energy outside cutoff 7.2807160512604702E+047 mass inside cutoff 222 51.737189397695580 relax counter 0 log max v [km/s]= 4.3127427507861489 check gamma integral 1.8224637196585329E-003 hydro_solver_step returned ierr -1 s% model_number 2687 nz 2632 s% num_retries 47 retry: get_T_tau -- L <= 0 2687 hydro_solver_step returned ierr -1 s% model_number 2687 nz 2628 s% num_retries 48 retry: get_T_tau -- L <= 0 2687 hydro_solver_step returned ierr -1 s% model_number 2687 nz 2628 s% num_retries 49 retry: get_T_tau -- L <= 0 2687 hydro_solver_step returned ierr -1 s% model_number 2687 nz 2628 s% num_retries 50 retry: get_T_tau -- L <= 0 2687 hydro_solver_step returned ierr -1 s% model_number 2687 nz 2628 s% num_retries 51 retry: get_T_tau -- L <= 0 2687 hydro_solver_step returned ierr -1 s% model_number 2687 nz 2628 s% num_retries 52 retry: get_T_tau -- L <= 0 2687 hydro_solver_step returned ierr -1 s% model_number 2687 nz 2628 s% num_retries 53 retry: get_T_tau -- L <= 0 2687 2690 9.248956 1.492E+06 -12.336313 10.286236 51.738871 0.000000 0.000000 0.000000 0.215941 -1.915557 2628 54 -1.0004E+01 9.248956 0.003902 7.640977 12.225081 -99.000000 51.738871 0.000000 0.060585 0.784059 0.625978 3 2.8742E+05 5.414398 9.656995 10.285252 7.921274 -1.965289 49.106303 0.000002 0.000000 0.372520 0.188E+03 max increase log_rel_run_E_err -6.4326635368897902 rel_E_err 1.2478113590849292D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 211 0.99997752360621028 7.1056444804021674E+047 k, q, energy_removed_layers after adjustment is 224 0.99996613490092090 7.4024644733186004E+047 Layers above q= 0.99996613490092090 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10433.968750000000 max vel inside fraction of cutoff 2763.6463839668077 max c/cs inside fraction of cutoff 1.1853012185876821 average v/vesc outside cutoff 1.3342588264687485 Kinetic plus potential energy outside cutoff 7.4024644733186004E+047 mass inside cutoff 224 51.737119250438390 relax counter 0 log max v [km/s]= 4.3014592640226992 check gamma integral 3.9544513432800210E-003 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 2700 9.248181 1.429E+06 -12.365808 10.268600 51.738871 0.000000 0.000000 0.000000 0.215941 -1.918416 2632 54 -9.2122E+00 9.248181 0.005106 7.631076 12.217937 -99.000000 51.738871 0.000000 0.060585 0.784059 0.625885 5 2.8742E+05 5.411881 9.584962 10.267598 7.889364 -1.949677 49.106303 0.000002 0.000000 0.372520 0.194E+03 max increase log_rel_run_E_err -6.4325178118265356 rel_E_err 1.2571677274128103D-11 Using fixed_vsurf 20000.000000000000 save LOGS/profile30.data for model 2700 save photos/x700 for model 2700 k, q, energy_removed_layers before adjustment is 214 0.99997752360621039 7.1118148063887162E+047 k, q, energy_removed_layers after adjustment is 227 0.99996613490092101 7.4116886615303514E+047 Layers above q= 0.99996613490092101 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10434.066406250000 max vel inside fraction of cutoff 2767.5378418719915 max c/cs inside fraction of cutoff 1.1878782152014347 average v/vesc outside cutoff 1.3357790979044826 Kinetic plus potential energy outside cutoff 7.4116886615303514E+047 mass inside cutoff 227 51.737119250438390 relax counter 0 log max v [km/s]= 4.3035633749928941 check gamma integral 4.1179547315217217E-003 hydro_solver_step returned ierr -1 s% model_number 2703 nz 2633 s% num_retries 54 retry: get_T_tau -- L <= 0 2703 hydro_solver_step returned ierr -1 s% model_number 2706 nz 2632 s% num_retries 55 retry: get_T_tau -- L <= 0 2706 hydro_solver_step returned ierr -1 s% model_number 2710 nz 2632 s% num_retries 56 retry: get_T_tau -- L <= 0 2710 2710 9.246555 1.404E+06 -12.427921 10.231536 51.738871 0.000000 0.000000 0.000000 0.215941 -1.924415 2632 57 -9.3235E+00 9.246555 0.007622 7.610239 12.202900 -99.000000 51.738871 0.000000 0.060585 0.784059 0.625691 5 2.8742E+05 5.406596 9.558842 10.230496 7.822069 -1.946266 49.106303 0.000002 0.000000 0.372520 0.197E+03 retry log_rel_run_E_err -6.4323717278364887 rel_E_err 1.2675966878197553D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 215 0.99997695443283030 7.1573229120218796E+047 k, q, energy_removed_layers after adjustment is 227 0.99996613490092101 7.4308577762890641E+047 Layers above q= 0.99996613490092101 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10434.271484375000 max vel inside fraction of cutoff 2775.6929722757918 max c/cs inside fraction of cutoff 1.1932914572468720 average v/vesc outside cutoff 1.3389841218600307 Kinetic plus potential energy outside cutoff 7.4308577762890641E+047 mass inside cutoff 227 51.737119250438390 relax counter 0 log max v [km/s]= 4.3029018605579044 check gamma integral 4.4624861503025741E-003 hydro_solver_step returned ierr -1 s% model_number 2713 nz 2632 s% num_retries 57 retry: get_T_tau -- L <= 0 2713 hydro_solver_step returned ierr -1 s% model_number 2716 nz 2632 s% num_retries 58 retry: get_T_tau -- L <= 0 2716 hydro_solver_step returned ierr -1 s% model_number 2719 nz 2632 s% num_retries 59 retry: get_T_tau -- L <= 0 2719 2720 9.245372 1.378E+06 -12.473196 10.204575 51.738871 0.000000 0.000000 0.000000 0.215941 -1.928770 2632 60 -9.4348E+00 9.245372 0.009442 7.595062 12.191945 -99.000000 51.738871 0.000000 0.060585 0.784059 0.625551 5 2.8742E+05 5.402757 9.530068 10.203506 7.772926 -1.923253 49.106303 0.000002 0.000000 0.372520 0.200E+03 max increase log_rel_run_E_err -6.4322261831289032 rel_E_err 1.2049598342688356D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 215 0.99997695443283030 7.1667280907401650E+047 k, q, energy_removed_layers after adjustment is 227 0.99996613490092101 7.4446307520604350E+047 Layers above q= 0.99996613490092101 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10434.421875000000 max vel inside fraction of cutoff 2781.6051245566578 max c/cs inside fraction of cutoff 1.1972257583067756 average v/vesc outside cutoff 1.3413036606997633 Kinetic plus potential energy outside cutoff 7.4446307520604350E+047 mass inside cutoff 227 51.737119250438390 relax counter 0 log max v [km/s]= 4.3023506389119950 check gamma integral 4.7137866236350735E-003 hydro_solver_step returned ierr -1 s% model_number 2722 nz 2632 s% num_retries 60 retry: get_T_tau -- L <= 0 2722 hydro_solver_step returned ierr -1 s% model_number 2726 nz 2632 s% num_retries 61 retry: get_T_tau -- L <= 0 2726 hydro_solver_step returned ierr -1 s% model_number 2729 nz 2632 s% num_retries 62 retry: get_T_tau -- L <= 0 2729 2730 9.244523 1.354E+06 -12.505765 10.185208 51.738871 0.000000 0.000000 0.000000 0.215941 -1.931893 2632 63 -9.5461E+00 9.244523 0.010743 7.584151 12.184069 -99.000000 51.738871 0.000000 0.060585 0.784059 0.625451 5 2.8742E+05 5.400002 9.503183 10.184118 7.737524 -1.877163 49.106303 0.000002 0.000000 0.372520 0.203E+03 max increase log_rel_run_E_err -6.4320811459362144 rel_E_err 1.2546616061396917D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 215 0.99997695443283030 7.1734213684422826E+047 k, q, energy_removed_layers after adjustment is 227 0.99996613490092101 7.4544358222581347E+047 Layers above q= 0.99996613490092101 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10434.525390625000 max vel inside fraction of cutoff 2785.8414530598575 max c/cs inside fraction of cutoff 1.2000499821167852 average v/vesc outside cutoff 1.3429636509289209 Kinetic plus potential energy outside cutoff 7.4544358222581347E+047 mass inside cutoff 227 51.737119250438390 relax counter 0 log max v [km/s]= 4.3018565091669725 check gamma integral 4.8946279823270681E-003 hydro_solver_step returned ierr -1 s% model_number 2734 nz 2632 s% num_retries 63 retry: get_T_tau -- L <= 0 2734 2740 9.243255 1.290E+06 -12.554520 10.156251 51.738871 0.000000 0.000000 0.000000 0.215941 -1.936554 2632 64 -9.0553E+00 9.243255 0.012681 7.567821 12.172280 -99.000000 51.738871 0.000000 0.060585 0.784059 0.625302 4 2.8742E+05 5.395887 9.422232 10.155129 7.684433 -1.717810 49.106303 0.000002 0.000000 0.372520 0.211E+03 max increase log_rel_run_E_err -6.4319361878667420 rel_E_err 1.2595747230476886D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 216 0.99997695443283019 7.1834270033044087E+047 k, q, energy_removed_layers after adjustment is 228 0.99996613490092090 7.4690516855716575E+047 Layers above q= 0.99996613490092090 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10434.687500000000 max vel inside fraction of cutoff 2792.1578473968680 max c/cs inside fraction of cutoff 1.2042696137906213 average v/vesc outside cutoff 1.3454368017674887 Kinetic plus potential energy outside cutoff 7.4690516855716575E+047 mass inside cutoff 228 51.737119250438390 relax counter 0 log max v [km/s]= 4.3028557589459897 check gamma integral 5.1654679389155208E-003 2750 9.236367 1.559E+06 -12.821519 9.998337 51.738871 0.000000 0.000000 0.000000 0.215941 -1.961796 2634 64 -8.2635E+00 9.236367 0.023051 7.478460 12.107807 -99.000000 51.738871 0.000000 0.060585 0.784059 0.624506 4 2.8742E+05 5.373563 9.772157 9.997023 7.391318 -1.821312 49.106303 0.000002 0.000000 0.372520 0.184E+03 max increase log_rel_run_E_err -6.4317940945528118 rel_E_err 1.1959562615330167D-11 Using fixed_vsurf 20000.000000000000 save photos/x750 for model 2750 k, q, energy_removed_layers before adjustment is 218 0.99997636762008468 7.2735368528198952E+047 k, q, energy_removed_layers after adjustment is 229 0.99996613490092101 7.5456960495981498E+047 Layers above q= 0.99996613490092101 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10435.548828125000 max vel inside fraction of cutoff 2826.1883056856664 max c/cs inside fraction of cutoff 1.2272090605818797 average v/vesc outside cutoff 1.3587044883485713 Kinetic plus potential energy outside cutoff 7.5456960495981498E+047 mass inside cutoff 229 51.737119250438390 relax counter 0 log max v [km/s]= 4.3096874176690481 check gamma integral 6.6491250087025826E-003 2760 9.219675 1.438E+06 -13.483274 9.611751 51.738871 0.000000 0.000000 0.000000 0.215941 -2.022241 2631 64 -8.1286E+00 9.219675 0.047232 7.257370 11.948470 -99.000000 51.738871 0.000000 0.060585 0.784059 0.622696 5 2.8742E+05 5.319706 9.679754 9.609826 6.630688 -1.860315 49.106303 0.000002 0.000000 0.372520 0.195E+03 max increase log_rel_run_E_err -6.4316567154091020 rel_E_err 1.1473587800708973D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 219 0.99997493890232425 7.4673476168751223E+047 k, q, energy_removed_layers after adjustment is 230 0.99996382118706584 7.7177878152872562E+047 Layers above q= 0.99996382118706584 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10437.648437500000 max vel inside fraction of cutoff 2906.9243575504611 max c/cs inside fraction of cutoff 1.2829607678582544 average v/vesc outside cutoff 1.3456167143498685 Kinetic plus potential energy outside cutoff 7.7177878152872562E+047 mass inside cutoff 230 51.736999541494804 relax counter 0 log max v [km/s]= 4.3113663095412393 check gamma integral 1.0305006357268384E-002 hydro_solver_step returned ierr -1 s% model_number 2762 nz 2632 s% num_retries 64 retry: get_T_tau -- L <= 0 2762 hydro_solver_step returned ierr -1 s% model_number 2762 nz 2633 s% num_retries 65 retry: get_T_tau -- L <= 0 2762 hydro_solver_step returned ierr -1 s% model_number 2762 nz 2633 s% num_retries 66 retry: get_T_tau -- L <= 0 2762 hydro_solver_step returned ierr -1 s% model_number 2762 nz 2633 s% num_retries 67 retry: get_T_tau -- L <= 0 2762 hydro_solver_step returned ierr -1 s% model_number 2762 nz 2633 s% num_retries 68 retry: get_T_tau -- L <= 0 2762 hydro_solver_step returned ierr -1 s% model_number 2762 nz 2633 s% num_retries 69 retry: get_T_tau -- L <= 0 2762 hydro_solver_step returned ierr -1 s% model_number 2762 nz 2633 s% num_retries 70 retry: get_T_tau -- L <= 0 2762 hydro_solver_step returned ierr -1 s% model_number 2762 nz 2633 s% num_retries 71 retry: get_T_tau -- L <= 0 2762 2770 9.217291 1.377E+06 -13.579407 9.556115 51.738871 0.000000 0.000000 0.000000 0.215941 -2.030779 2632 72 -9.9028E+00 9.217291 0.050587 7.225246 11.925348 -99.000000 51.738871 0.000000 0.060585 0.784059 0.622453 3 2.8742E+05 5.312045 9.612050 9.554083 6.512200 -2.023938 49.106303 0.000002 0.000000 0.372520 0.199E+03 max increase log_rel_run_E_err -6.4315192987842122 rel_E_err 1.1570724160403730D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 218 0.99997493890232425 7.4829605965980969E+047 k, q, energy_removed_layers after adjustment is 231 0.99996382118706584 7.7395984501372360E+047 Layers above q= 0.99996382118706584 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10437.949218750000 max vel inside fraction of cutoff 2918.2718491739456 max c/cs inside fraction of cutoff 1.2909503466803522 average v/vesc outside cutoff 1.3497097785932541 Kinetic plus potential energy outside cutoff 7.7395984501372360E+047 mass inside cutoff 231 51.736999541494804 relax counter 0 log max v [km/s]= 4.3014663818184014 check gamma integral 1.0830736675958037E-002 2780 9.216317 1.340E+06 -13.618770 9.533412 51.738871 0.000000 0.000000 0.000000 0.215941 -2.034250 2632 72 -9.1110E+00 9.216317 0.051951 7.212118 11.915875 -99.000000 51.738871 0.000000 0.060585 0.784059 0.622357 5 2.8742E+05 5.308922 9.566868 9.531334 6.462667 -1.984428 49.106303 0.000002 0.000000 0.372520 0.203E+03 max increase log_rel_run_E_err -6.4313836457593663 rel_E_err 1.1826384097816973D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 218 0.99997493890232425 7.4897423718469070E+047 k, q, energy_removed_layers after adjustment is 231 0.99996382118706584 7.7491912335672218E+047 Layers above q= 0.99996382118706584 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10438.070312500000 max vel inside fraction of cutoff 2922.9058330916096 max c/cs inside fraction of cutoff 1.2942103334576802 average v/vesc outside cutoff 1.3514094452596712 Kinetic plus potential energy outside cutoff 7.7491912335672218E+047 mass inside cutoff 231 51.736999541494804 relax counter 0 log max v [km/s]= 4.3033318962246963 check gamma integral 1.1045645554155190E-002 hydro_solver_step returned ierr -1 s% model_number 2783 nz 2633 s% num_retries 72 retry: get_T_tau -- L <= 0 2783 hydro_solver_step returned ierr -1 s% model_number 2786 nz 2633 s% num_retries 73 retry: get_T_tau -- L <= 0 2786 hydro_solver_step returned ierr -1 s% model_number 2789 nz 2633 s% num_retries 74 retry: get_T_tau -- L <= 0 2789 2790 9.214397 1.318E+06 -13.696533 9.488628 51.738871 0.000000 0.000000 0.000000 0.215941 -2.041078 2633 75 -9.2222E+00 9.214397 0.054629 7.186174 11.897158 -99.000000 51.738871 0.000000 0.060585 0.784059 0.622170 5 2.8742E+05 5.302771 9.542983 9.486458 6.362745 -1.971330 49.106303 0.000002 0.000000 0.372520 0.206E+03 max increase log_rel_run_E_err -6.4312484164953103 rel_E_err 1.1554713067117677D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 218 0.99997493890232425 7.5027858619387766E+047 k, q, energy_removed_layers after adjustment is 231 0.99996382118706584 7.7677145450290892E+047 Layers above q= 0.99996382118706584 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10438.312500000000 max vel inside fraction of cutoff 2932.0186763637835 max c/cs inside fraction of cutoff 1.3006401287263916 average v/vesc outside cutoff 1.3547428941282422 Kinetic plus potential energy outside cutoff 7.7677145450290892E+047 mass inside cutoff 231 51.736999541494804 relax counter 0 log max v [km/s]= 4.3026710578671468 check gamma integral 1.1469244721417761E-002 hydro_solver_step returned ierr -1 s% model_number 2792 nz 2633 s% num_retries 75 retry: get_T_tau -- L <= 0 2792 hydro_solver_step returned ierr -1 s% model_number 2795 nz 2633 s% num_retries 76 retry: get_T_tau -- L <= 0 2795 hydro_solver_step returned ierr -1 s% model_number 2799 nz 2633 s% num_retries 77 retry: get_T_tau -- L <= 0 2799 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 2800 9.213113 1.298E+06 -13.748683 9.458649 51.738871 0.000000 0.000000 0.000000 0.215941 -2.045634 2633 78 -9.3335E+00 9.213113 0.056412 7.168773 11.884606 -99.000000 51.738871 0.000000 0.060585 0.784059 0.622047 5 2.8742E+05 5.298660 9.520944 9.456416 6.293953 -1.940731 49.106303 0.000002 0.000000 0.372520 0.208E+03 max increase log_rel_run_E_err -6.4311131430948016 rel_E_err 1.1742220410858182D-11 Using fixed_vsurf 20000.000000000000 save LOGS/profile31.data for model 2800 save photos/x800 for model 2800 k, q, energy_removed_layers before adjustment is 219 0.99997419239258067 7.5478544759218408E+047 k, q, energy_removed_layers after adjustment is 231 0.99996382118706584 7.7799642916752023E+047 Layers above q= 0.99996382118706584 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10438.472656250000 max vel inside fraction of cutoff 2938.0996434533549 max c/cs inside fraction of cutoff 1.3049433655101672 average v/vesc outside cutoff 1.3569648441651010 Kinetic plus potential energy outside cutoff 7.7799642916752023E+047 mass inside cutoff 231 51.736999541494804 relax counter 0 log max v [km/s]= 4.3021496829207742 check gamma integral 1.1752534525951222E-002 hydro_solver_step returned ierr -1 s% model_number 2802 nz 2633 s% num_retries 78 retry: get_T_tau -- L <= 0 2802 hydro_solver_step returned ierr -1 s% model_number 2806 nz 2633 s% num_retries 79 retry: get_T_tau -- L <= 0 2806 2810 9.211883 1.272E+06 -13.798701 9.429921 51.738871 0.000000 0.000000 0.000000 0.215941 -2.049990 2633 80 -9.1438E+00 9.211883 0.058114 7.152072 11.872560 -99.000000 51.738871 0.000000 0.060585 0.784059 0.621930 5 2.8742E+05 5.294726 9.488984 9.427624 6.226349 -1.835982 49.106303 0.000002 0.000000 0.372520 0.212E+03 max increase log_rel_run_E_err -6.4309776650766439 rel_E_err 1.1643190032913600D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 219 0.99997419239258067 7.5563137053895544E+047 k, q, energy_removed_layers after adjustment is 232 0.99996289518546144 7.7916952590328365E+047 Layers above q= 0.99996289518546144 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10438.628906250000 max vel inside fraction of cutoff 2943.9120053159290 max c/cs inside fraction of cutoff 1.3090664874855835 average v/vesc outside cutoff 1.3478209067936198 Kinetic plus potential energy outside cutoff 7.7916952590328365E+047 mass inside cutoff 232 51.736951631216883 relax counter 0 log max v [km/s]= 4.3026789632929416 check gamma integral 1.2023745949474793E-002 2820 9.206309 1.423E+06 -14.026619 9.299321 51.738871 0.000000 0.000000 0.000000 0.215941 -2.069654 2630 80 -8.3520E+00 9.206309 0.065757 7.075815 11.817639 -99.000000 51.738871 0.000000 0.060585 0.784059 0.621413 4 2.8742E+05 5.276921 9.699177 9.296717 5.889489 -1.863222 49.106303 0.000002 0.000000 0.372520 0.196E+03 max increase log_rel_run_E_err -6.4308442283295113 rel_E_err 1.1488988192706357D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 217 0.99997419239258067 7.5939264297679216E+047 k, q, energy_removed_layers after adjustment is 230 0.99996289518546144 7.8447539167201443E+047 Layers above q= 0.99996289518546144 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10439.337890625000 max vel inside fraction of cutoff 2970.1148821650945 max c/cs inside fraction of cutoff 1.3278008722585450 average v/vesc outside cutoff 1.3572561440090798 Kinetic plus potential energy outside cutoff 7.8447539167201443E+047 mass inside cutoff 230 51.736951631216883 relax counter 0 log max v [km/s]= 4.3060353640987206 check gamma integral 1.3251408599869353E-002 2830 9.189886 1.385E+06 -14.707557 8.911448 51.738871 0.000000 0.000000 0.000000 0.215941 -2.126752 2639 80 -8.1150E+00 9.189886 0.087687 6.845674 11.652615 -99.000000 51.738871 0.000000 0.060585 0.784059 0.620017 5 2.8742E+05 5.224720 9.695290 8.907700 4.979701 -1.916869 49.106303 0.000002 0.000000 0.372520 0.200E+03 max increase log_rel_run_E_err -6.4307148147621112 rel_E_err 1.0693165681881249D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 227 0.99997261785577940 7.7730466806206478E+047 k, q, energy_removed_layers after adjustment is 241 0.99996194489388235 7.9900946111443726E+047 Layers above q= 0.99996194489388235 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10441.431640625000 max vel inside fraction of cutoff 3046.1105460472004 max c/cs inside fraction of cutoff 1.3834732424015974 average v/vesc outside cutoff 1.3728927165080780 Kinetic plus potential energy outside cutoff 7.9900946111443726E+047 mass inside cutoff 241 51.736902464203091 relax counter 0 log max v [km/s]= 4.3086127130835541 check gamma integral 1.6830589563696131E-002 2840 9.171488 1.303E+06 -15.476254 8.454414 51.738871 0.000000 0.000000 0.000000 0.215941 -2.188971 2650 80 -8.1037E+00 9.171488 0.111366 6.577750 11.461928 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618726 5 2.8742E+05 5.166812 9.637812 8.448607 4.520440 -1.965208 49.106303 0.000002 0.000000 0.372520 0.208E+03 lgRho_cntr log_rel_run_E_err -6.4305898018492371 rel_E_err 1.0794990727502726D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 241 0.99997093561245454 7.9563453204312427E+047 k, q, energy_removed_layers after adjustment is 255 0.99995998538487574 8.1428138285690682E+047 Layers above q= 0.99995998538487574 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10443.816406250000 max vel inside fraction of cutoff 3129.2283677630512 max c/cs inside fraction of cutoff 1.4467197084320194 average v/vesc outside cutoff 1.3781120166659109 Kinetic plus potential energy outside cutoff 8.1428138285690682E+047 mass inside cutoff 255 51.736801081418605 relax counter 0 log max v [km/s]= 4.3080227750218345 check gamma integral 2.0699145952108523E-002 hydro_solver_step returned ierr -1 s% model_number 2842 nz 2651 s% num_retries 80 retry: get_T_tau -- L <= 0 2842 hydro_solver_step returned ierr -1 s% model_number 2843 nz 2651 s% num_retries 81 retry: get_T_tau -- L <= 0 2843 hydro_solver_step returned ierr -1 s% model_number 2845 nz 2651 s% num_retries 82 retry: get_T_tau -- L <= 0 2845 hydro_solver_step returned ierr -1 s% model_number 2847 nz 2651 s% num_retries 83 retry: get_T_tau -- L <= 0 2847 hydro_solver_step returned ierr -1 s% model_number 2850 nz 2651 s% num_retries 84 retry: get_T_tau -- L <= 0 2850 2850 9.165876 1.198E+06 -15.708199 8.318541 51.738871 0.000000 0.000000 0.000000 0.215941 -2.207531 2651 85 -9.0319E+00 9.165876 0.118431 6.493830 11.402484 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618400 5 2.8742E+05 5.149288 9.504689 8.311989 4.250497 -2.104467 49.106303 0.000002 0.000000 0.372520 0.219E+03 retry log_rel_run_E_err -6.4304685435589848 rel_E_err 1.0336187753613632D-11 Using fixed_vsurf 20000.000000000000 save photos/x850 for model 2850 k, q, energy_removed_layers before adjustment is 242 0.99997093561245454 7.9886763097195622E+047 k, q, energy_removed_layers after adjustment is 256 0.99995998538487574 8.1872364012329937E+047 Layers above q= 0.99995998538487574 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10444.554687500000 max vel inside fraction of cutoff 3154.2036493435262 max c/cs inside fraction of cutoff 1.4662004059301834 average v/vesc outside cutoff 1.3867187727204477 Kinetic plus potential energy outside cutoff 8.1872364012329937E+047 mass inside cutoff 256 51.736801081418605 relax counter 0 log max v [km/s]= 4.3031164555360020 check gamma integral 2.1835755010496928E-002 hydro_solver_step returned ierr -1 s% model_number 2853 nz 2651 s% num_retries 85 retry: get_T_tau -- L <= 0 2853 hydro_solver_step returned ierr -1 s% model_number 2856 nz 2651 s% num_retries 86 retry: get_T_tau -- L <= 0 2856 hydro_solver_step returned ierr -1 s% model_number 2859 nz 2651 s% num_retries 87 retry: get_T_tau -- L <= 0 2859 2860 9.163672 1.170E+06 -15.798384 8.265235 51.738871 0.000000 0.000000 0.000000 0.215941 -2.214761 2651 88 -9.1432E+00 9.163672 0.121187 6.460594 11.378972 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618281 5 2.8742E+05 5.142426 9.470492 8.258371 4.143580 -2.114317 49.106303 0.000002 0.000000 0.372520 0.222E+03 max increase log_rel_run_E_err -6.4303484500764316 rel_E_err 1.0365366209286016D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 242 0.99997093561245454 8.0013551346558583E+047 k, q, energy_removed_layers after adjustment is 256 0.99995998538487574 8.2046063765534290E+047 Layers above q= 0.99995998538487574 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10444.847656250000 max vel inside fraction of cutoff 3163.9704388086857 max c/cs inside fraction of cutoff 1.4738742688717381 average v/vesc outside cutoff 1.3900990822091468 Kinetic plus potential energy outside cutoff 8.2046063765534290E+047 mass inside cutoff 256 51.736801081418605 relax counter 0 log max v [km/s]= 4.3027033730152908 check gamma integral 2.2275541826151709E-002 hydro_solver_step returned ierr -1 s% model_number 2862 nz 2651 s% num_retries 88 retry: get_T_tau -- L <= 0 2862 hydro_solver_step returned ierr -1 s% model_number 2865 nz 2651 s% num_retries 89 retry: get_T_tau -- L <= 0 2865 hydro_solver_step returned ierr -1 s% model_number 2869 nz 2651 s% num_retries 90 retry: get_T_tau -- L <= 0 2869 2870 9.162200 1.154E+06 -15.858252 8.229654 51.738871 0.000000 0.000000 0.000000 0.215941 -2.219572 2651 91 -9.2545E+00 9.162200 0.123022 6.438305 11.363220 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618205 5 2.8742E+05 5.137850 9.450303 8.222575 4.071908 -2.114947 49.106303 0.000002 0.000000 0.372520 0.224E+03 max increase log_rel_run_E_err -6.4302287350075886 rel_E_err 1.0410924305312635D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 242 0.99997093561245454 8.0097331643353819E+047 k, q, energy_removed_layers after adjustment is 256 0.99995998538487574 8.2160979747499861E+047 Layers above q= 0.99995998538487574 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.039062500000 max vel inside fraction of cutoff 3170.4775893411188 max c/cs inside fraction of cutoff 1.4790076746251852 average v/vesc outside cutoff 1.3923532170862629 Kinetic plus potential energy outside cutoff 8.2160979747499861E+047 mass inside cutoff 256 51.736801081418605 relax counter 0 log max v [km/s]= 4.3023333130455699 check gamma integral 2.2567008161356355E-002 hydro_solver_step returned ierr -1 s% model_number 2872 nz 2651 s% num_retries 91 retry: get_T_tau -- L <= 0 2872 hydro_solver_step returned ierr -1 s% model_number 2876 nz 2651 s% num_retries 92 retry: get_T_tau -- L <= 0 2876 hydro_solver_step returned ierr -1 s% model_number 2879 nz 2651 s% num_retries 93 retry: get_T_tau -- L <= 0 2879 2880 9.160981 1.139E+06 -15.907613 8.200179 51.738871 0.000000 0.000000 0.000000 0.215941 -2.223548 2651 94 -9.3658E+00 9.160981 0.124539 6.419774 11.350136 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618143 5 2.8742E+05 5.134062 9.429886 8.192918 4.012347 -2.106580 49.106303 0.000002 0.000000 0.372520 0.226E+03 max increase log_rel_run_E_err -6.4301072525404130 rel_E_err 1.0642486143801650D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 242 0.99997093561245454 8.0166242367665727E+047 k, q, energy_removed_layers after adjustment is 256 0.99995998538487574 8.2255576827632897E+047 Layers above q= 0.99995998538487574 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.201171875000 max vel inside fraction of cutoff 3175.8609037730835 max c/cs inside fraction of cutoff 1.4832674965260295 average v/vesc outside cutoff 1.3942194399426040 Kinetic plus potential energy outside cutoff 8.2255576827632897E+047 mass inside cutoff 256 51.736801081418605 relax counter 0 log max v [km/s]= 4.3020220571235779 check gamma integral 2.2807169642643108E-002 hydro_solver_step returned ierr -1 s% model_number 2882 nz 2651 s% num_retries 94 retry: get_T_tau -- L <= 0 2882 hydro_solver_step returned ierr -1 s% model_number 2886 nz 2651 s% num_retries 95 retry: get_T_tau -- L <= 0 2886 hydro_solver_step returned ierr -1 s% model_number 2889 nz 2651 s% num_retries 96 retry: get_T_tau -- L <= 0 2889 2890 9.160039 1.124E+06 -15.945604 8.177404 51.738871 0.000000 0.000000 0.000000 0.215941 -2.226614 2651 97 -9.4770E+00 9.160039 0.125710 6.405414 11.340004 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618096 5 2.8742E+05 5.131136 9.408555 8.170000 3.966208 -2.093569 49.106303 0.000002 0.000000 0.372520 0.228E+03 max increase log_rel_run_E_err -6.4299872178103588 rel_E_err 1.0134929231656753D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 242 0.99997093561245454 8.0219185965117492E+047 k, q, energy_removed_layers after adjustment is 256 0.99995998538487574 8.2328302692353749E+047 Layers above q= 0.99995998538487574 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.322265625000 max vel inside fraction of cutoff 3180.0160981349295 max c/cs inside fraction of cutoff 1.4865635507188883 average v/vesc outside cutoff 1.3956607872465367 Kinetic plus potential energy outside cutoff 8.2328302692353749E+047 mass inside cutoff 256 51.736801081418605 relax counter 0 log max v [km/s]= 4.3017772251679949 check gamma integral 2.2991924475520262E-002 hydro_solver_step returned ierr -1 s% model_number 2893 nz 2651 s% num_retries 97 retry: get_T_tau -- L <= 0 2893 hydro_solver_step returned ierr -1 s% model_number 2897 nz 2651 s% num_retries 98 retry: get_T_tau -- L <= 0 2897 hydro_solver_step returned ierr -1 s% model_number 2900 nz 2651 s% num_retries 99 retry: get_T_tau -- L <= 0 2900 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 2900 9.159143 1.103E+06 -15.981558 8.155765 51.738871 0.000000 0.000000 0.000000 0.215941 -2.229523 2651 100 -9.5883E+00 9.159143 0.126821 6.391735 11.330358 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618052 5 2.8742E+05 5.128358 9.379398 8.148222 3.922272 -2.062940 49.106303 0.000002 0.000000 0.372520 0.231E+03 retry log_rel_run_E_err -6.4298691081801032 rel_E_err 1.0095581530292475D-11 Using fixed_vsurf 20000.000000000000 save LOGS/profile32.data for model 2900 save photos/x900 for model 2900 k, q, energy_removed_layers before adjustment is 243 0.99997005782976156 8.0511400682791158E+047 k, q, energy_removed_layers after adjustment is 257 0.99995897528349431 8.2398152517644361E+047 Layers above q= 0.99995897528349431 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.443359375000 max vel inside fraction of cutoff 3183.9607989793462 max c/cs inside fraction of cutoff 1.4896993319549474 average v/vesc outside cutoff 1.3853062213374818 Kinetic plus potential energy outside cutoff 8.2398152517644361E+047 mass inside cutoff 257 51.736748819913139 relax counter 0 log max v [km/s]= 4.3015635264565093 check gamma integral 2.3166813203250647E-002 hydro_solver_step returned ierr -1 s% model_number 2904 nz 2651 s% num_retries 100 retry: get_T_tau -- L <= 0 2904 hydro_solver_step returned ierr -1 s% model_number 2907 nz 2651 s% num_retries 101 retry: get_T_tau -- L <= 0 2907 2910 9.158351 1.077E+06 -16.013251 8.136619 51.738871 0.000000 0.000000 0.000000 0.215941 -2.232094 2651 102 -9.3986E+00 9.158351 0.127803 6.379603 11.321808 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618014 5 2.8742E+05 5.125900 9.338938 8.128952 3.883318 -1.987997 49.106303 0.000002 0.000000 0.372520 0.236E+03 max increase log_rel_run_E_err -6.4297494756669620 rel_E_err 1.0505616726046419D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 243 0.99997005782976156 8.0556540676894470E+047 k, q, energy_removed_layers after adjustment is 257 0.99995897528349431 8.2460487764813315E+047 Layers above q= 0.99995897528349431 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.544921875000 max vel inside fraction of cutoff 3187.4483749460887 max c/cs inside fraction of cutoff 1.4924771492926532 average v/vesc outside cutoff 1.3865002247647289 Kinetic plus potential energy outside cutoff 8.2460487764813315E+047 mass inside cutoff 257 51.736748819913139 relax counter 0 log max v [km/s]= 4.3016429371716809 check gamma integral 2.3321015040440402E-002 hydro_solver_step returned ierr -1 s% model_number 2911 nz 2651 s% num_retries 102 retry: get_T_tau -- L <= 0 2911 hydro_solver_step returned ierr -1 s% model_number 2914 nz 2651 s% num_retries 103 retry: get_T_tau -- L <= 0 2914 hydro_solver_step returned ierr -1 s% model_number 2918 nz 2651 s% num_retries 104 retry: get_T_tau -- L <= 0 2918 2920 9.157696 1.036E+06 -16.039362 8.120795 51.738871 0.000000 0.000000 0.000000 0.215941 -2.234216 2651 105 -9.5098E+00 9.157696 0.128614 6.369555 11.314731 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617983 5 2.8742E+05 5.123870 9.273975 8.113025 3.851066 -1.945745 49.106303 0.000002 0.000000 0.372520 0.242E+03 max increase log_rel_run_E_err -6.4296306747818441 rel_E_err 1.0077883564794575D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 243 0.99997005782976156 8.0593561957358265E+047 k, q, energy_removed_layers after adjustment is 257 0.99995897528349431 8.2511693782890436E+047 Layers above q= 0.99995897528349431 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.632812500000 max vel inside fraction of cutoff 3190.3289983855807 max c/cs inside fraction of cutoff 1.4947753691412113 average v/vesc outside cutoff 1.3874864154152651 Kinetic plus potential energy outside cutoff 8.2511693782890436E+047 mass inside cutoff 257 51.736748819913139 relax counter 0 log max v [km/s]= 4.3014425282666702 check gamma integral 2.3448077941730223E-002 hydro_solver_step returned ierr -1 s% model_number 2922 nz 2651 s% num_retries 105 retry: get_T_tau -- L <= 0 2922 hydro_solver_step returned ierr -1 s% model_number 2925 nz 2651 s% num_retries 106 retry: get_T_tau -- L <= 0 2925 hydro_solver_step returned ierr -1 s% model_number 2929 nz 2651 s% num_retries 107 retry: get_T_tau -- L <= 0 2929 2930 9.157068 9.625E+05 -16.064297 8.105636 51.738871 0.000000 0.000000 0.000000 0.215941 -2.236247 2651 108 -9.6211E+00 9.157068 0.129391 6.359912 11.307942 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617954 5 2.8742E+05 5.121925 9.146990 8.097765 3.820119 -1.885900 49.106303 0.000002 0.000000 0.372520 0.255E+03 max increase log_rel_run_E_err -6.4295124433544499 rel_E_err 9.9434635494506755D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 243 0.99997005782976156 8.0628936104975084E+047 k, q, energy_removed_layers after adjustment is 257 0.99995897528349431 8.2560634220993665E+047 Layers above q= 0.99995897528349431 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.714843750000 max vel inside fraction of cutoff 3193.0871538769406 max c/cs inside fraction of cutoff 1.4969792139995481 average v/vesc outside cutoff 1.3884311282460353 Kinetic plus potential energy outside cutoff 8.2560634220993665E+047 mass inside cutoff 257 51.736748819913139 relax counter 0 log max v [km/s]= 4.3013052052701086 check gamma integral 2.3569479400328608E-002 hydro_solver_step returned ierr -1 s% model_number 2932 nz 2651 s% num_retries 108 retry: get_T_tau -- L <= 0 2932 hydro_solver_step returned ierr -1 s% model_number 2935 nz 2651 s% num_retries 109 retry: get_T_tau -- L <= 0 2935 hydro_solver_step returned ierr -1 s% model_number 2937 nz 2651 s% num_retries 110 retry: get_T_tau -- L <= 0 2937 hydro_solver_step returned ierr -1 s% model_number 2940 nz 2651 s% num_retries 111 retry: get_T_tau -- L <= 0 2940 2940 9.156660 8.567E+05 -16.080454 8.095789 51.738871 0.000000 0.000000 0.000000 0.215941 -2.237565 2651 112 -1.0033E+01 9.156660 0.129895 6.353638 11.303526 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617935 4 2.8742E+05 5.120662 8.945791 8.087853 3.799991 -1.859325 49.106303 0.000002 0.000000 0.372520 0.273E+03 retry log_rel_run_E_err -6.4293935855620923 rel_E_err 1.0355946449078078D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 243 0.99997005782976156 8.0651797304616961E+047 k, q, energy_removed_layers after adjustment is 257 0.99995897528349431 8.2592296040008077E+047 Layers above q= 0.99995897528349431 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.767578125000 max vel inside fraction of cutoff 3194.8780162823045 max c/cs inside fraction of cutoff 1.4984118459467382 average v/vesc outside cutoff 1.3890445270687859 Kinetic plus potential energy outside cutoff 8.2592296040008077E+047 mass inside cutoff 257 51.736748819913139 relax counter 0 log max v [km/s]= 4.3011698803483549 check gamma integral 2.3648166311567909E-002 hydro_solver_step returned ierr -1 s% model_number 2943 nz 2651 s% num_retries 112 retry: get_T_tau -- L <= 0 2943 hydro_solver_step returned ierr -1 s% model_number 2946 nz 2651 s% num_retries 113 retry: get_T_tau -- L <= 0 2946 hydro_solver_step returned ierr -1 s% model_number 2949 nz 2651 s% num_retries 114 retry: get_T_tau -- L <= 0 2949 2950 9.156443 7.770E+05 -16.089042 8.090546 51.738871 0.000000 0.000000 0.000000 0.215941 -2.238267 2651 115 -1.0145E+01 9.156443 0.130163 6.350295 11.301174 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617925 5 2.8742E+05 5.119990 8.776614 8.082575 3.789265 -1.838841 49.106303 0.000002 0.000000 0.372520 0.289E+03 max increase log_rel_run_E_err -6.4292750526152069 rel_E_err 1.0352557532522137D-11 Using fixed_vsurf 20000.000000000000 save photos/x950 for model 2950 k, q, energy_removed_layers before adjustment is 243 0.99997005782976156 8.0663995932044762E+047 k, q, energy_removed_layers after adjustment is 257 0.99995897528349431 8.2609176924544871E+047 Layers above q= 0.99995897528349431 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.796875000000 max vel inside fraction of cutoff 3195.8313327423471 max c/cs inside fraction of cutoff 1.4991749891138393 average v/vesc outside cutoff 1.3893712401835971 Kinetic plus potential energy outside cutoff 8.2609176924544871E+047 mass inside cutoff 257 51.736748819913139 relax counter 0 log max v [km/s]= 4.3011591546989356 check gamma integral 2.3690007815268182E-002 hydro_solver_step returned ierr -1 s% model_number 2952 nz 2651 s% num_retries 115 retry: get_T_tau -- L <= 0 2952 hydro_solver_step returned ierr -1 s% model_number 2955 nz 2651 s% num_retries 116 retry: get_T_tau -- L <= 0 2955 hydro_solver_step returned ierr -1 s% model_number 2958 nz 2651 s% num_retries 117 retry: get_T_tau -- L <= 0 2958 2960 9.156307 7.208E+05 -16.094423 8.087258 51.738871 0.000000 0.000000 0.000000 0.215941 -2.238706 2651 118 -1.0256E+01 9.156307 0.130331 6.348197 11.299698 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617919 5 2.8742E+05 5.119568 8.646711 8.079265 3.782535 -1.827963 49.106303 0.000002 0.000000 0.372520 0.301E+03 max increase log_rel_run_E_err -6.4291568494682645 rel_E_err 9.9327319357021299D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 243 0.99997005782976156 8.0671638235644878E+047 k, q, energy_removed_layers after adjustment is 257 0.99995897528349431 8.2619754362970556E+047 Layers above q= 0.99995897528349431 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.816406250000 max vel inside fraction of cutoff 3196.4291154071120 max c/cs inside fraction of cutoff 1.4996537125402509 average v/vesc outside cutoff 1.3895761225550911 Kinetic plus potential energy outside cutoff 8.2619754362970556E+047 mass inside cutoff 257 51.736748819913139 relax counter 0 log max v [km/s]= 4.3011437116975992 check gamma integral 2.3716228781648852E-002 hydro_solver_step returned ierr -1 s% model_number 2962 nz 2651 s% num_retries 118 retry: get_T_tau -- L <= 0 2962 hydro_solver_step returned ierr -1 s% model_number 2965 nz 2651 s% num_retries 119 retry: get_T_tau -- L <= 0 2965 hydro_solver_step returned ierr -1 s% model_number 2968 nz 2651 s% num_retries 120 retry: get_T_tau -- L <= 0 2968 2970 9.156202 6.821E+05 -16.098584 8.084714 51.738871 0.000000 0.000000 0.000000 0.215941 -2.239047 2651 121 -1.0367E+01 9.156202 0.130461 6.346573 11.298556 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617914 5 2.8742E+05 5.119242 8.550953 8.076704 3.777327 -1.820269 49.106303 0.000002 0.000000 0.372520 0.311E+03 max increase log_rel_run_E_err -6.4290395945155412 rel_E_err 1.0219643965673468D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 243 0.99997005782976156 8.0677548279238437E+047 k, q, energy_removed_layers after adjustment is 257 0.99995897528349431 8.2627934911291970E+047 Layers above q= 0.99995897528349431 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.833984375000 max vel inside fraction of cutoff 3196.8916348503881 max c/cs inside fraction of cutoff 1.5000242160642723 average v/vesc outside cutoff 1.3897346562378001 Kinetic plus potential energy outside cutoff 8.2627934911291970E+047 mass inside cutoff 257 51.736748819913139 relax counter 0 log max v [km/s]= 4.3011255533381609 check gamma integral 2.3736508134467729E-002 hydro_solver_step returned ierr -1 s% model_number 2980 nz 2651 s% num_retries 121 retry: get_T_tau -- L <= 0 2980 2980 9.155917 6.108E+05 -16.109801 8.077847 51.738871 0.000000 0.000000 0.000000 0.215941 -2.239965 2651 122 -9.8765E+00 9.155917 0.130813 6.342188 11.295471 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617901 4 2.8742E+05 5.118361 8.359775 8.069791 3.763260 -1.699366 49.106303 0.000002 0.000000 0.372520 0.328E+03 retry log_rel_run_E_err -6.4289215302791360 rel_E_err 1.0448195356560373D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0689540420523627E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2646052168620258E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.871093750000 max vel inside fraction of cutoff 3198.1398187612126 max c/cs inside fraction of cutoff 1.5010246042850850 average v/vesc outside cutoff 1.3901282163439797 Kinetic plus potential energy outside cutoff 8.2646052168620258E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3012529731985314 check gamma integral 2.3791199847851965E-002 hydro_solver_step returned ierr -1 s% model_number 2981 nz 2651 s% num_retries 122 retry: get_T_tau -- L <= 0 2981 hydro_solver_step returned ierr -1 s% model_number 2982 nz 2651 s% num_retries 123 retry: get_T_tau -- L <= 0 2982 hydro_solver_step returned ierr -1 s% model_number 2983 nz 2651 s% num_retries 124 retry: get_T_tau -- L <= 0 2983 hydro_solver_step returned ierr -1 s% model_number 2985 nz 2651 s% num_retries 125 retry: get_T_tau -- L <= 0 2985 hydro_solver_step returned ierr -1 s% model_number 2989 nz 2651 s% num_retries 126 retry: get_T_tau -- L <= 0 2989 2990 9.155835 5.761E+05 -16.113047 8.075859 51.738871 0.000000 0.000000 0.000000 0.215941 -2.240230 2651 127 -1.0590E+01 9.155835 0.130914 6.340917 11.294577 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617897 4 2.8742E+05 5.118106 8.258376 8.067789 3.759185 -1.730321 49.106303 0.000002 0.000000 0.372520 0.338E+03 max increase log_rel_run_E_err -6.4288033644021860 rel_E_err 9.7947359521643177D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0694078641502619E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2652363156150456E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.878906250000 max vel inside fraction of cutoff 3198.5011889202910 max c/cs inside fraction of cutoff 1.5013143416623715 average v/vesc outside cutoff 1.3902518860933943 Kinetic plus potential energy outside cutoff 8.2652363156150456E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010861707717218 check gamma integral 2.3807023587135184E-002 hydro_solver_step returned ierr -1 s% model_number 2992 nz 2651 s% num_retries 127 retry: get_T_tau -- L <= 0 2992 hydro_solver_step returned ierr -1 s% model_number 2995 nz 2651 s% num_retries 128 retry: get_T_tau -- L <= 0 2995 hydro_solver_step returned ierr -1 s% model_number 2999 nz 2651 s% num_retries 129 retry: get_T_tau -- L <= 0 2999 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 3000 9.155783 5.599E+05 -16.115100 8.074601 51.738871 0.000000 0.000000 0.000000 0.215941 -2.240399 2651 130 -1.0701E+01 9.155783 0.130979 6.340114 11.294012 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617895 4 2.8742E+05 5.117945 8.208955 8.066523 3.756608 -1.730096 49.106303 0.000002 0.000000 0.372520 0.342E+03 max increase log_rel_run_E_err -6.4286859286032341 rel_E_err 1.0091814220825236D-11 Using fixed_vsurf 20000.000000000000 save LOGS/profile33.data for model 3000 save photos/3000 for model 3000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0696993543846493E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2656398885949858E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.878906250000 max vel inside fraction of cutoff 3198.7296908789585 max c/cs inside fraction of cutoff 1.5014975757495574 average v/vesc outside cutoff 1.3903302297567119 Kinetic plus potential energy outside cutoff 8.2656398885949858E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010753862585158 check gamma integral 2.3817026875239317E-002 hydro_solver_step returned ierr -1 s% model_number 3003 nz 2651 s% num_retries 130 retry: get_T_tau -- L <= 0 3003 hydro_solver_step returned ierr -1 s% model_number 3007 nz 2651 s% num_retries 131 retry: get_T_tau -- L <= 0 3007 3010 9.155726 5.433E+05 -16.117335 8.073231 51.738871 0.000000 0.000000 0.000000 0.215941 -2.240582 2651 132 -1.0511E+01 9.155726 0.131049 6.339237 11.293396 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617892 5 2.8742E+05 5.117769 8.156980 8.065143 3.753798 -1.715155 49.106303 0.000002 0.000000 0.372520 0.344E+03 max increase log_rel_run_E_err -6.4285678458331255 rel_E_err 1.0297396882735932D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0700184445447303E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2660811642690027E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.878906250000 max vel inside fraction of cutoff 3198.9788136287020 max c/cs inside fraction of cutoff 1.5016973716289466 average v/vesc outside cutoff 1.3904156887253485 Kinetic plus potential energy outside cutoff 8.2660811642690027E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010999395619702 check gamma integral 2.3827930842892617E-002 hydro_solver_step returned ierr -1 s% model_number 3014 nz 2651 s% num_retries 132 retry: get_T_tau -- L <= 0 3014 hydro_solver_step returned ierr -1 s% model_number 3015 nz 2651 s% num_retries 133 retry: get_T_tau -- L <= 0 3015 hydro_solver_step returned ierr -1 s% model_number 3019 nz 2651 s% num_retries 134 retry: get_T_tau -- L <= 0 3019 hydro_solver_step returned ierr -1 s% model_number 3019 nz 2651 s% num_retries 135 retry: get_T_tau -- L <= 0 3019 3020 9.155657 5.326E+05 -16.120041 8.071571 51.738871 0.000000 0.000000 0.000000 0.215941 -2.240803 2651 136 -1.0924E+01 9.155657 0.131134 6.338176 11.292650 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617889 3 2.8742E+05 5.117556 8.122636 8.063472 3.750395 -1.720244 49.106303 0.000002 0.000000 0.372520 0.346E+03 max increase log_rel_run_E_err -6.4284473583673769 rel_E_err 9.7271495528147639D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0704020304826819E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2666126415692197E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.888671875000 max vel inside fraction of cutoff 3199.2803823073655 max c/cs inside fraction of cutoff 1.5019392667105140 average v/vesc outside cutoff 1.3905190643552556 Kinetic plus potential energy outside cutoff 8.2666126415692197E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010581049614141 check gamma integral 2.3841127488240237E-002 hydro_solver_step returned ierr -1 s% model_number 3029 nz 2651 s% num_retries 136 retry: get_T_tau -- L <= 0 3029 hydro_solver_step returned ierr -1 s% model_number 3030 nz 2651 s% num_retries 137 retry: get_T_tau -- L <= 0 3030 3030 9.155590 5.240E+05 -16.122600 8.069946 51.738871 0.000000 0.000000 0.000000 0.215941 -2.241021 2651 138 -1.0734E+01 9.155590 0.131217 6.337137 11.291919 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617886 4 2.8742E+05 5.117348 8.094385 8.061836 3.747063 -1.709380 49.106303 0.000002 0.000000 0.372520 0.347E+03 retry log_rel_run_E_err -6.4283262423984073 rel_E_err 9.9617246383651965D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0707795618587875E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2671349804817168E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.894531250000 max vel inside fraction of cutoff 3199.5756985719590 max c/cs inside fraction of cutoff 1.5021761852553290 average v/vesc outside cutoff 1.3906203632108316 Kinetic plus potential energy outside cutoff 8.2671349804817168E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010727103401205 check gamma integral 2.3854047464498304E-002 hydro_solver_step returned ierr -1 s% model_number 3033 nz 2651 s% num_retries 138 retry: get_T_tau -- L <= 0 3033 hydro_solver_step returned ierr -1 s% model_number 3037 nz 2651 s% num_retries 139 retry: get_T_tau -- L <= 0 3037 hydro_solver_step returned ierr -1 s% model_number 3040 nz 2651 s% num_retries 140 retry: get_T_tau -- L <= 0 3040 3040 9.155541 5.203E+05 -16.124628 8.068757 51.738871 0.000000 0.000000 0.000000 0.215941 -2.241179 2651 141 -1.0845E+01 9.155541 0.131277 6.336376 11.291384 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617884 3 2.8742E+05 5.117195 8.082374 8.060638 3.744623 -1.710214 49.106303 0.000002 0.000000 0.372520 0.347E+03 retry log_rel_run_E_err -6.4282094839723030 rel_E_err 1.0105557186876654D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0710550389175890E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2675164106523875E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.894531250000 max vel inside fraction of cutoff 3199.7917983276211 max c/cs inside fraction of cutoff 1.5023495752198384 average v/vesc outside cutoff 1.3906944701422135 Kinetic plus potential energy outside cutoff 8.2675164106523875E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010634643521497 check gamma integral 2.3863499813941143E-002 hydro_solver_step returned ierr -1 s% model_number 3044 nz 2651 s% num_retries 141 retry: get_T_tau -- L <= 0 3044 hydro_solver_step returned ierr -1 s% model_number 3048 nz 2651 s% num_retries 142 retry: get_T_tau -- L <= 0 3048 3050 9.155494 5.196E+05 -16.126463 8.067630 51.738871 0.000000 0.000000 0.000000 0.215941 -2.241330 2651 143 -1.0655E+01 9.155494 0.131335 6.335656 11.290877 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617882 5 2.8742E+05 5.117051 8.079885 8.059504 3.742312 -1.705696 49.106303 0.000002 0.000000 0.372520 0.347E+03 max increase log_rel_run_E_err -6.4280923683465909 rel_E_err 1.0158270662934776D-11 Using fixed_vsurf 20000.000000000000 save photos/x050 for model 3050 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0713168610109841E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2678785827372719E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.894531250000 max vel inside fraction of cutoff 3199.9964876293502 max c/cs inside fraction of cutoff 1.5025138285012833 average v/vesc outside cutoff 1.3907646954857176 Kinetic plus potential energy outside cutoff 8.2678785827372719E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010810451265842 check gamma integral 2.3872451559265654E-002 hydro_solver_step returned ierr -1 s% model_number 3052 nz 2651 s% num_retries 143 retry: get_T_tau -- L <= 0 3052 hydro_solver_step returned ierr -1 s% model_number 3056 nz 2651 s% num_retries 144 retry: get_T_tau -- L <= 0 3056 3060 9.155439 5.031E+05 -16.128641 8.066293 51.738871 0.000000 0.000000 0.000000 0.215941 -2.241509 2651 145 -1.0466E+01 9.155439 0.131403 6.334800 11.290276 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617879 4 2.8742E+05 5.116880 8.024050 8.058158 3.739569 -1.687611 49.106303 0.000002 0.000000 0.372520 0.347E+03 max increase log_rel_run_E_err -6.4279725713605957 rel_E_err 1.0221150309058083D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0716278112854679E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2683086469032243E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.896484375000 max vel inside fraction of cutoff 3200.2394731523182 max c/cs inside fraction of cutoff 1.5027088369139225 average v/vesc outside cutoff 1.3908480692032241 Kinetic plus potential energy outside cutoff 8.2683086469032243E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3011066575044126 check gamma integral 2.3883076219784045E-002 hydro_solver_step returned ierr -1 s% model_number 3061 nz 2651 s% num_retries 145 retry: get_T_tau -- L <= 0 3061 hydro_solver_step returned ierr -1 s% model_number 3068 nz 2651 s% num_retries 146 retry: get_T_tau -- L <= 0 3068 hydro_solver_step returned ierr -1 s% model_number 3069 nz 2651 s% num_retries 147 retry: get_T_tau -- L <= 0 3069 3070 9.155356 5.090E+05 -16.131890 8.064296 51.738871 0.000000 0.000000 0.000000 0.215941 -2.241775 2651 148 -1.0577E+01 9.155356 0.131505 6.333523 11.289378 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617876 5 2.8742E+05 5.116624 8.044644 8.056148 3.735472 -1.687487 49.106303 0.000002 0.000000 0.372520 0.347E+03 max increase log_rel_run_E_err -6.4278502575635006 rel_E_err 9.7269610517808893D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0720897873916500E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2689484084461189E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.906250000000 max vel inside fraction of cutoff 3200.6021913778104 max c/cs inside fraction of cutoff 1.5029999877015594 average v/vesc outside cutoff 1.3909724692179599 Kinetic plus potential energy outside cutoff 8.2689484084461189E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010885112313080 check gamma integral 2.3898932459496463E-002 hydro_solver_step returned ierr -1 s% model_number 3071 nz 2651 s% num_retries 148 retry: get_T_tau -- L <= 0 3071 hydro_solver_step returned ierr -1 s% model_number 3074 nz 2651 s% num_retries 149 retry: get_T_tau -- L <= 0 3074 hydro_solver_step returned ierr -1 s% model_number 3079 nz 2651 s% num_retries 150 retry: get_T_tau -- L <= 0 3079 3080 9.155309 5.089E+05 -16.133722 8.063171 51.738871 0.000000 0.000000 0.000000 0.215941 -2.241926 2651 151 -1.0688E+01 9.155309 0.131563 6.332802 11.288871 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617874 5 2.8742E+05 5.116479 8.044455 8.055015 3.733163 -1.690393 49.106303 0.000002 0.000000 0.372520 0.347E+03 max increase log_rel_run_E_err -6.4277329463054071 rel_E_err 1.0151304795760710D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0723499759223020E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2693087883289894E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.906250000000 max vel inside fraction of cutoff 3200.8066249063440 max c/cs inside fraction of cutoff 1.5031641080784806 average v/vesc outside cutoff 1.3910425822055663 Kinetic plus potential energy outside cutoff 8.2693087883289894E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010758637124615 check gamma integral 2.3907867230143823E-002 hydro_solver_step returned ierr -1 s% model_number 3086 nz 2651 s% num_retries 151 retry: get_T_tau -- L <= 0 3086 hydro_solver_step returned ierr -1 s% model_number 3089 nz 2651 s% num_retries 152 retry: get_T_tau -- L <= 0 3089 hydro_solver_step returned ierr -1 s% model_number 3090 nz 2651 s% num_retries 153 retry: get_T_tau -- L <= 0 3090 3090 9.155230 4.943E+05 -16.136841 8.061253 51.738871 0.000000 0.000000 0.000000 0.215941 -2.242182 2651 154 -1.0800E+01 9.155230 0.131661 6.331575 11.288008 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617870 3 2.8742E+05 5.116233 7.994038 8.053084 3.729227 -1.677501 49.106303 0.000002 0.000000 0.372520 0.347E+03 retry log_rel_run_E_err -6.4276121265667552 rel_E_err 9.8982798682038462D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0727936367038326E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2699231529319836E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.916015625000 max vel inside fraction of cutoff 3201.1549748950688 max c/cs inside fraction of cutoff 1.5034438103266239 average v/vesc outside cutoff 1.3911620721836666 Kinetic plus potential energy outside cutoff 8.2699231529319836E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010649471419855 check gamma integral 2.3923088582807030E-002 hydro_solver_step returned ierr -1 s% model_number 3093 nz 2651 s% num_retries 154 retry: get_T_tau -- L <= 0 3093 hydro_solver_step returned ierr -1 s% model_number 3100 nz 2651 s% num_retries 155 retry: get_T_tau -- L <= 0 3100 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 3100 9.155172 4.920E+05 -16.139095 8.059867 51.738871 0.000000 0.000000 0.000000 0.215941 -2.242367 2651 156 -1.0610E+01 9.155172 0.131732 6.330687 11.287384 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617868 5 2.8742E+05 5.116056 7.986024 8.051688 3.726381 -1.669636 49.106303 0.000002 0.000000 0.372520 0.347E+03 retry log_rel_run_E_err -6.4274944115189978 rel_E_err 9.6957093242080991D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile34.data for model 3100 save photos/x100 for model 3100 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0731152194841840E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2703681240071115E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.919921875000 max vel inside fraction of cutoff 3201.4068000249731 max c/cs inside fraction of cutoff 1.5036460412195163 average v/vesc outside cutoff 1.3912484857074265 Kinetic plus potential energy outside cutoff 8.2703681240071115E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010826307015888 check gamma integral 2.3934089570075548E-002 hydro_solver_step returned ierr -1 s% model_number 3105 nz 2651 s% num_retries 156 retry: get_T_tau -- L <= 0 3105 hydro_solver_step returned ierr -1 s% model_number 3106 nz 2651 s% num_retries 157 retry: get_T_tau -- L <= 0 3106 hydro_solver_step returned ierr -1 s% model_number 3109 nz 2651 s% num_retries 158 retry: get_T_tau -- L <= 0 3109 3110 9.155104 4.909E+05 -16.141782 8.058214 51.738871 0.000000 0.000000 0.000000 0.215941 -2.242587 2651 159 -1.0721E+01 9.155104 0.131816 6.329629 11.286640 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617864 4 2.8742E+05 5.115844 7.982466 8.050024 3.722987 -1.667579 49.106303 0.000002 0.000000 0.372520 0.347E+03 max increase log_rel_run_E_err -6.4273799683199186 rel_E_err 1.0151116363550272D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0734972461678229E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2708972332577318E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.925781250000 max vel inside fraction of cutoff 3201.7070175614076 max c/cs inside fraction of cutoff 1.5038871713902577 average v/vesc outside cutoff 1.3913514714195638 Kinetic plus potential energy outside cutoff 8.2708972332577318E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010705158918974 check gamma integral 2.3947201657076141E-002 hydro_solver_step returned ierr -1 s% model_number 3112 nz 2651 s% num_retries 159 retry: get_T_tau -- L <= 0 3112 3120 9.155031 4.877E+05 -16.144625 8.056464 51.738871 0.000000 0.000000 0.000000 0.215941 -2.242821 2651 160 -1.0230E+01 9.155031 0.131906 6.328508 11.285852 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617861 7 2.8742E+05 5.115619 7.971202 8.048262 3.719393 -1.642102 49.106303 0.000002 0.000000 0.372520 0.345E+03 max increase log_rel_run_E_err -6.4272642382059164 rel_E_err 1.0172954760458316D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0739050827182392E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2714607766121402E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.933593750000 max vel inside fraction of cutoff 3202.0248790681703 max c/cs inside fraction of cutoff 1.5041425166571714 average v/vesc outside cutoff 1.3914606223950285 Kinetic plus potential energy outside cutoff 8.2714607766121402E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3011418267951003 check gamma integral 2.3961080910543889E-002 hydro_solver_step returned ierr -1 s% model_number 3121 nz 2651 s% num_retries 160 retry: get_T_tau -- L <= 0 3121 hydro_solver_step returned ierr -1 s% model_number 3124 nz 2651 s% num_retries 161 retry: get_T_tau -- L <= 0 3124 hydro_solver_step returned ierr -1 s% model_number 3126 nz 2651 s% num_retries 162 retry: get_T_tau -- L <= 0 3126 hydro_solver_step returned ierr -1 s% model_number 3128 nz 2651 s% num_retries 163 retry: get_T_tau -- L <= 0 3128 3130 9.154960 4.834E+05 -16.147412 8.054748 51.738871 0.000000 0.000000 0.000000 0.215941 -2.243050 2651 164 -1.0643E+01 9.154960 0.131993 6.327408 11.285080 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617858 5 2.8742E+05 5.115399 7.955815 8.046534 3.715869 -1.650841 49.106303 0.000002 0.000000 0.372520 0.346E+03 max increase log_rel_run_E_err -6.4271407694228042 rel_E_err 9.8007596553936572D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0742991437571655E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2720074878035749E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.941406250000 max vel inside fraction of cutoff 3202.3365407753540 max c/cs inside fraction of cutoff 1.5043929239439557 average v/vesc outside cutoff 1.3915674745259980 Kinetic plus potential energy outside cutoff 8.2720074878035749E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010759094772748 check gamma integral 2.3974685986350237E-002 hydro_solver_step returned ierr -1 s% model_number 3132 nz 2651 s% num_retries 164 retry: get_T_tau -- L <= 0 3132 hydro_solver_step returned ierr -1 s% model_number 3136 nz 2651 s% num_retries 165 retry: get_T_tau -- L <= 0 3136 hydro_solver_step returned ierr -1 s% model_number 3139 nz 2651 s% num_retries 166 retry: get_T_tau -- L <= 0 3139 3140 9.154911 4.780E+05 -16.149348 8.053556 51.738871 0.000000 0.000000 0.000000 0.215941 -2.243209 2651 167 -1.0754E+01 9.154911 0.132054 6.326644 11.284543 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617856 3 2.8742E+05 5.115247 7.936484 8.045334 3.713419 -1.649432 49.106303 0.000002 0.000000 0.372520 0.347E+03 max increase log_rel_run_E_err -6.4270242144827536 rel_E_err 9.9289664065915400D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0745743844900114E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2723887815033825E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.941406250000 max vel inside fraction of cutoff 3202.5530892239458 max c/cs inside fraction of cutoff 1.5045669354668800 average v/vesc outside cutoff 1.3916417668228367 Kinetic plus potential energy outside cutoff 8.2723887815033825E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010658514026323 check gamma integral 2.3984137006813525E-002 hydro_solver_step returned ierr -1 s% model_number 3143 nz 2651 s% num_retries 167 retry: get_T_tau -- L <= 0 3143 hydro_solver_step returned ierr -1 s% model_number 3147 nz 2651 s% num_retries 168 retry: get_T_tau -- L <= 0 3147 3150 9.154861 4.765E+05 -16.151315 8.052344 51.738871 0.000000 0.000000 0.000000 0.215941 -2.243371 2651 169 -1.0564E+01 9.154861 0.132116 6.325867 11.283997 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617854 5 2.8742E+05 5.115091 7.931085 8.044113 3.710929 -1.642777 49.106303 0.000002 0.000000 0.372520 0.346E+03 max increase log_rel_run_E_err -6.4269067897132386 rel_E_err 9.8881133957293528D-12 Using fixed_vsurf 20000.000000000000 save photos/x150 for model 3150 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0748552589039852E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2727774538737792E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.941406250000 max vel inside fraction of cutoff 3202.7732205244329 max c/cs inside fraction of cutoff 1.5047438471521319 average v/vesc outside cutoff 1.3917173260898836 Kinetic plus potential energy outside cutoff 8.2727774538737792E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010839522139301 check gamma integral 2.3993742709809265E-002 hydro_solver_step returned ierr -1 s% model_number 3151 nz 2651 s% num_retries 169 retry: get_T_tau -- L <= 0 3151 hydro_solver_step returned ierr -1 s% model_number 3156 nz 2651 s% num_retries 170 retry: get_T_tau -- L <= 0 3156 hydro_solver_step returned ierr -1 s% model_number 3158 nz 2651 s% num_retries 171 retry: get_T_tau -- L <= 0 3158 3160 9.154809 4.723E+05 -16.153346 8.051092 51.738871 0.000000 0.000000 0.000000 0.215941 -2.243538 2651 172 -1.0675E+01 9.154809 0.132180 6.325065 11.283433 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617851 5 2.8742E+05 5.114931 7.916060 8.042853 3.708357 -1.641285 49.106303 0.000002 0.000000 0.372520 0.347E+03 max increase log_rel_run_E_err -6.4267897869114323 rel_E_err 1.0116287551949832D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0751439855640310E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2731774800170920E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.943359375000 max vel inside fraction of cutoff 3203.0005231881846 max c/cs inside fraction of cutoff 1.5049265447067393 average v/vesc outside cutoff 1.3917953118152218 Kinetic plus potential energy outside cutoff 8.2731774800170920E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010719799906028 check gamma integral 2.4003659568548164E-002 hydro_solver_step returned ierr -1 s% model_number 3162 nz 2651 s% num_retries 172 retry: get_T_tau -- L <= 0 3162 hydro_solver_step returned ierr -1 s% model_number 3166 nz 2651 s% num_retries 173 retry: get_T_tau -- L <= 0 3166 hydro_solver_step returned ierr -1 s% model_number 3170 nz 2651 s% num_retries 174 retry: get_T_tau -- L <= 0 3170 3170 9.154760 4.655E+05 -16.155264 8.049909 51.738871 0.000000 0.000000 0.000000 0.215941 -2.243696 2651 175 -1.0787E+01 9.154760 0.132241 6.324307 11.282900 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617849 5 2.8742E+05 5.114779 7.890708 8.041662 3.705926 -1.637856 49.106303 0.000002 0.000000 0.372520 0.347E+03 retry log_rel_run_E_err -6.4266721352512279 rel_E_err 1.0116664037079918D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0754168320801518E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2735554865884027E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.943359375000 max vel inside fraction of cutoff 3203.2153070022632 max c/cs inside fraction of cutoff 1.5050992007418362 average v/vesc outside cutoff 1.3918690075578373 Kinetic plus potential energy outside cutoff 8.2735554865884027E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010626062304738 check gamma integral 2.4013028562916074E-002 hydro_solver_step returned ierr -1 s% model_number 3173 nz 2651 s% num_retries 175 retry: get_T_tau -- L <= 0 3173 hydro_solver_step returned ierr -1 s% model_number 3177 nz 2651 s% num_retries 176 retry: get_T_tau -- L <= 0 3177 3180 9.154713 4.675E+05 -16.157086 8.048786 51.738871 0.000000 0.000000 0.000000 0.215941 -2.243846 2651 177 -1.0597E+01 9.154713 0.132298 6.323586 11.282394 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617847 5 2.8742E+05 5.114635 7.898272 8.040531 3.703617 -1.633392 49.106303 0.000002 0.000000 0.372520 0.347E+03 max increase log_rel_run_E_err -6.4265549838660165 rel_E_err 1.0359522673703092D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0756770003051456E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2739155442353116E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.943359375000 max vel inside fraction of cutoff 3203.4193433752985 max c/cs inside fraction of cutoff 1.5052632359889246 average v/vesc outside cutoff 1.3919390497126074 Kinetic plus potential energy outside cutoff 8.2739155442353116E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010790584856231 check gamma integral 2.4021927244715340E-002 hydro_solver_step returned ierr -1 s% model_number 3181 nz 2651 s% num_retries 177 retry: get_T_tau -- L <= 0 3181 hydro_solver_step returned ierr -1 s% model_number 3185 nz 2651 s% num_retries 178 retry: get_T_tau -- L <= 0 3185 hydro_solver_step returned ierr -1 s% model_number 3189 nz 2651 s% num_retries 179 retry: get_T_tau -- L <= 0 3189 3190 9.154666 4.632E+05 -16.158948 8.047638 51.738871 0.000000 0.000000 0.000000 0.215941 -2.243999 2651 180 -1.0708E+01 9.154666 0.132357 6.322850 11.281876 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617845 5 2.8742E+05 5.114488 7.882364 8.039375 3.701257 -1.631673 49.106303 0.000002 0.000000 0.372520 0.347E+03 max increase log_rel_run_E_err -6.4264391047633183 rel_E_err 9.9690661318922500D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0759416445759843E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2742822423256138E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.943359375000 max vel inside fraction of cutoff 3203.6278185391252 max c/cs inside fraction of cutoff 1.5054308587858731 average v/vesc outside cutoff 1.3920105832912764 Kinetic plus potential energy outside cutoff 8.2742822423256138E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010681527808741 check gamma integral 2.4031017993796304E-002 hydro_solver_step returned ierr -1 s% model_number 3192 nz 2651 s% num_retries 180 retry: get_T_tau -- L <= 0 3192 hydro_solver_step returned ierr -1 s% model_number 3196 nz 2651 s% num_retries 181 retry: get_T_tau -- L <= 0 3196 hydro_solver_step returned ierr -1 s% model_number 3200 nz 2651 s% num_retries 182 retry: get_T_tau -- L <= 0 3200 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 3200 9.154620 4.580E+05 -16.160725 8.046541 51.738871 0.000000 0.000000 0.000000 0.215941 -2.244145 2651 183 -1.0819E+01 9.154620 0.132413 6.322147 11.281382 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617843 5 2.8742E+05 5.114347 7.862980 8.038271 3.699003 -1.629037 49.106303 0.000002 0.000000 0.372520 0.348E+03 retry log_rel_run_E_err -6.4263218521047278 rel_E_err 1.0377219274703876D-11 Using fixed_vsurf 20000.000000000000 save LOGS/profile35.data for model 3200 save photos/x200 for model 3200 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0761943955795157E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2746324417648314E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.943359375000 max vel inside fraction of cutoff 3203.8269025309669 max c/cs inside fraction of cutoff 1.5055909484582912 average v/vesc outside cutoff 1.3920788992095399 Kinetic plus potential energy outside cutoff 8.2746324417648314E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010596097356490 check gamma integral 2.4039697796032919E-002 hydro_solver_step returned ierr -1 s% model_number 3206 nz 2651 s% num_retries 183 retry: get_T_tau -- L <= 0 3206 hydro_solver_step returned ierr -1 s% model_number 3206 nz 2651 s% num_retries 184 retry: get_T_tau -- L <= 0 3206 3210 9.154568 4.605E+05 -16.162747 8.045293 51.738871 0.000000 0.000000 0.000000 0.215941 -2.244312 2651 185 -1.0630E+01 9.154568 0.132476 6.321346 11.280820 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617841 5 2.8742E+05 5.114187 7.872425 8.037014 3.696436 -1.623654 49.106303 0.000002 0.000000 0.372520 0.347E+03 max increase log_rel_run_E_err -6.4262046371838553 rel_E_err 1.0427861854241313D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0764830914497700E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2750320696715129E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.947265625000 max vel inside fraction of cutoff 3204.0535532035929 max c/cs inside fraction of cutoff 1.5057732271084012 average v/vesc outside cutoff 1.3921567085349240 Kinetic plus potential energy outside cutoff 8.2750320696715129E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010742222723382 check gamma integral 2.4049577766692139E-002 hydro_solver_step returned ierr -1 s% model_number 3211 nz 2651 s% num_retries 185 retry: get_T_tau -- L <= 0 3211 hydro_solver_step returned ierr -1 s% model_number 3215 nz 2651 s% num_retries 186 retry: get_T_tau -- L <= 0 3215 hydro_solver_step returned ierr -1 s% model_number 3219 nz 2651 s% num_retries 187 retry: get_T_tau -- L <= 0 3219 3220 9.154524 4.564E+05 -16.164471 8.044229 51.738871 0.000000 0.000000 0.000000 0.215941 -2.244454 2651 188 -1.0741E+01 9.154524 0.132531 6.320663 11.280340 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617839 5 2.8742E+05 5.114051 7.856988 8.035943 3.694247 -1.622095 49.106303 0.000002 0.000000 0.372520 0.347E+03 max increase log_rel_run_E_err -6.4260871784144245 rel_E_err 1.0484717102992990D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0767282428701175E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2753717903386609E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.947265625000 max vel inside fraction of cutoff 3204.2467887870534 max c/cs inside fraction of cutoff 1.5059286498021300 average v/vesc outside cutoff 1.3922230199675190 Kinetic plus potential energy outside cutoff 8.2753717903386609E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010644104638214 check gamma integral 2.4057999672473816E-002 hydro_solver_step returned ierr -1 s% model_number 3229 nz 2651 s% num_retries 188 retry: get_T_tau -- L <= 0 3229 hydro_solver_step returned ierr -1 s% model_number 3230 nz 2651 s% num_retries 189 retry: get_T_tau -- L <= 0 3230 hydro_solver_step returned ierr -1 s% model_number 3230 nz 2651 s% num_retries 190 retry: get_T_tau -- L <= 0 3230 3230 9.154425 4.554E+05 -14.119241 8.041839 51.738871 0.000000 0.000000 0.000000 0.215941 -2.244773 2651 191 -1.0852E+01 9.154425 0.132653 6.319130 11.279262 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617834 5 2.8742E+05 5.113745 7.853575 8.033536 3.689332 -1.607569 49.106303 0.000002 0.000000 0.372520 0.346E+03 retry log_rel_run_E_err -6.4247805159837412 rel_E_err 9.7555762364374782D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0772790896900920E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2761349504520221E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.960937500000 max vel inside fraction of cutoff 3204.6806726712380 max c/cs inside fraction of cutoff 1.5062776971032183 average v/vesc outside cutoff 1.3923719398010204 Kinetic plus potential energy outside cutoff 8.2761349504520221E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010546282349047 check gamma integral 2.4076905203161567E-002 hydro_solver_step returned ierr -1 s% model_number 3234 nz 2651 s% num_retries 191 retry: get_T_tau -- L <= 0 3234 hydro_solver_step returned ierr -1 s% model_number 3238 nz 2651 s% num_retries 192 retry: get_T_tau -- L <= 0 3238 3240 9.154379 4.530E+05 -16.170130 8.040733 51.738871 0.000000 0.000000 0.000000 0.215941 -2.244920 2651 193 -1.0662E+01 9.154379 0.132709 6.318420 11.278764 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617832 5 2.8742E+05 5.113603 7.844580 8.032423 3.687057 -1.602623 49.106303 0.000002 0.000000 0.372520 0.346E+03 max increase log_rel_run_E_err -6.4246642712458257 rel_E_err 9.9453448345441736D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0775346569426613E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2764887602208715E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.960937500000 max vel inside fraction of cutoff 3204.8814662842365 max c/cs inside fraction of cutoff 1.5064392547541221 average v/vesc outside cutoff 1.3924408824714762 Kinetic plus potential energy outside cutoff 8.2764887602208715E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3010673193213123 check gamma integral 2.4085652028938184E-002 3250 9.154220 4.523E+05 -16.176357 8.036882 51.738871 0.000000 0.000000 0.000000 0.215941 -2.245434 2651 193 -9.8707E+00 9.154220 0.132906 6.315947 11.277027 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617825 5 2.8742E+05 5.113109 7.842025 8.028545 3.679133 -1.541458 49.106303 0.000002 0.000000 0.372520 0.341E+03 max increase log_rel_run_E_err -6.4245444124927067 rel_E_err 1.0115157513088328D-11 Using fixed_vsurf 20000.000000000000 save photos/x250 for model 3250 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0784295275582149E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2777255829744318E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10445.984375000000 max vel inside fraction of cutoff 3205.5805072132962 max c/cs inside fraction of cutoff 1.5070018620751875 average v/vesc outside cutoff 1.3926810920317294 Kinetic plus potential energy outside cutoff 8.2777255829744318E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3011669570397908 check gamma integral 2.4116092286230174E-002 3260 9.153233 3.749E+05 -16.214717 8.013062 51.738871 0.000000 0.000000 0.000000 0.215941 -2.248607 2651 193 -9.0789E+00 9.153233 0.134121 6.300625 11.266271 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617782 5 2.8742E+05 5.110057 7.518716 8.004558 3.630055 -1.390708 49.106303 0.000002 0.000000 0.372520 0.365E+03 max increase log_rel_run_E_err -6.4244296805799523 rel_E_err 9.8758750723131672D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99997005782976167 8.0839391999164094E+047 k, q, energy_removed_layers after adjustment is 259 0.99995897528349442 8.2853465968097010E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10446.115234375000 max vel inside fraction of cutoff 3209.9015567945521 max c/cs inside fraction of cutoff 1.5104853501222155 average v/vesc outside cutoff 1.3941665031741208 Kinetic plus potential energy outside cutoff 8.2853465968097010E+047 mass inside cutoff 259 51.736748819913139 relax counter 0 log max v [km/s]= 4.3018245490668878 check gamma integral 2.4303882549743656E-002 3270 9.147157 3.185E+05 -16.444509 7.866544 51.738871 0.000000 0.000000 0.000000 0.215941 -2.268034 2650 193 -8.2871E+00 9.147157 0.141573 6.205284 11.199624 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617533 4 2.8742E+05 5.091305 7.250018 7.856966 3.325657 -1.299576 49.106303 0.000002 0.000000 0.372520 0.401E+03 max increase log_rel_run_E_err -6.4243154419960549 rel_E_err 9.9807330587724513D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 245 0.99996944301474056 8.1416548139350393E+047 k, q, energy_removed_layers after adjustment is 258 0.99995897528349442 8.3313935698226120E+047 Layers above q= 0.99995897528349442 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10446.933593750000 max vel inside fraction of cutoff 3236.3749469507552 max c/cs inside fraction of cutoff 1.5320510495177653 average v/vesc outside cutoff 1.4032996752553455 Kinetic plus potential energy outside cutoff 8.3313935698226120E+047 mass inside cutoff 258 51.736748819913139 relax counter 0 log max v [km/s]= 4.3049201402475799 check gamma integral 2.5439841735740924E-002 3280 9.129188 3.245E+05 -17.029256 7.436827 51.738871 0.000000 0.000000 0.000000 0.215941 -2.324354 2652 193 -7.9856E+00 9.129188 0.163361 5.912617 10.997801 -99.000000 51.738871 0.000000 0.060585 0.784059 0.616969 4 2.8742E+05 5.036206 7.326178 7.423640 2.401019 -1.313165 49.106303 0.000002 0.000000 0.372520 0.397E+03 lgRho_cntr log_rel_run_E_err -6.4242050361508918 rel_E_err 9.6452391811307922D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 249 0.99996815909753978 8.2847173808705174E+047 k, q, energy_removed_layers after adjustment is 261 0.99995793333201421 8.4627679943014423E+047 Layers above q= 0.99995793333201421 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10449.412109375000 max vel inside fraction of cutoff 3313.5124276751058 max c/cs inside fraction of cutoff 1.5970850138119725 average v/vesc outside cutoff 1.4179453929283226 Kinetic plus potential energy outside cutoff 8.4627679943014423E+047 mass inside cutoff 261 51.736694910519510 relax counter 0 log max v [km/s]= 4.3054008840399307 check gamma integral 2.8586956503394243E-002 3290 9.110675 3.318E+05 -17.431302 7.006735 51.738871 0.000000 0.000000 0.000000 0.215941 -2.380494 2654 193 -8.1019E+00 9.110675 0.185497 5.593778 10.782371 -99.000000 51.738871 0.000000 0.060585 0.784059 0.616688 4 2.8742E+05 4.980074 7.408998 6.989621 1.409616 -1.352860 49.106303 0.000002 0.000000 0.372520 0.391E+03 lgRho_cntr log_rel_run_E_err -6.4240973740036047 rel_E_err 9.3272559078307888D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 256 0.99996749069503321 8.4010610558324934E+047 k, q, energy_removed_layers after adjustment is 269 0.99995578140991281 8.5923356473376328E+047 Layers above q= 0.99995578140991281 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10452.058593750000 max vel inside fraction of cutoff 3384.1884021928840 max c/cs inside fraction of cutoff 1.6576944854575164 average v/vesc outside cutoff 1.4199008019326300 Kinetic plus potential energy outside cutoff 8.5923356473376328E+047 mass inside cutoff 269 51.736583572498660 relax counter 0 log max v [km/s]= 4.3032128131698855 check gamma integral 3.1469098198793254E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 3300 9.092141 3.376E+05 -17.668906 6.593433 51.738871 0.000000 0.000000 0.000000 0.215941 -2.434920 2654 193 -8.0162E+00 9.092141 0.207472 5.254590 10.558771 -99.000000 51.738871 0.000000 0.060585 0.784059 0.616698 4 2.8742E+05 4.924492 7.483035 6.573058 0.376294 -1.399295 49.106303 0.000002 0.000000 0.372520 0.387E+03 max increase log_rel_run_E_err -6.4239947617617608 rel_E_err 8.7033495817595554D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile36.data for model 3300 save photos/x300 for model 3300 k, q, energy_removed_layers before adjustment is 259 0.99996613490092112 8.5372441334149626E+047 k, q, energy_removed_layers after adjustment is 271 0.99995466605667627 8.7177568631618718E+047 Layers above q= 0.99995466605667627 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10454.828125000000 max vel inside fraction of cutoff 3459.1548868203186 max c/cs inside fraction of cutoff 1.7282408867685384 average v/vesc outside cutoff 1.4340510840492418 Kinetic plus potential energy outside cutoff 8.7177568631618718E+047 mass inside cutoff 271 51.736525865380990 relax counter 0 log max v [km/s]= 4.3028176268881886 check gamma integral 3.3976875010794071E-002 3310 9.072631 3.432E+05 -17.840066 6.175167 51.738871 0.000000 0.000000 0.000000 0.215941 -2.490516 2654 193 -8.0322E+00 9.072631 0.230541 4.872766 10.314394 -99.000000 51.738871 0.000000 0.060585 0.784059 0.616995 4 2.8742E+05 4.866591 7.557872 6.152963 -0.757668 -1.454441 49.106303 0.000002 0.000000 0.372520 0.383E+03 lgRho_cntr log_rel_run_E_err -6.4238967626678427 rel_E_err 8.5962238746539737D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 262 0.99996471463196479 8.6789510073458030E+047 k, q, energy_removed_layers after adjustment is 274 0.99995234254290832 8.8461180193400494E+047 Layers above q= 0.99995234254290832 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10457.888671875000 max vel inside fraction of cutoff 3536.2503570633226 max c/cs inside fraction of cutoff 1.8055670157234043 average v/vesc outside cutoff 1.4359796340632758 Kinetic plus potential energy outside cutoff 8.8461180193400494E+047 mass inside cutoff 274 51.736405649400979 relax counter 0 log max v [km/s]= 4.3020783943766689 check gamma integral 3.6224183789027378E-002 3320 9.054038 3.481E+05 -17.871500 5.785842 51.738871 0.000000 0.000000 0.000000 0.215941 -2.542095 2656 193 -8.0393E+00 9.054038 0.252549 4.482779 10.072706 -99.000000 51.738871 0.000000 0.060585 0.784059 0.617530 4 2.8742E+05 4.811939 7.626793 5.763672 -1.883977 -1.511592 49.106303 0.000002 0.000000 0.372520 0.380E+03 lgRho_cntr log_rel_run_E_err -6.4238032294391996 rel_E_err 8.0500718710364115D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 267 0.99996289518546155 8.8178385006828151E+047 k, q, energy_removed_layers after adjustment is 278 0.99995116939048856 8.9661079713033920E+047 Layers above q= 0.99995116939048856 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10460.962890625000 max vel inside fraction of cutoff 3607.5687395978807 max c/cs inside fraction of cutoff 1.8823296316774205 average v/vesc outside cutoff 1.4502195815270604 Kinetic plus potential energy outside cutoff 8.9661079713033920E+047 mass inside cutoff 278 51.736344951818808 relax counter 0 log max v [km/s]= 4.3016083069589115 check gamma integral 3.8023700165586989E-002 3330 9.034018 3.530E+05 -18.002646 5.366943 51.738871 0.000000 0.000000 0.000000 0.215941 -2.596408 2669 193 -7.9372E+00 9.034018 0.276343 4.031395 9.802698 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618339 3 2.8742E+05 4.753586 7.698426 5.346409 -3.148228 -1.574588 49.106303 0.000002 0.000000 0.372520 0.378E+03 lgRho_cntr log_rel_run_E_err -6.4237137263323145 rel_E_err 7.7708761051885529D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 280 0.99996194489388279 8.9340642301189737E+047 k, q, energy_removed_layers after adjustment is 291 0.99994995415683163 9.0917569274390113E+047 Layers above q= 0.99994995415683163 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10464.464843750000 max vel inside fraction of cutoff 3679.5980501539616 max c/cs inside fraction of cutoff 1.9671958843421988 average v/vesc outside cutoff 1.4659618118638273 Kinetic plus potential energy outside cutoff 9.0917569274390113E+047 mass inside cutoff 291 51.736282077000922 relax counter 0 log max v [km/s]= 4.3012269614777674 check gamma integral 3.9638347289794026E-002 3340 9.015007 3.574E+05 -18.126805 4.962962 51.738871 0.000000 0.000000 0.000000 0.215941 -2.647037 2680 193 -7.9769E+00 9.015007 0.299068 3.570304 9.536739 -99.000000 51.738871 0.000000 0.060585 0.784059 0.619306 3 2.8742E+05 4.698589 7.765529 4.945012 -4.400131 -1.638492 49.106303 0.000002 0.000000 0.372520 0.378E+03 lgRho_cntr log_rel_run_E_err -6.4236276820036462 rel_E_err 7.1353017496923683D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 295 0.99995998538487596 9.0680791158251832E+047 k, q, energy_removed_layers after adjustment is 306 0.99994743168978384 9.2081171643588185E+047 Layers above q= 0.99994743168978384 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10467.996093750000 max vel inside fraction of cutoff 3744.2568003496776 max c/cs inside fraction of cutoff 2.0508537090643015 average v/vesc outside cutoff 1.4717346723428837 Kinetic plus potential energy outside cutoff 9.2081171643588185E+047 mass inside cutoff 306 51.736151567402743 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.0915324590283589E-002 hydro_solver_step returned ierr -1 s% model_number 3350 nz 2681 s% num_retries 193 retry: get_T_tau -- L <= 0 3350 3350 8.996266 3.607E+05 -18.248597 4.556897 51.738871 0.000000 0.000000 0.000000 0.215941 -2.696285 2681 194 -8.1013E+00 8.996266 0.321620 3.082642 9.265257 -99.000000 51.738871 0.000000 0.060585 0.784059 0.620417 3 2.8742E+05 4.644701 7.826395 4.542075 -5.685017 -1.712627 49.106303 0.000002 0.000000 0.372520 0.381E+03 retry log_rel_run_E_err -6.4235453501103512 rel_E_err 6.8160072816393492D-12 Using fixed_vsurf 20000.000000000000 save photos/x350 for model 3350 k, q, energy_removed_layers before adjustment is 299 0.99995897528349464 9.1749037614953455E+047 k, q, energy_removed_layers after adjustment is 310 0.99994586110113082 9.3220318030341947E+047 Layers above q= 0.99994586110113082 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10471.687500000000 max vel inside fraction of cutoff 3803.3829964489883 max c/cs inside fraction of cutoff 2.1359699271305019 average v/vesc outside cutoff 1.4833830525391887 Kinetic plus potential energy outside cutoff 9.3220318030341947E+047 mass inside cutoff 310 51.736070306918421 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.1980309842254392E-002 hydro_solver_step returned ierr -1 s% model_number 3356 nz 2680 s% num_retries 194 retry: get_T_tau -- L <= 0 3356 3360 8.980701 3.628E+05 -18.348687 4.217610 51.738871 0.000000 0.000000 0.000000 0.215941 -2.736800 2681 195 -7.9160E+00 8.980701 0.340467 2.651590 9.032745 -99.000000 51.738871 0.000000 0.060585 0.784059 0.621445 3 2.8742E+05 4.600166 7.874201 4.205650 -6.791868 -1.775814 49.106303 0.000002 0.000000 0.372520 0.385E+03 max increase log_rel_run_E_err -6.4234676118251599 rel_E_err 6.7454071390406332D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 301 0.99995685841898163 9.2911556800174605E+047 k, q, energy_removed_layers after adjustment is 311 0.99994422289308360 9.4156817679306501E+047 Layers above q= 0.99994422289308360 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10474.921875000000 max vel inside fraction of cutoff 3848.7488137419368 max c/cs inside fraction of cutoff 2.2085375093391910 average v/vesc outside cutoff 1.4896887706392989 Kinetic plus potential energy outside cutoff 9.4156817679306501E+047 mass inside cutoff 311 51.735985547882947 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.2750516664608891E-002 hydro_solver_step returned ierr -1 s% model_number 3362 nz 2683 s% num_retries 195 retry: get_T_tau -- L <= 0 3362 hydro_solver_step returned ierr -1 s% model_number 3368 nz 2682 s% num_retries 196 retry: get_T_tau -- L <= 0 3368 3370 8.965471 3.649E+05 -18.448731 3.891407 51.738871 0.000000 0.000000 0.000000 0.215941 -2.776228 2681 197 -7.9928E+00 8.965471 0.359029 2.205494 8.799024 -99.000000 51.738871 0.000000 0.060585 0.784059 0.622526 3 2.8742E+05 4.556738 7.921379 3.882363 -7.911174 -1.837828 49.106303 0.000002 0.000000 0.372520 0.390E+03 max increase log_rel_run_E_err -6.4233918930282350 rel_E_err 6.4545413501746713D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 302 0.99995578140991304 9.3802223906321565E+047 k, q, energy_removed_layers after adjustment is 312 0.99994254507091951 9.5071596462285666E+047 Layers above q= 0.99994254507091951 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10478.248046875000 max vel inside fraction of cutoff 3889.5336799175716 max c/cs inside fraction of cutoff 2.2812223071869560 average v/vesc outside cutoff 1.4961708236605711 Kinetic plus potential energy outside cutoff 9.5071596462285666E+047 mass inside cutoff 312 51.735898739257777 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.3426561457074353E-002 hydro_solver_step returned ierr -1 s% model_number 3374 nz 2680 s% num_retries 197 retry: get_T_tau -- L <= 0 3374 hydro_solver_step returned ierr -1 s% model_number 3380 nz 2683 s% num_retries 198 retry: get_T_tau -- L <= 0 3380 3380 8.948191 3.672E+05 -18.563003 3.546452 51.738871 0.000000 0.000000 0.000000 0.215941 -2.820811 2681 199 -8.1087E+00 8.948191 0.380249 1.668659 8.526447 -99.000000 51.738871 0.000000 0.060585 0.784059 0.623825 3 2.8742E+05 4.507616 7.975005 3.540659 -9.226013 -1.909050 49.106303 0.000002 0.000000 0.372520 0.396E+03 retry log_rel_run_E_err -6.4233190447068429 rel_E_err 6.4089800650626961D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 303 0.99995466605667660 9.4769193803808490E+047 k, q, energy_removed_layers after adjustment is 313 0.99994079211606490 9.6100485041261794E+047 Layers above q= 0.99994079211606490 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10482.228515625000 max vel inside fraction of cutoff 3931.3070624972706 max c/cs inside fraction of cutoff 2.3657922350132301 average v/vesc outside cutoff 1.5147101846833362 Kinetic plus potential energy outside cutoff 9.6100485041261794E+047 mass inside cutoff 313 51.735808043352002 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.4122407203995705E-002 hydro_solver_step returned ierr -1 s% model_number 3386 nz 2685 s% num_retries 199 retry: get_T_tau -- L <= 0 3386 3390 8.932945 3.694E+05 -18.664424 3.287354 51.738871 0.000000 0.000000 0.000000 0.215941 -2.860040 2681 200 -7.8344E+00 8.932945 0.399109 1.167307 8.279547 -99.000000 51.738871 0.000000 0.060585 0.784059 0.625034 3 2.8742E+05 4.464400 8.022675 3.284048 -10.427140 -1.973564 49.106303 0.000002 0.000000 0.372520 0.402E+03 max increase log_rel_run_E_err -6.4232487980377027 rel_E_err 6.0292553601983242D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 305 0.99995234254290866 9.5871304211831757E+047 k, q, energy_removed_layers after adjustment is 313 0.99994079211606490 9.7021648670026819E+047 Layers above q= 0.99994079211606490 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10485.933593750000 max vel inside fraction of cutoff 3964.0667280061971 max c/cs inside fraction of cutoff 2.4420774391607125 average v/vesc outside cutoff 1.5379535739680819 Kinetic plus potential energy outside cutoff 9.7021648670026819E+047 mass inside cutoff 313 51.735808043352002 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.4688837665767915E-002 hydro_solver_step returned ierr -1 s% model_number 3392 nz 2685 s% num_retries 200 retry: get_T_tau -- L <= 0 3392 hydro_solver_step returned ierr -1 s% model_number 3398 nz 2684 s% num_retries 201 retry: get_T_tau -- L <= 0 3398 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 3400 8.917434 3.718E+05 -18.768695 3.085152 51.738871 0.000000 0.000000 0.000000 0.215941 -2.899930 2681 202 -7.9181E+00 8.917434 0.418453 0.628854 8.022409 -99.000000 51.738871 0.000000 0.060585 0.784059 0.626311 3 2.8742E+05 4.420525 8.072731 3.083631 -11.690179 -2.042032 49.106303 0.000002 0.000000 0.372520 0.407E+03 max increase log_rel_run_E_err -6.4231821097297610 rel_E_err 5.7259649395687706D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile37.data for model 3400 save photos/x400 for model 3400 k, q, energy_removed_layers before adjustment is 306 0.99995116939048878 9.6752160016429186E+047 k, q, energy_removed_layers after adjustment is 314 0.99993836894382138 9.7968789115444539E+047 Layers above q= 0.99993836894382138 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10489.908203125000 max vel inside fraction of cutoff 3993.1047262963843 max c/cs inside fraction of cutoff 2.5212220459746795 average v/vesc outside cutoff 1.5390567905852621 Kinetic plus potential energy outside cutoff 9.7968789115444539E+047 mass inside cutoff 314 51.735682671154926 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.5231349430283119E-002 hydro_solver_step returned ierr -1 s% model_number 3404 nz 2686 s% num_retries 202 retry: get_T_tau -- L <= 0 3404 hydro_solver_step returned ierr -1 s% model_number 3410 nz 2689 s% num_retries 203 retry: get_T_tau -- L <= 0 3410 3410 8.900012 3.747E+05 -18.886817 2.931182 51.738871 0.000000 0.000000 0.000000 0.215941 -2.944764 2681 204 -8.0347E+00 8.900012 0.440393 -0.011949 7.727029 -99.000000 51.738871 0.000000 0.060585 0.784059 0.627793 3 2.8742E+05 4.371336 8.130238 2.930687 -13.160039 -2.123645 49.106303 0.000002 0.000000 0.372520 0.411E+03 retry log_rel_run_E_err -6.4231190256866402 rel_E_err 5.2733834563262812D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 307 0.99994995415683163 9.7710561032953922E+047 k, q, energy_removed_layers after adjustment is 316 0.99993419603464828 9.9047670476952119E+047 Layers above q= 0.99993419603464828 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10494.632812500000 max vel inside fraction of cutoff 4020.3793970592005 max c/cs inside fraction of cutoff 2.6119241432174514 average v/vesc outside cutoff 1.5142819914756160 Kinetic plus potential energy outside cutoff 9.9047670476952119E+047 mass inside cutoff 316 51.735466769543891 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.5811006844080321E-002 hydro_solver_step returned ierr -1 s% model_number 3416 nz 2689 s% num_retries 204 retry: get_T_tau -- L <= 0 3416 3420 8.884698 3.773E+05 -18.991449 2.841723 51.738871 0.000000 0.000000 0.000000 0.215941 -2.984183 2681 205 -7.7597E+00 8.884698 0.459869 -0.607490 7.462646 -99.000000 51.738871 0.000000 0.060585 0.784059 0.629139 4 2.8742E+05 4.328188 8.181394 2.841568 -14.498334 -2.200465 49.106303 0.000002 0.000000 0.372520 0.412E+03 max increase log_rel_run_E_err -6.4230583136307366 rel_E_err 5.1758629105992312D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 309 0.99994743168978395 9.8853912977909100E+047 k, q, energy_removed_layers after adjustment is 318 0.99993077088616034 1.0004085830744945E+048 Layers above q= 0.99993077088616034 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10499.033203125000 max vel inside fraction of cutoff 4039.9076034011896 max c/cs inside fraction of cutoff 2.6932066066947380 average v/vesc outside cutoff 1.5094147105853497 Kinetic plus potential energy outside cutoff 1.0004085830744945E+048 mass inside cutoff 318 51.735289556226775 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6301554867199120E-002 hydro_solver_step returned ierr -1 s% model_number 3422 nz 2690 s% num_retries 205 retry: get_T_tau -- L <= 0 3422 3430 8.867113 9.018E+05 -19.112658 2.768061 51.738871 0.000000 0.000000 0.000000 0.215941 -3.029543 2688 206 -7.7432E+00 8.867113 0.482504 -1.331778 7.155483 -99.000000 51.738871 0.000000 0.060585 0.784059 0.630722 5 2.8742E+05 4.278707 9.740115 2.768026 -16.090926 -3.028168 49.106303 0.000002 0.000000 0.372520 0.255E+03 lgRho_cntr log_rel_run_E_err -6.4229999404801585 rel_E_err 5.0514207321161959D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 333 0.99994586110113159 9.9876743807762897E+047 k, q, energy_removed_layers after adjustment is 346 0.99992532901635434 1.0126050063163317E+048 Layers above q= 0.99992532901635434 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10504.398437500000 max vel inside fraction of cutoff 4057.2788093275599 max c/cs inside fraction of cutoff 2.7888004326925628 average v/vesc outside cutoff 1.4941406423096779 Kinetic plus potential energy outside cutoff 1.0126050063163317E+048 mass inside cutoff 346 51.735008000024742 relax counter 0 log max v [km/s]= 4.3077186230145514 check gamma integral 4.6849520795772419E-002 hydro_solver_step returned ierr -1 s% model_number 3437 nz 2686 s% num_retries 206 retry: get_T_tau -- L <= 0 3437 hydro_solver_step returned ierr -1 s% model_number 3438 nz 2687 s% num_retries 207 retry: get_T_tau -- L <= 0 3438 hydro_solver_step returned ierr -1 s% model_number 3440 nz 2687 s% num_retries 208 retry: get_T_tau -- L <= 0 3440 3440 8.852458 7.225E+05 -19.214613 2.716928 51.738871 0.000000 0.000000 0.000000 0.215941 -3.067411 2687 209 -8.3828E+00 8.852458 0.501604 -1.969729 6.899064 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632073 5 2.8742E+05 4.237528 9.393153 2.716919 -17.465404 -3.232010 49.106303 0.000002 0.000000 0.372520 0.293E+03 retry log_rel_run_E_err -6.4229448754517913 rel_E_err 4.7407888391162881D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 398 0.99922717721912757 3.1991667197349848E+048 k, q, energy_removed_layers after adjustment is 438 0.99648214286744652 6.6685860071638524E+048 Layers above q= 0.99648214286744652 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10509.148437500000 max vel inside fraction of cutoff 3918.7624504476871 max c/cs inside fraction of cutoff 2.6970835541175338 average v/vesc outside cutoff 1.0027132443268165 Kinetic plus potential energy outside cutoff 6.6685860071638524E+048 mass inside cutoff 438 51.556861434686162 relax counter 0 log max v [km/s]= 4.3028890730089948 check gamma integral 4.7297026713223410E-002 hydro_solver_step returned ierr -1 s% model_number 3443 nz 2687 s% num_retries 209 retry: get_T_tau -- L <= 0 3443 hydro_solver_step returned ierr -1 s% model_number 3445 nz 2687 s% num_retries 210 retry: get_T_tau -- L <= 0 3445 hydro_solver_step returned ierr -1 s% model_number 3447 nz 2687 s% num_retries 211 retry: get_T_tau -- L <= 0 3447 hydro_solver_step returned ierr -1 s% model_number 3450 nz 2687 s% num_retries 212 retry: get_T_tau -- L <= 0 3450 3450 8.849360 6.534E+05 -19.236229 2.706743 51.738871 0.000000 0.000000 0.000000 0.215941 -3.075397 2687 213 -8.7951E+00 8.849360 0.505661 -2.108196 6.845121 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632368 5 2.8742E+05 4.228841 9.226692 2.706737 -17.761544 -3.203334 49.106303 0.000002 0.000000 0.372520 0.311E+03 retry log_rel_run_E_err -6.4228905328033656 rel_E_err 4.8689943603558589D-12 Using fixed_vsurf 20000.000000000000 save photos/x450 for model 3450 k, q, energy_removed_layers before adjustment is 401 0.99911239783066519 3.6626364543968549E+048 k, q, energy_removed_layers after adjustment is 440 0.99618648281689015 7.2229457768396761E+048 Layers above q= 0.99618648281689015 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10510.183593750000 max vel inside fraction of cutoff 3904.1582231008788 max c/cs inside fraction of cutoff 2.6948788480512635 average v/vesc outside cutoff 0.97935682405154023 Kinetic plus potential energy outside cutoff 7.2229457768396761E+048 mass inside cutoff 440 51.541564317354535 relax counter 0 log max v [km/s]= 4.3017583861962843 check gamma integral 4.7390681680592107E-002 hydro_solver_step returned ierr -1 s% model_number 3453 nz 2687 s% num_retries 213 retry: get_T_tau -- L <= 0 3453 hydro_solver_step returned ierr -1 s% model_number 3456 nz 2687 s% num_retries 214 retry: get_T_tau -- L <= 0 3456 hydro_solver_step returned ierr -1 s% model_number 3458 nz 2687 s% num_retries 215 retry: get_T_tau -- L <= 0 3458 3460 8.847953 5.708E+05 -19.246071 2.702246 51.738871 0.000000 0.000000 0.000000 0.215941 -3.079025 2687 216 -8.9064E+00 8.847953 0.507507 -2.171555 6.820667 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632502 5 2.8742E+05 4.224897 8.995722 2.702240 -17.896736 -3.060363 49.106303 0.000002 0.000000 0.372520 0.339E+03 max increase log_rel_run_E_err -6.4228361907816902 rel_E_err 4.6206780037691201D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 402 0.99907024251102838 3.8964388737034062E+048 k, q, energy_removed_layers after adjustment is 441 0.99609065055601775 7.4807166214815864E+048 Layers above q= 0.99609065055601775 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10510.656250000000 max vel inside fraction of cutoff 3904.3530707712084 max c/cs inside fraction of cutoff 2.7018790533540686 average v/vesc outside cutoff 0.98008519037492381 Kinetic plus potential energy outside cutoff 7.4807166214815864E+048 mass inside cutoff 441 51.536606064334016 relax counter 0 log max v [km/s]= 4.3014957616820571 check gamma integral 4.7433137922031493E-002 hydro_solver_step returned ierr -1 s% model_number 3461 nz 2687 s% num_retries 216 retry: get_T_tau -- L <= 0 3461 hydro_solver_step returned ierr -1 s% model_number 3465 nz 2687 s% num_retries 217 retry: get_T_tau -- L <= 0 3465 hydro_solver_step returned ierr -1 s% model_number 3468 nz 2687 s% num_retries 218 retry: get_T_tau -- L <= 0 3468 3470 8.847092 4.999E+05 -19.252089 2.699566 51.738871 0.000000 0.000000 0.000000 0.215941 -3.081242 2687 219 -9.0177E+00 8.847092 0.508636 -2.210421 6.805739 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632585 5 2.8742E+05 4.222486 8.767531 2.699561 -17.979562 -2.925206 49.106303 0.000002 0.000000 0.372520 0.370E+03 max increase log_rel_run_E_err -6.4227828658480686 rel_E_err 4.6775327709086380D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 403 0.99901429941337450 4.0830969973523767E+048 k, q, energy_removed_layers after adjustment is 441 0.99609065055601775 7.6397518062322218E+048 Layers above q= 0.99609065055601775 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10510.947265625000 max vel inside fraction of cutoff 3904.4566620947417 max c/cs inside fraction of cutoff 2.7061611235894723 average v/vesc outside cutoff 0.98192813590676853 Kinetic plus potential energy outside cutoff 7.6397518062322218E+048 mass inside cutoff 441 51.536606064334016 relax counter 0 log max v [km/s]= 4.3013120724135483 check gamma integral 4.7459058818824625E-002 hydro_solver_step returned ierr -1 s% model_number 3471 nz 2687 s% num_retries 219 retry: get_T_tau -- L <= 0 3471 hydro_solver_step returned ierr -1 s% model_number 3474 nz 2687 s% num_retries 220 retry: get_T_tau -- L <= 0 3474 hydro_solver_step returned ierr -1 s% model_number 3477 nz 2687 s% num_retries 221 retry: get_T_tau -- L <= 0 3477 3480 8.846515 4.521E+05 -19.256132 2.697805 51.738871 0.000000 0.000000 0.000000 0.215941 -3.082731 2687 222 -9.1289E+00 8.846515 0.509394 -2.236587 6.795722 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632640 6 2.8742E+05 4.220867 8.594564 2.697800 -18.035276 -2.834403 49.106303 0.000002 0.000000 0.372520 0.393E+03 max increase log_rel_run_E_err -6.4227290741610830 rel_E_err 4.6920288314058267D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 403 0.99901429941337450 4.1174237050516813E+048 k, q, energy_removed_layers after adjustment is 441 0.99609065055601775 7.7463683026996612E+048 Layers above q= 0.99609065055601775 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10511.142578125000 max vel inside fraction of cutoff 3904.5196058568131 max c/cs inside fraction of cutoff 2.7090388811343629 average v/vesc outside cutoff 0.98316728524812791 Kinetic plus potential energy outside cutoff 7.7463683026996612E+048 mass inside cutoff 441 51.536606064334016 relax counter 0 log max v [km/s]= 4.3012105974026431 check gamma integral 4.7476456797085807E-002 hydro_solver_step returned ierr -1 s% model_number 3481 nz 2687 s% num_retries 222 retry: get_T_tau -- L <= 0 3481 hydro_solver_step returned ierr -1 s% model_number 3484 nz 2687 s% num_retries 223 retry: get_T_tau -- L <= 0 3484 hydro_solver_step returned ierr -1 s% model_number 3487 nz 2687 s% num_retries 224 retry: get_T_tau -- L <= 0 3487 3490 8.846069 4.139E+05 -19.259256 2.696468 51.738871 0.000000 0.000000 0.000000 0.215941 -3.083881 2687 225 -9.2402E+00 8.846069 0.509981 -2.256834 6.787988 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632683 5 2.8742E+05 4.219617 8.442377 2.696463 -18.078359 -2.769091 49.106303 0.000002 0.000000 0.372520 0.406E+03 max increase log_rel_run_E_err -6.4226756576935431 rel_E_err 4.5402904409347864D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 403 0.99901429941337450 4.1439240241727104E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 7.8298117688815586E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10511.291015625000 max vel inside fraction of cutoff 3892.4320207736323 max c/cs inside fraction of cutoff 2.7002562445306291 average v/vesc outside cutoff 1.0080384799768805 Kinetic plus potential energy outside cutoff 7.8298117688815586E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3011592325868362 check gamma integral 4.7489889873276389E-002 hydro_solver_step returned ierr -1 s% model_number 3491 nz 2687 s% num_retries 225 retry: get_T_tau -- L <= 0 3491 hydro_solver_step returned ierr -1 s% model_number 3494 nz 2687 s% num_retries 226 retry: get_T_tau -- L <= 0 3494 hydro_solver_step returned ierr -1 s% model_number 3498 nz 2687 s% num_retries 227 retry: get_T_tau -- L <= 0 3498 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 3500 8.845700 3.837E+05 -19.261838 2.695380 51.738871 0.000000 0.000000 0.000000 0.215941 -3.084831 2687 228 -9.3515E+00 8.845700 0.510465 -2.273585 6.781602 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632718 5 2.8742E+05 4.218584 8.311777 2.695375 -18.113986 -2.720054 49.106303 0.000002 0.000000 0.372520 0.414E+03 max increase log_rel_run_E_err -6.4226224362045423 rel_E_err 4.5926269756944277D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile38.data for model 3500 save photos/x500 for model 3500 k, q, energy_removed_layers before adjustment is 403 0.99901429941337450 4.1658085176905231E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 7.9008067662590376E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10511.417968750000 max vel inside fraction of cutoff 3892.4522228342985 max c/cs inside fraction of cutoff 2.7020810834425113 average v/vesc outside cutoff 1.0088446137547256 Kinetic plus potential energy outside cutoff 7.9008067662590376E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3011243163832056 check gamma integral 4.7500984413457320E-002 hydro_solver_step returned ierr -1 s% model_number 3501 nz 2687 s% num_retries 228 retry: get_T_tau -- L <= 0 3501 hydro_solver_step returned ierr -1 s% model_number 3505 nz 2687 s% num_retries 229 retry: get_T_tau -- L <= 0 3505 hydro_solver_step returned ierr -1 s% model_number 3509 nz 2687 s% num_retries 230 retry: get_T_tau -- L <= 0 3509 3510 8.845372 3.603E+05 -19.264138 2.694423 51.738871 0.000000 0.000000 0.000000 0.215941 -3.085677 2687 231 -9.4628E+00 8.845372 0.510897 -2.288524 6.775916 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632750 5 2.8742E+05 4.217664 8.203121 2.694418 -18.145745 -2.678505 49.106303 0.000002 0.000000 0.372520 0.422E+03 max increase log_rel_run_E_err -6.4225693440842955 rel_E_err 4.6219956712544683D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 404 0.99896483493672106 4.2987991347099414E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 7.9639906088575929E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10511.527343750000 max vel inside fraction of cutoff 3892.4683686973854 max c/cs inside fraction of cutoff 2.7037072570415646 average v/vesc outside cutoff 1.0095631022425986 Kinetic plus potential energy outside cutoff 7.9639906088575929E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010992090713192 check gamma integral 4.7510864661572415E-002 hydro_solver_step returned ierr -1 s% model_number 3512 nz 2687 s% num_retries 231 retry: get_T_tau -- L <= 0 3512 hydro_solver_step returned ierr -1 s% model_number 3516 nz 2687 s% num_retries 232 retry: get_T_tau -- L <= 0 3516 hydro_solver_step returned ierr -1 s% model_number 3519 nz 2687 s% num_retries 233 retry: get_T_tau -- L <= 0 3519 3520 8.845079 3.421E+05 -19.266189 2.693577 51.738871 0.000000 0.000000 0.000000 0.215941 -3.086432 2687 234 -9.5740E+00 8.845079 0.511282 -2.301856 6.770849 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632778 4 2.8742E+05 4.216844 8.114059 2.693573 -18.174076 -2.643955 49.106303 0.000002 0.000000 0.372520 0.432E+03 max increase log_rel_run_E_err -6.4225159582308420 rel_E_err 4.6368682723310965D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 404 0.99896483493672106 4.3167349083010839E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 8.0202681573172046E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10511.628906250000 max vel inside fraction of cutoff 3892.4812930192811 max c/cs inside fraction of cutoff 2.7051573592522717 average v/vesc outside cutoff 1.0102038909758924 Kinetic plus potential energy outside cutoff 8.0202681573172046E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010810663311769 check gamma integral 4.7519669982185306E-002 hydro_solver_step returned ierr -1 s% model_number 3523 nz 2687 s% num_retries 234 retry: get_T_tau -- L <= 0 3523 hydro_solver_step returned ierr -1 s% model_number 3526 nz 2687 s% num_retries 235 retry: get_T_tau -- L <= 0 3526 hydro_solver_step returned ierr -1 s% model_number 3530 nz 2687 s% num_retries 236 retry: get_T_tau -- L <= 0 3530 3530 8.844819 3.286E+05 -19.268010 2.692829 51.738871 0.000000 0.000000 0.000000 0.215941 -3.087102 2687 237 -9.6853E+00 8.844819 0.511624 -2.313703 6.766352 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632803 5 2.8742E+05 4.216116 8.044524 2.692825 -18.199244 -2.615724 49.106303 0.000002 0.000000 0.372520 0.441E+03 retry log_rel_run_E_err -6.4224627896161328 rel_E_err 4.6775326313888353D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 404 0.99896483493672106 4.3326533902828023E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 8.0701962669373752E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10511.716796875000 max vel inside fraction of cutoff 3892.4916090453230 max c/cs inside fraction of cutoff 2.7064451759198538 average v/vesc outside cutoff 1.0107730432577906 Kinetic plus potential energy outside cutoff 8.0701962669373752E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010678868063108 check gamma integral 4.7527485694919942E-002 hydro_solver_step returned ierr -1 s% model_number 3534 nz 2687 s% num_retries 237 retry: get_T_tau -- L <= 0 3534 hydro_solver_step returned ierr -1 s% model_number 3538 nz 2687 s% num_retries 238 retry: get_T_tau -- L <= 0 3538 3540 8.844556 3.169E+05 -19.269856 2.692072 51.738871 0.000000 0.000000 0.000000 0.215941 -3.087781 2687 239 -9.4956E+00 8.844556 0.511971 -2.325718 6.761798 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632829 5 2.8742E+05 4.215378 7.982253 2.692067 -18.224758 -2.580614 49.106303 0.000002 0.000000 0.372520 0.451E+03 max increase log_rel_run_E_err -6.4224100705889260 rel_E_err 4.6361151976822863D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 404 0.99896483493672106 4.3487769697579393E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 8.1207484145724644E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10511.806640625000 max vel inside fraction of cutoff 3892.5009434594535 max c/cs inside fraction of cutoff 2.7077503943326047 average v/vesc outside cutoff 1.0113499462748812 Kinetic plus potential energy outside cutoff 8.1207484145724644E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010860712535175 check gamma integral 4.7535403053732418E-002 hydro_solver_step returned ierr -1 s% model_number 3541 nz 2687 s% num_retries 239 retry: get_T_tau -- L <= 0 3541 hydro_solver_step returned ierr -1 s% model_number 3545 nz 2687 s% num_retries 240 retry: get_T_tau -- L <= 0 3545 hydro_solver_step returned ierr -1 s% model_number 3549 nz 2687 s% num_retries 241 retry: get_T_tau -- L <= 0 3549 3550 8.844321 3.069E+05 -19.271500 2.691397 51.738871 0.000000 0.000000 0.000000 0.215941 -3.088386 2687 242 -9.6069E+00 8.844321 0.512279 -2.336434 6.757740 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632851 4 2.8742E+05 4.214721 7.927020 2.691393 -18.247508 -2.559958 49.106303 0.000002 0.000000 0.372520 0.460E+03 max increase log_rel_run_E_err -6.4223570146859874 rel_E_err 4.5770012323848765D-12 Using fixed_vsurf 20000.000000000000 save photos/x550 for model 3550 k, q, energy_removed_layers before adjustment is 405 0.99892430765952134 4.5345114286842627E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 8.1657674834698243E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10511.886718750000 max vel inside fraction of cutoff 3892.5083194074828 max c/cs inside fraction of cutoff 2.7089138385696634 average v/vesc outside cutoff 1.0118642449856483 Kinetic plus potential energy outside cutoff 8.1657674834698243E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010718164820325 check gamma integral 4.7542457099325627E-002 hydro_solver_step returned ierr -1 s% model_number 3552 nz 2687 s% num_retries 242 retry: get_T_tau -- L <= 0 3552 hydro_solver_step returned ierr -1 s% model_number 3556 nz 2687 s% num_retries 243 retry: get_T_tau -- L <= 0 3556 hydro_solver_step returned ierr -1 s% model_number 3559 nz 2687 s% num_retries 244 retry: get_T_tau -- L <= 0 3559 3560 8.844112 2.987E+05 -19.272967 2.690797 51.738871 0.000000 0.000000 0.000000 0.215941 -3.088925 2687 245 -9.7181E+00 8.844112 0.512555 -2.345997 6.754123 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632871 4 2.8742E+05 4.214134 7.880469 2.690793 -18.267804 -2.543267 49.106303 0.000002 0.000000 0.372520 0.468E+03 max increase log_rel_run_E_err -6.4223035498040613 rel_E_err 4.6459047430463362D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 405 0.99892430765952134 4.5479325447038093E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 8.2058888162228180E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10511.958984375000 max vel inside fraction of cutoff 3892.5141481338555 max c/cs inside fraction of cutoff 2.7099515697828140 average v/vesc outside cutoff 1.0123230203972078 Kinetic plus potential energy outside cutoff 8.2058888162228180E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010619811649766 check gamma integral 4.7548746343349810E-002 hydro_solver_step returned ierr -1 s% model_number 3563 nz 2687 s% num_retries 245 retry: get_T_tau -- L <= 0 3563 hydro_solver_step returned ierr -1 s% model_number 3567 nz 2687 s% num_retries 246 retry: get_T_tau -- L <= 0 3567 hydro_solver_step returned ierr -1 s% model_number 3570 nz 2687 s% num_retries 247 retry: get_T_tau -- L <= 0 3570 3570 8.843913 2.915E+05 -19.274362 2.690226 51.738871 0.000000 0.000000 0.000000 0.215941 -3.089438 2687 248 -9.8294E+00 8.843913 0.512817 -2.355096 6.750685 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632891 4 2.8742E+05 4.213577 7.838788 2.690222 -18.287110 -2.527679 49.106303 0.000002 0.000000 0.372520 0.476E+03 retry log_rel_run_E_err -6.4222511407316931 rel_E_err 4.6634130035075317D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 405 0.99892430765952134 4.5606900427658610E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 8.2440159626628033E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10512.027343750000 max vel inside fraction of cutoff 3892.5190340670852 max c/cs inside fraction of cutoff 2.7109384856464156 average v/vesc outside cutoff 1.0127593690420560 Kinetic plus potential energy outside cutoff 8.2440159626628033E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010544901336267 check gamma integral 4.7554725265261354E-002 hydro_solver_step returned ierr -1 s% model_number 3575 nz 2687 s% num_retries 248 retry: get_T_tau -- L <= 0 3575 hydro_solver_step returned ierr -1 s% model_number 3578 nz 2687 s% num_retries 249 retry: get_T_tau -- L <= 0 3578 3580 8.843710 2.851E+05 -19.275781 2.689646 51.738871 0.000000 0.000000 0.000000 0.215941 -3.089960 2687 250 -9.6397E+00 8.843710 0.513083 -2.364360 6.747187 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632910 5 2.8742E+05 4.213010 7.801101 2.689642 -18.306762 -2.508459 49.106303 0.000002 0.000000 0.372520 0.483E+03 max increase log_rel_run_E_err -6.4221982440915077 rel_E_err 4.6059933897546272D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 405 0.99892430765952134 4.5736666766990947E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 8.2827874969438544E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10512.097656250000 max vel inside fraction of cutoff 3892.5233467529815 max c/cs inside fraction of cutoff 2.7119428568280668 average v/vesc outside cutoff 1.0132034700196335 Kinetic plus potential energy outside cutoff 8.2827874969438544E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010674469267265 check gamma integral 4.7560807537234913E-002 hydro_solver_step returned ierr -1 s% model_number 3582 nz 2687 s% num_retries 250 retry: get_T_tau -- L <= 0 3582 hydro_solver_step returned ierr -1 s% model_number 3586 nz 2687 s% num_retries 251 retry: get_T_tau -- L <= 0 3586 hydro_solver_step returned ierr -1 s% model_number 3589 nz 2687 s% num_retries 252 retry: get_T_tau -- L <= 0 3589 3590 8.843517 2.789E+05 -19.277139 2.689092 51.738871 0.000000 0.000000 0.000000 0.215941 -3.090459 2687 253 -9.7509E+00 8.843517 0.513338 -2.373225 6.743844 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632929 4 2.8742E+05 4.212468 7.762874 2.689088 -18.325561 -2.495874 49.106303 0.000002 0.000000 0.372520 0.491E+03 max increase log_rel_run_E_err -6.4221452086339035 rel_E_err 4.5734242272550770D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 405 0.99892430765952134 4.5860718600332730E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 8.3198421033751988E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10512.164062500000 max vel inside fraction of cutoff 3892.5268513356332 max c/cs inside fraction of cutoff 2.7129034804352754 average v/vesc outside cutoff 1.0136282614321259 Kinetic plus potential energy outside cutoff 8.3198421033751988E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010586672841971 check gamma integral 4.7566622676357667E-002 hydro_solver_step returned ierr -1 s% model_number 3594 nz 2687 s% num_retries 253 retry: get_T_tau -- L <= 0 3594 hydro_solver_step returned ierr -1 s% model_number 3598 nz 2687 s% num_retries 254 retry: get_T_tau -- L <= 0 3598 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 3600 8.843292 2.720E+05 -19.278719 2.688448 51.738871 0.000000 0.000000 0.000000 0.215941 -3.091040 2687 255 -9.5612E+00 8.843292 0.513635 -2.383548 6.739954 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632950 5 2.8742E+05 4.211837 7.720429 2.688444 -18.347449 -2.476194 49.106303 0.000002 0.000000 0.372520 0.498E+03 max increase log_rel_run_E_err -6.4220921772105690 rel_E_err 4.5331363627692167D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile39.data for model 3600 save photos/x600 for model 3600 k, q, energy_removed_layers before adjustment is 405 0.99892430765952134 4.6005042087845784E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 8.3629396662539624E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10512.240234375000 max vel inside fraction of cutoff 3892.5301608546579 max c/cs inside fraction of cutoff 2.7140216916459483 average v/vesc outside cutoff 1.0141227710715932 Kinetic plus potential energy outside cutoff 8.3629396662539624E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010737362741178 check gamma integral 4.7573388925274171E-002 hydro_solver_step returned ierr -1 s% model_number 3601 nz 2687 s% num_retries 255 retry: get_T_tau -- L <= 0 3601 hydro_solver_step returned ierr -1 s% model_number 3605 nz 2687 s% num_retries 256 retry: get_T_tau -- L <= 0 3605 hydro_solver_step returned ierr -1 s% model_number 3609 nz 2687 s% num_retries 257 retry: get_T_tau -- L <= 0 3609 3610 8.843091 2.659E+05 -19.280127 2.687874 51.738871 0.000000 0.000000 0.000000 0.215941 -3.091558 2687 258 -9.6725E+00 8.843091 0.513900 -2.392756 6.736489 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632970 4 2.8742E+05 4.211274 7.681564 2.687870 -18.366965 -2.465234 49.106303 0.000002 0.000000 0.372520 0.505E+03 max increase log_rel_run_E_err -6.4220387837593513 rel_E_err 4.7812643346436697D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 405 0.99892430765952134 4.6133634004828755E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 8.4013289275975797E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10512.310546875000 max vel inside fraction of cutoff 3892.5324224830483 max c/cs inside fraction of cutoff 2.7150185444272013 average v/vesc outside cutoff 1.0145636539846214 Kinetic plus potential energy outside cutoff 8.4013289275975797E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010634496562892 check gamma integral 4.7579418388648466E-002 hydro_solver_step returned ierr -1 s% model_number 3613 nz 2687 s% num_retries 258 retry: get_T_tau -- L <= 0 3613 hydro_solver_step returned ierr -1 s% model_number 3617 nz 2687 s% num_retries 259 retry: get_T_tau -- L <= 0 3617 3620 8.842856 2.594E+05 -19.281777 2.687202 51.738871 0.000000 0.000000 0.000000 0.215941 -3.092164 2687 260 -9.4827E+00 8.842856 0.514210 -2.403551 6.732431 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632992 6 2.8742E+05 4.210615 7.638754 2.687199 -18.389837 -2.448245 49.106303 0.000002 0.000000 0.372520 0.512E+03 max increase log_rel_run_E_err -6.4219863918913891 rel_E_err 4.5116745854470380D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 405 0.99892430765952134 4.6284219529274570E+048 k, q, energy_removed_layers after adjustment is 442 0.99599277088939964 8.4462708082272649E+048 Layers above q= 0.99599277088939964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10512.390625000000 max vel inside fraction of cutoff 3892.5342361176081 max c/cs inside fraction of cutoff 2.7161865606723046 average v/vesc outside cutoff 1.0150802726073669 Kinetic plus potential energy outside cutoff 8.4462708082272649E+048 mass inside cutoff 442 51.531541880850931 relax counter 0 log max v [km/s]= 4.3010809554728002 check gamma integral 4.7586480014822623E-002 hydro_solver_step returned ierr -1 s% model_number 3621 nz 2687 s% num_retries 260 retry: get_T_tau -- L <= 0 3621 hydro_solver_step returned ierr -1 s% model_number 3625 nz 2687 s% num_retries 261 retry: get_T_tau -- L <= 0 3625 hydro_solver_step returned ierr -1 s% model_number 3629 nz 2687 s% num_retries 262 retry: get_T_tau -- L <= 0 3629 3630 8.842616 2.524E+05 -19.283461 2.686517 51.738871 0.000000 0.000000 0.000000 0.215941 -3.092783 2687 263 -9.5940E+00 8.842616 0.514526 -2.414580 6.728289 -99.000000 51.738871 0.000000 0.060585 0.784059 0.633016 4 2.8742E+05 4.209943 7.592303 2.686514 -18.413200 -2.436428 49.106303 0.000002 0.000000 0.372520 0.520E+03 max increase log_rel_run_E_err -6.4219339359759875 rel_E_err 4.4030479818424598D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 406 0.99886250606280713 4.8204739064866738E+048 k, q, energy_removed_layers after adjustment is 443 0.99577160374508333 8.4927144252694474E+048 Layers above q= 0.99577160374508333 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10512.474609375000 max vel inside fraction of cutoff 3892.5351642720611 max c/cs inside fraction of cutoff 2.7173793499101713 average v/vesc outside cutoff 0.99711783575941171 Kinetic plus potential energy outside cutoff 8.4927144252694474E+048 mass inside cutoff 443 51.520098942414911 relax counter 0 log max v [km/s]= 4.3010688524930885 check gamma integral 4.7593688138371636E-002 hydro_solver_step returned ierr -1 s% model_number 3633 nz 2687 s% num_retries 263 retry: get_T_tau -- L <= 0 3633 hydro_solver_step returned ierr -1 s% model_number 3637 nz 2687 s% num_retries 264 retry: get_T_tau -- L <= 0 3637 3640 8.842334 2.449E+05 -19.285434 2.685716 51.738871 0.000000 0.000000 0.000000 0.215941 -3.093508 2687 265 -9.4042E+00 8.842334 0.514897 -2.427509 6.723440 -99.000000 51.738871 0.000000 0.060585 0.784059 0.633043 5 2.8742E+05 4.209155 7.540201 2.685713 -18.440577 -2.419957 49.106303 0.000002 0.000000 0.372520 0.527E+03 max increase log_rel_run_E_err -6.4218811665003601 rel_E_err 4.5416080530337662D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 406 0.99886250606280713 4.8393088537969978E+048 k, q, energy_removed_layers after adjustment is 443 0.99577160374508333 8.5481527203910519E+048 Layers above q= 0.99577160374508333 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10512.570312500000 max vel inside fraction of cutoff 3892.5350576497408 max c/cs inside fraction of cutoff 2.7187767793933100 average v/vesc outside cutoff 0.99772195231383021 Kinetic plus potential energy outside cutoff 8.5481527203910519E+048 mass inside cutoff 443 51.520098942414911 relax counter 0 log max v [km/s]= 4.3010889495333098 check gamma integral 4.7602128542859855E-002 hydro_solver_step returned ierr -1 s% model_number 3642 nz 2687 s% num_retries 265 retry: get_T_tau -- L <= 0 3642 hydro_solver_step returned ierr -1 s% model_number 3645 nz 2687 s% num_retries 266 retry: get_T_tau -- L <= 0 3645 3650 8.841975 2.352E+05 -19.287958 2.684692 51.738871 0.000000 0.000000 0.000000 0.215941 -3.094435 2687 267 -9.2145E+00 8.841975 0.515371 -2.444061 6.717242 -99.000000 51.738871 0.000000 0.060585 0.784059 0.633078 6 2.8742E+05 4.208148 7.470840 2.684689 -18.475612 -2.401028 49.106303 0.000002 0.000000 0.372520 0.535E+03 max increase log_rel_run_E_err -6.4218282589488034 rel_E_err 4.8588277946881484D-12 Using fixed_vsurf 20000.000000000000 save photos/x650 for model 3650 k, q, energy_removed_layers before adjustment is 406 0.99886250606280713 4.8633835389564479E+048 k, q, energy_removed_layers after adjustment is 443 0.99577160374508333 8.6189843580064095E+048 Layers above q= 0.99577160374508333 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10512.699218750000 max vel inside fraction of cutoff 3892.5330330780657 max c/cs inside fraction of cutoff 2.7205646056558495 average v/vesc outside cutoff 0.99849488415436050 Kinetic plus potential energy outside cutoff 8.6189843580064095E+048 mass inside cutoff 443 51.520098942414911 relax counter 0 log max v [km/s]= 4.3011188557398894 check gamma integral 4.7612919530381284E-002 hydro_solver_step returned ierr -1 s% model_number 3651 nz 2686 s% num_retries 267 retry: get_T_tau -- L <= 0 3651 hydro_solver_step returned ierr -1 s% model_number 3655 nz 2687 s% num_retries 268 retry: get_T_tau -- L <= 0 3655 3660 8.841453 2.222E+05 -19.291625 2.683208 51.738871 0.000000 0.000000 0.000000 0.215941 -3.095782 2687 269 -9.0247E+00 8.841453 0.516060 -2.468141 6.708246 -99.000000 51.738871 0.000000 0.060585 0.784059 0.633128 6 2.8742E+05 4.206685 7.374006 2.683205 -18.526547 -2.380202 49.106303 0.000002 0.000000 0.372520 0.543E+03 max increase log_rel_run_E_err -6.4217757124203576 rel_E_err 4.5698471511744688D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 406 0.99886250606280713 4.8983274508666595E+048 k, q, energy_removed_layers after adjustment is 443 0.99577160374508333 8.7217367401512624E+048 Layers above q= 0.99577160374508333 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10512.880859375000 max vel inside fraction of cutoff 3892.5262974119814 max c/cs inside fraction of cutoff 2.7231629833716160 average v/vesc outside cutoff 0.99961830399157647 Kinetic plus potential energy outside cutoff 8.7217367401512624E+048 mass inside cutoff 443 51.520098942414911 relax counter 0 log max v [km/s]= 4.3011621592238152 check gamma integral 4.7628588006485430E-002 hydro_solver_step returned ierr -1 s% model_number 3668 nz 2686 s% num_retries 269 retry: get_T_tau -- L <= 0 3668 3670 8.839457 1.824E+05 -19.305648 2.677561 51.738871 0.000000 0.000000 0.000000 0.215941 -3.100932 2686 270 -8.5339E+00 8.839457 0.518698 -2.560606 6.673937 -99.000000 51.738871 0.000000 0.060585 0.784059 0.633321 6 2.8742E+05 4.201094 7.035878 2.677558 -18.721727 -2.322727 49.106303 0.000002 0.000000 0.372520 0.556E+03 max increase log_rel_run_E_err -6.4217227439120608 rel_E_err 4.6189831508662701D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 406 0.99879862837373934 5.1470345797233668E+048 k, q, energy_removed_layers after adjustment is 443 0.99560312021138109 9.1186300087695892E+048 Layers above q= 0.99560312021138109 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10513.576171875000 max vel inside fraction of cutoff 3883.7678595870348 max c/cs inside fraction of cutoff 2.7230111075145675 average v/vesc outside cutoff 0.99735933542886002 Kinetic plus potential energy outside cutoff 9.1186300087695892E+048 mass inside cutoff 443 51.511381794532944 relax counter 0 log max v [km/s]= 4.3013752193658261 check gamma integral 4.7688417243464641E-002 hydro_solver_step returned ierr -1 s% model_number 3671 nz 2686 s% num_retries 270 retry: get_T_tau -- L <= 0 3671 hydro_solver_step returned ierr -1 s% model_number 3675 nz 2686 s% num_retries 271 retry: get_T_tau -- L <= 0 3675 3680 8.836990 1.611E+05 -19.323057 2.670631 51.738871 0.000000 0.000000 0.000000 0.215941 -3.107301 2686 272 -8.3442E+00 8.836990 0.521966 -2.675819 6.631689 -99.000000 51.738871 0.000000 0.060585 0.784059 0.633559 5 2.8742E+05 4.194184 6.826684 2.670629 -18.964180 -2.280217 49.106303 0.000002 0.000000 0.372520 0.571E+03 max increase log_rel_run_E_err -6.4216716266270080 rel_E_err 4.4734572766172260D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 408 0.99871658637154159 5.5901957289843571E+048 k, q, energy_removed_layers after adjustment is 444 0.99544185974423760 9.6176147398639204E+048 Layers above q= 0.99544185974423760 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10514.441406250000 max vel inside fraction of cutoff 3873.1482247427898 max c/cs inside fraction of cutoff 2.7219005522784538 average v/vesc outside cutoff 0.98683202366930300 Kinetic plus potential energy outside cutoff 9.6176147398639204E+048 mass inside cutoff 444 51.503038359962723 relax counter 0 log max v [km/s]= 4.3014636792703920 check gamma integral 4.7762265580948801E-002 3690 8.824736 1.484E+05 -19.409721 2.636777 51.738871 0.000000 0.000000 0.000000 0.215941 -3.139055 2681 272 -7.5524E+00 8.824736 0.538356 -3.265195 6.425242 -99.000000 51.738871 0.000000 0.060585 0.784059 0.634737 5 2.8742E+05 4.159843 6.716607 2.636777 -20.188152 -2.258288 49.106303 0.000002 0.000000 0.372520 0.592E+03 lgRho_cntr log_rel_run_E_err -6.4216202791212549 rel_E_err 4.4725153004923022D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 411 0.99826995045993672 7.8433768704149193E+048 k, q, energy_removed_layers after adjustment is 445 0.99463855223496300 1.2239525505625391E+049 Layers above q= 0.99463855223496300 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10518.890625000000 max vel inside fraction of cutoff 3835.4958347717197 max c/cs inside fraction of cutoff 2.7407500035973023 average v/vesc outside cutoff 0.99893467644719247 Kinetic plus potential energy outside cutoff 1.2239525505625391E+049 mass inside cutoff 445 51.461476136051779 relax counter 0 log max v [km/s]= 4.3017991637949100 check gamma integral 4.8127782130350204E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 3700 8.804926 1.347E+05 -19.551181 2.583174 51.738871 0.000000 0.000000 0.000000 0.215941 -3.190552 2679 272 -7.6403E+00 8.804926 0.565322 -4.274610 6.109550 -99.000000 51.738871 0.000000 0.060585 0.784059 0.636667 5 2.8742E+05 4.104366 6.602241 2.583174 -22.237490 -2.275029 49.106303 0.000002 0.000000 0.372520 0.623E+03 lgRho_cntr log_rel_run_E_err -6.4215715803223548 rel_E_err 4.1867343374080702D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile40.data for model 3700 save photos/x700 for model 3700 k, q, energy_removed_layers before adjustment is 419 0.99749747504248898 1.1997176294328192E+049 k, q, energy_removed_layers after adjustment is 449 0.99348455788305667 1.6927087034957407E+049 Layers above q= 0.99348455788305667 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10526.587890625000 max vel inside fraction of cutoff 3774.9810447973009 max c/cs inside fraction of cutoff 2.7840631347721820 average v/vesc outside cutoff 1.0303180429134686 Kinetic plus potential energy outside cutoff 1.6927087034957407E+049 mass inside cutoff 449 51.401769770690890 relax counter 0 log max v [km/s]= 4.3010300754865520 check gamma integral 4.8713951039681749E-002 3710 8.784539 1.175E+05 -19.699702 2.528536 51.738871 0.000000 0.000000 0.000000 0.215941 -3.243688 2676 272 -7.4568E+00 8.784539 0.593703 -5.389868 5.818477 -99.000000 51.738871 0.000000 0.060585 0.784059 0.638698 5 2.8742E+05 4.047355 6.422723 2.528536 -24.441035 -2.304947 49.106303 0.000002 0.000000 0.372520 0.672E+03 lgRho_cntr log_rel_run_E_err -6.4215253240283561 rel_E_err 3.8823154871709289D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 425 0.99668859110991281 1.7013140689987406E+049 k, q, energy_removed_layers after adjustment is 452 0.99216590294454288 2.2182444524796519E+049 Layers above q= 0.99216590294454288 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10535.220703125000 max vel inside fraction of cutoff 3698.6218943586568 max c/cs inside fraction of cutoff 2.8189477252734214 average v/vesc outside cutoff 1.0293401733618133 Kinetic plus potential energy outside cutoff 2.2182444524796519E+049 mass inside cutoff 452 51.333544052416116 relax counter 0 log max v [km/s]= 4.3010300007482112 check gamma integral 4.9312142380220789E-002 3720 8.764703 1.044E+05 -19.845061 2.475519 51.738871 0.000000 0.000000 0.000000 0.215941 -3.295504 2674 272 -7.5526E+00 8.764703 0.622014 -6.556143 5.573996 -99.000000 51.738871 0.000000 0.060585 0.784059 0.640721 5 2.8742E+05 3.991968 6.274317 2.475519 -26.681646 -2.357297 49.106303 0.000002 0.000000 0.372520 0.717E+03 lgRho_cntr log_rel_run_E_err -6.4214816804974939 rel_E_err 3.7029020219438115D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 430 0.99560312021138109 2.2462755288067558E+049 k, q, energy_removed_layers after adjustment is 456 0.99088143485565250 2.7579623785753939E+049 Layers above q= 0.99088143485565250 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10544.414062500000 max vel inside fraction of cutoff 3619.5542735547019 max c/cs inside fraction of cutoff 2.8506762139740842 average v/vesc outside cutoff 1.0515371598297731 Kinetic plus potential energy outside cutoff 2.7579623785753939E+049 mass inside cutoff 456 51.267087123157317 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9890563530789009E-002 3730 8.743862 9.296E+04 -19.997284 2.419849 51.738871 0.000000 0.000000 0.000000 0.215941 -3.350080 2670 272 -7.4494E+00 8.743862 0.652626 -7.877610 5.354636 -99.000000 51.738871 0.000000 0.060585 0.784059 0.642892 5 2.8742E+05 3.933851 6.133057 2.419849 -29.143468 -2.422186 49.106303 0.000002 0.000000 0.372520 0.764E+03 lgRho_cntr log_rel_run_E_err -6.4214403242649016 rel_E_err 3.5696125151134961D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 433 0.99463855223496311 2.8011376444351654E+049 k, q, energy_removed_layers after adjustment is 457 0.98970574312099890 3.3399543505272074E+049 Layers above q= 0.98970574312099890 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10555.050781250000 max vel inside fraction of cutoff 3548.3006583975721 max c/cs inside fraction of cutoff 2.9029652460450603 average v/vesc outside cutoff 1.0725239431518263 Kinetic plus potential energy outside cutoff 3.3399543505272074E+049 mass inside cutoff 457 51.206258159700909 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0495617808620420E-002 3740 8.723898 8.463E+04 -20.147345 2.366536 51.738871 0.000000 0.000000 0.000000 0.215941 -3.402456 2673 272 -7.3989E+00 8.723898 0.682895 -9.245448 5.170735 -99.000000 51.738871 0.000000 0.060585 0.784059 0.645020 5 2.8742E+05 3.878264 6.030567 2.366536 -31.610099 -2.499089 49.106303 0.000002 0.000000 0.372520 0.803E+03 max increase log_rel_run_E_err -6.4214014675704219 rel_E_err 3.3546180202706229D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 442 0.99348455788305678 3.4242587680381334E+049 k, q, energy_removed_layers after adjustment is 464 0.98844622173424479 3.9015698935594011E+049 Layers above q= 0.98844622173424479 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10566.332031250000 max vel inside fraction of cutoff 3465.4424919037210 max c/cs inside fraction of cutoff 2.9468098822671123 average v/vesc outside cutoff 1.0836540804529644 Kinetic plus potential energy outside cutoff 3.9015698935594011E+049 mass inside cutoff 464 51.141091944655606 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.1073239096211101E-002 3750 8.703254 7.781E+04 -20.303061 2.311411 51.738871 0.000000 0.000000 0.000000 0.215941 -3.456724 2673 272 -7.4148E+00 8.703254 0.715346 -10.778556 4.996775 -99.000000 51.738871 0.000000 0.060585 0.784059 0.647266 5 2.8742E+05 3.820863 5.949519 2.311411 -34.277636 -2.591131 49.106303 0.000002 0.000000 0.372520 0.838E+03 lgRho_cntr log_rel_run_E_err -6.4213651223405934 rel_E_err 3.1296457621889895D-12 Using fixed_vsurf 20000.000000000000 save photos/x750 for model 3750 k, q, energy_removed_layers before adjustment is 447 0.99239644442797803 4.0071058799373924E+049 k, q, energy_removed_layers after adjustment is 469 0.98725532041165898 4.4760776576287321E+049 Layers above q= 0.98725532041165898 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10579.335937500000 max vel inside fraction of cutoff 3367.0409231582885 max c/cs inside fraction of cutoff 2.9833528852342908 average v/vesc outside cutoff 1.1092359666041813 Kinetic plus potential energy outside cutoff 4.4760776576287321E+049 mass inside cutoff 469 51.079476054285252 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.1669238898272955E-002 3760 8.682472 7.201E+04 -20.462513 2.255924 51.738871 0.000000 0.000000 0.000000 0.215941 -3.511445 2668 272 -7.3039E+00 8.682472 0.749417 -12.458454 4.830285 -99.000000 51.738871 0.000000 0.060585 0.784059 0.649577 5 2.8742E+05 3.763161 5.883129 2.255924 -37.088988 -2.693816 49.106303 0.000002 0.000000 0.372520 0.872E+03 lgRho_cntr log_rel_run_E_err -6.4213305433940810 rel_E_err 2.9080623934039332D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 447 0.99130150371291859 4.5891849275379583E+049 k, q, energy_removed_layers after adjustment is 467 0.98611881343028773 5.0404979710567066E+049 Layers above q= 0.98611881343028773 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10594.076171875000 max vel inside fraction of cutoff 3265.6351882987196 max c/cs inside fraction of cutoff 3.0143707236139430 average v/vesc outside cutoff 1.1298793180246205 Kinetic plus potential energy outside cutoff 5.0404979710567066E+049 mass inside cutoff 467 51.020674465739468 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.2268604543764627E-002 3770 8.662589 6.783E+04 -20.618695 2.202848 51.738871 0.000000 0.000000 0.000000 0.215941 -3.563865 2663 272 -7.2426E+00 8.662589 0.783606 -14.199693 4.674686 -99.000000 51.738871 0.000000 0.060585 0.784059 0.651837 5 2.8742E+05 3.708037 5.847655 2.202848 -39.902985 -2.807010 49.106303 0.000002 0.000000 0.372520 0.896E+03 max increase log_rel_run_E_err -6.4212981405266065 rel_E_err 2.7792915688901100D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 447 0.99026957269994864 5.1332398904776370E+049 k, q, energy_removed_layers after adjustment is 466 0.98501059772496680 5.5603892868804806E+049 Layers above q= 0.98501059772496680 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10610.076171875000 max vel inside fraction of cutoff 3165.8080274357349 max c/cs inside fraction of cutoff 3.0556567693078085 average v/vesc outside cutoff 1.1397787093303529 Kinetic plus potential energy outside cutoff 5.5603892868804806E+049 mass inside cutoff 466 50.963336635886783 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.2842172608218878E-002 3780 8.642090 6.431E+04 -20.778670 2.148137 51.738871 0.000000 0.000000 0.000000 0.215941 -3.617981 2663 272 -7.2435E+00 8.642090 0.820911 -16.081030 4.515721 -99.000000 51.738871 0.000000 0.060585 0.784059 0.654215 5 2.8742E+05 3.651284 5.829633 2.148137 -42.937429 -2.936659 49.106303 0.000002 0.000000 0.372520 0.917E+03 lgRho_cntr log_rel_run_E_err -6.4212677628879984 rel_E_err 2.5812409472282488D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 449 0.98919272275145598 5.6857470261578242E+049 k, q, energy_removed_layers after adjustment is 468 0.98407329471723370 6.0754020335172973E+049 Layers above q= 0.98407329471723370 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10629.035156250000 max vel inside fraction of cutoff 3044.0878932741821 max c/cs inside fraction of cutoff 3.0760235109981311 average v/vesc outside cutoff 1.1721137709965124 Kinetic plus potential energy outside cutoff 6.0754020335172973E+049 mass inside cutoff 468 50.914841636113934 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.3434596059346147E-002 3790 8.621533 6.096E+04 -20.943494 2.093286 51.738871 0.000000 0.000000 0.000000 0.215941 -3.672307 2661 272 -7.1161E+00 8.621533 0.861040 -17.865906 4.356669 -99.000000 51.738871 0.000000 0.060585 0.784059 0.656649 5 2.8742E+05 3.594453 5.817002 2.093286 -46.123086 -3.071588 49.106303 0.000002 0.000000 0.372520 0.948E+03 lgRho_cntr log_rel_run_E_err -6.4212394224137119 rel_E_err 2.4089821478870634D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 451 0.98796140471892291 6.2379470936610160E+049 k, q, energy_removed_layers after adjustment is 468 0.98285365360715315 6.5685352893087204E+049 Layers above q= 0.98285365360715315 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10651.332031250000 max vel inside fraction of cutoff 2926.4969844529496 max c/cs inside fraction of cutoff 3.1056702054882175 average v/vesc outside cutoff 1.1880375967243531 Kinetic plus potential energy outside cutoff 6.5685352893087204E+049 mass inside cutoff 468 50.851738781574532 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.4030871528460929E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 3800 8.601193 5.774E+04 -21.105743 2.040222 51.738871 0.000000 0.000000 0.000000 0.215941 -3.726104 2661 272 -6.9504E+00 8.601193 0.904441 -19.535776 4.199129 -99.000000 51.738871 0.000000 0.060585 0.784059 0.659109 5 2.8742E+05 3.538303 5.809621 2.040222 -49.422856 -3.206328 49.106303 0.000002 0.000000 0.372520 0.998E+03 lgRho_cntr log_rel_run_E_err -6.4212123970204136 rel_E_err 2.3250177420414009D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile41.data for model 3800 save photos/x800 for model 3800 k, q, energy_removed_layers before adjustment is 451 0.98689273381306086 6.7350914387335831E+049 k, q, energy_removed_layers after adjustment is 466 0.98227662483497125 7.0332435572132866E+049 Layers above q= 0.98227662483497125 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10677.878906250000 max vel inside fraction of cutoff 2817.7907927707197 max c/cs inside fraction of cutoff 3.1676739861230265 average v/vesc outside cutoff 1.2332219238257245 Kinetic plus potential energy outside cutoff 7.0332435572132866E+049 mass inside cutoff 466 50.821883964140874 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.4624327503127700E-002 3810 8.580708 5.456E+04 -21.273464 1.992338 51.738871 0.000000 0.000000 0.000000 0.215941 -3.780318 2666 272 -6.8502E+00 8.580708 0.953782 -21.384835 4.040056 -99.000000 51.738871 0.000000 0.060585 0.784059 0.661638 5 2.8742E+05 3.481836 5.809605 1.992338 -52.901756 -3.346725 49.106303 0.000002 0.000000 0.372520 0.108E+04 lgRho_cntr log_rel_run_E_err -6.4211870557723891 rel_E_err 2.1194369961268576D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 457 0.98573416226795285 7.2305638243114187E+049 k, q, energy_removed_layers after adjustment is 470 0.98152490450838004 7.4804302059534047E+049 Layers above q= 0.98152490450838004 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10711.462890625000 max vel inside fraction of cutoff 2693.9131016404845 max c/cs inside fraction of cutoff 3.2321188437730402 average v/vesc outside cutoff 1.2687109621134671 Kinetic plus potential energy outside cutoff 7.4804302059534047E+049 mass inside cutoff 470 50.782990802840288 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.5227294569188179E-002 3820 8.560450 5.129E+04 -21.440768 1.944812 51.738871 0.000000 0.000000 0.000000 0.215941 -3.833951 2674 272 -6.7796E+00 8.560450 1.012663 -23.634240 3.882092 -99.000000 51.738871 0.000000 0.060585 0.784059 0.664190 5 2.8742E+05 3.426081 5.820060 1.944812 -56.503329 -3.501921 49.099817 0.000002 0.000000 0.372520 0.121E+04 lgRho_cntr log_rel_run_E_err -6.4211636762059339 rel_E_err 1.9637453719066948D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 463 0.98452563843030416 7.7190032587971098E+049 k, q, energy_removed_layers after adjustment is 476 0.98046804990613634 7.9144308321184702E+049 Layers above q= 0.98046804990613634 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10756.873046875000 max vel inside fraction of cutoff 2504.3375195266935 max c/cs inside fraction of cutoff 3.2155924787957990 average v/vesc outside cutoff 1.3027808707341659 Kinetic plus potential energy outside cutoff 7.9144308321184702E+049 mass inside cutoff 476 50.728310338494282 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.5832238932392711E-002 3830 8.541310 4.735E+04 -21.601797 1.899756 51.738871 0.000000 0.000000 0.000000 0.215941 -3.884628 2687 272 -6.4362E+00 8.541310 1.096151 -26.880768 3.731631 -99.000000 51.738871 0.000000 0.060585 0.784059 0.666652 5 2.8742E+05 3.373480 5.848353 1.899756 -60.061332 -3.711306 49.099817 0.000002 0.000000 0.372520 0.145E+04 lgRho_cntr log_rel_run_E_err -6.4211416461243527 rel_E_err 2.0136344610202110D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 466 0.98307279112233459 8.2655148157270804E+049 k, q, energy_removed_layers after adjustment is 478 0.97961250613648232 8.3949736063930731E+049 Layers above q= 0.97961250613648232 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10832.783203125000 max vel inside fraction of cutoff 2305.9096005131246 max c/cs inside fraction of cutoff 3.3080409981535426 average v/vesc outside cutoff 1.3656053229090881 Kinetic plus potential energy outside cutoff 8.3949736063930731E+049 mass inside cutoff 478 50.684045469425548 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.6422171389293993E-002 hydro_solver_step returned ierr -1 s% model_number 3839 nz 2747 s% num_retries 272 retry: get_T_tau -- L <= 0 3839 3840 8.545168 4.498E+04 -21.572282 1.908752 51.738871 0.000000 0.000000 0.000000 0.215941 -3.874584 2737 273 -6.3577E+00 8.545168 1.232690 -31.853807 3.757807 -99.000000 51.738871 0.000000 0.060585 0.784059 0.666114 5 2.8742E+05 3.384004 6.032032 1.908752 -59.335115 -4.112682 49.099817 0.000002 0.000000 0.372520 0.181E+04 max increase log_rel_run_E_err -6.4211206515053032 rel_E_err 1.7892289546513002D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 476 0.98128500321062195 8.8445192456891303E+049 k, q, energy_removed_layers after adjustment is 485 0.97880587417810405 8.9114534391985037E+049 Layers above q= 0.97880587417810405 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -10993.136718750000 max vel inside fraction of cutoff 1964.0527062968702 max c/cs inside fraction of cutoff 3.2058557281634767 average v/vesc outside cutoff 1.4978824228232368 Kinetic plus potential energy outside cutoff 8.9114534391985037E+049 mass inside cutoff 485 50.642311242269976 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.6370370413664272E-002 3850 8.568947 4.552E+04 -21.374058 1.964389 51.738871 0.000000 0.000000 0.000000 0.215941 -3.812246 2802 273 -6.7211E+00 8.568947 1.295143 -31.608944 3.940572 -99.000000 51.738871 0.000000 0.060585 0.784059 0.662940 5 2.8742E+05 3.449115 6.177632 1.964389 -54.979214 -4.382893 49.084512 0.000002 0.000000 0.372520 0.178E+04 lgRho_cntr log_rel_run_E_err -6.4210993161217589 rel_E_err 1.8611469793091924D-12 Using fixed_vsurf 20000.000000000000 save photos/x850 for model 3850 k, q, energy_removed_layers before adjustment is 477 0.98046804990613656 9.0277610351786998E+049 k, q, energy_removed_layers after adjustment is 485 0.97848322139475308 9.0695349461307461E+049 Layers above q= 0.97848322139475308 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11085.066406250000 max vel inside fraction of cutoff 1823.2141895263881 max c/cs inside fraction of cutoff 3.2183540108646933 average v/vesc outside cutoff 1.5624608045807340 Kinetic plus potential energy outside cutoff 9.0695349461307461E+049 mass inside cutoff 485 50.625617551407764 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.5715181196273215E-002 3860 8.588527 4.612E+04 -21.212701 2.010059 51.738871 0.000000 0.000000 0.000000 0.215941 -3.760871 2820 273 -6.8562E+00 8.588527 1.325651 -30.966142 4.091374 -99.000000 51.738871 0.000000 0.060585 0.784059 0.660394 5 2.8742E+05 3.502841 6.261522 2.010059 -51.562862 -4.520254 49.084512 0.000002 0.000000 0.372520 0.175E+04 lgRho_cntr log_rel_run_E_err -6.4210770595203170 rel_E_err 2.0204164018804880D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 476 0.98046804990613634 9.0882119564960253E+049 k, q, energy_removed_layers after adjustment is 484 0.97848322139475286 9.1339208537237990E+049 Layers above q= 0.97848322139475286 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11135.009765625000 max vel inside fraction of cutoff 1755.3423366472200 max c/cs inside fraction of cutoff 3.2210672584830151 average v/vesc outside cutoff 1.5988733525517544 Kinetic plus potential energy outside cutoff 9.1339208537237990E+049 mass inside cutoff 484 50.625617551407757 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.5164414558434086E-002 3870 8.607612 4.671E+04 -21.058009 2.055421 51.738871 0.000000 0.000000 0.000000 0.215941 -3.710809 2833 273 -6.9427E+00 8.607612 1.348203 -30.355842 4.238360 -99.000000 51.738871 0.000000 0.060585 0.784059 0.657960 5 2.8742E+05 3.555288 6.328794 2.055421 -48.374019 -4.623800 49.084512 0.000002 0.000000 0.372520 0.173E+04 lgRho_cntr log_rel_run_E_err -6.4210541473088165 rel_E_err 2.0239937197066643D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 479 0.98027650787340914 9.1360171476857460E+049 k, q, energy_removed_layers after adjustment is 487 0.97830258300531403 9.1765509827511226E+049 Layers above q= 0.97830258300531403 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11174.255859375000 max vel inside fraction of cutoff 1704.1137355246151 max c/cs inside fraction of cutoff 3.2182755080071104 average v/vesc outside cutoff 1.6129005998971120 Kinetic plus potential energy outside cutoff 9.1765509827511226E+049 mass inside cutoff 487 50.616271525008038 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.4621451980750572E-002 3880 8.626469 4.728E+04 -20.908770 2.105495 51.738871 0.000000 0.000000 0.000000 0.215941 -3.661372 2841 273 -7.0090E+00 8.626469 1.366327 -29.773817 4.383604 -99.000000 51.738871 0.000000 0.060585 0.784059 0.655602 5 2.8742E+05 3.607181 6.386029 2.105495 -45.354376 -4.708410 49.084512 0.000002 0.000000 0.372520 0.172E+04 lgRho_cntr log_rel_run_E_err -6.4210303114097140 rel_E_err 2.1009926462542001D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 478 0.98008450662696245 9.1749527676777444E+049 k, q, energy_removed_layers after adjustment is 485 0.97830258300531403 9.2080939498326778E+049 Layers above q= 0.97830258300531403 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11207.306640625000 max vel inside fraction of cutoff 1663.1320611227650 max c/cs inside fraction of cutoff 3.2134970186244218 average v/vesc outside cutoff 1.6353132099335159 Kinetic plus potential energy outside cutoff 9.2080939498326778E+049 mass inside cutoff 485 50.616271525008038 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.4080840514263387E-002 3890 8.645184 4.782E+04 -20.758586 2.155256 51.738871 0.000000 0.000000 0.000000 0.215941 -3.612343 2860 273 -7.0640E+00 8.645184 1.381527 -29.218049 4.527934 -99.000000 51.738871 0.000000 0.060585 0.784059 0.653306 5 2.8742E+05 3.658753 6.436235 2.155256 -42.480637 -4.780460 49.084512 0.000002 0.000000 0.372520 0.170E+04 lgRho_cntr log_rel_run_E_err -6.4210048496540422 rel_E_err 2.3306715682673576D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 482 0.97984887192176584 9.2067365771004096E+049 k, q, energy_removed_layers after adjustment is 488 0.97830258300531392 9.2327235222456401E+049 Layers above q= 0.97830258300531392 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11236.105468750000 max vel inside fraction of cutoff 1629.0286477940244 max c/cs inside fraction of cutoff 3.2078281302632949 average v/vesc outside cutoff 1.6544036399588971 Kinetic plus potential energy outside cutoff 9.2327235222456401E+049 mass inside cutoff 488 50.616271525008038 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.3541099957445985E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 3900 8.663796 4.834E+04 -20.613209 2.204760 51.738871 0.000000 0.000000 0.000000 0.215941 -3.563624 2880 273 -7.1114E+00 8.663796 1.394620 -28.687335 4.672057 -99.000000 51.738871 0.000000 0.060585 0.784059 0.651065 5 2.8742E+05 3.710115 6.481188 2.204760 -39.738974 -4.843432 49.084512 0.000002 0.000000 0.372520 0.168E+04 lgRho_cntr log_rel_run_E_err -6.4209783456751222 rel_E_err 2.3681363598128690D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile42.data for model 3900 save photos/x900 for model 3900 k, q, energy_removed_layers before adjustment is 481 0.97984887192176584 9.2260852557053275E+049 k, q, energy_removed_layers after adjustment is 488 0.97812153130588952 9.2527709058776425E+049 Layers above q= 0.97812153130588952 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11261.734375000000 max vel inside fraction of cutoff 1586.4697189622552 max c/cs inside fraction of cutoff 3.1687101699463081 average v/vesc outside cutoff 1.6650391537837665 Kinetic plus potential energy outside cutoff 9.2527709058776425E+049 mass inside cutoff 488 50.606904114416139 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.3001656650245997E-002 3910 8.682328 4.884E+04 -20.470821 2.254063 51.738871 0.000000 0.000000 0.000000 0.215941 -3.515167 2898 273 -7.1535E+00 8.682328 1.406111 -28.180431 4.816996 -99.000000 51.738871 0.000000 0.060585 0.784059 0.648877 4 2.8742E+05 3.761324 6.522078 2.254063 -37.119576 -4.899500 49.084512 0.000002 0.000000 0.372520 0.167E+04 lgRho_cntr log_rel_run_E_err -6.4209508049191220 rel_E_err 2.5161103463075846D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 481 0.97984887192176595 9.2421359263155543E+049 k, q, energy_removed_layers after adjustment is 488 0.97812153130588964 9.2694680576409106E+049 Layers above q= 0.97812153130588964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11284.871093750000 max vel inside fraction of cutoff 1560.7600930732015 max c/cs inside fraction of cutoff 3.1615658244208880 average v/vesc outside cutoff 1.6797342639795076 Kinetic plus potential energy outside cutoff 9.2694680576409106E+049 mass inside cutoff 488 50.606904114416139 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.2462169773854928E-002 3920 8.700792 4.933E+04 -20.327305 2.303193 51.738871 0.000000 0.000000 0.000000 0.215941 -3.466948 2912 273 -7.1914E+00 8.700792 1.416337 -27.695535 4.964559 -99.000000 51.738871 0.000000 0.060585 0.784059 0.646737 4 2.8742E+05 3.812412 6.559762 2.303193 -34.614790 -4.950146 49.084512 0.000002 0.000000 0.372520 0.165E+04 lgRho_cntr log_rel_run_E_err -6.4209216889596279 rel_E_err 2.5558341112982960D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 482 0.97961250613648243 9.2640277565954768E+049 k, q, energy_removed_layers after adjustment is 488 0.97812153130588964 9.2837468076059751E+049 Layers above q= 0.97812153130588964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11305.984375000000 max vel inside fraction of cutoff 1621.0529623314906 max c/cs inside fraction of cutoff 3.1543685310307215 average v/vesc outside cutoff 1.6929664617571125 Kinetic plus potential energy outside cutoff 9.2837468076059751E+049 mass inside cutoff 488 50.606904114416139 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.1922356100009975E-002 3930 8.719193 4.981E+04 -20.189602 2.352167 51.738871 0.000000 0.000000 0.000000 0.215941 -3.418958 2944 273 -7.2257E+00 8.719193 1.425544 -27.230901 5.117964 -99.000000 51.738871 0.000000 0.060585 0.784059 0.644646 4 2.8742E+05 3.863396 6.594892 2.352167 -32.218214 -4.996451 49.084512 0.000002 0.000000 0.372520 0.164E+04 lgRho_cntr log_rel_run_E_err -6.4208913205865548 rel_E_err 2.6140079702011789D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 483 0.97961250613648254 9.2759304337911759E+049 k, q, energy_removed_layers after adjustment is 490 0.97812153130588975 9.2959485289393244E+049 Layers above q= 0.97812153130588975 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11325.425781250000 max vel inside fraction of cutoff 1791.5420520592070 max c/cs inside fraction of cutoff 3.1471986522187367 average v/vesc outside cutoff 1.7049746046843903 Kinetic plus potential energy outside cutoff 9.2959485289393244E+049 mass inside cutoff 490 50.606904114416146 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.1381728191445548E-002 3940 8.737537 5.028E+04 -20.049998 2.400991 51.738871 0.000000 0.000000 0.000000 0.215941 -3.371194 2955 273 -7.2567E+00 8.737537 1.433916 -26.785382 5.282507 -99.000000 51.738871 0.000000 0.060585 0.784059 0.642600 4 2.8742E+05 3.914285 6.627989 2.400991 -29.924195 -5.039257 49.084512 0.000002 0.000000 0.372520 0.162E+04 lgRho_cntr log_rel_run_E_err -6.4208590544802462 rel_E_err 2.7830669565841655D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 484 0.97961250613648254 9.2863582129777350E+049 k, q, energy_removed_layers after adjustment is 491 0.97812153130588975 9.3067142847389077E+049 Layers above q= 0.97812153130588975 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11343.464843750000 max vel inside fraction of cutoff 1965.8299735126834 max c/cs inside fraction of cutoff 3.1401006229544253 average v/vesc outside cutoff 1.7159998100619480 Kinetic plus potential energy outside cutoff 9.3067142847389077E+049 mass inside cutoff 491 50.606904114416146 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0839387735191560E-002 3950 8.755832 5.075E+04 -19.914696 2.449693 51.738871 0.000000 0.000000 0.000000 0.215941 -3.323638 2959 273 -7.2853E+00 8.755832 1.441593 -26.358155 5.465635 -99.000000 51.738871 0.000000 0.060585 0.784059 0.640600 4 2.8742E+05 3.965108 6.659475 2.449693 -27.726539 -5.079218 49.084512 0.000002 0.000000 0.372520 0.161E+04 lgRho_cntr log_rel_run_E_err -6.4208258671393530 rel_E_err 3.0174524675746045D-12 Using fixed_vsurf 20000.000000000000 save photos/x950 for model 3950 k, q, energy_removed_layers before adjustment is 485 0.97961250613648243 9.2955647964758006E+049 k, q, energy_removed_layers after adjustment is 492 0.97812153130588964 9.3162017528972324E+049 Layers above q= 0.97812153130588964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11360.316406250000 max vel inside fraction of cutoff 2147.4472467891460 max c/cs inside fraction of cutoff 3.1330991525756238 average v/vesc outside cutoff 1.7261874490577376 Kinetic plus potential energy outside cutoff 9.3162017528972324E+049 mass inside cutoff 492 50.606904114416139 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0294447092612660E-002 3960 8.774095 5.122E+04 -19.780843 2.498317 51.738871 0.000000 0.000000 0.000000 0.215941 -3.276254 2966 273 -7.3130E+00 8.774095 1.448671 -25.949086 5.675323 -99.000000 51.738871 0.000000 0.060585 0.784059 0.638642 4 2.8742E+05 4.015911 6.689635 2.498317 -25.618824 -5.116782 49.084512 0.000002 0.000000 0.372520 0.160E+04 lgRho_cntr log_rel_run_E_err -6.4207908162697604 rel_E_err 3.0754373301494470D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 486 0.97961250613648243 9.3038065686011944E+049 k, q, energy_removed_layers after adjustment is 493 0.97812153130588964 9.3246902858420688E+049 Layers above q= 0.97812153130588964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11376.115234375000 max vel inside fraction of cutoff 2341.4862202924446 max c/cs inside fraction of cutoff 3.1262203263360124 average v/vesc outside cutoff 1.7356565479255348 Kinetic plus potential energy outside cutoff 9.3246902858420688E+049 mass inside cutoff 493 50.606904114416139 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9747316097610170E-002 3970 8.792329 5.169E+04 -19.647118 2.546861 51.738871 0.000000 0.000000 0.000000 0.215941 -3.229045 3001 273 -7.3402E+00 8.792329 1.455211 -25.558912 5.916418 -99.000000 51.738871 0.000000 0.060585 0.784059 0.636726 4 2.8742E+05 4.066695 6.718639 2.546861 -23.597470 -5.152234 49.084512 0.000002 0.000000 0.372520 0.158E+04 lgRho_cntr log_rel_run_E_err -6.4207537990833972 rel_E_err 3.3083182002079167D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 487 0.97935154010410286 9.3184893721125647E+049 k, q, energy_removed_layers after adjustment is 493 0.97812153130588964 9.3324058554471376E+049 Layers above q= 0.97812153130588964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11390.943359375000 max vel inside fraction of cutoff 2548.1682644861266 max c/cs inside fraction of cutoff 3.1194973850473984 average v/vesc outside cutoff 1.7444776768526593 Kinetic plus potential energy outside cutoff 9.3324058554471376E+049 mass inside cutoff 493 50.606904114416139 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9199892934369077E-002 3980 8.810506 5.216E+04 -19.516467 2.595257 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182082 3017 273 -7.3648E+00 8.810506 1.461282 -25.187254 6.187712 -99.000000 51.738871 0.000000 0.060585 0.784059 0.634854 5 2.8742E+05 4.117392 6.746715 2.595257 -21.661391 -5.185913 49.084512 0.000002 0.000000 0.372520 0.157E+04 lgRho_cntr log_rel_run_E_err -6.4207149809519288 rel_E_err 3.4845315774023773D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 488 0.97935154010410286 9.3252315660411675E+049 k, q, energy_removed_layers after adjustment is 494 0.97812153130588964 9.3393390653967801E+049 Layers above q= 0.97812153130588964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11404.912109375000 max vel inside fraction of cutoff 2777.2155964501380 max c/cs inside fraction of cutoff 3.1129359548026980 average v/vesc outside cutoff 1.7527097054384664 Kinetic plus potential energy outside cutoff 9.3393390653967801E+049 mass inside cutoff 494 50.606904114416139 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8652392522393811E-002 3990 8.828619 5.265E+04 -19.387555 2.643496 51.738871 0.000000 0.000000 0.000000 0.215941 -3.135393 3057 273 -7.3854E+00 8.828619 1.466970 -24.832322 6.482604 -99.000000 51.738871 0.000000 0.060585 0.784059 0.633028 5 2.8742E+05 4.167977 6.774182 2.643496 -19.807080 -5.218256 49.084512 0.000002 0.000000 0.372520 0.155E+04 lgRho_cntr log_rel_run_E_err -6.4206733542623571 rel_E_err 3.6863494573349466D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 487 0.97935154010410286 9.3314440638864496E+049 k, q, energy_removed_layers after adjustment is 493 0.97812153130588964 9.3457464933746302E+049 Layers above q= 0.97812153130588964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11418.175781250000 max vel inside fraction of cutoff 3029.3249356069500 max c/cs inside fraction of cutoff 3.1065044046745984 average v/vesc outside cutoff 1.7604826083516871 Kinetic plus potential energy outside cutoff 9.3457464933746302E+049 mass inside cutoff 493 50.606904114416139 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8102048657218413E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 4000 8.846681 5.315E+04 -19.260196 2.691740 51.738871 0.000000 0.000000 0.000000 0.215941 -3.088938 3072 273 -7.4035E+00 8.846681 1.472345 -24.485186 6.792033 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631246 5 2.8742E+05 4.218492 6.801320 2.691740 -18.029122 -5.249633 49.084512 0.000002 0.000000 0.372520 0.154E+04 lgRho_cntr log_rel_run_E_err -6.4206301104443293 rel_E_err 3.8228394481798904D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile43.data for model 4000 save photos/4000 for model 4000 k, q, energy_removed_layers before adjustment is 489 0.97935154010410286 9.3371226385326326E+049 k, q, energy_removed_layers after adjustment is 495 0.97812153130588964 9.3516211510248698E+049 Layers above q= 0.97812153130588964 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11430.871093750000 max vel inside fraction of cutoff 3301.7407359141457 max c/cs inside fraction of cutoff 3.2582311821644412 average v/vesc outside cutoff 1.7678590448404292 Kinetic plus potential energy outside cutoff 9.3516211510248698E+049 mass inside cutoff 495 50.606904114416139 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7546025436846315E-002 4010 8.864698 5.366E+04 -19.134494 2.745261 51.738871 0.000000 0.000000 0.000000 0.215941 -3.042703 3091 273 -7.4197E+00 8.864698 1.477451 -22.425699 7.107206 -99.000000 51.738871 0.000000 0.060585 0.784059 0.629510 5 2.8742E+05 4.268954 6.828320 2.745261 -16.323960 -5.280278 49.084512 0.000002 0.000000 0.372520 0.152E+04 lgRho_cntr log_rel_run_E_err -6.4205796259825370 rel_E_err 5.9242153570215809D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 490 0.97935154010410286 9.3423556358039392E+049 k, q, energy_removed_layers after adjustment is 497 0.97793812145298831 9.3570685887369720E+049 Layers above q= 0.97793812145298831 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11443.078125000000 max vel inside fraction of cutoff 3615.3167591755591 max c/cs inside fraction of cutoff 3.5157030845568973 average v/vesc outside cutoff 1.7679320089452084 Kinetic plus potential energy outside cutoff 9.3570685887369720E+049 mass inside cutoff 497 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6982346784503581E-002 4020 8.882655 5.420E+04 -19.010625 2.797932 51.738871 0.000000 0.000000 0.000000 0.215941 -2.996715 3111 273 -7.4331E+00 8.882655 1.482329 -19.364265 7.421296 -99.000000 51.738871 0.000000 0.060585 0.784059 0.627822 5 2.8742E+05 4.319326 6.855397 2.797932 -14.689850 -5.310428 49.084512 0.000002 0.000000 0.372520 0.151E+04 lgRho_cntr log_rel_run_E_err -6.4204841305914009 rel_E_err 7.1605301774666171D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 491 0.97935154010410286 9.3472391909304557E+049 k, q, energy_removed_layers after adjustment is 498 0.97793812145298831 9.3621707670416426E+049 Layers above q= 0.97793812145298831 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11454.876953125000 max vel inside fraction of cutoff 3906.2938774086083 max c/cs inside fraction of cutoff 3.7969969933677206 average v/vesc outside cutoff 1.7746444164686692 Kinetic plus potential energy outside cutoff 9.3621707670416426E+049 mass inside cutoff 498 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6407110434171062E-002 4030 8.898166 5.469E+04 -18.904613 2.844552 51.738871 0.000000 0.000000 0.000000 0.215941 -2.957032 3119 273 -7.6090E+00 8.898166 1.486421 -17.020247 7.689503 -99.000000 51.738871 0.000000 0.060585 0.784059 0.626406 5 2.8742E+05 4.362918 6.879235 2.844552 -13.328739 -5.336472 49.084532 0.000002 0.000000 0.372520 0.149E+04 min_dr_div_cs log_rel_run_E_err -6.4204127469224890 rel_E_err 7.7509187663319166D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 492 0.97935154010410286 9.3513273982136148E+049 k, q, energy_removed_layers after adjustment is 499 0.97793812145298831 9.3664366308656697E+049 Layers above q= 0.97793812145298831 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11464.878906250000 max vel inside fraction of cutoff 4132.6101029013380 max c/cs inside fraction of cutoff 4.0461051433966633 average v/vesc outside cutoff 1.7803071401951951 Kinetic plus potential energy outside cutoff 9.3664366308656697E+049 mass inside cutoff 499 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.5893650843357149E-002 4040 8.913420 5.521E+04 -18.801109 2.891861 51.738871 0.000000 0.000000 0.000000 0.215941 -2.918048 3160 273 -7.5165E+00 8.913420 1.490388 -15.382279 7.949409 -99.000000 51.738871 0.000000 0.060585 0.784059 0.625049 5 2.8742E+05 4.405855 6.903469 2.891861 -12.033437 -5.362445 49.084532 0.000002 0.000000 0.372520 0.148E+04 min_dr_div_cs log_rel_run_E_err -6.4126212894263324 rel_E_err 3.5725854320802988D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 493 0.97935154010410297 9.3552420362712814E+049 k, q, energy_removed_layers after adjustment is 500 0.97793812145298842 9.3705168772668856E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11474.666015625000 max vel inside fraction of cutoff 4302.1389579743136 max c/cs inside fraction of cutoff 4.2564663194935592 average v/vesc outside cutoff 1.7858271508691197 Kinetic plus potential energy outside cutoff 9.3705168772668856E+049 mass inside cutoff 500 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.5366410977401780E-002 4050 8.926431 5.568E+04 -18.713266 2.934285 51.738871 0.000000 0.000000 0.000000 0.215941 -2.884785 3177 273 -7.5102E+00 8.926431 1.493743 -14.079063 8.167325 -99.000000 51.738871 0.000000 0.060585 0.784059 0.623928 6 2.8742E+05 4.442550 6.924980 2.934285 -10.961117 -5.385042 49.084532 0.000002 0.000000 0.372520 0.146E+04 max increase log_rel_run_E_err -6.3958622930399365 rel_E_err 5.2993786221139608D-12 Using fixed_vsurf 20000.000000000000 save photos/x050 for model 4050 k, q, energy_removed_layers before adjustment is 493 0.97935154010410297 9.3585041061998544E+049 k, q, energy_removed_layers after adjustment is 500 0.97793812145298842 9.3739132334678611E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11483.005859375000 max vel inside fraction of cutoff 4424.8958722476846 max c/cs inside fraction of cutoff 4.4002803241753154 average v/vesc outside cutoff 1.7905132614084498 Kinetic plus potential energy outside cutoff 9.3739132334678611E+049 mass inside cutoff 500 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.4897940690825255E-002 4060 8.939126 5.617E+04 -18.628500 2.978855 51.738871 0.000000 0.000000 0.000000 0.215941 -2.852319 3168 273 -7.6724E+00 8.939126 1.496988 -13.011142 8.375133 -99.000000 51.738871 0.000000 0.060585 0.784059 0.622867 5 2.8742E+05 4.478416 6.946812 2.978855 -9.944388 -5.407511 49.084532 0.000002 0.000000 0.372520 0.145E+04 min_dr_div_cs log_rel_run_E_err -6.3394103771697763 rel_E_err 4.3443108417908335D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 492 0.97935154010410297 9.3616172479450863E+049 k, q, energy_removed_layers after adjustment is 499 0.97793812145298842 9.3771507469925267E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11491.138671875000 max vel inside fraction of cutoff 4542.7547936359069 max c/cs inside fraction of cutoff 4.5375947123517104 average v/vesc outside cutoff 1.7950621386031187 Kinetic plus potential energy outside cutoff 9.3771507469925267E+049 mass inside cutoff 499 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.4424826009617668E-002 4070 8.950764 5.667E+04 -18.551512 3.024151 51.738871 0.000000 0.000000 0.000000 0.215941 -2.822517 3162 273 -7.6726E+00 8.950764 1.499974 -12.198989 8.561275 -99.000000 51.738871 0.000000 0.060585 0.784059 0.621926 6 2.8742E+05 4.511361 6.967906 3.024151 -9.037205 -5.428762 49.084532 0.000002 0.000000 0.372520 0.143E+04 min_dr_div_cs log_rel_run_E_err -6.3155590491707194 rel_E_err 5.4198666878505147D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 492 0.97935154010410297 9.3644470078163022E+049 k, q, energy_removed_layers after adjustment is 499 0.97793812145298842 9.3800900390096333E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11498.679687500000 max vel inside fraction of cutoff 4632.2758996933399 max c/cs inside fraction of cutoff 4.6487444161071760 average v/vesc outside cutoff 1.7992620988526347 Kinetic plus potential energy outside cutoff 9.3800900390096333E+049 mass inside cutoff 499 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.3973492995401348E-002 4080 8.960202 5.710E+04 -18.489344 3.065509 51.738871 0.000000 0.000000 0.000000 0.215941 -2.798302 3164 273 -7.5810E+00 8.960202 1.502456 -11.574452 8.709542 -99.000000 51.738871 0.000000 0.060585 0.784059 0.621189 6 2.8742E+05 4.538129 6.986239 3.065509 -8.317952 -5.446861 49.084532 0.000002 0.000000 0.372520 0.142E+04 max increase log_rel_run_E_err -6.2994700081212391 rel_E_err 3.3860812001321088D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 492 0.97935154010410297 9.3667722778988590E+049 k, q, energy_removed_layers after adjustment is 499 0.97793812145298842 9.3825026018339484E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11504.980468750000 max vel inside fraction of cutoff 4659.0762751291822 max c/cs inside fraction of cutoff 4.7125522384456282 average v/vesc outside cutoff 1.8027612416878080 Kinetic plus potential energy outside cutoff 9.3825026018339484E+049 mass inside cutoff 499 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.3589890914745959E-002 4090 8.971472 5.770E+04 -18.415509 3.122182 51.738871 0.000000 0.000000 0.000000 0.215941 -2.769333 3161 273 -7.6530E+00 8.971472 1.505578 -10.940806 8.883550 -99.000000 51.738871 0.000000 0.060585 0.784059 0.620338 6 2.8742E+05 4.570153 7.010459 3.122182 -7.477812 -5.470239 49.084532 0.000002 0.000000 0.372520 0.140E+04 min_dr_div_cs log_rel_run_E_err -6.2915843992781255 rel_E_err 5.6941647710581568D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 493 0.97935154010410297 9.3696016014906585E+049 k, q, energy_removed_layers after adjustment is 500 0.97793812145298842 9.3854368540626597E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11512.962890625000 max vel inside fraction of cutoff 4707.0644531386497 max c/cs inside fraction of cutoff 4.7911819679517498 average v/vesc outside cutoff 1.8071659968044216 Kinetic plus potential energy outside cutoff 9.3854368540626597E+049 mass inside cutoff 500 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.3105941454478207E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 4100 8.981347 5.832E+04 -18.351097 3.179683 51.738871 0.000000 0.000000 0.000000 0.215941 -2.743865 3173 273 -7.6606E+00 8.981347 1.508580 -10.373701 9.033122 -99.000000 51.738871 0.000000 0.060585 0.784059 0.619624 6 2.8742E+05 4.598278 7.035085 3.179683 -6.758025 -5.493384 49.084532 0.000002 0.000000 0.372520 0.138E+04 min_dr_div_cs log_rel_run_E_err -6.2826501692441479 rel_E_err 4.4037195271118777D-09 Using fixed_vsurf 20000.000000000000 save LOGS/profile44.data for model 4100 save photos/x100 for model 4100 k, q, energy_removed_layers before adjustment is 493 0.97935154010410297 9.3723490593185909E+049 k, q, energy_removed_layers after adjustment is 500 0.97793812145298842 9.3882801142352296E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11520.693359375000 max vel inside fraction of cutoff 4760.0371616673719 max c/cs inside fraction of cutoff 4.8604421468104748 average v/vesc outside cutoff 1.8114258975400062 Kinetic plus potential energy outside cutoff 9.3882801142352296E+049 mass inside cutoff 500 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.2655070601354296E-002 4110 8.987412 5.878E+04 -18.311843 3.218949 51.738871 0.000000 0.000000 0.000000 0.215941 -2.728165 3175 273 -7.7710E+00 8.987412 1.510641 -9.989185 9.122975 -99.000000 51.738871 0.000000 0.060585 0.784059 0.619204 6 2.8742E+05 4.615589 7.052835 3.218949 -6.324154 -5.509678 49.084532 0.000002 0.000000 0.372520 0.137E+04 min_dr_div_cs log_rel_run_E_err -6.2756113412038506 rel_E_err 1.4031289261439744D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 494 0.97935154010410286 9.3741533866622262E+049 k, q, energy_removed_layers after adjustment is 501 0.97793812145298831 9.3901474191872902E+049 Layers above q= 0.97793812145298831 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11526.031250000000 max vel inside fraction of cutoff 4802.3901656466478 max c/cs inside fraction of cutoff 4.9100747459777567 average v/vesc outside cutoff 1.8143476417641649 Kinetic plus potential energy outside cutoff 9.3901474191872902E+049 mass inside cutoff 501 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.2366443564640775E-002 4120 8.992627 5.926E+04 -18.278529 3.255456 51.738871 0.000000 0.000000 0.000000 0.215941 -2.714630 3196 273 -7.6696E+00 8.992627 1.512686 -9.660433 9.198558 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618853 6 2.8742E+05 4.630496 7.071192 3.255456 -5.956930 -5.526182 49.084532 0.000002 0.000000 0.372520 0.136E+04 min_dr_div_cs log_rel_run_E_err -6.2700232891648806 rel_E_err 2.5453264601461490D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 495 0.97908819536353653 9.3825355790264040E+049 k, q, energy_removed_layers after adjustment is 501 0.97793812145298831 9.3920457913563709E+049 Layers above q= 0.97793812145298831 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11531.351562500000 max vel inside fraction of cutoff 4795.2146130019455 max c/cs inside fraction of cutoff 4.9565355557206949 average v/vesc outside cutoff 1.8172636380455160 Kinetic plus potential energy outside cutoff 9.3920457913563709E+049 mass inside cutoff 501 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.2109608513178493E-002 4130 8.998056 6.002E+04 -18.243885 3.298845 51.738871 0.000000 0.000000 0.000000 0.215941 -2.700505 3219 273 -7.5324E+00 8.998056 1.515631 -9.280845 9.276864 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618498 7 2.8742E+05 4.646035 7.099084 3.298845 -5.578663 -5.550587 49.084532 0.000002 0.000000 0.372520 0.134E+04 min_dr_div_cs log_rel_run_E_err -6.2432006115532177 rel_E_err 4.1320721953586392D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 495 0.97908819536353653 9.3851793615821418E+049 k, q, energy_removed_layers after adjustment is 501 0.97793812145298831 9.3947481852865219E+049 Layers above q= 0.97793812145298831 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11539.056640625000 max vel inside fraction of cutoff 4781.5321518375022 max c/cs inside fraction of cutoff 4.9739614170690460 average v/vesc outside cutoff 1.8214734802956218 Kinetic plus potential energy outside cutoff 9.3947481852865219E+049 mass inside cutoff 501 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.1819046955104529E-002 4140 9.000538 6.082E+04 -18.226683 3.326012 51.738871 0.000000 0.000000 0.000000 0.215941 -2.694028 3241 273 -7.6615E+00 9.000538 1.518456 -8.926281 9.314747 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618341 6 2.8742E+05 4.653150 7.127729 3.326012 -5.404227 -5.574793 49.084532 0.000002 0.000000 0.372520 0.132E+04 min_dr_div_cs log_rel_run_E_err -6.1799443637355154 rel_E_err 1.7573156816655459D-08 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 495 0.97908819536353653 9.3876871099077252E+049 k, q, energy_removed_layers after adjustment is 501 0.97793812145298831 9.3973081091739780E+049 Layers above q= 0.97793812145298831 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11546.500000000000 max vel inside fraction of cutoff 4806.9109477510738 max c/cs inside fraction of cutoff 5.0409525622011957 average v/vesc outside cutoff 1.8255248410807543 Kinetic plus potential energy outside cutoff 9.3973081091739780E+049 mass inside cutoff 501 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.1649655425688513E-002 4150 9.000795 6.149E+04 -17.039886 3.335432 51.738871 0.000000 0.000000 0.000000 0.215941 -2.693356 3232 273 -7.7859E+00 9.000795 1.520602 -8.675844 9.320718 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618325 5 2.8742E+05 4.653889 7.151000 3.335432 -5.383879 -5.593798 49.084532 0.000002 0.000000 0.372520 0.130E+04 min_dr_div_cs log_rel_run_E_err -5.9441728004668466 rel_E_err 8.6470781062688042D-08 Using fixed_vsurf 20000.000000000000 save photos/x150 for model 4150 k, q, energy_removed_layers before adjustment is 496 0.97908819536353664 9.3895143709797491E+049 k, q, energy_removed_layers after adjustment is 502 0.97793812145298842 9.3991725287769571E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11552.189453125000 max vel inside fraction of cutoff 4815.7934474134790 max c/cs inside fraction of cutoff 5.0852941793325206 average v/vesc outside cutoff 1.8285998858052699 Kinetic plus potential energy outside cutoff 9.3991725287769571E+049 mass inside cutoff 502 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.1596842727372227E-002 4160 8.999892 6.222E+04 -18.230303 3.334130 51.738871 0.000000 0.000000 0.000000 0.215941 -2.695715 3225 273 -7.7360E+00 8.999892 1.522761 -8.453245 9.309622 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618381 6 2.8742E+05 4.651298 7.176052 3.334130 -5.444290 -5.613568 49.084532 0.000002 0.000000 0.372520 0.129E+04 min_dr_div_cs log_rel_run_E_err -5.8682332878228172 rel_E_err 1.1345413567981334D-08 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 496 0.97908819536353664 9.3882704150097523E+049 k, q, energy_removed_layers after adjustment is 503 0.97793812145298842 9.4010006475394930E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11557.937500000000 max vel inside fraction of cutoff 4804.5054391028307 max c/cs inside fraction of cutoff 5.1149969439146545 average v/vesc outside cutoff 1.8317018575954551 Kinetic plus potential energy outside cutoff 9.4010006475394930E+049 mass inside cutoff 503 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.1606364101826623E-002 4170 8.997798 6.315E+04 -18.243158 3.320068 51.738871 0.000000 0.000000 0.000000 0.215941 -2.701183 3215 273 -7.6750E+00 8.997798 1.525172 -8.238532 9.280552 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618513 7 2.8742E+05 4.645295 7.206567 3.320068 -5.588137 -5.636639 49.084532 0.000002 0.000000 0.372520 0.127E+04 max increase log_rel_run_E_err -5.8654560596977836 rel_E_err 3.8796771676325628D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 496 0.97908819536353664 9.3903746161015243E+049 k, q, energy_removed_layers after adjustment is 503 0.97793812145298842 9.4031193174299631E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11564.390625000000 max vel inside fraction of cutoff 4755.7118266163525 max c/cs inside fraction of cutoff 5.0989054955273501 average v/vesc outside cutoff 1.8351842265353491 Kinetic plus potential energy outside cutoff 9.4031193174299631E+049 mass inside cutoff 503 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.1682602852332211E-002 4180 8.994265 6.442E+04 -18.266061 3.289704 51.738871 0.000000 0.000000 0.000000 0.215941 -2.710398 3221 273 -7.6848E+00 8.994265 1.527942 -8.023050 9.228825 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618740 7 2.8742E+05 4.635172 7.246535 3.289704 -5.835097 -5.665037 49.084532 0.000002 0.000000 0.372520 0.124E+04 min_dr_div_cs log_rel_run_E_err -5.8587646147585026 rel_E_err 2.5763919551308477D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 496 0.97908819536353664 9.3926983729537082E+049 k, q, energy_removed_layers after adjustment is 503 0.97793812145298842 9.4054666985074812E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11571.851562500000 max vel inside fraction of cutoff 4745.6995175833054 max c/cs inside fraction of cutoff 5.1470537882849916 average v/vesc outside cutoff 1.8391858694505725 Kinetic plus potential energy outside cutoff 9.4054666985074812E+049 mass inside cutoff 503 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.1841861896332398E-002 4190 8.990588 6.570E+04 -18.290159 3.257522 51.738871 0.000000 0.000000 0.000000 0.215941 -2.719972 3222 273 -7.8584E+00 8.990588 1.530170 -7.865748 9.173907 -99.000000 51.738871 0.000000 0.060585 0.784059 0.618980 8 2.8742E+05 4.624646 7.285331 3.257522 -6.094861 -5.690398 49.084532 0.000002 0.000000 0.372520 0.122E+04 min_dr_div_cs log_rel_run_E_err -5.8563901064859101 rel_E_err 5.6855115415736651D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 496 0.97908819536353664 9.3945926107287176E+049 k, q, energy_removed_layers after adjustment is 503 0.97793812145298842 9.4073884570506381E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11577.890625000000 max vel inside fraction of cutoff 4736.1286614273504 max c/cs inside fraction of cutoff 5.1476595266777210 average v/vesc outside cutoff 1.8424238469240117 Kinetic plus potential energy outside cutoff 9.4073884570506381E+049 mass inside cutoff 503 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.2015784637912890E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 4200 8.987225 6.703E+04 -18.312171 3.229864 51.738871 0.000000 0.000000 0.000000 0.215941 -2.728715 3231 273 -7.8380E+00 8.987225 1.531886 -7.752664 9.123447 -99.000000 51.738871 0.000000 0.060585 0.784059 0.619204 8 2.8742E+05 4.615027 7.323634 3.229864 -6.334101 -5.713050 49.084532 0.000002 0.000000 0.372520 0.119E+04 min_dr_div_cs log_rel_run_E_err -5.8560409632199439 rel_E_err 4.4705443800109117D-11 Using fixed_vsurf 20000.000000000000 save LOGS/profile45.data for model 4200 save photos/x200 for model 4200 k, q, energy_removed_layers before adjustment is 496 0.97908819536353664 9.3960368491695613E+049 k, q, energy_removed_layers after adjustment is 503 0.97793812145298842 9.4088583804328662E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11582.556640625000 max vel inside fraction of cutoff 4713.3080070928236 max c/cs inside fraction of cutoff 5.1637268502963183 average v/vesc outside cutoff 1.8449214274090919 Kinetic plus potential energy outside cutoff 9.4088583804328662E+049 mass inside cutoff 503 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.2172276034004474E-002 4210 8.983866 6.884E+04 -18.334097 3.204250 51.738871 0.000000 0.000000 0.000000 0.215941 -2.737432 3234 273 -7.8388E+00 8.983866 1.533395 -7.657191 9.072986 -99.000000 51.738871 0.000000 0.060585 0.784059 0.619431 8 2.8742E+05 4.605430 7.372791 3.204250 -6.574481 -5.738521 49.084532 0.000002 0.000000 0.372520 0.116E+04 min_dr_div_cs log_rel_run_E_err -5.8554505896585933 rel_E_err 5.6457774109084494D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 496 0.97908819536353664 9.3972980874105508E+049 k, q, energy_removed_layers after adjustment is 503 0.97793812145298842 9.4101447046701480E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11586.673828125000 max vel inside fraction of cutoff 4682.1971946006952 max c/cs inside fraction of cutoff 5.1556495625785841 average v/vesc outside cutoff 1.8471230791528941 Kinetic plus potential energy outside cutoff 9.4101447046701480E+049 mass inside cutoff 503 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.2324122830691181E-002 4220 8.980313 7.270E+04 -18.357294 3.179158 51.738871 0.000000 0.000000 0.000000 0.215941 -2.746643 3248 273 -7.9310E+00 8.980313 1.534837 -7.577711 9.019550 -99.000000 51.738871 0.000000 0.060585 0.784059 0.619676 8 2.8742E+05 4.595284 7.470553 3.179158 -6.830411 -5.779891 49.084532 0.000002 0.000000 0.372520 0.111E+04 min_dr_div_cs log_rel_run_E_err -5.8553186553428853 rel_E_err 6.4263232354191043D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 496 0.97908819536353664 9.3984945278060924E+049 k, q, energy_removed_layers after adjustment is 503 0.97793812145298842 9.4113949969335824E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11590.623046875000 max vel inside fraction of cutoff 4651.0649750748962 max c/cs inside fraction of cutoff 5.1432396880824971 average v/vesc outside cutoff 1.8492320222782714 Kinetic plus potential energy outside cutoff 9.4113949969335824E+049 mass inside cutoff 503 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.2479579174761549E-002 4230 8.975701 9.424E+04 -18.387271 3.149243 51.738871 0.000000 0.000000 0.000000 0.215941 -2.758582 3240 273 -7.8008E+00 8.975701 1.536541 -7.510189 8.950079 -99.000000 51.738871 0.000000 0.060585 0.784059 0.619999 8 2.8742E+05 4.582129 7.924627 3.149243 -7.164957 -5.963569 49.084532 0.000002 0.000000 0.372520 0.927E+03 min_dr_div_cs log_rel_run_E_err -5.8516910547259515 rel_E_err 1.3013830232925309D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 496 0.97908819536353664 9.3998986150401462E+049 k, q, energy_removed_layers after adjustment is 503 0.97793812145298842 9.4128630053478342E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11595.312500000000 max vel inside fraction of cutoff 4601.4806538098264 max c/cs inside fraction of cutoff 5.1365011641254865 average v/vesc outside cutoff 1.8517294539476614 Kinetic plus potential energy outside cutoff 9.4128630053478342E+049 mass inside cutoff 503 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.2673828196177821E-002 4240 8.970652 1.137E+05 -18.420066 3.119350 51.738871 0.000000 0.000000 0.000000 0.215941 -2.771636 3215 273 -7.8655E+00 8.970652 1.538267 -7.473317 8.873515 -99.000000 51.738871 0.000000 0.060585 0.784059 0.620360 8 2.8742E+05 4.567739 8.253663 3.119350 -7.534813 -6.136685 49.084532 0.000002 0.000000 0.372520 0.784E+03 min_dr_div_cs log_rel_run_E_err -5.8431943265692565 rel_E_err 5.5205943080973006D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 496 0.97908819536353664 9.4013099411409991E+049 k, q, energy_removed_layers after adjustment is 503 0.97793812145298842 9.4143385150955826E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11600.078125000000 max vel inside fraction of cutoff 4570.9422557579737 max c/cs inside fraction of cutoff 5.1537299294969507 average v/vesc outside cutoff 1.8542639994952592 Kinetic plus potential energy outside cutoff 9.4143385150955826E+049 mass inside cutoff 503 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.2879606933767758E-002 4250 8.963574 1.310E+05 -18.466383 3.081577 51.738871 0.000000 0.000000 0.000000 0.215941 -2.789911 3206 273 -7.7487E+00 8.963574 1.540541 -7.464857 8.764481 -99.000000 51.738871 0.000000 0.060585 0.784059 0.620876 8 2.8742E+05 4.547590 8.505072 3.081577 -8.060657 -6.393573 49.084532 0.000002 0.000000 0.372520 0.634E+03 min_dr_div_cs log_rel_run_E_err -5.8357557426155173 rel_E_err 7.8998471604515802D-10 Using fixed_vsurf 20000.000000000000 save photos/x250 for model 4250 k, q, energy_removed_layers before adjustment is 496 0.97908819536353664 9.4031515907703830E+049 k, q, energy_removed_layers after adjustment is 503 0.97793812145298842 9.4162626269723243E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11606.382812500000 max vel inside fraction of cutoff 4491.3706672683875 max c/cs inside fraction of cutoff 5.1058364717509432 average v/vesc outside cutoff 1.8576087037087845 Kinetic plus potential energy outside cutoff 9.4162626269723243E+049 mass inside cutoff 503 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.3160054752159387E-002 4260 8.955541 1.307E+05 -18.519624 3.043546 51.738871 0.000000 0.000000 0.000000 0.215941 -2.810625 3228 273 -7.6973E+00 8.955541 1.542987 -7.509824 8.637827 -99.000000 51.738871 0.000000 0.060585 0.784059 0.621477 8 2.8742E+05 4.524750 8.505845 3.043546 -8.669012 -6.561448 49.084532 0.000002 0.000000 0.372520 0.599E+03 min_dr_div_cs log_rel_run_E_err -5.8295523486883392 rel_E_err 2.6383013578548222D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 497 0.97908819536353664 9.4050463131298139E+049 k, q, energy_removed_layers after adjustment is 504 0.97793812145298842 9.4182423511940281E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11613.203125000000 max vel inside fraction of cutoff 4415.6396835884316 max c/cs inside fraction of cutoff 5.0851855639201720 average v/vesc outside cutoff 1.8612065054910596 Kinetic plus potential energy outside cutoff 9.4182423511940281E+049 mass inside cutoff 504 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.3469023062299668E-002 4270 8.947120 1.267E+05 -18.575496 3.008194 51.738871 0.000000 0.000000 0.000000 0.215941 -2.832307 3235 273 -7.5862E+00 8.947120 1.545403 -7.612927 8.503064 -99.000000 51.738871 0.000000 0.060585 0.784059 0.622125 9 2.8742E+05 4.500844 8.456932 3.008194 -9.318439 -6.663882 49.084532 0.000002 0.000000 0.372520 0.596E+03 min_dr_div_cs log_rel_run_E_err -5.8218747000567026 rel_E_err 3.7997824382841424D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 497 0.97908819536353664 9.4069111731967478E+049 k, q, energy_removed_layers after adjustment is 504 0.97793812145298842 9.4201865387703853E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11619.980468750000 max vel inside fraction of cutoff 4320.2250755368377 max c/cs inside fraction of cutoff 5.0497893250650314 average v/vesc outside cutoff 1.8647679098102805 Kinetic plus potential energy outside cutoff 9.4201865387703853E+049 mass inside cutoff 504 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.3777289286089510E-002 4280 8.938466 1.227E+05 -18.633231 2.975430 51.738871 0.000000 0.000000 0.000000 0.215941 -2.854568 3215 273 -7.6461E+00 8.938466 1.547733 -7.764664 8.363944 -99.000000 51.738871 0.000000 0.060585 0.784059 0.622807 9 2.8742E+05 4.476309 8.404850 2.975430 -9.996382 -6.736815 49.084532 0.000002 0.000000 0.372520 0.602E+03 max increase log_rel_run_E_err -5.8190265564946273 rel_E_err 2.4093998714859841D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 497 0.97908819536353664 9.4087416189458166E+049 k, q, energy_removed_layers after adjustment is 504 0.97793812145298842 9.4220887245079946E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11626.550781250000 max vel inside fraction of cutoff 4249.8430011797946 max c/cs inside fraction of cutoff 5.0227588894363739 average v/vesc outside cutoff 1.8682216001652001 Kinetic plus potential energy outside cutoff 9.4220887245079946E+049 mass inside cutoff 504 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.4074388731621290E-002 4290 8.929282 1.188E+05 -18.694088 2.943271 51.738871 0.000000 0.000000 0.000000 0.215941 -2.878179 3193 273 -7.6995E+00 8.929282 1.550097 -7.976850 8.215050 -99.000000 51.738871 0.000000 0.060585 0.784059 0.623547 9 2.8742E+05 4.450306 8.353783 2.943271 -10.728516 -6.796031 49.084532 0.000002 0.000000 0.372520 0.612E+03 min_dr_div_cs log_rel_run_E_err -5.8154546201061299 rel_E_err 4.8420981708909390D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 497 0.97908819536353664 9.4105802017442572E+049 k, q, energy_removed_layers after adjustment is 504 0.97793812145298842 9.4239951183890951E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11633.250000000000 max vel inside fraction of cutoff 4162.3641929546893 max c/cs inside fraction of cutoff 4.9967271772573589 average v/vesc outside cutoff 1.8717337017350451 Kinetic plus potential energy outside cutoff 9.4239951183890951E+049 mass inside cutoff 504 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.4372854810776005E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 4300 8.917993 1.146E+05 -18.769721 2.906042 51.738871 0.000000 0.000000 0.000000 0.215941 -2.907205 3176 273 -7.6107E+00 8.917993 1.552948 -8.303317 8.028263 -99.000000 51.738871 0.000000 0.060585 0.784059 0.624478 9 2.8742E+05 4.418383 8.296773 2.906042 -11.649901 -6.854561 49.084532 0.000002 0.000000 0.372520 0.627E+03 min_dr_div_cs log_rel_run_E_err -5.8124478094283294 rel_E_err 1.1773020130510308D-09 Using fixed_vsurf 20000.000000000000 save LOGS/profile46.data for model 4300 save photos/x300 for model 4300 k, q, energy_removed_layers before adjustment is 497 0.97908819536353664 9.4127735683998818E+049 k, q, energy_removed_layers after adjustment is 504 0.97793812145298842 9.4262635904624975E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11641.380859375000 max vel inside fraction of cutoff 4040.0505659246405 max c/cs inside fraction of cutoff 4.9110111195477728 average v/vesc outside cutoff 1.8759817322970556 Kinetic plus potential energy outside cutoff 9.4262635904624975E+049 mass inside cutoff 504 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.4726574376974276E-002 4310 8.909473 1.117E+05 -18.827398 2.879057 51.738871 0.000000 0.000000 0.000000 0.215941 -2.929100 3184 273 -7.7780E+00 8.909473 1.555087 -8.587651 7.884552 -99.000000 51.738871 0.000000 0.060585 0.784059 0.625198 9 2.8742E+05 4.394324 8.257307 2.879057 -12.361340 -6.892246 49.084532 0.000002 0.000000 0.372520 0.638E+03 min_dr_div_cs log_rel_run_E_err -5.8101811367873566 rel_E_err 7.2834978769311729D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 497 0.97908819536353664 9.4144023920495240E+049 k, q, energy_removed_layers after adjustment is 504 0.97793812145298842 9.4279442054144613E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11647.513671875000 max vel inside fraction of cutoff 3979.0917583220853 max c/cs inside fraction of cutoff 4.9266135514338085 average v/vesc outside cutoff 1.8791767260543690 Kinetic plus potential energy outside cutoff 9.4279442054144613E+049 mass inside cutoff 504 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.4986573618413517E-002 4320 8.897762 1.083E+05 -18.907116 2.842965 51.738871 0.000000 0.000000 0.000000 0.215941 -2.959230 3183 273 -7.6499E+00 8.897762 1.558004 -9.014063 7.684542 -99.000000 51.738871 0.000000 0.060585 0.784059 0.626203 9 2.8742E+05 4.361283 8.208619 2.842965 -13.360576 -6.938155 49.084532 0.000002 0.000000 0.372520 0.652E+03 min_dr_div_cs log_rel_run_E_err -5.8058188928547594 rel_E_err 3.9048659421493761D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 498 0.97908819536353675 9.4165497766104613E+049 k, q, energy_removed_layers after adjustment is 505 0.97793812145298853 9.4301560353351781E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11655.931640625000 max vel inside fraction of cutoff 3829.9540680895220 max c/cs inside fraction of cutoff 4.7987513815781186 average v/vesc outside cutoff 1.8835341086382165 Kinetic plus potential energy outside cutoff 9.4301560353351781E+049 mass inside cutoff 505 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.5331258573844214E-002 4330 8.887390 1.056E+05 -18.977832 2.811651 51.738871 0.000000 0.000000 0.000000 0.215941 -2.985924 3175 273 -7.5331E+00 8.887390 1.560570 -9.407484 7.505840 -99.000000 51.738871 0.000000 0.060585 0.784059 0.627112 9 2.8742E+05 4.332059 8.169905 2.811651 -14.266116 -6.975374 49.084532 0.000002 0.000000 0.372520 0.663E+03 max increase log_rel_run_E_err -5.8038679518057874 rel_E_err 2.4520878774327108D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 498 0.97908819536353675 9.4184610725771166E+049 k, q, energy_removed_layers after adjustment is 505 0.97793812145298853 9.4321185936864137E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11663.380859375000 max vel inside fraction of cutoff 3714.9059684165413 max c/cs inside fraction of cutoff 4.7579551929265129 average v/vesc outside cutoff 1.8873877767319565 Kinetic plus potential energy outside cutoff 9.4321185936864137E+049 mass inside cutoff 505 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.5624918064500850E-002 4340 8.869774 1.015E+05 -19.098708 2.759747 51.738871 0.000000 0.000000 0.000000 0.215941 -3.031397 3190 273 -7.3938E+00 8.869774 1.564958 -10.106650 7.199690 -99.000000 51.738871 0.000000 0.060585 0.784059 0.628677 9 2.8742E+05 4.282456 8.111189 2.759747 -15.850985 -7.034692 49.084532 0.000002 0.000000 0.372520 0.675E+03 min_dr_div_cs log_rel_run_E_err -5.7968259252566350 rel_E_err 5.3737498371516082D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 498 0.97908819536353675 9.4216816779961416E+049 k, q, energy_removed_layers after adjustment is 505 0.97793812145298853 9.4354158134660129E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11676.224609375000 max vel inside fraction of cutoff 3526.4177949730361 max c/cs inside fraction of cutoff 4.6312985609446953 average v/vesc outside cutoff 1.8940035875117602 Kinetic plus potential energy outside cutoff 9.4354158134660129E+049 mass inside cutoff 505 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6105638983705635E-002 4350 8.855763 9.865E+04 -19.195721 2.718105 51.738871 0.000000 0.000000 0.000000 0.215941 -3.067594 3180 273 -7.5067E+00 8.855763 1.568552 -10.690237 6.955036 -99.000000 51.738871 0.000000 0.060585 0.784059 0.629957 9 2.8742E+05 4.243074 8.068198 2.718105 -17.155629 -7.080241 49.084532 0.000002 0.000000 0.372520 0.682E+03 min_dr_div_cs log_rel_run_E_err -5.7923881111039615 rel_E_err 8.1407258009870124D-10 Using fixed_vsurf 20000.000000000000 save photos/x350 for model 4350 k, q, energy_removed_layers before adjustment is 498 0.97908819536353675 9.4242773238788409E+049 k, q, energy_removed_layers after adjustment is 505 0.97793812145298853 9.4380652376369650E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11686.839843750000 max vel inside fraction of cutoff 3414.4026674477504 max c/cs inside fraction of cutoff 4.5887356663568672 average v/vesc outside cutoff 1.8994449802216791 Kinetic plus potential energy outside cutoff 9.4380652376369650E+049 mass inside cutoff 505 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6478837287709768E-002 4360 8.841361 9.588E+04 -19.296520 2.676761 51.738871 0.000000 0.000000 0.000000 0.215941 -3.104872 3179 273 -7.4578E+00 8.841361 1.572413 -11.326795 6.704730 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631297 9 2.8742E+05 4.202636 8.026498 2.676761 -18.539657 -7.127043 49.084532 0.000002 0.000000 0.372520 0.687E+03 min_dr_div_cs log_rel_run_E_err -5.7869037774189751 rel_E_err 9.1610554660429988D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 500 0.97908819536353664 9.4268781925805744E+049 k, q, energy_removed_layers after adjustment is 507 0.97793812145298842 9.4407159344729189E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11698.341796875000 max vel inside fraction of cutoff 3251.0753728932291 max c/cs inside fraction of cutoff 4.4735218762459041 average v/vesc outside cutoff 1.9052965424089401 Kinetic plus potential energy outside cutoff 9.4407159344729189E+049 mass inside cutoff 507 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6858044046120241E-002 4370 8.825125 9.296E+04 -19.411408 2.633343 51.738871 0.000000 0.000000 0.000000 0.215941 -3.147001 3161 273 -7.5226E+00 8.825125 1.577006 -12.080006 6.429082 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632834 9 2.8742E+05 4.157095 7.981904 2.633343 -20.153415 -7.180789 49.084532 0.000002 0.000000 0.372520 0.691E+03 min_dr_div_cs log_rel_run_E_err -5.7817452857553402 rel_E_err 3.9461714470381126D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 501 0.97894694705548535 9.4331114399634907E+049 k, q, energy_removed_layers after adjustment is 507 0.97793812145298842 9.4439756018138623E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11712.162109375000 max vel inside fraction of cutoff 3110.6294760526307 max c/cs inside fraction of cutoff 4.3976552616689855 average v/vesc outside cutoff 1.9123108238178379 Kinetic plus potential energy outside cutoff 9.4439756018138623E+049 mass inside cutoff 507 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7280864810022277E-002 4380 8.811447 9.062E+04 -19.508672 2.596803 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182534 3144 273 -7.3652E+00 8.811447 1.581080 -12.750307 6.207800 -99.000000 51.738871 0.000000 0.060585 0.784059 0.634157 9 2.8742E+05 4.118784 7.945808 2.596803 -21.557144 -7.227106 49.084532 0.000002 0.000000 0.372520 0.695E+03 max increase log_rel_run_E_err -5.7774302622557228 rel_E_err 2.2152872672375478D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 501 0.97894694705548524 9.4358460465893053E+049 k, q, energy_removed_layers after adjustment is 507 0.97793812145298831 9.4467378720025906E+049 Layers above q= 0.97793812145298831 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11724.542968750000 max vel inside fraction of cutoff 2966.4138167042465 max c/cs inside fraction of cutoff 4.3215247099638008 average v/vesc outside cutoff 1.9185545482697557 Kinetic plus potential energy outside cutoff 9.4467378720025906E+049 mass inside cutoff 507 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7630220612085369E-002 4390 8.792948 8.758E+04 -19.641312 2.547375 51.738871 0.000000 0.000000 0.000000 0.215941 -3.230746 3140 273 -7.2385E+00 8.792948 1.587025 -13.761224 5.931386 -99.000000 51.738871 0.000000 0.060585 0.784059 0.635969 9 2.8742E+05 4.067004 7.898295 2.547375 -23.523292 -7.292815 49.084532 0.000002 0.000000 0.372520 0.700E+03 min_dr_div_cs log_rel_run_E_err -5.7701145033718246 rel_E_err 2.0100176261826980D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 501 0.97894694705548524 9.4398583912288600E+049 k, q, energy_removed_layers after adjustment is 507 0.97793812145298831 9.4507811752373993E+049 Layers above q= 0.97793812145298831 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11742.816406250000 max vel inside fraction of cutoff 2760.9616918273991 max c/cs inside fraction of cutoff 4.1297874364377805 average v/vesc outside cutoff 1.9277271431791767 Kinetic plus potential energy outside cutoff 9.4507811752373993E+049 mass inside cutoff 507 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8097287395363966E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 4400 8.773387 8.437E+04 -19.783411 2.495106 51.738871 0.000000 0.000000 0.000000 0.215941 -3.281855 3140 273 -7.0201E+00 8.773387 1.594144 -15.002109 5.673403 -99.000000 51.738871 0.000000 0.060585 0.784059 0.637925 10 2.8742E+05 4.012324 7.847685 2.495106 -25.691558 -7.369729 49.084532 0.000002 0.000000 0.372520 0.706E+03 lgRho_cntr log_rel_run_E_err -5.7622194424903697 rel_E_err 4.0394166863962309D-09 Using fixed_vsurf 20000.000000000000 save LOGS/profile47.data for model 4400 save photos/x400 for model 4400 k, q, energy_removed_layers before adjustment is 504 0.97894694705548535 9.4443477154992082E+049 k, q, energy_removed_layers after adjustment is 510 0.97793812145298842 9.4552966408025245E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11765.027343750000 max vel inside fraction of cutoff 2527.9406982681326 max c/cs inside fraction of cutoff 3.8401570579681787 average v/vesc outside cutoff 1.9387605913835424 Kinetic plus potential energy outside cutoff 9.4552966408025245E+049 mass inside cutoff 510 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8593921414563160E-002 4410 8.756949 8.157E+04 -19.904287 2.451187 51.738871 0.000000 0.000000 0.000000 0.215941 -3.324868 3136 273 -7.2786E+00 8.756949 1.601076 -16.244143 5.484525 -99.000000 51.738871 0.000000 0.060585 0.784059 0.639608 9 2.8742E+05 3.966440 7.803022 2.451187 -27.587762 -7.443173 49.084532 0.000002 0.000000 0.372520 0.712E+03 min_dr_div_cs log_rel_run_E_err -5.7560056741142764 rel_E_err 1.9747292579896445D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 505 0.97894694705548546 9.4487298459114882E+049 k, q, energy_removed_layers after adjustment is 511 0.97793812145298853 9.4596968623311764E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11787.013671875000 max vel inside fraction of cutoff 2372.9047057807284 max c/cs inside fraction of cutoff 3.6439335057465629 average v/vesc outside cutoff 1.9496052116855338 Kinetic plus potential energy outside cutoff 9.4596968623311764E+049 mass inside cutoff 511 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9017486551046263E-002 4420 8.746108 7.964E+04 -19.984678 2.422243 51.738871 0.000000 0.000000 0.000000 0.215941 -3.353237 3112 273 -7.1992E+00 8.746108 1.606282 -17.195971 5.372386 -99.000000 51.738871 0.000000 0.060585 0.784059 0.640742 9 2.8742E+05 3.936227 7.771729 2.422243 -28.876184 -7.496871 49.084532 0.000002 0.000000 0.372520 0.716E+03 max increase log_rel_run_E_err -5.7528971580572650 rel_E_err 2.2100069081863490D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 505 0.97894694705548546 9.4519728488433768E+049 k, q, energy_removed_layers after adjustment is 511 0.97793812145298853 9.4629508417992519E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11803.753906250000 max vel inside fraction of cutoff 2233.9635014074738 max c/cs inside fraction of cutoff 3.5000926023065522 average v/vesc outside cutoff 1.9578131212583514 Kinetic plus potential energy outside cutoff 9.4629508417992519E+049 mass inside cutoff 511 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9297267503197018E-002 4430 8.736889 7.790E+04 -20.053372 2.397631 51.738871 0.000000 0.000000 0.000000 0.215941 -3.377382 3093 273 -7.3676E+00 8.736889 1.611250 -18.088597 5.283513 -99.000000 51.738871 0.000000 0.060585 0.784059 0.641719 8 2.8742E+05 3.910553 7.743443 2.397631 -29.996244 -7.546585 49.084532 0.000002 0.000000 0.372520 0.719E+03 min_dr_div_cs log_rel_run_E_err -5.7507832541316484 rel_E_err 3.6909038646456145D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 505 0.97894694705548546 9.4550029481721355E+049 k, q, energy_removed_layers after adjustment is 511 0.97793812145298853 9.4659905648605675E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11819.919921875000 max vel inside fraction of cutoff 2126.9402576513066 max c/cs inside fraction of cutoff 3.4072187878527389 average v/vesc outside cutoff 1.9656911699773523 Kinetic plus potential energy outside cutoff 9.4659905648605675E+049 mass inside cutoff 511 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9535281053313819E-002 4440 8.730118 7.655E+04 -20.103945 2.379561 51.738871 0.000000 0.000000 0.000000 0.215941 -3.395119 3086 273 -7.4535E+00 8.730118 1.615329 -18.787241 5.221385 -99.000000 51.738871 0.000000 0.060585 0.784059 0.642444 7 2.8742E+05 3.891711 7.721222 2.379561 -30.833428 -7.586136 49.084532 0.000002 0.000000 0.372520 0.720E+03 min_dr_div_cs log_rel_run_E_err -5.7496491900167106 rel_E_err 6.6009948773785725D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 507 0.97880587417810438 9.4605350575062774E+049 k, q, energy_removed_layers after adjustment is 512 0.97793812145298853 9.4684154030051584E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11833.335937500000 max vel inside fraction of cutoff 2049.0507877570453 max c/cs inside fraction of cutoff 3.3542424786701917 average v/vesc outside cutoff 1.9721818092444574 Kinetic plus potential energy outside cutoff 9.4684154030051584E+049 mass inside cutoff 512 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9710323957633841E-002 4450 8.722045 7.481E+04 -20.164600 2.358016 51.738871 0.000000 0.000000 0.000000 0.215941 -3.416284 3085 273 -7.2511E+00 8.722045 1.620931 -19.673727 5.150051 -99.000000 51.738871 0.000000 0.060585 0.784059 0.643315 7 2.8742E+05 3.869258 7.692374 2.358016 -31.847982 -7.638447 49.084532 0.000002 0.000000 0.372520 0.721E+03 min_dr_div_cs log_rel_run_E_err -5.7486392287679813 rel_E_err 2.1550097124323487D-09 Using fixed_vsurf 20000.000000000000 save photos/x450 for model 4450 k, q, energy_removed_layers before adjustment is 509 0.97880587417810427 9.4637466676406408E+049 k, q, energy_removed_layers after adjustment is 514 0.97793812145298842 9.4716353691567606E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11851.958984375000 max vel inside fraction of cutoff 1914.3829312362973 max c/cs inside fraction of cutoff 3.2053330491496781 average v/vesc outside cutoff 1.9811404379992434 Kinetic plus potential energy outside cutoff 9.4716353691567606E+049 mass inside cutoff 514 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9920918725807395E-002 4460 8.715678 7.326E+04 -20.213431 2.341027 51.738871 0.000000 0.000000 0.000000 0.215941 -3.432982 3094 273 -7.3739E+00 8.715678 1.626250 -20.430927 5.095368 -99.000000 51.738871 0.000000 0.060585 0.784059 0.644008 7 2.8742E+05 3.851562 7.666577 2.341027 -32.661130 -7.686188 49.084532 0.000002 0.000000 0.372520 0.720E+03 min_dr_div_cs log_rel_run_E_err -5.7471796267581867 rel_E_err 3.5506340884925022D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 510 0.97880587417810427 9.4667347296329845E+049 k, q, energy_removed_layers after adjustment is 515 0.97793812145298842 9.4746345698824120E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11869.865234375000 max vel inside fraction of cutoff 1819.7687985567209 max c/cs inside fraction of cutoff 3.1012645738454085 average v/vesc outside cutoff 1.9897079046240704 Kinetic plus potential energy outside cutoff 9.4746345698824120E+049 mass inside cutoff 515 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0091325199096155E-002 4470 8.711519 7.209E+04 -20.244918 2.329930 51.738871 0.000000 0.000000 0.000000 0.215941 -3.443889 3098 273 -7.4065E+00 8.711519 1.630455 -20.977697 5.060202 -99.000000 51.738871 0.000000 0.060585 0.784059 0.644465 7 2.8742E+05 3.840007 7.647170 2.329930 -33.198697 -7.722797 49.085632 0.000002 0.000000 0.372520 0.719E+03 min_dr_div_cs log_rel_run_E_err -5.7464670989475328 rel_E_err 5.5460127986011088D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 510 0.97880587417810427 9.4690962475280308E+049 k, q, energy_removed_layers after adjustment is 515 0.97793812145298842 9.4770071379658797E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11884.181640625000 max vel inside fraction of cutoff 1756.1047939516545 max c/cs inside fraction of cutoff 3.0542865563190773 average v/vesc outside cutoff 1.9965241318580320 Kinetic plus potential energy outside cutoff 9.4770071379658797E+049 mass inside cutoff 515 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0205848399787180E-002 4480 8.708208 7.101E+04 -20.269636 2.321096 51.738871 0.000000 0.000000 0.000000 0.215941 -3.452573 3093 273 -7.4043E+00 8.708208 1.634535 -21.474396 5.032483 -99.000000 51.738871 0.000000 0.060585 0.784059 0.644830 6 2.8742E+05 3.830813 7.629120 2.321096 -33.630245 -7.757448 49.088923 0.000002 0.000000 0.372520 0.716E+03 min_dr_div_cs log_rel_run_E_err -5.7453651182553322 rel_E_err 1.2418134705699510D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 511 0.97880587417810427 9.4712941128029625E+049 k, q, energy_removed_layers after adjustment is 516 0.97793812145298842 9.4792176213709106E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11898.199218750000 max vel inside fraction of cutoff 1757.0128366836461 max c/cs inside fraction of cutoff 2.9720154276672770 average v/vesc outside cutoff 2.0031584929249262 Kinetic plus potential energy outside cutoff 9.4792176213709106E+049 mass inside cutoff 516 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0300165019057236E-002 4490 8.705206 6.980E+04 -20.293447 2.313087 51.738871 0.000000 0.000000 0.000000 0.215941 -3.460450 3099 273 -7.3262E+00 8.705206 1.639347 -22.028467 5.007565 -99.000000 51.738871 0.000000 0.060585 0.784059 0.645163 6 2.8742E+05 3.822477 7.608751 2.313087 -34.024295 -7.797272 49.088923 0.000002 0.000000 0.372520 0.712E+03 min_dr_div_cs log_rel_run_E_err -5.7447612821792333 rel_E_err 5.4505647129959300D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 510 0.97880587417810427 9.4738976606871922E+049 k, q, energy_removed_layers after adjustment is 515 0.97793812145298842 9.4818383893958856E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11914.904296875000 max vel inside fraction of cutoff 1765.1700617871313 max c/cs inside fraction of cutoff 2.8435671790819437 average v/vesc outside cutoff 2.0110360856936014 Kinetic plus potential energy outside cutoff 9.4818383893958856E+049 mass inside cutoff 515 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0389502868479638E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 4500 8.702395 6.786E+04 -20.314438 2.305590 51.738871 0.000000 0.000000 0.000000 0.215941 -3.467824 3103 273 -7.0950E+00 8.702395 1.647525 -22.910794 4.984179 -99.000000 51.738871 0.000000 0.060585 0.784059 0.645475 7 2.8742E+05 3.814675 7.576290 2.305590 -34.395626 -7.862385 49.088923 0.000002 0.000000 0.372520 0.705E+03 min_dr_div_cs log_rel_run_E_err -5.7436368696941553 rel_E_err 2.7586050131128088D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile48.data for model 4500 save photos/x500 for model 4500 k, q, energy_removed_layers before adjustment is 512 0.97880587417810438 9.4781440748879757E+049 k, q, energy_removed_layers after adjustment is 517 0.97793812145298853 9.4861194699865253E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11943.720703125000 max vel inside fraction of cutoff 1750.7041368613097 max c/cs inside fraction of cutoff 2.7317844879961952 average v/vesc outside cutoff 2.0245125831777266 Kinetic plus potential energy outside cutoff 9.4861194699865253E+049 mass inside cutoff 517 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0488606069120812E-002 4510 8.702021 6.677E+04 -20.316914 2.304591 51.738871 0.000000 0.000000 0.000000 0.215941 -3.468805 3094 273 -7.1479E+00 8.702021 1.652435 -23.409214 4.980648 -99.000000 51.738871 0.000000 0.060585 0.784059 0.645516 6 2.8742E+05 3.813638 7.557793 2.304591 -34.445593 -7.900015 49.088923 0.000002 0.000000 0.372520 0.701E+03 min_dr_div_cs log_rel_run_E_err -5.7432267091342890 rel_E_err 4.6176146011559576D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 513 0.97880587417810438 9.4806325642148296E+049 k, q, energy_removed_layers after adjustment is 518 0.97793812145298853 9.4886314939443040E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11961.283203125000 max vel inside fraction of cutoff 1766.0404629823058 max c/cs inside fraction of cutoff 2.7165138264052855 average v/vesc outside cutoff 2.0326567781459244 Kinetic plus potential energy outside cutoff 9.4886314939443040E+049 mass inside cutoff 518 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0518581386231644E-002 4520 8.703005 6.539E+04 -20.310141 2.307211 51.738871 0.000000 0.000000 0.000000 0.215941 -3.466226 3084 273 -7.1626E+00 8.703005 1.658905 -24.027125 4.987990 -99.000000 51.738871 0.000000 0.060585 0.784059 0.645406 6 2.8742E+05 3.816367 7.534606 2.307211 -34.316010 -7.948132 49.088923 0.000002 0.000000 0.372520 0.695E+03 min_dr_div_cs log_rel_run_E_err -5.7424608889586111 rel_E_err 2.7314953620160286D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 514 0.97880587417810438 9.4838022019087916E+049 k, q, energy_removed_layers after adjustment is 519 0.97793812145298853 9.4918348009037224E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -11984.734375000000 max vel inside fraction of cutoff 1765.0669346183668 max c/cs inside fraction of cutoff 2.6956565758796116 average v/vesc outside cutoff 2.0434681217940072 Kinetic plus potential energy outside cutoff 9.4918348009037224E+049 mass inside cutoff 519 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0521435402914969E-002 4530 8.706900 6.363E+04 -20.281513 2.317592 51.738871 0.000000 0.000000 0.000000 0.215941 -3.456025 3074 273 -6.7659E+00 8.706900 1.667721 -24.784206 5.019428 -99.000000 51.738871 0.000000 0.060585 0.784059 0.644970 6 2.8742E+05 3.827172 7.504873 2.317592 -33.803451 -8.011436 49.088923 0.000002 0.000000 0.372520 0.688E+03 min_dr_div_cs log_rel_run_E_err -5.7411682620110378 rel_E_err 3.4210713792018230D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 514 0.97880587417810450 9.4879988923417490E+049 k, q, energy_removed_layers after adjustment is 519 0.97793812145298864 9.4960809921668308E+049 Layers above q= 0.97793812145298864 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12017.257812500000 max vel inside fraction of cutoff 1781.0923908164373 max c/cs inside fraction of cutoff 2.6659071968361832 average v/vesc outside cutoff 2.0583334125391874 Kinetic plus potential energy outside cutoff 9.4960809921668308E+049 mass inside cutoff 519 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0458037899009080E-002 4540 8.714512 6.183E+04 -20.223277 2.337876 51.738871 0.000000 0.000000 0.000000 0.215941 -3.436113 3069 273 -6.8477E+00 8.714512 1.677372 -25.467193 5.082426 -99.000000 51.738871 0.000000 0.060585 0.784059 0.644121 6 2.8742E+05 3.848289 7.474134 2.337876 -32.814234 -8.078108 49.088923 0.000002 0.000000 0.372520 0.683E+03 min_dr_div_cs log_rel_run_E_err -5.7351839625998675 rel_E_err 4.6655129149722991D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 516 0.97864438937146847 9.4950207210549023E+049 k, q, energy_removed_layers after adjustment is 520 0.97793812145298864 9.5005746624276365E+049 Layers above q= 0.97793812145298864 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12053.628906250000 max vel inside fraction of cutoff 1763.2298425432348 max c/cs inside fraction of cutoff 2.6319869708027062 average v/vesc outside cutoff 2.0747770889561963 Kinetic plus potential energy outside cutoff 9.5005746624276365E+049 mass inside cutoff 520 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0300998566417489E-002 4550 8.725503 6.015E+04 -20.139862 2.367164 51.738871 0.000000 0.000000 0.000000 0.215941 -3.407404 3085 273 -6.9005E+00 8.725503 1.686904 -25.926839 5.177119 -99.000000 51.738871 0.000000 0.060585 0.784059 0.642901 5 2.8742E+05 3.878795 7.445362 2.367164 -31.414226 -8.141302 49.088923 0.000002 0.000000 0.372520 0.679E+03 min_dr_div_cs log_rel_run_E_err -5.7314743289236718 rel_E_err 2.9902741181182409D-10 Using fixed_vsurf 20000.000000000000 save photos/x550 for model 4550 k, q, energy_removed_layers before adjustment is 515 0.97864438937146836 9.4992768739522788E+049 k, q, energy_removed_layers after adjustment is 519 0.97793812145298853 9.5048829126138144E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12090.349609375000 max vel inside fraction of cutoff 1769.7292295865477 max c/cs inside fraction of cutoff 2.5973784109570097 average v/vesc outside cutoff 2.0912076355189946 Kinetic plus potential energy outside cutoff 9.5048829126138144E+049 mass inside cutoff 519 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 5.0048863957287568E-002 4560 8.740791 5.852E+04 -20.026075 2.407885 51.738871 0.000000 0.000000 0.000000 0.215941 -3.367561 3092 273 -6.9734E+00 8.740791 1.696719 -26.068153 5.317554 -99.000000 51.738871 0.000000 0.060585 0.784059 0.641219 5 2.8742E+05 3.921245 7.417223 2.407885 -29.522516 -8.204013 49.091106 0.000002 0.000000 0.372520 0.675E+03 min_dr_div_cs log_rel_run_E_err -5.7307201521162483 rel_E_err 4.0564675735922588D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 517 0.97864438937146825 9.5034048261739685E+049 k, q, energy_removed_layers after adjustment is 521 0.97793812145298842 9.5090633124321503E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12129.015625000000 max vel inside fraction of cutoff 1759.6066498855514 max c/cs inside fraction of cutoff 2.5605894874826580 average v/vesc outside cutoff 2.1082945500751085 Kinetic plus potential energy outside cutoff 9.5090633124321503E+049 mass inside cutoff 521 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9679022699283190E-002 4570 8.756203 5.727E+04 -19.911237 2.448942 51.738871 0.000000 0.000000 0.000000 0.215941 -3.327454 3094 273 -7.0056E+00 8.756203 1.704587 -25.898703 5.473330 -99.000000 51.738871 0.000000 0.060585 0.784059 0.639551 5 2.8742E+05 3.964089 7.395572 2.448942 -27.678920 -8.253083 49.076831 0.000002 0.000000 0.372520 0.672E+03 min_dr_div_cs log_rel_run_E_err -5.7303170937569572 rel_E_err 2.0477849476662365D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 518 0.97864438937146825 9.5066165376495778E+049 k, q, energy_removed_layers after adjustment is 522 0.97793812145298842 9.5123165119688871E+049 Layers above q= 0.97793812145298842 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12160.650390625000 max vel inside fraction of cutoff 1771.6311837808757 max c/cs inside fraction of cutoff 2.5301185415877963 average v/vesc outside cutoff 2.1221403752902965 Kinetic plus potential energy outside cutoff 9.5123165119688871E+049 mass inside cutoff 522 50.597414695624778 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9294403000230864E-002 4580 8.775699 5.601E+04 -19.768192 2.500862 51.738871 0.000000 0.000000 0.000000 0.215941 -3.276860 3105 273 -7.0145E+00 8.775699 1.712920 -25.423275 5.698559 -99.000000 51.738871 0.000000 0.060585 0.784059 0.637471 5 2.8742E+05 4.018331 7.373448 2.500862 -25.434456 -8.304352 49.076831 0.000002 0.000000 0.372520 0.669E+03 lgRho_cntr log_rel_run_E_err -5.7302340925672040 rel_E_err 2.6118755608551686D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 521 0.97864438937146836 9.5098410782892114E+049 k, q, energy_removed_layers after adjustment is 525 0.97793812145298853 9.5155849859131679E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12194.783203125000 max vel inside fraction of cutoff 1757.2942138714959 max c/cs inside fraction of cutoff 2.4967524880236183 average v/vesc outside cutoff 2.1369180109839276 Kinetic plus potential energy outside cutoff 9.5155849859131679E+049 mass inside cutoff 525 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8793750855108071E-002 4590 8.794138 5.500E+04 -19.634387 2.549979 51.738871 0.000000 0.000000 0.000000 0.215941 -3.229097 3125 273 -7.0645E+00 8.794138 1.719769 -24.567965 5.945379 -99.000000 51.738871 0.000000 0.060585 0.784059 0.635547 5 2.8742E+05 4.069710 7.355785 2.549979 -23.398180 -8.346206 49.076831 0.000002 0.000000 0.372520 0.666E+03 lgRho_cntr log_rel_run_E_err -5.7301488881521045 rel_E_err 3.5728607616140019D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 522 0.97864438937146836 9.5124820673621376E+049 k, q, energy_removed_layers after adjustment is 526 0.97793812145298853 9.5182623843725022E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12223.332031250000 max vel inside fraction of cutoff 1751.7348029476777 max c/cs inside fraction of cutoff 2.4683982790830070 average v/vesc outside cutoff 2.1491851438565788 Kinetic plus potential energy outside cutoff 9.5182623843725022E+049 mass inside cutoff 526 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8308358565134268E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 4600 8.812391 5.413E+04 -19.503329 2.598608 51.738871 0.000000 0.000000 0.000000 0.215941 -3.181920 3149 273 -7.0983E+00 8.812391 1.725914 -23.167002 6.220871 -99.000000 51.738871 0.000000 0.060585 0.784059 0.633681 5 2.8742E+05 4.120638 7.340297 2.598608 -21.461850 -8.383669 49.076831 0.000002 0.000000 0.372520 0.662E+03 lgRho_cntr log_rel_run_E_err -5.7300756245843072 rel_E_err 3.2422537652793317D-11 Using fixed_vsurf 20000.000000000000 save LOGS/profile49.data for model 4600 save photos/x600 for model 4600 k, q, energy_removed_layers before adjustment is 523 0.97864438937146847 9.5147954836526131E+049 k, q, energy_removed_layers after adjustment is 527 0.97793812145298864 9.5206087282705164E+049 Layers above q= 0.97793812145298864 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12249.333984375000 max vel inside fraction of cutoff 1747.6105179287333 max c/cs inside fraction of cutoff 2.4421990314303264 average v/vesc outside cutoff 2.1602746624359526 Kinetic plus potential energy outside cutoff 9.5206087282705164E+049 mass inside cutoff 527 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7817094812138167E-002 4610 8.830488 5.334E+04 -19.374728 2.646841 51.738871 0.000000 0.000000 0.000000 0.215941 -3.135252 3167 273 -7.1192E+00 8.830488 1.731616 -21.540231 6.517634 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631870 5 2.8742E+05 4.171200 7.326209 2.646841 -19.616748 -8.418436 49.076831 0.000002 0.000000 0.372520 0.659E+03 lgRho_cntr log_rel_run_E_err -5.7299956423730549 rel_E_err 3.7916225732126246D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 522 0.97864438937146847 9.5169029476881128E+049 k, q, energy_removed_layers after adjustment is 526 0.97793812145298864 9.5227468311291010E+049 Layers above q= 0.97793812145298864 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12273.789062500000 max vel inside fraction of cutoff 1750.8183553404922 max c/cs inside fraction of cutoff 2.4172280035058527 average v/vesc outside cutoff 2.1706452300004622 Kinetic plus potential energy outside cutoff 9.5227468311291010E+049 mass inside cutoff 526 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7318885837523812E-002 4620 8.848425 5.261E+04 -19.248558 2.695139 51.738871 0.000000 0.000000 0.000000 0.215941 -3.089100 3187 273 -7.1275E+00 8.848425 1.737063 -19.915073 6.825719 -99.000000 51.738871 0.000000 0.060585 0.784059 0.630114 5 2.8742E+05 4.221385 7.312997 2.695139 -17.858423 -8.451698 49.076831 0.000002 0.000000 0.372520 0.655E+03 lgRho_cntr log_rel_run_E_err -5.7299201099780372 rel_E_err 4.0057903417675396D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 523 0.97864438937146836 9.5188485311316145E+049 k, q, energy_removed_layers after adjustment is 527 0.97793812145298853 9.5247215390760851E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12297.457031250000 max vel inside fraction of cutoff 1756.7741724611044 max c/cs inside fraction of cutoff 2.3927631733955161 average v/vesc outside cutoff 2.1806052664940143 Kinetic plus potential energy outside cutoff 9.5247215390760851E+049 mass inside cutoff 527 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6814068086836073E-002 4630 8.869034 5.178E+04 -19.105201 2.756446 51.738871 0.000000 0.000000 0.000000 0.215941 -3.036235 3212 273 -6.9593E+00 8.869034 1.743356 -18.095715 7.186272 -99.000000 51.738871 0.000000 0.060585 0.784059 0.628139 5 2.8742E+05 4.279122 7.298045 2.756446 -15.921159 -8.491760 49.076831 0.000002 0.000000 0.372520 0.649E+03 lgRho_cntr log_rel_run_E_err -5.7298088424893043 rel_E_err 7.7566369904533232D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 524 0.97848322139475308 9.5234762072559211E+049 k, q, energy_removed_layers after adjustment is 527 0.97793812145298853 9.5269746871708610E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12325.167968750000 max vel inside fraction of cutoff 1760.9665058727248 max c/cs inside fraction of cutoff 2.3637600337912903 average v/vesc outside cutoff 2.1922040561694613 Kinetic plus potential energy outside cutoff 9.5269746871708610E+049 mass inside cutoff 527 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6218241556547933E-002 4640 8.888933 5.093E+04 -18.968389 2.814953 51.738871 0.000000 0.000000 0.000000 0.215941 -2.985291 3232 273 -6.9695E+00 8.888933 1.750011 -16.349939 7.533287 -99.000000 51.738871 0.000000 0.060585 0.784059 0.626289 5 2.8742E+05 4.334977 7.282581 2.814953 -14.131002 -8.534097 49.076831 0.000002 0.000000 0.372520 0.642E+03 max increase log_rel_run_E_err -5.7296790157439084 rel_E_err 7.8587514335426065D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 524 0.97848322139475330 9.5257417170928058E+049 k, q, energy_removed_layers after adjustment is 527 0.97793812145298875 9.5292662050152674E+049 Layers above q= 0.97793812145298875 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12354.914062500000 max vel inside fraction of cutoff 1759.7914199125553 max c/cs inside fraction of cutoff 2.3322195814530966 average v/vesc outside cutoff 2.2045521677699331 Kinetic plus potential energy outside cutoff 9.5292662050152674E+049 mass inside cutoff 527 50.597414695624792 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.5620736042494794E-002 4650 8.907485 4.986E+04 -18.842162 2.871362 51.738871 0.000000 0.000000 0.000000 0.215941 -2.937860 3258 273 -6.7880E+00 8.907485 1.758652 -14.542173 7.851627 -99.000000 51.738871 0.000000 0.060585 0.784059 0.624619 5 2.8742E+05 4.387153 7.263036 2.871362 -12.529986 -8.589054 49.080667 0.000002 0.000000 0.372520 0.632E+03 max increase log_rel_run_E_err -5.7294572669176267 rel_E_err 1.8884625678532857D-10 Using fixed_vsurf 20000.000000000000 save photos/x650 for model 4650 k, q, energy_removed_layers before adjustment is 524 0.97848322139475330 9.5286289409245123E+049 k, q, energy_removed_layers after adjustment is 527 0.97793812145298875 9.5321840339437376E+049 Layers above q= 0.97793812145298875 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12394.224609375000 max vel inside fraction of cutoff 1941.8677496002731 max c/cs inside fraction of cutoff 2.2899422054740883 average v/vesc outside cutoff 2.2207440238320819 Kinetic plus potential energy outside cutoff 9.5321840339437376E+049 mass inside cutoff 527 50.597414695624792 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.5028896739752515E-002 4660 8.913338 4.889E+04 -18.802457 2.889706 51.738871 0.000000 0.000000 0.000000 0.215941 -2.922876 3301 273 -6.9981E+00 8.913338 1.766785 -13.453723 7.950914 -99.000000 51.738871 0.000000 0.060585 0.784059 0.624110 5 2.8742E+05 4.403650 7.245141 2.889706 -12.037597 -8.641239 49.080667 0.000002 0.000000 0.372520 0.623E+03 max increase log_rel_run_E_err -5.7293171818361159 rel_E_err 1.3917680622000032D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 526 0.97848322139475330 9.5312090578992992E+049 k, q, energy_removed_layers after adjustment is 529 0.97793812145298875 9.5347885463132464E+049 Layers above q= 0.97793812145298875 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12431.943359375000 max vel inside fraction of cutoff 2188.4201801299441 max c/cs inside fraction of cutoff 2.2487939650024087 average v/vesc outside cutoff 2.2361076985174191 Kinetic plus potential energy outside cutoff 9.5347885463132464E+049 mass inside cutoff 529 50.597414695624792 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.4816225935479577E-002 4670 8.907690 4.803E+04 -18.840497 2.872084 51.738871 0.000000 0.000000 0.000000 0.215941 -2.937396 3306 273 -6.9581E+00 8.907690 1.774227 -13.056741 7.855805 -99.000000 51.738871 0.000000 0.060585 0.784059 0.624589 5 2.8742E+05 4.387705 7.229136 2.872084 -12.511711 -8.689690 49.080667 0.000002 0.000000 0.372520 0.614E+03 min_dr_div_cs log_rel_run_E_err -5.7270002866759988 rel_E_err 7.9743996928451747D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 527 0.97848322139475341 9.5335126513610871E+049 k, q, energy_removed_layers after adjustment is 530 0.97793812145298886 9.5371098967521661E+049 Layers above q= 0.97793812145298886 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12467.087890625000 max vel inside fraction of cutoff 2337.5601547233146 max c/cs inside fraction of cutoff 2.2099886641134510 average v/vesc outside cutoff 2.2503063228316953 Kinetic plus potential energy outside cutoff 9.5371098967521661E+049 mass inside cutoff 530 50.597414695624806 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.4970488267523638E-002 4680 8.895353 4.730E+04 -18.924212 2.834284 51.738871 0.000000 0.000000 0.000000 0.215941 -2.969160 3288 273 -6.9139E+00 8.895353 1.780682 -13.236109 7.645351 -99.000000 51.738871 0.000000 0.060585 0.784059 0.625645 6 2.8742E+05 4.352898 7.215513 2.834284 -13.568104 -8.732389 49.080667 0.000002 0.000000 0.372520 0.605E+03 min_dr_div_cs log_rel_run_E_err -5.7239476874687139 rel_E_err 4.0075223448371151D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 528 0.97848322139475330 9.5354419020929741E+049 k, q, energy_removed_layers after adjustment is 531 0.97793812145298875 9.5390505714687520E+049 Layers above q= 0.97793812145298875 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12498.062500000000 max vel inside fraction of cutoff 2337.9488786749871 max c/cs inside fraction of cutoff 2.1754276103191330 average v/vesc outside cutoff 2.2627218833809617 Kinetic plus potential energy outside cutoff 9.5390505714687520E+049 mass inside cutoff 531 50.597414695624792 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.5332739726677347E-002 4690 8.879697 4.665E+04 -19.031354 2.787485 51.738871 0.000000 0.000000 0.000000 0.215941 -3.009543 3279 273 -7.1505E+00 8.879697 1.786599 -13.854780 7.374326 -99.000000 51.738871 0.000000 0.060585 0.784059 0.627014 6 2.8742E+05 4.308773 7.203219 2.787485 -14.950262 -8.772148 49.080667 0.000002 0.000000 0.372520 0.597E+03 min_dr_div_cs log_rel_run_E_err -5.7226080178248191 rel_E_err 4.2928551840064039D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 529 0.97848322139475330 9.5371504346975486E+049 k, q, energy_removed_layers after adjustment is 532 0.97793812145298875 9.5407661252990318E+049 Layers above q= 0.97793812145298875 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12526.863281250000 max vel inside fraction of cutoff 2269.9152037530221 max c/cs inside fraction of cutoff 2.1429996314336415 average v/vesc outside cutoff 2.2741716855299017 Kinetic plus potential energy outside cutoff 9.5407661252990318E+049 mass inside cutoff 532 50.597414695624792 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.5786626161074484E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 4700 8.861817 4.601E+04 -19.154861 2.734864 51.738871 0.000000 0.000000 0.000000 0.215941 -3.055761 3289 273 -7.0471E+00 8.861817 1.792465 -14.791017 7.061817 -99.000000 51.738871 0.000000 0.060585 0.784059 0.628613 6 2.8742E+05 4.258452 7.191207 2.734864 -16.587209 -8.812187 49.080667 0.000002 0.000000 0.372520 0.589E+03 lgRho_cntr log_rel_run_E_err -5.7210103059809585 rel_E_err 1.9428446228683185D-09 Using fixed_vsurf 20000.000000000000 save LOGS/profile50.data for model 4700 save photos/x700 for model 4700 k, q, energy_removed_layers before adjustment is 530 0.97848322139475330 9.5388289398262533E+049 k, q, energy_removed_layers after adjustment is 533 0.97793812145298875 9.5424482500852533E+049 Layers above q= 0.97793812145298875 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12555.800781250000 max vel inside fraction of cutoff 2109.3596494464905 max c/cs inside fraction of cutoff 2.1101384509865309 average v/vesc outside cutoff 2.2856086779222538 Kinetic plus potential energy outside cutoff 9.5424482500852533E+049 mass inside cutoff 533 50.597414695624792 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6293278843940765E-002 4710 8.843062 4.539E+04 -19.285748 2.679943 51.738871 0.000000 0.000000 0.000000 0.215941 -3.104353 3274 273 -6.9147E+00 8.843062 1.798373 -15.934250 6.735136 -99.000000 51.738871 0.000000 0.060585 0.784059 0.630332 7 2.8742E+05 4.205745 7.179290 2.679943 -18.374049 -8.853215 49.080667 0.000002 0.000000 0.372520 0.580E+03 lgRho_cntr log_rel_run_E_err -5.7194724385956874 rel_E_err 2.8521391008471151D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 533 0.97848322139475330 9.5404489166718372E+049 k, q, energy_removed_layers after adjustment is 536 0.97793812145298875 9.5440685210412547E+049 Layers above q= 0.97793812145298875 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12585.343750000000 max vel inside fraction of cutoff 1914.6342958288474 max c/cs inside fraction of cutoff 2.0763053942987044 average v/vesc outside cutoff 2.2971944679187715 Kinetic plus potential energy outside cutoff 9.5440685210412547E+049 mass inside cutoff 536 50.597414695624792 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6815937825428131E-002 4720 8.823339 4.473E+04 -19.424987 2.627168 51.738871 0.000000 0.000000 0.000000 0.215941 -3.155590 3270 273 -7.0160E+00 8.823339 1.804769 -17.289130 6.400855 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632183 6 2.8742E+05 4.150396 7.166599 2.627168 -20.333846 -8.898602 49.080667 0.000002 0.000000 0.372520 0.570E+03 lgRho_cntr log_rel_run_E_err -5.7179264868885893 rel_E_err 2.0869613687307268D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 534 0.97848322139475330 9.5421906201124238E+049 k, q, energy_removed_layers after adjustment is 537 0.97793812145298875 9.5458068497890312E+049 Layers above q= 0.97793812145298875 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12617.783203125000 max vel inside fraction of cutoff 1760.9149877456412 max c/cs inside fraction of cutoff 2.0388357381019202 average v/vesc outside cutoff 2.3098433126592752 Kinetic plus potential energy outside cutoff 9.5458068497890312E+049 mass inside cutoff 537 50.597414695624792 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7361129083665757E-002 4730 8.802798 4.400E+04 -19.571689 2.572237 51.738871 0.000000 0.000000 0.000000 0.215941 -3.209101 3251 273 -6.9004E+00 8.802798 1.812000 -18.884391 6.075410 -99.000000 51.738871 0.000000 0.060585 0.784059 0.634156 6 2.8742E+05 4.092833 7.152506 2.572237 -22.466594 -8.951477 49.080667 0.000002 0.000000 0.372520 0.558E+03 lgRho_cntr log_rel_run_E_err -5.7154632085838744 rel_E_err 3.4081161473461469D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 534 0.97848322139475330 9.5441319906038607E+049 k, q, energy_removed_layers after adjustment is 537 0.97793812145298875 9.5477400247662636E+049 Layers above q= 0.97793812145298875 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12655.041015625000 max vel inside fraction of cutoff 1760.8140608296296 max c/cs inside fraction of cutoff 1.9954267199897393 average v/vesc outside cutoff 2.3242745500788504 Kinetic plus potential energy outside cutoff 9.5477400247662636E+049 mass inside cutoff 537 50.597414695624792 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7922655355280445E-002 4740 8.782784 4.319E+04 -19.716924 2.518732 51.738871 0.000000 0.000000 0.000000 0.215941 -3.261367 3243 273 -6.7392E+00 8.782784 1.820232 -20.649761 5.792456 -99.000000 51.738871 0.000000 0.060585 0.784059 0.636125 5 2.8742E+05 4.036832 7.136758 2.518732 -24.638813 -9.014217 49.080667 0.000002 0.000000 0.372520 0.543E+03 lgRho_cntr log_rel_run_E_err -5.7122250491008337 rel_E_err 8.8293386627337220D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 538 0.97830258300531436 9.5480212566108603E+049 k, q, energy_removed_layers after adjustment is 540 0.97793812145298864 9.5497805545229939E+049 Layers above q= 0.97793812145298864 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12698.212890625000 max vel inside fraction of cutoff 1763.3668217961310 max c/cs inside fraction of cutoff 1.9447347219982070 average v/vesc outside cutoff 2.3408193360429115 Kinetic plus potential energy outside cutoff 9.5497805545229939E+049 mass inside cutoff 540 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8465969049195146E-002 4750 8.763195 4.215E+04 -19.859429 2.466370 51.738871 0.000000 0.000000 0.000000 0.215941 -3.312638 3236 273 -6.6580E+00 8.763195 1.831190 -22.629149 5.553226 -99.000000 51.738871 0.000000 0.060585 0.784059 0.638097 5 2.8742E+05 3.982099 7.116232 2.466370 -26.859407 -9.103384 49.080667 0.000002 0.000000 0.372520 0.519E+03 lgRho_cntr log_rel_run_E_err -5.7118278731642098 rel_E_err 4.8650800401943629D-12 Using fixed_vsurf 20000.000000000000 save photos/x750 for model 4750 k, q, energy_removed_layers before adjustment is 541 0.97830258300531425 9.5506939416685205E+049 k, q, energy_removed_layers after adjustment is 543 0.97793812145298853 9.5524302194485785E+049 Layers above q= 0.97793812145298853 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12756.968750000000 max vel inside fraction of cutoff 1770.1045865768206 max c/cs inside fraction of cutoff 1.9499835131561967 average v/vesc outside cutoff 2.3631144728186571 Kinetic plus potential energy outside cutoff 9.5524302194485785E+049 mass inside cutoff 543 50.597414695624785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9001943290409730E-002 4760 8.750560 4.037E+04 -19.952920 2.432614 51.738871 0.000000 0.000000 0.000000 0.215941 -3.345742 3219 273 -6.3992E+00 8.750560 1.851224 -24.789574 5.416835 -99.000000 51.738871 0.000000 0.060585 0.784059 0.639398 5 2.8742E+05 3.946845 7.081449 2.432614 -28.343948 -9.305210 49.080667 0.000002 0.000000 0.372520 0.457E+03 min_dr_div_cs log_rel_run_E_err -5.7117804421632723 rel_E_err 6.3240207621015515D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 542 0.97830258300531425 9.5553359518983206E+049 k, q, energy_removed_layers after adjustment is 546 0.97784595321959678 9.5568897070558833E+049 Layers above q= 0.97784595321959678 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12868.302734375000 max vel inside fraction of cutoff 1762.0783197209851 max c/cs inside fraction of cutoff 2.0292916730598449 average v/vesc outside cutoff 2.3946383232594317 Kinetic plus potential energy outside cutoff 9.5568897070558833E+049 mass inside cutoff 546 50.592646015250857 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.9383637072768348E-002 4770 8.768631 3.867E+04 -19.820050 2.480758 51.738871 0.000000 0.000000 0.000000 0.215941 -3.298807 3203 273 -6.5528E+00 8.768631 1.872666 -25.143675 5.615067 -99.000000 51.738871 0.000000 0.060585 0.784059 0.637460 5 2.8742E+05 3.997104 7.049569 2.480758 -26.234779 -11.130047 49.080667 0.000002 0.000000 0.372520 0.628E+02 lgRho_cntr log_rel_run_E_err -5.7116259011144654 rel_E_err 1.7511428437448428D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 544 0.97830258300531425 9.5590812999873940E+049 k, q, energy_removed_layers after adjustment is 549 0.97784595321959678 9.5612273137891988E+049 Layers above q= 0.97784595321959678 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -12993.287109375000 max vel inside fraction of cutoff 1753.8155512923931 max c/cs inside fraction of cutoff 2.1879389364721651 average v/vesc outside cutoff 2.4399897922631717 Kinetic plus potential energy outside cutoff 9.5612273137891988E+049 mass inside cutoff 549 50.592646015250857 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8959361194646243E-002 4780 8.788519 3.771E+04 -19.675221 2.533752 51.738871 0.000000 0.000000 0.000000 0.215941 -3.247245 3218 273 -6.7657E+00 8.788519 1.883311 -24.301530 5.868940 -99.000000 51.738871 0.000000 0.060585 0.784059 0.635375 5 2.8742E+05 4.052498 7.027173 2.533752 -24.007860 -11.540608 49.080667 0.000002 0.000000 0.372520 0.411E+02 lgRho_cntr log_rel_run_E_err -5.7116081799300176 rel_E_err 9.4097392243954362D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 544 0.97830258300531425 9.5612654040844568E+049 k, q, energy_removed_layers after adjustment is 549 0.97784595321959678 9.5632961377734355E+049 Layers above q= 0.97784595321959678 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -13057.669921875000 max vel inside fraction of cutoff 1749.2089277338935 max c/cs inside fraction of cutoff 2.3160104973080804 average v/vesc outside cutoff 2.4629458661722601 Kinetic plus potential energy outside cutoff 9.5632961377734355E+049 mass inside cutoff 549 50.592646015250857 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8445446140218368E-002 4790 8.807131 3.707E+04 -19.541419 2.583365 51.738871 0.000000 0.000000 0.000000 0.215941 -3.199085 3236 273 -6.8390E+00 8.807131 1.891211 -22.976518 6.141170 -99.000000 51.738871 0.000000 0.060585 0.784059 0.633467 5 2.8742E+05 4.104420 7.013205 2.583365 -22.009695 -11.744164 49.080667 0.000002 0.000000 0.372520 0.337E+02 lgRho_cntr log_rel_run_E_err -5.7115898916857475 rel_E_err 6.9081070478459438D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 544 0.97830258300531425 9.5628110957468808E+049 k, q, energy_removed_layers after adjustment is 549 0.97784595321959678 9.5647702916146643E+049 Layers above q= 0.97784595321959678 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -13106.472656250000 max vel inside fraction of cutoff 1753.0732220111313 max c/cs inside fraction of cutoff 2.4147201850866584 average v/vesc outside cutoff 2.4801660678963429 Kinetic plus potential energy outside cutoff 9.5647702916146643E+049 mass inside cutoff 549 50.592646015250857 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7947662554461895E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 4800 8.825235 3.653E+04 -19.412189 2.631641 51.738871 0.000000 0.000000 0.000000 0.215941 -3.152345 3244 273 -6.8640E+00 8.825235 1.898204 -21.409310 6.432289 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631652 5 2.8742E+05 4.154992 7.001520 2.631641 -20.142613 -11.888806 49.080667 0.000002 0.000000 0.372520 0.294E+02 lgRho_cntr log_rel_run_E_err -5.7115762974282438 rel_E_err 5.7203587607127080D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile51.data for model 4800 save photos/x800 for model 4800 k, q, energy_removed_layers before adjustment is 544 0.97830258300531425 9.5641295490369873E+049 k, q, energy_removed_layers after adjustment is 549 0.97784595321959678 9.5660330503086134E+049 Layers above q= 0.97784595321959678 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -13150.429687500000 max vel inside fraction of cutoff 1763.9070483496325 max c/cs inside fraction of cutoff 2.4208011041248696 average v/vesc outside cutoff 2.4955463228637322 Kinetic plus potential energy outside cutoff 9.5660330503086134E+049 mass inside cutoff 549 50.592646015250857 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7450781302340948E-002 4810 8.845971 3.591E+04 -19.266061 2.686999 51.738871 0.000000 0.000000 0.000000 0.215941 -3.098977 3273 273 -6.7575E+00 8.845971 1.906379 -19.467719 6.785889 -99.000000 51.738871 0.000000 0.060585 0.784059 0.629613 5 2.8742E+05 4.212987 6.988388 2.686999 -18.092676 -12.031593 49.080667 0.000002 0.000000 0.372520 0.258E+02 lgRho_cntr log_rel_run_E_err -5.7115543769833499 rel_E_err 8.9089634950357281D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 546 0.97830258300531425 9.5655877854988174E+049 k, q, energy_removed_layers after adjustment is 551 0.97784595321959678 9.5674337121580008E+049 Layers above q= 0.97784595321959678 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -13202.714843750000 max vel inside fraction of cutoff 1763.8707721345252 max c/cs inside fraction of cutoff 2.4543502020225616 average v/vesc outside cutoff 2.5136701305587201 Kinetic plus potential energy outside cutoff 9.5674337121580008E+049 mass inside cutoff 551 50.592646015250857 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6865535407747939E-002 4820 8.865289 3.516E+04 -19.131433 2.744297 51.738871 0.000000 0.000000 0.000000 0.215941 -3.049364 3311 273 -6.5402E+00 8.865289 1.916739 -17.426855 7.123670 -99.000000 51.738871 0.000000 0.060585 0.784059 0.627765 5 2.8742E+05 4.267112 6.972364 2.744297 -16.264246 -12.185757 49.080667 0.000002 0.000000 0.372520 0.225E+02 max increase log_rel_run_E_err -5.7115279049860899 rel_E_err 2.0246141847658363D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 548 0.97830258300531414 9.5673448599365902E+049 k, q, energy_removed_layers after adjustment is 553 0.97784595321959666 9.5691273399334544E+049 Layers above q= 0.97784595321959666 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -13270.410156250000 max vel inside fraction of cutoff 1752.2994191704879 max c/cs inside fraction of cutoff 2.4870039536400874 average v/vesc outside cutoff 2.5368909684776675 Kinetic plus potential energy outside cutoff 9.5691273399334544E+049 mass inside cutoff 553 50.592646015250857 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6297553603367694E-002 4830 8.859209 3.385E+04 -19.173464 2.726199 51.738871 0.000000 0.000000 0.000000 0.215941 -3.065245 3352 273 -6.2152E+00 8.859209 1.935765 -16.512181 7.017729 -99.000000 51.738871 0.000000 0.060585 0.784059 0.628284 5 2.8742E+05 4.249949 6.944354 2.726199 -16.830591 -12.420956 49.088907 0.000002 0.000000 0.372520 0.185E+02 min_dr_div_cs log_rel_run_E_err -5.7101062553897508 rel_E_err 5.9612973659715598D-09 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 640 0.96903675113911247 9.1499592285156088E+049 k, q, energy_removed_layers after adjustment is 695 0.94998432474462147 1.0197621594500145E+050 Layers above q= 0.94998432474462147 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -13399.009765625000 max vel inside fraction of cutoff 1339.3212000594240 max c/cs inside fraction of cutoff 1.0532616480590513 average v/vesc outside cutoff 1.5609656897488666 Kinetic plus potential energy outside cutoff 1.0197621594500145E+050 mass inside cutoff 695 49.151116802800047 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.6433473817148394E-002 4840 8.835415 3.307E+04 -19.339982 2.658547 51.738871 0.000000 0.000000 0.000000 0.215941 -3.127048 3346 273 -6.7363E+00 8.835415 1.947596 -17.847855 6.605471 -99.000000 51.738871 0.000000 0.060585 0.784059 0.630454 5 2.8742E+05 4.183058 6.927755 2.658547 -19.122958 -12.546440 49.088907 0.000002 0.000000 0.372520 0.168E+02 lgRho_cntr log_rel_run_E_err -5.7100433436123179 rel_E_err 3.8318983031801436D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 634 0.96870557325155726 9.3285367401818029E+049 k, q, energy_removed_layers after adjustment is 689 0.94998432474462158 1.0270505003962915E+050 Layers above q= 0.94998432474462158 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -13481.871093750000 max vel inside fraction of cutoff 1383.3929748473602 max c/cs inside fraction of cutoff 1.1330852066909651 average v/vesc outside cutoff 1.5805426756845709 Kinetic plus potential energy outside cutoff 1.0270505003962915E+050 mass inside cutoff 689 49.151116802800047 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7098473408193488E-002 4850 8.816022 3.252E+04 -19.477454 2.606657 51.738871 0.000000 0.000000 0.000000 0.215941 -3.177493 3340 273 -6.7210E+00 8.816022 1.956365 -19.372742 6.283206 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632285 5 2.8742E+05 4.128657 6.915820 2.606657 -21.081620 -12.632290 49.088907 0.000002 0.000000 0.372520 0.158E+02 lgRho_cntr log_rel_run_E_err -5.7100345948333588 rel_E_err 4.1491210403457043D-12 Using fixed_vsurf 20000.000000000000 save photos/x850 for model 4850 k, q, energy_removed_layers before adjustment is 636 0.96870557325155715 9.4135168099457977E+049 k, q, energy_removed_layers after adjustment is 693 0.95017496036676796 1.0319985066975404E+050 Layers above q= 0.95017496036676796 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -13544.753906250000 max vel inside fraction of cutoff 1308.9640256663840 max c/cs inside fraction of cutoff 1.1707609850345928 average v/vesc outside cutoff 1.5990026535273802 Kinetic plus potential energy outside cutoff 1.0319985066975404E+050 mass inside cutoff 693 49.160980074737104 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7642074893695763E-002 4860 8.795863 3.184E+04 -19.622042 2.552742 51.738871 0.000000 0.000000 0.000000 0.215941 -3.230071 3336 273 -6.5182E+00 8.795863 1.967335 -21.290907 5.974472 -99.000000 51.738871 0.000000 0.060585 0.784059 0.634233 5 2.8742E+05 4.072187 6.901310 2.552742 -23.207607 -12.733104 49.088907 0.000002 0.000000 0.372520 0.146E+02 max increase log_rel_run_E_err -5.7100224874644310 rel_E_err 7.6468534125202060D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 642 0.96812703263153432 9.5488949941868714E+049 k, q, energy_removed_layers after adjustment is 699 0.95036325268907973 1.0377314141614520E+050 Layers above q= 0.95036325268907973 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -13625.232421875000 max vel inside fraction of cutoff 1291.5376406753803 max c/cs inside fraction of cutoff 1.2095794843029557 average v/vesc outside cutoff 1.6211887688035218 Kinetic plus potential energy outside cutoff 1.0377314141614520E+050 mass inside cutoff 699 49.170722106985380 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8209710415435314E-002 4870 8.783776 3.050E+04 -19.709640 2.520441 51.738871 0.000000 0.000000 0.000000 0.215941 -3.261660 3316 273 -6.0901E+00 8.783776 1.990237 -23.506937 5.806482 -99.000000 51.738871 0.000000 0.060585 0.784059 0.635423 5 2.8742E+05 4.038367 6.872439 2.520441 -24.528520 -12.925813 49.088907 0.000002 0.000000 0.372520 0.128E+02 min_dr_div_cs log_rel_run_E_err -5.7098882675933691 rel_E_err 2.1522566346172216D-10 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 638 0.96734842722113601 9.7910990762433129E+049 k, q, energy_removed_layers after adjustment is 690 0.95158173521094780 1.0481421788298126E+050 Layers above q= 0.95158173521094780 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -13799.943359375000 max vel inside fraction of cutoff 1285.1054141767111 max c/cs inside fraction of cutoff 1.3408214347947125 average v/vesc outside cutoff 1.6871191043137732 Kinetic plus potential energy outside cutoff 1.0481421788298126E+050 mass inside cutoff 690 49.233765017478248 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8582422327331273E-002 4880 8.806209 2.936E+04 -19.547935 2.580255 51.738871 0.000000 0.000000 0.000000 0.215941 -3.203633 3308 273 -6.4803E+00 8.806209 2.011034 -22.498252 6.128584 -99.000000 51.738871 0.000000 0.060585 0.784059 0.633110 5 2.8742E+05 4.100917 6.847939 2.580255 -22.105401 -13.084480 49.088907 0.000002 0.000000 0.372520 0.115E+02 lgRho_cntr log_rel_run_E_err -5.7097894563059741 rel_E_err 4.1986346116370023D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 631 0.96660463866615332 9.9886526199225508E+049 k, q, energy_removed_layers after adjustment is 679 0.95233730280662821 1.0568250812832954E+050 Layers above q= 0.95233730280662821 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -13966.775390625000 max vel inside fraction of cutoff 1297.1814763640198 max c/cs inside fraction of cutoff 1.3714796657551751 average v/vesc outside cutoff 1.7413882585924074 Kinetic plus potential energy outside cutoff 1.0568250812832954E+050 mass inside cutoff 679 49.272857232139458 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.8000282969689459E-002 4890 8.825709 2.873E+04 -19.408969 2.632285 51.738871 0.000000 0.000000 0.000000 0.215941 -3.153290 3319 273 -6.4527E+00 8.825709 2.023192 -20.784039 6.441914 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631155 5 2.8742E+05 4.155387 6.834622 2.632285 -20.093295 -13.171628 49.088907 0.000002 0.000000 0.372520 0.108E+02 lgRho_cntr log_rel_run_E_err -5.7097799070316126 rel_E_err 4.3855797506786975D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 627 0.96660463866615332 1.0062624225063746E+050 k, q, energy_removed_layers after adjustment is 673 0.95270467695884264 1.0614853034167737E+050 Layers above q= 0.95270467695884264 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -14068.074218750000 max vel inside fraction of cutoff 1275.2639957634979 max c/cs inside fraction of cutoff 1.4052171141479421 average v/vesc outside cutoff 1.7718566069135235 Kinetic plus potential energy outside cutoff 1.0614853034167737E+050 mass inside cutoff 673 49.291864756153785 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7462332415392813E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 4900 8.839331 2.770E+04 -19.312715 2.668707 51.738871 0.000000 0.000000 0.000000 0.215941 -3.118189 3361 273 -5.9817E+00 8.839331 2.043869 -18.869129 6.673077 -99.000000 51.738871 0.000000 0.060585 0.784059 0.629818 5 2.8742E+05 4.193489 6.812626 2.668707 -18.737337 -13.312700 49.088907 0.000002 0.000000 0.372520 0.991E+01 max increase log_rel_run_E_err -5.7097496310975169 rel_E_err 2.1515230929691073D-11 Using fixed_vsurf 20000.000000000000 save LOGS/profile52.data for model 4900 save photos/x900 for model 4900 k, q, energy_removed_layers before adjustment is 626 0.96587643452598337 1.0220640176289832E+050 k, q, energy_removed_layers after adjustment is 668 0.95400866823523867 1.0686416059528236E+050 Layers above q= 0.95400866823523867 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -14246.992187500000 max vel inside fraction of cutoff 1264.0451413015483 max c/cs inside fraction of cutoff 1.4411564537021486 average v/vesc outside cutoff 1.8444823478874972 Kinetic plus potential energy outside cutoff 1.0686416059528236E+050 mass inside cutoff 668 49.359331793100111 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7062269015431139E-002 4910 8.811207 2.636E+04 -19.512047 2.593397 51.738871 0.000000 0.000000 0.000000 0.215941 -3.191563 3436 273 -6.2248E+00 8.811207 2.072903 -20.751809 6.207375 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632429 5 2.8742E+05 4.114509 6.784145 2.593397 -21.580415 -13.498209 49.088907 0.000002 0.000000 0.372520 0.885E+01 max increase log_rel_run_E_err -5.7097157068592042 rel_E_err 4.7796150788055714D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 635 0.96534186299174907 1.0393470853304344E+050 k, q, energy_removed_layers after adjustment is 680 0.95455086183367932 1.0773017971230123E+050 Layers above q= 0.95455086183367932 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -14513.054687500000 max vel inside fraction of cutoff 1203.0330459492498 max c/cs inside fraction of cutoff 1.4617359883288465 average v/vesc outside cutoff 1.9130998272705706 Kinetic plus potential energy outside cutoff 1.0773017971230123E+050 mass inside cutoff 680 49.387384277959633 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7851857780370835E-002 4920 8.813597 2.474E+04 -19.495131 2.599788 51.738871 0.000000 0.000000 0.000000 0.215941 -3.185581 3481 273 -5.8801E+00 8.813597 2.111387 -21.387144 6.245152 -99.000000 51.738871 0.000000 0.060585 0.784059 0.632149 5 2.8742E+05 4.121101 6.750761 2.599788 -21.332152 -13.726535 49.088907 0.000002 0.000000 0.372520 0.772E+01 lgRho_cntr log_rel_run_E_err -5.7095214743934486 rel_E_err 3.8111540297934154D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 636 0.96468077216044612 1.0574546482696283E+050 k, q, energy_removed_layers after adjustment is 773 0.93742558786907459 1.1589308258609322E+050 Layers above q= 0.93742558786907459 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -14894.279296875000 max vel inside fraction of cutoff 839.08118026102841 max c/cs inside fraction of cutoff 0.80343941951143216 average v/vesc outside cutoff 1.6278082041404101 Kinetic plus potential energy outside cutoff 1.1589308258609322E+050 mass inside cutoff 773 48.501341930744573 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7827617799776435E-002 4930 8.818898 2.330E+04 -19.457291 2.614027 51.738871 0.000000 0.000000 0.000000 0.215941 -3.171944 3492 273 -5.7380E+00 8.818898 2.149344 -20.602065 6.330693 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631608 5 2.8742E+05 4.135888 6.722940 2.614027 -20.785412 -13.936513 49.088907 0.000002 0.000000 0.372520 0.683E+01 min_dr_div_cs log_rel_run_E_err -5.7094620555878519 rel_E_err 4.5706816319554372D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 639 0.96410169734947648 1.0723725661779441E+050 k, q, energy_removed_layers after adjustment is 768 0.93847171048588018 1.1712910359686768E+050 Layers above q= 0.93847171048588018 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -15304.867187500000 max vel inside fraction of cutoff 739.36018085214448 max c/cs inside fraction of cutoff 0.80476339325793733 average v/vesc outside cutoff 1.7141018339020500 Kinetic plus potential energy outside cutoff 1.1712910359686768E+050 mass inside cutoff 768 48.555467134276206 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7687880211073383E-002 4940 8.816358 2.143E+04 -19.476037 2.607400 51.738871 0.000000 0.000000 0.000000 0.215941 -3.178586 3491 273 -5.6424E+00 8.816358 2.205304 -21.023251 6.289560 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631844 5 2.8742E+05 4.128756 6.689284 2.607400 -21.046478 -14.226076 49.088907 0.000002 0.000000 0.372520 0.579E+01 min_dr_div_cs log_rel_run_E_err -5.7093535161872095 rel_E_err 1.5659699598327591D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 669 0.95622660395838244 1.1297676756182059E+050 k, q, energy_removed_layers after adjustment is 743 0.94164936152967449 1.1853496097924059E+050 Layers above q= 0.94164936152967449 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -15979.568359375000 max vel inside fraction of cutoff 707.10893299747897 max c/cs inside fraction of cutoff 0.87962407592271308 average v/vesc outside cutoff 1.8881543018903673 Kinetic plus potential energy outside cutoff 1.1853496097924059E+050 mass inside cutoff 743 48.719875212961156 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7790022948759558E-002 4950 8.815556 1.908E+04 -19.481115 2.605570 51.738871 0.000000 0.000000 0.000000 0.215941 -3.180670 3491 273 -5.4546E+00 8.815556 2.286652 -21.114425 6.276655 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631921 5 2.8742E+05 4.126510 6.650407 2.605570 -21.129245 -14.615859 49.088907 0.000002 0.000000 0.372520 0.466E+01 min_dr_div_cs log_rel_run_E_err -5.7092307205670041 rel_E_err 1.9922535240172777D-11 Using fixed_vsurf 20000.000000000000 save photos/x950 for model 4950 k, q, energy_removed_layers before adjustment is 676 0.95497638829412712 1.1676428693100557E+050 k, q, energy_removed_layers after adjustment is 793 0.93511600315207621 1.2207192948126990E+050 Layers above q= 0.93511600315207621 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -17129.218750000000 max vel inside fraction of cutoff 387.05370105712359 max c/cs inside fraction of cutoff 0.47394605297736053 average v/vesc outside cutoff 1.9084959004202804 Kinetic plus potential energy outside cutoff 1.2207192948126990E+050 mass inside cutoff 793 48.381846624101847 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7843902707554752E-002 4960 8.815326 1.674E+04 -19.482794 2.605394 51.738871 0.000000 0.000000 0.000000 0.215941 -3.181265 3481 273 -5.2234E+00 8.815326 2.379429 -21.180452 6.272960 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631944 5 2.8742E+05 4.125867 6.608266 2.605394 -21.152982 -15.028564 49.088907 0.000002 0.000000 0.372520 0.377E+01 max increase log_rel_run_E_err -5.7091536811439800 rel_E_err 1.6069360811201811D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 672 0.95384112065879301 1.1935717389592212E+050 k, q, energy_removed_layers after adjustment is 767 0.93752741782866422 1.2367809925795420E+050 Layers above q= 0.93752741782866422 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -18732.138671875000 max vel inside fraction of cutoff 374.20471899098879 max c/cs inside fraction of cutoff 0.50734578628915150 average v/vesc outside cutoff 2.1629307050670588 Kinetic plus potential energy outside cutoff 1.2367809925795420E+050 mass inside cutoff 767 48.506610497927689 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7878912204562654E-002 4970 8.815151 1.438E+04 -19.484048 2.605747 51.738871 0.000000 0.000000 0.000000 0.215941 -3.181721 3499 273 -4.9148E+00 8.815151 2.514046 -21.240527 6.270138 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631961 5 2.8742E+05 4.125376 6.613494 2.605747 -21.171119 -15.614378 49.088907 0.000002 0.000000 0.372520 0.260E+01 max increase log_rel_run_E_err -5.7090814573625854 rel_E_err 2.3907309477119644D-11 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 696 0.94918305632801780 1.2333133803465761E+050 k, q, energy_removed_layers after adjustment is 767 0.93762964477569222 1.2527949557347347E+050 Layers above q= 0.93762964477569222 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -21760.322265625000 max vel inside fraction of cutoff 303.88150927711564 max c/cs inside fraction of cutoff 0.47657196109226929 average v/vesc outside cutoff 2.4913342144256525 Kinetic plus potential energy outside cutoff 1.2527949557347347E+050 mass inside cutoff 767 48.511899604792809 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7914677946830325E-002 4980 8.815022 1.319E+04 -19.484937 2.606656 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182055 3553 273 -4.7047E+00 8.815022 2.662833 -21.284674 6.268066 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631974 5 2.8742E+05 4.125015 6.761406 2.606656 -21.184452 -16.218009 49.088907 0.000002 0.000000 0.372520 0.154E+01 min_dr_div_cs log_rel_run_E_err -5.7090545355369668 rel_E_err 8.2076951480757120D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 702 0.94744109087238537 1.2518533162184316E+050 k, q, energy_removed_layers after adjustment is 761 0.93838367995213434 1.2634191712321218E+050 Layers above q= 0.93838367995213434 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -26402.623046875000 max vel inside fraction of cutoff 240.61307127531543 max c/cs inside fraction of cutoff 0.44966922581997437 average v/vesc outside cutoff 2.9394299080964696 Kinetic plus potential energy outside cutoff 1.2634191712321218E+050 mass inside cutoff 761 48.550912533812124 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7942018272601590E-002 4990 8.814941 1.104E+04 -19.485506 2.608382 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182264 3629 273 -4.5599E+00 8.814941 2.825325 -21.312294 6.266772 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631981 5 2.8742E+05 4.124790 6.776777 2.608382 -21.192783 -16.835294 49.088907 0.000002 0.000000 0.372520 0.108E+01 max increase log_rel_run_E_err -5.7090419511809305 rel_E_err 4.5382641915194116D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 713 0.94569315999346282 1.2638174807702576E+050 k, q, energy_removed_layers after adjustment is 769 0.93911712079257181 1.2699912921048918E+050 Layers above q= 0.93911712079257181 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -33664.537109375000 max vel inside fraction of cutoff 173.31448457678738 max c/cs inside fraction of cutoff 0.37126045964817134 average v/vesc outside cutoff 3.5247627591702497 Kinetic plus potential energy outside cutoff 1.2699912921048918E+050 mass inside cutoff 769 48.588859935129484 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7960305786426446E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 5000 8.814899 8793.454 -19.485855 2.611223 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182373 3700 273 -4.3379E+00 8.814899 2.995995 -21.326768 6.266097 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631986 5 2.8742E+05 4.124672 6.723321 2.611223 -21.197131 -17.458863 49.088907 0.000002 0.000000 0.372520 0.832E+00 min_dr_div_cs log_rel_run_E_err -5.7090338403492922 rel_E_err 3.2415095533940858D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile53.data for model 5000 save photos/5000 for model 5000 k, q, energy_removed_layers before adjustment is 728 0.94430052782492047 1.2707806560285762E+050 k, q, energy_removed_layers after adjustment is 781 0.93964925898554919 1.2738095641642203E+050 Layers above q= 0.93964925898554919 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -44864.429687500000 max vel inside fraction of cutoff 95.060159952741301 max c/cs inside fraction of cutoff 0.23747764439519367 average v/vesc outside cutoff 4.2631063004133791 Kinetic plus potential energy outside cutoff 1.2738095641642203E+050 mass inside cutoff 781 48.616392164658954 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7968929577092201E-002 5010 8.814887 6859.593 -19.485933 2.615251 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182405 3762 273 -4.2606E+00 8.814887 3.159055 -21.331131 6.265894 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631987 5 2.8742E+05 4.124637 6.617997 2.615251 -21.198438 -18.039953 49.088907 0.000002 0.000000 0.372520 0.700E+00 min_dr_div_cs log_rel_run_E_err -5.7090266016252214 rel_E_err 3.2074335472360574D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 740 0.94354807623781400 1.2741475360822366E+050 k, q, energy_removed_layers after adjustment is 787 0.93996731122862354 1.2758108354630305E+050 Layers above q= 0.93996731122862354 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -60569.078125000000 max vel inside fraction of cutoff 24.354392904191922 max c/cs inside fraction of cutoff 6.3365238384256700E-002 average v/vesc outside cutoff 5.1108551636846373 Kinetic plus potential energy outside cutoff 1.2758108354630305E+050 mass inside cutoff 787 48.632847828759452 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7971883444080411E-002 5020 8.814896 5100.480 -19.485863 2.622003 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182382 3802 273 -3.9776E+00 8.814896 3.345008 -21.328083 6.266037 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631986 5 2.8742E+05 4.124662 6.475153 2.622003 -21.197513 -18.688615 49.088898 0.000002 0.000000 0.372520 0.600E+00 min_dr_div_cs log_rel_run_E_err -5.7090144897238764 rel_E_err 3.3866591780612456D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 752 0.94286694244332114 1.2762789935224818E+050 k, q, energy_removed_layers after adjustment is 783 0.94069845456863477 1.2770287046561124E+050 Layers above q= 0.94069845456863477 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -87382.605468750000 max vel inside fraction of cutoff 23.058693052054316 max c/cs inside fraction of cutoff 6.4573662100273807E-002 average v/vesc outside cutoff 6.3374228600940441 Kinetic plus potential energy outside cutoff 1.2770287046561124E+050 mass inside cutoff 783 48.670676359997735 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7973168639234023E-002 5030 8.814920 4208.315 -19.485699 2.632595 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182317 3891 273 -3.6883E+00 8.814920 3.541718 -21.319694 6.266431 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631984 5 2.8742E+05 4.124731 6.534563 2.632595 -21.194979 -19.362547 49.088898 0.000002 0.000000 0.372520 0.406E+00 min_dr_div_cs log_rel_run_E_err -5.7090058774531460 rel_E_err 9.6494056633063711D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 762 0.94240596345315120 1.2773634480378577E+050 k, q, energy_removed_layers after adjustment is 793 0.94099548688392320 1.2776905910886769E+050 Layers above q= 0.94099548688392320 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -131489.27734375000 max vel inside fraction of cutoff 23.251750793073125 max c/cs inside fraction of cutoff 6.0172591311157361E-002 average v/vesc outside cutoff 7.9218887368195405 Kinetic plus potential energy outside cutoff 1.2776905910886769E+050 mass inside cutoff 793 48.686044476757843 relax counter 0 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7972593065297560E-002 5040 8.814945 3597.670 -19.485512 2.645192 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182252 4056 273 -3.9230E+00 8.814945 3.707469 -21.311166 6.266833 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631982 5 2.8742E+05 4.124801 6.593716 2.645192 -21.192395 -19.926664 49.088898 0.000002 0.000000 0.372520 0.290E+00 min_dr_div_cs log_rel_run_E_err -5.7089990346785724 rel_E_err 3.1820145836112340D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 798 0.94216563189670677 1.2778036603726075E+050 k, q, energy_removed_layers after adjustment is 822 0.94118013182676197 1.2779715135814541E+050 Layers above q= 0.94118013182676197 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -187760.84179687500 max vel inside fraction of cutoff 14.306695084206167 max c/cs inside fraction of cutoff 3.6824595533605509E-002 average v/vesc outside cutoff 9.5671279875730217 Kinetic plus potential energy outside cutoff 1.2779715135814541E+050 mass inside cutoff 822 48.695597797708650 relax counter 6 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7970714184957096E-002 5050 8.814951 3477.072 -19.485432 2.648891 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182235 4111 273 -4.3997E+00 8.814951 3.748017 -21.309053 6.266933 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631981 5 2.8742E+05 4.124819 6.615583 2.648891 -21.191753 -20.064421 49.088898 0.000002 0.000000 0.372520 0.265E+00 min_dr_div_cs log_rel_run_E_err -5.7089920687604598 rel_E_err 3.0805403163788408D-12 Using fixed_vsurf 20000.000000000000 save photos/x050 for model 5050 k, q, energy_removed_layers before adjustment is 802 0.94213150654590094 1.2778767708765462E+050 k, q, energy_removed_layers after adjustment is 824 0.94122386460072005 1.2780186637029851E+050 Layers above q= 0.94122386460072005 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -205118.13867187500 max vel inside fraction of cutoff 10.995921943849078 max c/cs inside fraction of cutoff 2.8015755978908007E-002 average v/vesc outside cutoff 10.020734608888672 Kinetic plus potential energy outside cutoff 1.2780186637029851E+050 mass inside cutoff 824 48.697860482076095 relax counter 16 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7969953592368920E-002 5060 8.814955 3382.236 -19.485405 2.651972 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182224 4107 273 -4.2231E+00 8.814955 3.779808 -21.307685 6.266998 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631981 5 2.8742E+05 4.124830 6.631125 2.651972 -21.191335 -20.172490 49.088898 0.000002 0.000000 0.372520 0.247E+00 min_dr_div_cs log_rel_run_E_err -5.7089851418390367 rel_E_err 3.2309614372421053D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 802 0.94209169374662871 1.2779300043198731E+050 k, q, energy_removed_layers after adjustment is 822 0.94126753788298090 1.2780510265060154E+050 Layers above q= 0.94126753788298090 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -219906.28906250000 max vel inside fraction of cutoff 7.9966832505207064 max c/cs inside fraction of cutoff 2.0235742117235129E-002 average v/vesc outside cutoff 10.393412192288286 Kinetic plus potential energy outside cutoff 1.2780510265060154E+050 mass inside cutoff 822 48.700120088410273 relax counter 26 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7969431265732519E-002 5070 8.814958 3313.414 -19.485420 2.654343 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182218 4152 273 -4.6039E+00 8.814958 3.803206 -21.306900 6.267035 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631981 5 2.8742E+05 4.124837 6.642210 2.654343 -21.191095 -20.252077 49.088898 0.000002 0.000000 0.372520 0.235E+00 min_dr_div_cs log_rel_run_E_err -5.7089780764908999 rel_E_err 3.2703077660671206D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 802 0.94209169374662871 1.2779568591714512E+050 k, q, energy_removed_layers after adjustment is 821 0.94131121702230769 1.2780721416765113E+050 Layers above q= 0.94131121702230769 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -231503.72851562500 max vel inside fraction of cutoff 5.3846102648706022 max c/cs inside fraction of cutoff 1.3582912691988755E-002 average v/vesc outside cutoff 10.678750458439531 Kinetic plus potential energy outside cutoff 1.2780721416765113E+050 mass inside cutoff 821 48.702379997782437 relax counter 36 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7969123520308320E-002 5080 8.814959 3263.184 -19.485428 2.656135 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182215 4179 273 -4.5095E+00 8.814959 3.820322 -21.306495 6.267055 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631980 5 2.8742E+05 4.124840 6.649904 2.656135 -21.190969 -20.310313 49.088898 0.000002 0.000000 0.372520 0.227E+00 max increase log_rel_run_E_err -5.7089708404800357 rel_E_err 3.5056354326546201D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 803 0.94205203937177961 1.2779860986072168E+050 k, q, energy_removed_layers after adjustment is 821 0.94131121702230769 1.2780864380853869E+050 Layers above q= 0.94131121702230769 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -240391.56835937500 max vel inside fraction of cutoff 3.0878310473401402 max c/cs inside fraction of cutoff 7.7712071945861558E-003 average v/vesc outside cutoff 10.887057220103905 Kinetic plus potential energy outside cutoff 1.2780864380853869E+050 mass inside cutoff 821 48.702379997782437 relax counter 46 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7968963970813704E-002 5090 8.814960 3208.026 -19.485375 2.658156 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182213 4182 273 -4.4450E+00 8.814960 3.839106 -21.306314 6.267064 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631980 5 2.8742E+05 4.124842 6.657857 2.658156 -21.190912 -20.372407 49.088898 0.000002 0.000000 0.372520 0.218E+00 max increase log_rel_run_E_err -5.7089631695372409 rel_E_err 3.6681053971459324D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 803 0.94205203937177961 1.2780042583848752E+050 k, q, energy_removed_layers after adjustment is 821 0.94131121702230769 1.2781008473875330E+050 Layers above q= 0.94131121702230769 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -250557.21289062500 max vel inside fraction of cutoff 0.12808061038570467 max c/cs inside fraction of cutoff 3.2156951765750222E-004 average v/vesc outside cutoff 11.120472345426421 Kinetic plus potential energy outside cutoff 1.2781008473875330E+050 mass inside cutoff 821 48.702379997782437 relax counter 56 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7968895982241029E-002 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 5100 8.814959 3147.624 -19.485418 2.660367 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182215 4164 273 -4.4279E+00 8.814959 3.859079 -21.306522 6.267055 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631981 5 2.8742E+05 4.124840 6.664782 2.660367 -21.190970 -20.431638 49.088898 0.000002 0.000000 0.372520 0.212E+00 min_dr_div_cs log_rel_run_E_err -5.7089553552272241 rel_E_err 3.5144826556633095D-12 Using fixed_vsurf 20000.000000000000 save LOGS/profile54.data for model 5100 save photos/x100 for model 5100 k, q, energy_removed_layers before adjustment is 803 0.94205203937177961 1.2780219580359146E+050 k, q, energy_removed_layers after adjustment is 820 0.94135497356982656 1.2781146954580814E+050 Layers above q= 0.94135497356982656 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -261859.70898437500 max vel inside fraction of cutoff 2.8360999189286273 max c/cs inside fraction of cutoff 7.1531336031020881E-003 average v/vesc outside cutoff 11.382218897183879 Kinetic plus potential energy outside cutoff 1.2781146954580814E+050 mass inside cutoff 820 48.704643912167093 relax counter 66 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7968985358183461E-002 5110 8.814957 3091.369 -19.485414 2.662520 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182219 4169 273 -4.5419E+00 8.814957 3.877981 -21.307073 6.267030 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631981 5 2.8742E+05 4.124836 6.671258 2.662520 -21.191133 -20.487791 49.088898 0.000002 0.000000 0.372520 0.206E+00 min_dr_div_cs log_rel_run_E_err -5.7089475960487874 rel_E_err 3.3021221034226028D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 805 0.94201211286411901 1.2780471449212848E+050 k, q, energy_removed_layers after adjustment is 822 0.94133306168296349 1.2781267061635261E+050 Layers above q= 0.94133306168296349 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -273045.96484375000 max vel inside fraction of cutoff 4.5414868283222791 max c/cs inside fraction of cutoff 1.1458388476202412E-002 average v/vesc outside cutoff 11.623781848152067 Kinetic plus potential energy outside cutoff 1.2781267061635261E+050 mass inside cutoff 822 48.703510215870715 relax counter 76 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7969210684795059E-002 5120 8.814956 3040.613 -19.485412 2.664514 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182223 4165 273 -4.4663E+00 8.814956 3.895031 -21.307663 6.267002 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631981 5 2.8742E+05 4.124831 6.676601 2.664514 -21.191308 -20.538455 49.088898 0.000002 0.000000 0.372520 0.201E+00 min_dr_div_cs log_rel_run_E_err -5.7089398759763537 rel_E_err 3.5035627900018527D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 805 0.94201211286411912 1.2780596006528368E+050 k, q, energy_removed_layers after adjustment is 824 0.94135497356982667 1.2781363957999968E+050 Layers above q= 0.94135497356982667 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -283562.71875000000 max vel inside fraction of cutoff 5.4265199489439420 max c/cs inside fraction of cutoff 1.3764310803854582E-002 average v/vesc outside cutoff 11.854297592486926 Kinetic plus potential energy outside cutoff 1.2781363957999968E+050 mass inside cutoff 824 48.704643912167093 relax counter 86 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7969460351895865E-002 5130 8.814954 2992.402 -19.485424 2.666448 51.738871 0.000000 0.000000 0.000000 0.215941 -3.182227 4165 273 -4.4473E+00 8.814954 3.911160 -21.308211 6.266977 -99.000000 51.738871 0.000000 0.060585 0.784059 0.631981 5 2.8742E+05 4.124827 6.681094 2.666448 -21.191469 -20.586360 49.088898 0.000002 0.000000 0.372520 0.196E+00 min_dr_div_cs log_rel_run_E_err -5.7089323299029262 rel_E_err 3.4664745550742632D-12 Using fixed_vsurf 20000.000000000000 k, q, energy_removed_layers before adjustment is 806 0.94201211286411923 1.2780704530867561E+050 k, q, energy_removed_layers after adjustment is 825 0.94135497356982678 1.2781448414281074E+050 Layers above q= 0.94135497356982678 will be removed checking for conditions inside q= 0.98999999999999999 of material that will remain check time left -293898.20117187500 max vel inside fraction of cutoff 5.3659292740913109 max c/cs inside fraction of cutoff 1.3659251957092772E-002 average v/vesc outside cutoff 12.072670133835222 Kinetic plus potential energy outside cutoff 1.2781448414281074E+050 mass inside cutoff 825 48.704643912167107 relax counter 96 log max v [km/s]= 4.3010299956639804 check gamma integral 4.7969700524672976E-002 Relaxing model to lower mass! save LOGS/prerelax_prof001.data for model 5133 removing cells 825 48.705774977827858 set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 6 1.0000000000000000 create rate data for r_c12_ag_o16 create rate data for r_he4_he4_he4_to_c12 write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_ag_o16_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_he4_he4_he4_to_c12_0.bin set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 6 1.0000000000000000 change to "basic.net" number of species 8 set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 6 1.0000000000000000 create rate data for r_c12_ag_o16 create rate data for r_he4_he4_he4_to_c12 write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_ag_o16_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_he4_he4_he4_to_c12_0.bin set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 6 1.0000000000000000 set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 24 1.0000000000000000 create rate data for r_c12_ag_o16 create rate data for r_o16_ga_c12 create rate data for r_c12_to_he4_he4_he4 create rate data for r_he4_he4_he4_to_c12 write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_ag_o16_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_o16_ga_c12_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_to_he4_he4_he4_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_he4_he4_he4_to_c12_0.bin set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 24 1.0000000000000000 change to "approx21_plus_co56.net" number of species 22 relax_composition: num_steps_to_use 100 avg remaining difference, lambda 8.6351141915356158D-02 1.2401761015546331D-02 avg remaining difference, lambda 8.4771045107037424D-02 1.8472454161511564D-02 max_abs_correction > tol_max_correction 2 7.1664306585364516D-03 3.0000000000000001D-03 1.0000000000000000D+00 solver rejected trial model s% model_number 2 s% solver_call_number 3833 nz 2321 s% num_retries 0 dt 1.8472454161511564D+03 log dt/secyer -4.2325793695335303D+00 retry: max corr -- give up in solver 2 avg remaining difference, lambda 8.5568745208070215D-02 9.2362270807557819D-03 avg remaining difference, lambda 8.4376716717292730D-02 1.3930652912960601D-02 avg remaining difference, lambda 8.2827681947454851D-02 1.8358557058356106D-02 avg remaining difference, lambda 8.1058212537536700D-02 2.1335465041005815D-02 avg remaining difference, lambda 7.9262167765456457D-02 2.2157468239366658D-02 avg remaining difference, lambda 7.7536052919235973D-02 2.1777285338757932D-02 avg remaining difference, lambda 7.5790665584253042D-02 2.2510654942831564D-02 avg remaining difference, lambda 7.3995151657151079D-02 2.3690436166580172D-02 avg remaining difference, lambda 7.2194092008001531D-02 2.4340238607003947D-02 max_abs_correction > tol_max_correction 10 3.6030980090556879D-03 3.0000000000000001D-03 1.0000000000000000D+00 solver rejected trial model s% model_number 10 s% solver_call_number 3842 nz 2322 s% num_retries 1 dt 2.4340238607003948D+03 log dt/secyer -4.1127791357878438D+00 retry: max corr -- give up in solver 10 avg remaining difference, lambda 7.3094621831523876D-02 1.2170119303501974D-02 max_abs_correction > tol_max_correction 10 3.6240737734219803D-03 3.0000000000000001D-03 1.0000000000000000D+00 solver rejected trial model s% model_number 10 s% solver_call_number 3843 nz 2322 s% num_retries 2 dt 1.2170119303501974D+03 log dt/secyer -4.4138091314518251D+00 retry: max corr -- give up in solver 10 avg remaining difference, lambda 7.3544886743285229D-02 6.0850596517509868D-03 max_abs_correction > tol_max_correction 10 3.4233380560844892D-03 3.0000000000000001D-03 1.0000000000000000D+00 solver rejected trial model s% model_number 10 s% solver_call_number 3844 nz 2322 s% num_retries 3 dt 6.0850596517509871D+02 log dt/secyer -4.7148391271158063D+00 retry: max corr -- give up in solver 10 avg remaining difference, lambda 7.3770019199165232D-02 3.0425298258754934D-03 10 7.702119 6.144E+04 -99.000000 -99.000000 48.705775 48.705775 0.587972 0.004532 0.249682 -6.706491 2322 4 -5.0159E+00 7.702119 0.883557 -99.000000 -99.000000 -99.000000 0.000000 0.238317 0.016972 0.159810 0.013803 10 5.3376E-04 0.651614 5.875597 -99.000000 -99.000000 -8.866827 0.000000 0.000068 0.001759 0.058269 0.000E+00 retry avg remaining difference, lambda 7.3321124231561133D-02 6.0850596517509868D-03 max_abs_correction > tol_max_correction 11 3.3546037921318782D-03 3.0000000000000001D-03 1.0000000000000000D+00 solver rejected trial model s% model_number 11 s% solver_call_number 3846 nz 2322 s% num_retries 4 dt 6.0850596517509871D+02 log dt/secyer -4.7148391271158063D+00 retry: max corr -- give up in solver 11 avg remaining difference, lambda 7.3545571715228422D-02 3.0425298258754934D-03 max_abs_correction > tol_max_correction 11 3.1335733169485800D-03 3.0000000000000001D-03 1.0000000000000000D+00 solver rejected trial model s% model_number 11 s% solver_call_number 3847 nz 2322 s% num_retries 5 dt 3.0425298258754935D+02 log dt/secyer -5.0158691227797867D+00 retry: max corr -- give up in solver 11 avg remaining difference, lambda 7.3657795457062775D-02 1.5212649129377467D-03 avg remaining difference, lambda 7.3433689417342879D-02 3.0425298258754934D-03 avg remaining difference, lambda 7.2986841036526390D-02 6.0850596517509868D-03 avg remaining difference, lambda 7.2111352194191916D-02 1.1995160077941469D-02 avg remaining difference, lambda 7.0854301130606326D-02 1.7404198177768553D-02 avg remaining difference, lambda 6.9348593480907078D-02 2.1250758589104447D-02 avg remaining difference, lambda 6.7681368612760778D-02 2.4041221066950197D-02 avg remaining difference, lambda 6.5919904814054547D-02 2.6025830049203846D-02 avg remaining difference, lambda 6.4130838415065602D-02 2.7140002740021291D-02 avg remaining difference, lambda 6.2351873139967928D-02 2.7712053750911691D-02 20 7.787830 6.909E+04 -99.000000 -99.000000 48.705775 48.705775 0.496994 0.003831 0.224382 -6.552627 2324 6 -4.0564E+00 7.787830 0.811609 -99.000000 -99.000000 -99.000000 0.000000 0.201442 0.023721 0.276481 0.018839 4 1.0605E-03 0.874090 5.935610 -99.000000 -99.000000 -8.708145 0.000000 0.000057 0.001487 0.106894 0.000E+00 varcontrol avg remaining difference, lambda 6.0604314495285902D-02 2.8027363976516555D-02 avg remaining difference, lambda 5.8889080248453490D-02 2.8247142034625562D-02 avg remaining difference, lambda 5.7214600140174349D-02 2.8434475455607167D-02 avg remaining difference, lambda 5.5578410840668030D-02 2.8597408603019354D-02 avg remaining difference, lambda 5.3980371057304077D-02 2.8752887282411772D-02 avg remaining difference, lambda 5.2419476820113220D-02 2.8915959738731744D-02 avg remaining difference, lambda 5.0891148026855099D-02 2.9100844266040510D-02 avg remaining difference, lambda 4.9396638827710199D-02 2.9311985359270321D-02 avg remaining difference, lambda 4.7937267390831081D-02 2.9543942074181942D-02 avg remaining difference, lambda 4.6509124362797277D-02 2.9791915667628205D-02 30 7.924822 8.280E+04 -99.000000 -99.000000 48.705775 48.705775 0.370778 0.002858 0.189282 -6.269984 2330 6 -4.0250E+00 7.924822 0.695994 -99.000000 -99.000000 -99.000000 0.000000 0.150284 0.033084 0.438342 0.029099 4 1.9754E-03 1.243598 6.018823 -99.000000 -99.000000 -8.499866 0.000000 0.000043 0.001109 0.174353 0.000E+00 varcontrol avg remaining difference, lambda 4.5111378165491559D-02 3.0053160879035305D-02 avg remaining difference, lambda 4.3738691023014094D-02 3.0346910711167380D-02 avg remaining difference, lambda 4.2396102563757483D-02 3.0668412809902755D-02 avg remaining difference, lambda 4.1078504438521617D-02 3.0996675687869943D-02 avg remaining difference, lambda 3.9791150162659265D-02 3.1338878894872607D-02 avg remaining difference, lambda 3.8529726791231247D-02 3.1701103544139249D-02 avg remaining difference, lambda 3.7291427302345033D-02 3.2084574931878572D-02 avg remaining difference, lambda 3.6074817699133413D-02 3.2489248884674776D-02 avg remaining difference, lambda 3.4885299881715591D-02 3.2919759780218508D-02 avg remaining difference, lambda 3.3720906535455654D-02 3.3377765151294578D-02 40 8.056505 9.812E+04 -99.000000 -99.000000 48.705775 48.705775 0.268949 0.002073 0.160964 -5.976523 2346 6 -3.9756E+00 8.056505 0.580878 -99.000000 -99.000000 -99.000000 0.000000 0.109010 0.040638 0.568928 0.043015 4 2.9767E-03 1.606021 6.083444 -99.000000 -99.000000 -8.351764 0.000000 0.000032 0.000805 0.228777 0.000E+00 varcontrol avg remaining difference, lambda 3.2576341245526205D-02 3.3861740354039105D-02 avg remaining difference, lambda 3.1453909787351568D-02 3.4375095127677974D-02 avg remaining difference, lambda 3.0355509963129350D-02 3.4920931368566305D-02 avg remaining difference, lambda 2.9277899748169026D-02 3.5499657792312886D-02 avg remaining difference, lambda 2.8220574324701316D-02 3.6113431411179411D-02 avg remaining difference, lambda 2.7183085294064147D-02 3.6763569010381393D-02 avg remaining difference, lambda 2.6164582050954985D-02 3.7468272393142370D-02 avg remaining difference, lambda 2.5161166408046613D-02 3.8217252428561888D-02 avg remaining difference, lambda 2.4179879327854321D-02 3.9000063259658130D-02 avg remaining difference, lambda 2.3216714774921168D-02 3.9833306916232616D-02 50 8.183335 1.151E+05 -99.000000 -99.000000 48.705775 1.194181 0.185226 0.001428 0.137682 -5.678381 2357 6 -3.8989E+00 8.183335 0.467413 -99.000000 -99.000000 -99.000000 0.000000 0.075076 0.046848 0.676293 0.063691 4 4.1366E-03 1.960448 6.133969 -99.000000 -99.000000 -8.272605 47.511594 0.000022 0.000554 0.273524 0.000E+00 varcontrol avg remaining difference, lambda 2.2269517166275676D-02 4.0718817176403237D-02 avg remaining difference, lambda 2.1341575301647930D-02 4.1668701637521059D-02 avg remaining difference, lambda 2.0429346434973752D-02 4.2691581991410613D-02 avg remaining difference, lambda 1.9533149425574901D-02 4.3815635074974706D-02 avg remaining difference, lambda 1.8653212272637460D-02 4.5048401359717563D-02 avg remaining difference, lambda 1.7787541296552186D-02 4.6356421652473279D-02 avg remaining difference, lambda 1.6938434887145342D-02 4.7736019148077916D-02 avg remaining difference, lambda 1.6103967771840675D-02 4.9212694403009516D-02 avg remaining difference, lambda 1.5285830826697983D-02 5.0803439227104945D-02 avg remaining difference, lambda 1.4482864765358405D-02 5.2530089695545859D-02 60 8.305911 1.354E+05 -99.000000 -99.000000 48.705775 0.559503 0.115581 0.000891 0.118314 -5.378401 2368 6 -3.7787E+00 8.305911 0.360987 -99.000000 -99.000000 -99.000000 0.000000 0.046848 0.052015 0.765606 0.098319 4 5.5961E-03 2.307347 6.203741 -99.000000 -99.000000 -8.450782 48.146272 0.000015 0.000346 0.310747 0.000E+00 varcontrol avg remaining difference, lambda 1.3694921197837460D-02 5.4405228768226267D-02 avg remaining difference, lambda 1.2921787055372813D-02 5.6454077739242360D-02 avg remaining difference, lambda 1.2163396403418476D-02 5.8690849214810575D-02 avg remaining difference, lambda 1.1419637424057062D-02 6.1147311049967054D-02 avg remaining difference, lambda 1.0689570131519114D-02 6.3854197683341829D-02 avg remaining difference, lambda 9.9746629053582316D-03 6.6828104516201789D-02 avg remaining difference, lambda 9.2755709644402225D-03 7.0086774093179940D-02 avg remaining difference, lambda 8.5914235519100254D-03 7.3757984308281829D-02 avg remaining difference, lambda 7.9217207204923500D-03 7.7899998855657307D-02 avg remaining difference, lambda 7.2677444960347979D-03 8.2554820272898871D-02 70 8.423385 1.587E+05 -99.000000 -99.000000 48.705775 0.000000 0.058012 0.000447 0.102304 -5.082617 2375 6 -3.5824E+00 8.423385 0.263094 -99.000000 -99.000000 -99.000000 48.705775 0.023513 0.056285 0.839434 0.167190 4 7.7055E-03 2.643094 6.283531 -99.000000 -99.000000 -8.945235 48.628357 0.000008 0.000174 0.341516 0.000E+00 varcontrol avg remaining difference, lambda 6.6294424311449844D-03 8.7826707660697792D-02 avg remaining difference, lambda 6.0074221571972276D-03 9.3826937516043513D-02 avg remaining difference, lambda 5.4026776162195258D-03 1.0066623128910422D-01 avg remaining difference, lambda 4.8157240514252464D-03 1.0861702018853796D-01 avg remaining difference, lambda 4.2480170282094632D-03 1.1788612175200154D-01 avg remaining difference, lambda 3.7004024940050107D-03 1.2886335545271246D-01 avg remaining difference, lambda 3.1747331461215267D-03 1.4201086265564078D-01 avg remaining difference, lambda 2.6729335637395413D-03 1.5801485848669611D-01 avg remaining difference, lambda 2.1972076588032386D-03 1.7797895307876685D-01 avg remaining difference, lambda 1.7503509335266103D-03 2.0337483222385577D-01 80 8.526586 1.824E+05 -99.000000 -99.000000 48.705775 0.000000 0.013974 0.000108 0.090058 -4.817014 2382 6 -3.1908E+00 8.526586 0.167248 -99.000000 -99.000000 -99.000000 0.000000 0.005664 0.059552 0.895908 0.338061 3 1.1885E-02 2.940729 6.333585 -99.000000 -99.000000 -8.950552 48.705775 0.000003 0.000042 0.365053 0.000E+00 varcontrol avg remaining difference, lambda 1.3361798120693313D-03 2.3658054459599567D-01 avg remaining difference, lambda 9.5976679123810783D-04 2.8170837053755093D-01 avg remaining difference, lambda 6.2781835091601644D-04 3.4586366367025251D-01 avg remaining difference, lambda 3.5001942475527633D-04 4.4248299708880995D-01 avg remaining difference, lambda 1.3958814667901402D-04 6.0119890798615838D-01 avg remaining difference, lambda 1.4585288030537968D-05 8.9550639947470034D-01 avg remaining difference, lambda 0.0000000000000000D+00 1.0000000000000000D+00 avg remaining difference, lambda 0.0000000000000000D+00 1.0000000000000000D+00 finished doing relax composition relax_angular_momentum: max_steps_to_use 1000 10 8.562563 1.750E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.724433 2398 273 -9.0000E+00 8.562563 0.139057 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.493185 3 1.0000E-08 3.044581 6.204641 -99.000000 -99.000000 -7.841219 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_angular_momentum avg rel err, dt, model 5.5116641794648471E-005 1.0000000000000001E-009 10 20 8.562563 1.750E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.724378 2398 273 -9.0000E+00 8.562563 0.139063 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.493194 3 2.0000E-08 3.044604 6.204637 -99.000000 -99.000000 -7.841223 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_angular_momentum avg rel err, dt, model 6.4373362355024934E-005 1.0000000000000001E-009 20 30 8.562559 1.750E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.724237 2398 273 -9.0000E+00 8.562559 0.139070 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.493219 3 3.0000E-08 3.044658 6.204632 -99.000000 -99.000000 -7.841227 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_angular_momentum avg rel err, dt, model 6.2198560061462298E-005 1.0000000000000001E-009 30 40 8.562555 1.750E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.724108 2398 273 -9.0000E+00 8.562555 0.139077 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.493243 3 4.0000E-08 3.044709 6.204627 -99.000000 -99.000000 -7.841231 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_angular_momentum avg rel err, dt, model 5.9476483117996046E-005 1.0000000000000001E-009 40 50 8.562552 1.750E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.724005 2398 273 -9.0000E+00 8.562552 0.139083 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.493261 3 5.0000E-08 3.044748 6.204623 -99.000000 -99.000000 -7.841236 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_angular_momentum avg rel err, dt, model 5.6915046815083555E-005 1.0000000000000001E-009 50 60 8.562550 1.750E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.723924 2398 273 -9.0000E+00 8.562550 0.139090 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.493275 3 6.0000E-08 3.044780 6.204619 -99.000000 -99.000000 -7.841240 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_angular_momentum avg rel err, dt, model 5.4621205261454939E-005 1.0000000000000001E-009 60 70 8.562548 1.750E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.723860 2398 273 -9.0000E+00 8.562548 0.139096 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.493287 3 7.0000E-08 3.044805 6.204616 -99.000000 -99.000000 -7.841246 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_angular_momentum avg rel err, dt, model 5.2586372705720684E-005 1.0000000000000001E-009 70 80 8.562547 1.750E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.723807 2398 273 -9.0000E+00 8.562547 0.139101 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.493296 3 8.0000E-08 3.044825 6.204613 -99.000000 -99.000000 -7.841252 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_angular_momentum avg rel err, dt, model 5.0758741066364521E-005 1.0000000000000001E-009 80 90 8.562546 1.750E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.723764 2398 273 -9.0000E+00 8.562546 0.139107 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.493304 3 9.0000E-08 3.044843 6.204611 -99.000000 -99.000000 -7.841259 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_angular_momentum avg rel err, dt, model 4.9126997664579446E-005 1.0000000000000001E-009 90 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 100 8.562545 1.750E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.723727 2398 273 -9.0000E+00 8.562545 0.139112 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.493310 3 1.0000E-07 3.044857 6.204610 -99.000000 -99.000000 -7.841267 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_angular_momentum avg rel err, dt, model 4.7668117073849101E-005 1.0000000000000001E-009 100 finished doing relax angular momentum relax_entropy: max_steps_to_use 10000 10 8.632493 1.669E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.309014 2398 273 -1.6301E+01 8.632493 0.152214 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.525657 3 5.0000E-16 3.337448 6.149091 -99.000000 -99.000000 -7.770465 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 0.14340087727070114 4.9999999999999999E-017 10 20 8.679660 1.551E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -4.025150 2398 273 -1.6301E+01 8.679660 0.197559 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.549664 3 1.0000E-15 3.537133 6.111782 -99.000000 -99.000000 -7.788903 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 0.12187044641410764 4.9999999999999999E-017 20 30 8.712038 1.411E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.824718 2393 273 -1.6301E+01 8.712038 0.269791 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.567940 3 1.5000E-15 3.676883 6.091983 -99.000000 -99.000000 -7.862343 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 0.10314672184628199 4.9999999999999999E-017 30 40 8.734626 1.259E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.679929 2392 273 -1.6301E+01 8.734626 0.365627 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.582060 3 2.0000E-15 3.776644 6.085741 -99.000000 -99.000000 -7.972475 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 8.7510600029979249E-002 4.9999999999999999E-017 40 50 8.750798 1.092E+05 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.573012 2388 273 -1.6301E+01 8.750798 0.482217 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.593050 3 2.5000E-15 3.849528 6.072331 -99.000000 -99.000000 -8.134053 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 7.3486736866925126E-002 4.9999999999999999E-017 50 60 8.762839 9.249E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.492180 2393 273 -1.6301E+01 8.762839 0.616075 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.601625 3 3.0000E-15 3.904354 6.051162 -99.000000 -99.000000 -8.335414 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 6.2639829783701806E-002 4.9999999999999999E-017 60 70 8.772232 7.829E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.429611 2418 273 -1.6301E+01 8.772232 0.762339 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.608310 3 3.5000E-15 3.946932 6.054145 -99.000000 -99.000000 -8.545547 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 5.4963525591680051E-002 4.9999999999999999E-017 70 80 8.779862 6.610E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.380207 2423 273 -1.6301E+01 8.779862 0.914676 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.613513 3 4.0000E-15 3.980919 6.064975 -99.000000 -99.000000 -8.761776 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 4.5985919381119261E-002 4.9999999999999999E-017 80 90 8.786194 5.541E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.340732 2438 273 -1.6301E+01 8.786194 1.066012 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.617558 3 4.5000E-15 4.008476 6.061052 -99.000000 -99.000000 -8.990497 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 3.8215465747031739E-002 4.9999999999999999E-017 90 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 100 8.791485 4.721E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.309009 2454 273 -1.6301E+01 8.791485 1.209049 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.620703 3 5.0000E-15 4.030966 6.068854 -99.000000 -99.000000 -9.199467 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 3.1561477383433054E-002 4.9999999999999999E-017 100 110 8.795888 4.166E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.283500 2477 273 -1.6301E+01 8.795888 1.338210 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.623151 3 5.5000E-15 4.049306 6.110099 -99.000000 -99.000000 -9.362737 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 2.5864703081086370E-002 4.9999999999999999E-017 110 120 8.799526 3.780E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.263019 2480 273 -1.6301E+01 8.799526 1.450455 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.625061 3 6.0000E-15 4.064205 6.165592 -99.000000 -99.000000 -9.492624 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 2.0566999073287951E-002 4.9999999999999999E-017 120 130 8.802509 3.500E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.246612 2487 273 -1.6301E+01 8.802509 1.544905 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.626552 3 6.5000E-15 4.076260 6.220770 -99.000000 -99.000000 -9.597001 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.6185870967084317E-002 4.9999999999999999E-017 130 140 8.804941 3.291E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.233488 2496 273 -1.6301E+01 8.804941 1.622258 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.627719 3 7.0000E-15 4.085981 6.268763 -99.000000 -99.000000 -9.680633 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.2675373329302303E-002 4.9999999999999999E-017 140 150 8.806916 3.136E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.223006 2500 273 -1.6301E+01 8.806916 1.684245 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.628632 3 7.5000E-15 4.093800 6.308720 -99.000000 -99.000000 -9.747260 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 9.8578167596897054E-003 4.9999999999999999E-017 150 160 8.808514 3.019E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.214643 2502 273 -1.6301E+01 8.808514 1.733109 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.629348 3 8.0000E-15 4.100076 6.340342 -99.000000 -99.000000 -9.799948 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 7.5909278304684136E-003 4.9999999999999999E-017 160 170 8.809802 2.931E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.207980 2505 273 -1.6301E+01 8.809802 1.771198 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.629910 3 8.5000E-15 4.105103 6.365236 -99.000000 -99.000000 -9.840638 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 5.8195877655517793E-003 4.9999999999999999E-017 170 180 8.810840 2.865E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.202670 2508 273 -1.6301E+01 8.810840 1.800598 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.630351 3 9.0000E-15 4.109128 6.384682 -99.000000 -99.000000 -9.871651 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 4.4479745072991570E-003 4.9999999999999999E-017 180 190 8.811675 2.816E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.198441 2507 273 -1.6301E+01 8.811675 1.823119 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.630697 3 9.5000E-15 4.112348 6.399726 -99.000000 -99.000000 -9.895173 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 3.3788092839616406E-003 4.9999999999999999E-017 190 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 200 8.812346 2.780E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.195074 2512 273 -1.6301E+01 8.812346 1.840274 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.630969 3 1.0000E-14 4.114922 6.411283 -99.000000 -99.000000 -9.912967 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 2.5877742979780257E-003 4.9999999999999999E-017 200 210 8.812885 2.752E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.192394 2510 273 -1.6301E+01 8.812885 1.853294 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631182 3 1.0500E-14 4.116980 6.420107 -99.000000 -99.000000 -9.926419 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.9678882459241410E-003 4.9999999999999999E-017 210 220 8.813317 2.732E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.190260 2513 273 -1.6301E+01 8.813317 1.863122 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631350 3 1.1000E-14 4.118624 6.426793 -99.000000 -99.000000 -9.936552 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.4950198770209431E-003 4.9999999999999999E-017 220 230 8.813665 2.717E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.188561 2514 273 -1.6301E+01 8.813665 1.870519 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631482 3 1.1500E-14 4.119937 6.431840 -99.000000 -99.000000 -9.944174 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.1366114112801842E-003 4.9999999999999999E-017 230 240 8.813943 2.705E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.187210 2511 273 -1.6301E+01 8.813943 1.876085 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631585 3 1.2000E-14 4.120986 6.435645 -99.000000 -99.000000 -9.949906 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 8.6630766535173906E-004 4.9999999999999999E-017 240 250 8.814166 2.697E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.186135 2513 273 -1.6301E+01 8.814166 1.880265 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631667 3 1.2500E-14 4.121823 6.438505 -99.000000 -99.000000 -9.954211 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 6.6805796220143886E-004 4.9999999999999999E-017 250 260 8.814345 2.690E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.185279 2514 273 -1.6301E+01 8.814345 1.883401 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631731 3 1.3000E-14 4.122491 6.440654 -99.000000 -99.000000 -9.957441 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 5.0841192318824477E-004 4.9999999999999999E-017 260 270 8.814488 2.685E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.184599 2514 273 -1.6301E+01 8.814488 1.885758 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631781 3 1.3500E-14 4.123024 6.442269 -99.000000 -99.000000 -9.959868 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 3.8631068263176406E-004 4.9999999999999999E-017 270 280 8.814603 2.682E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.184057 2510 273 -1.6301E+01 8.814603 1.887524 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631820 3 1.4000E-14 4.123450 6.443481 -99.000000 -99.000000 -9.961688 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 2.9413465716592621E-004 4.9999999999999999E-017 280 290 8.814694 2.679E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.183627 2510 273 -1.6301E+01 8.814694 1.888848 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631851 3 1.4500E-14 4.123789 6.444390 -99.000000 -99.000000 -9.963052 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 2.2376357401589098E-004 4.9999999999999999E-017 290 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 300 8.814768 2.677E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.183284 2510 273 -1.6301E+01 8.814768 1.889840 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631876 3 1.5000E-14 4.124059 6.445070 -99.000000 -99.000000 -9.964074 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.7033710497040827E-004 4.9999999999999999E-017 300 310 8.814827 2.676E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.183012 2510 273 -1.6301E+01 8.814827 1.890583 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631895 3 1.5500E-14 4.124275 6.445581 -99.000000 -99.000000 -9.964840 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.2975329348570788E-004 4.9999999999999999E-017 310 320 8.814873 2.675E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182796 2510 273 -1.6301E+01 8.814873 1.891140 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631910 3 1.6000E-14 4.124447 6.445963 -99.000000 -99.000000 -9.965413 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 9.8906433593573296E-005 4.9999999999999999E-017 320 330 8.814911 2.674E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182624 2509 273 -1.6301E+01 8.814911 1.891557 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631922 3 1.6500E-14 4.124584 6.446249 -99.000000 -99.000000 -9.965843 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 7.5473924171304439E-005 4.9999999999999999E-017 330 340 8.814941 2.673E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182487 2507 273 -1.6301E+01 8.814941 1.891869 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631931 3 1.7000E-14 4.124694 6.446463 -99.000000 -99.000000 -9.966165 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 5.7658574377630604E-005 4.9999999999999999E-017 340 350 8.814965 2.673E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182378 2507 273 -1.6301E+01 8.814965 1.892102 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631939 3 1.7500E-14 4.124781 6.446624 -99.000000 -99.000000 -9.966406 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 4.4047431694051912E-005 4.9999999999999999E-017 350 360 8.814984 2.672E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182292 2507 273 -1.6301E+01 8.814984 1.892277 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631944 3 1.8000E-14 4.124850 6.446744 -99.000000 -99.000000 -9.966586 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 3.3675240093858090E-005 4.9999999999999999E-017 360 370 8.815000 2.672E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182223 2505 273 -1.6301E+01 8.815000 1.892408 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631949 3 1.8500E-14 4.124906 6.446834 -99.000000 -99.000000 -9.966721 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 2.5785507370783917E-005 4.9999999999999999E-017 370 380 8.815012 2.672E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182168 2505 273 -1.6301E+01 8.815012 1.892506 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631952 3 1.9000E-14 4.124950 6.446901 -99.000000 -99.000000 -9.966822 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.9744765650308660E-005 4.9999999999999999E-017 380 390 8.815022 2.672E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182125 2504 273 -1.6301E+01 8.815022 1.892579 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631955 3 1.9500E-14 4.124985 6.446952 -99.000000 -99.000000 -9.966898 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.5137023748510798E-005 4.9999999999999999E-017 390 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 400 8.815030 2.672E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182090 2503 273 -1.6301E+01 8.815030 1.892634 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631957 3 2.0000E-14 4.125013 6.446989 -99.000000 -99.000000 -9.966954 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.1613940014050630E-005 4.9999999999999999E-017 400 410 8.815036 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182063 2503 273 -1.6301E+01 8.815036 1.892676 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631959 3 2.0500E-14 4.125035 6.447017 -99.000000 -99.000000 -9.966997 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 8.9152302723089844E-006 4.9999999999999999E-017 410 420 8.815041 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182041 2502 273 -1.6301E+01 8.815041 1.892706 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631960 3 2.1000E-14 4.125053 6.447039 -99.000000 -99.000000 -9.967029 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 6.8518317683237566E-006 4.9999999999999999E-017 420 430 8.815045 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182024 2501 273 -1.6301E+01 8.815045 1.892729 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631961 3 2.1500E-14 4.125067 6.447054 -99.000000 -99.000000 -9.967052 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 5.2706170927507267E-006 4.9999999999999999E-017 430 440 8.815048 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.182010 2501 273 -1.6301E+01 8.815048 1.892747 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631962 3 2.2000E-14 4.125078 6.447066 -99.000000 -99.000000 -9.967070 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 4.0564750881690130E-006 4.9999999999999999E-017 440 450 8.815050 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181999 2501 273 -1.6301E+01 8.815050 1.892759 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631963 3 2.2500E-14 4.125087 6.447075 -99.000000 -99.000000 -9.967083 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 3.1248312199837822E-006 4.9999999999999999E-017 450 460 8.815052 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181990 2501 273 -1.6301E+01 8.815052 1.892769 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631963 3 2.3000E-14 4.125094 6.447082 -99.000000 -99.000000 -9.967093 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 2.4093578441218848E-006 4.9999999999999999E-017 460 470 8.815054 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181983 2501 273 -1.6301E+01 8.815054 1.892776 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631964 3 2.3500E-14 4.125100 6.447087 -99.000000 -99.000000 -9.967101 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.8594342090495119E-006 4.9999999999999999E-017 470 480 8.815055 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181978 2501 273 -1.6301E+01 8.815055 1.892782 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631964 3 2.4000E-14 4.125105 6.447090 -99.000000 -99.000000 -9.967106 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.4363897514288514E-006 4.9999999999999999E-017 480 490 8.815056 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181973 2501 273 -1.6301E+01 8.815056 1.892786 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631964 3 2.4500E-14 4.125108 6.447093 -99.000000 -99.000000 -9.967111 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.1106857119321553E-006 4.9999999999999999E-017 490 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 500 8.815057 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181970 2501 273 -1.6301E+01 8.815057 1.892789 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631965 3 2.5000E-14 4.125111 6.447095 -99.000000 -99.000000 -9.967114 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 8.5968845376932979E-007 4.9999999999999999E-017 500 510 8.815058 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181967 2500 273 -1.6301E+01 8.815058 1.892791 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631965 3 2.5500E-14 4.125113 6.447097 -99.000000 -99.000000 -9.967116 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 6.6633515880166950E-007 4.9999999999999999E-017 510 520 8.815058 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181965 2500 273 -1.6301E+01 8.815058 1.892793 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631965 3 2.6000E-14 4.125115 6.447098 -99.000000 -99.000000 -9.967118 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 5.1683858596589186E-007 4.9999999999999999E-017 520 530 8.815059 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181963 2500 273 -1.6301E+01 8.815059 1.892794 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631965 3 2.6500E-14 4.125117 6.447099 -99.000000 -99.000000 -9.967119 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 4.0133279931250608E-007 4.9999999999999999E-017 530 540 8.815059 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181962 2500 273 -1.6301E+01 8.815059 1.892795 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631965 3 2.7000E-14 4.125118 6.447100 -99.000000 -99.000000 -9.967120 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 3.1201518047235226E-007 4.9999999999999999E-017 540 550 8.815059 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181961 2500 273 -1.6301E+01 8.815059 1.892796 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631965 3 2.7500E-14 4.125119 6.447100 -99.000000 -99.000000 -9.967121 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 2.4288531325565484E-007 4.9999999999999999E-017 550 560 8.815060 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181960 2500 273 -1.6301E+01 8.815060 1.892796 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631965 3 2.8000E-14 4.125120 6.447100 -99.000000 -99.000000 -9.967121 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.8933343976554189E-007 4.9999999999999999E-017 560 570 8.815060 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181959 2500 273 -1.6301E+01 8.815060 1.892796 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631965 3 2.8500E-14 4.125120 6.447101 -99.000000 -99.000000 -9.967122 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.4781160737975439E-007 4.9999999999999999E-017 570 580 8.815060 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181959 2500 273 -1.6301E+01 8.815060 1.892797 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631965 3 2.9000E-14 4.125121 6.447101 -99.000000 -99.000000 -9.967122 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 1.1559341297266511E-007 4.9999999999999999E-017 580 590 8.815060 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181958 2500 273 -1.6301E+01 8.815060 1.892797 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631965 3 2.9500E-14 4.125121 6.447101 -99.000000 -99.000000 -9.967122 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 9.0565720528978265E-008 4.9999999999999999E-017 590 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 600 8.815060 2.671E+04 -99.000000 -99.000000 48.705775 0.000000 0.000000 0.000000 0.086172 -3.181958 2500 273 -1.6301E+01 8.815060 1.892797 -99.000000 -99.000000 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631965 3 3.0000E-14 4.125121 6.447101 -99.000000 -99.000000 -9.967122 48.705775 0.000002 0.000000 0.372521 0.000E+00 max_dt relax_entropy avg rel err, dt, model 7.1129349265163290E-008 4.9999999999999999E-017 600 finished doing relax entropy save LOGS/postrelax_prof001.data for model 5133 5140 8.815878 2.163E+04 -12.294478 2.666642 48.705775 0.000000 0.000000 0.000000 0.086172 -3.179837 2504 273 -5.0240E+00 8.815878 1.893227 -21.367169 6.280130 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631885 5 2.8742E+05 4.127410 6.081616 2.666642 -21.104964 -9.358652 48.705775 0.000002 0.000000 0.372521 0.000E+00 max increase log_rel_run_E_err -5.7392938549967178 rel_E_err 7.3161922436423119D-12 check gamma integral 4.7973498293672666E-002 5150 8.815982 2.084E+04 -12.852955 2.668912 48.705775 0.000000 0.000000 0.000000 0.086172 -3.179567 2506 273 -4.2322E+00 8.815982 1.912852 -21.376826 6.281761 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631875 3 2.8742E+05 4.127701 6.056144 2.668912 -21.094239 -9.350846 48.705775 0.000002 0.000000 0.372521 0.000E+00 max increase log_rel_run_E_err -5.7392762546106066 rel_E_err 9.7227992227806705D-12 save photos/x150 for model 5150 check gamma integral 4.7975024977620032E-002 5160 8.816056 1.928E+04 -16.438543 2.679465 48.705775 0.000000 0.000000 0.000000 0.086172 -3.179375 2534 273 -3.4404E+00 8.816056 1.978339 -21.381394 6.282925 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631868 4 2.8742E+05 4.127908 6.051684 2.679465 -21.086614 -9.376743 48.705775 0.000002 0.000000 0.372521 0.000E+00 max increase log_rel_run_E_err -5.7392583868072968 rel_E_err 7.1580307624694989D-12 check gamma integral 4.7977932111393000E-002 5170 8.816149 1.653E+04 -18.603637 2.727569 48.705775 0.000000 0.000000 0.000000 0.086172 -3.179127 2568 273 -2.6486E+00 8.816149 2.110196 -21.387135 6.284395 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631860 4 2.8742E+05 4.128172 6.048446 2.727569 -21.076992 -9.382790 48.705775 0.000002 0.000000 0.372521 0.000E+00 max increase log_rel_run_E_err -5.7392423671018733 rel_E_err 7.0670873306270262D-12 check gamma integral 4.7981583701937253E-002 5180 8.816272 1.363E+04 -19.858756 2.765164 48.705775 0.000000 0.000000 0.000000 0.086172 -3.178769 2590 273 -1.8568E+00 8.816272 2.305555 -21.398599 6.286325 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631856 5 2.8742E+05 4.128533 6.103491 2.765164 -21.064292 -9.191338 48.705775 0.000002 0.000000 0.372521 0.000E+00 max increase log_rel_run_E_err -5.7392315753034069 rel_E_err 7.1233345215490674D-12 check gamma integral 4.7984990117541815E-002 save LOGS/profile55.data for model 5187 solver retries 270 lgL_power_phot retries 9 varcontrol dt limit 199 max increase dt limit 2076 solver dt limit 7 Lnuc dt limit 7 lgRho_cntr dt limit 1198 min_dr_div_cs dt limit 689 lg_XHe_cntr dt limit 13 XO_cntr dt limit 30 XSi_cntr dt limit 3 dX_nuc dt limit 34 lgL_power_phot dt limit 142 model saved to final.mod save photos/x187 for model 5187 termination code: Successful test: evolved 100 days past first relax runtime (minutes), retries, steps 253.57 273 5187 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 5187 8.816413 1.179E+04 -18.370717 2.331672 48.705774 0.000000 0.000000 0.000000 0.086172 -3.178281 2601 273 -1.3025E+00 8.816413 2.453154 -21.416103 6.288520 -5.015269 0.000000 0.000000 0.060589 0.913828 0.631867 5 2.8742E+05 4.128980 6.147453 2.331672 -21.049704 -9.180474 48.705774 0.000002 0.000000 0.372521 0.000E+00 max increase log_rel_run_E_err -5.7392104664439865 rel_E_err 2.9383540675938070D-11 DATE: 2025-12-02 TIME: 23:15:06 finished inlist_pulses_header DATE: 2025-12-02 TIME: 23:15:06 finished ppisn run: test string matches after ./rn restart from x150 DATE: 2025-12-02 TIME: 23:15:07 reading user weak rate file /home/jenkins/workspace/mesa_main/data/rates_data/rate_tables/S13_r_be7_wk_li7.h5 version_number 7067e26 WARNING: Failed to find colors namelist in file: inlist read inlist_pulses read inlist_ppisn read inlist_extra read restart_photo set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 24 1.0000000000000000 create rate data for r_c12_ag_o16 create rate data for r_o16_ga_c12 create rate data for r_c12_to_he4_he4_he4 create rate data for r_he4_he4_he4_to_c12 write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_ag_o16_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_o16_ga_c12_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_c12_to_he4_he4_he4_0.bin write /home/jenkins/workspace/mesa_main/data/rates_data/cache/r_he4_he4_he4_to_c12_0.bin set special rate factor for r_c12_ag_o16 3 1.0000000000000000 set special rate factor for r_he4_he4_he4_to_c12 24 1.0000000000000000 new_w_div_wc_flag T setting w_div_wc flag T new_rotation_flag T net name approx21_plus_co56.net rotation_flag T w_div_wc_flag T kap_option gs98 kap_CO_option gs98_co kap_lowT_option lowT_fa05_gs98 OMP_NUM_THREADS 4 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ check gamma integral 4.7975024977620032E-002 5160 8.816056 1.928E+04 -16.463290 2.679465 48.705775 0.000000 0.000000 0.000000 0.086172 -3.179375 2534 273 -3.4404E+00 8.816056 1.978339 -21.381394 6.282925 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631868 4 2.8742E+05 4.127908 6.051684 2.679465 -21.086614 -9.376743 48.705775 0.000002 0.000000 0.372521 0.000E+00 max increase log_rel_run_E_err -5.7392584373708289 rel_E_err 7.0814968124843634D-12 check gamma integral 4.7977932100916970E-002 5170 8.816149 1.653E+04 -18.019935 2.727569 48.705775 0.000000 0.000000 0.000000 0.086172 -3.179127 2568 273 -2.6486E+00 8.816149 2.110196 -21.387135 6.284395 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631860 4 2.8742E+05 4.128172 6.048446 2.727569 -21.076992 -9.382790 48.705775 0.000002 0.000000 0.372521 0.000E+00 max increase log_rel_run_E_err -5.7392422575309192 rel_E_err 7.2782573767991059D-12 check gamma integral 4.7981583690463028E-002 5180 8.816272 1.363E+04 -19.368384 2.765164 48.705775 0.000000 0.000000 0.000000 0.086172 -3.178769 2590 273 -1.8568E+00 8.816272 2.305555 -21.398599 6.286325 -99.000000 0.000000 0.000000 0.060589 0.913828 0.631856 5 2.8742E+05 4.128533 6.103491 2.765164 -21.064292 -9.191338 48.705775 0.000002 0.000000 0.372521 0.000E+00 max increase log_rel_run_E_err -5.7392313013032146 rel_E_err 7.2017981013376690D-12 check gamma integral 4.7984990105577066E-002 save LOGS/profile55.data for model 5187 solver retries 270 lgL_power_phot retries 9 varcontrol dt limit 199 max increase dt limit 2076 solver dt limit 7 Lnuc dt limit 7 lgRho_cntr dt limit 1198 min_dr_div_cs dt limit 689 lg_XHe_cntr dt limit 13 XO_cntr dt limit 30 XSi_cntr dt limit 3 dX_nuc dt limit 34 lgL_power_phot dt limit 142 model saved to final.mod save photos/x187 for model 5187 termination code: Successful test: evolved 100 days past first relax __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Si_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 5187 8.816413 1.179E+04 -18.883018 2.331672 48.705774 0.000000 0.000000 0.000000 0.086172 -3.178281 2601 273 -1.3025E+00 8.816413 2.453154 -21.416103 6.288520 -5.015269 0.000000 0.000000 0.060589 0.913828 0.631867 5 2.8742E+05 4.128980 6.147453 2.331672 -21.049704 -9.180474 48.705774 0.000002 0.000000 0.372521 0.000E+00 max increase log_rel_run_E_err -5.7392101308343468 rel_E_err 2.9663328755216358D-11 DATE: 2025-12-02 TIME: 23:17:01 ******************** ppisn restart failed: checksum for final.mod does not match after ./re x150 ********************