DATE: 2024-10-01 TIME: 12:36:34 run inlist_initial_header DATE: 2024-10-01 TIME: 12:36:34 reading user weak rate file /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/rates_data/rate_tables/S13_r_be7_wk_li7.h5 version_number 2aca86c read inlist_common read inlist_initial 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 species mass 21 2.0000000000000000D+01 write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/a09_z0.0_x0.7.bin write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/a09_z0.0_x0.8.bin write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/a09_z0.0001_x0.7.bin write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/a09_z0.0001_x0.8.bin write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/lowT_fa05_a09p_z0.0_x0.7.bin write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/lowT_fa05_a09p_z0.0_x0.8.bin write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/lowT_fa05_a09p_z0.0001_x0.7.bin write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/lowT_fa05_a09p_z0.0001_x0.8.bin relax_num_steps 50 hydro_solver_step returned ierr -1 s% model_number 1 nz 966 s% num_retries 0 retry: get_T_tau -- L <= 0 1 10 5.478770 4113.440 -21.674098 -21.674098 20.000000 20.000000 0.759700 0.000005 0.240200 -13.197488 427 1 -5.0000E+00 5.478770 2.590222 -99.000000 -23.071966 -99.000000 0.000000 0.240200 0.000048 0.000100 0.011849 3 9.5000E-05 -5.550700 4.591958 -99.000000 -99.000000 -7.793064 0.000000 0.000017 0.000011 0.000004 0.000E+00 max_dt 20 5.478463 4129.813 -21.674225 -21.674225 20.000000 20.000000 0.759700 0.000005 0.240200 -13.195271 433 1 -5.0000E+00 5.478449 2.590324 -99.000000 -23.072093 -99.000000 0.000000 0.240200 0.000048 0.000100 0.011862 3 1.9500E-04 -5.550175 4.599064 -99.000000 -99.000000 -7.809145 0.000000 0.000017 0.000011 0.000004 0.000E+00 max_dt 30 5.478310 4133.706 -21.674249 -21.674249 20.000000 20.000000 0.759700 0.000005 0.240200 -13.194141 443 1 -5.0000E+00 5.478300 2.590352 -99.000000 -23.072118 -99.000000 0.000000 0.240200 0.000048 0.000100 0.011869 3 2.9500E-04 -5.549926 4.600755 -99.000000 -99.000000 -7.813030 0.000000 0.000017 0.000011 0.000004 0.000E+00 max_dt 40 5.478232 4133.774 -21.674242 -21.674242 20.000000 20.000000 0.759700 0.000005 0.240200 -13.193574 441 1 -5.0000E+00 5.478226 2.590356 -99.000000 -23.072111 -99.000000 0.000000 0.240200 0.000048 0.000100 0.011872 3 3.9500E-04 -5.549798 4.600792 -99.000000 -99.000000 -7.813102 0.000000 0.000017 0.000011 0.000004 0.000E+00 max_dt 50 5.478188 4132.474 -21.674224 -21.674224 20.000000 20.000000 0.759700 0.000005 0.240200 -13.193235 441 1 -5.0000E+00 5.478183 2.590352 -99.000000 -23.072092 -99.000000 0.000000 0.240200 0.000048 0.000100 0.011874 3 4.9500E-04 -5.549720 4.600238 -99.000000 -99.000000 -7.811809 0.000000 0.000017 0.000011 0.000004 0.000E+00 max_dt finished doing relax num steps relax_to_radiative_core 10 5.478112 4145.239 -21.673540 -21.673540 20.000000 20.000000 0.759700 0.000005 0.240200 -13.192223 442 0 -2.2907E+00 5.478104 2.591183 -99.000000 -23.071408 -99.000000 0.000000 0.240200 0.000048 0.000100 0.011879 3 1.0230E-02 -5.549412 4.607259 -99.000000 -99.000000 -7.825610 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase waiting for fully convective core to develop 10 1.6703485801092008D-03 20 5.496320 4268.850 -21.334560 -21.334560 20.000000 20.000000 0.759700 0.000005 0.240200 -13.127214 444 0 7.1957E-01 5.496319 2.590050 -99.000000 -22.732428 -99.000000 0.000000 0.240200 0.000048 0.000100 0.011888 3 1.0486E+01 -5.493855 4.656037 -99.000000 -99.000000 -7.956282 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase relative mass of radiative core still tiny 20 1.8707257964933888D-14 finished relax to begin radiative core 24 2.4747083891177393D-03 finished doing relax_to_radiative_core set_initial_number_retries 0 net name approx21.net kap_option a09 kap_CO_option a09_co kap_lowT_option lowT_fa05_a09p OMP_NUM_THREADS 8 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc 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 __________________________________________________________________________________________________________________________________________________ write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/lowT_fa05_a09p_z0.0003_x0.7.bin write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/lowT_fa05_a09p_z0.0003_x0.8.bin save LOGS/profile1.data for model 1 10 5.562792 4319.995 -20.070174 -20.070174 20.000000 20.000000 0.759700 0.000005 0.240200 -12.889241 460 0 -4.2874E+00 5.562791 2.527780 -99.000000 -21.468042 -5.646108 0.000000 0.240200 0.000048 0.000100 0.011921 3 2.5959E-04 -5.290791 4.552187 -99.000000 -99.000000 -7.931023 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase 20 5.562794 4319.854 -20.070142 -20.070142 20.000000 20.000000 0.759700 0.000005 0.240200 -12.889238 460 0 -3.4956E+00 5.562793 2.527777 -99.000000 -21.468010 -5.646101 0.000000 0.240200 0.000048 0.000100 0.011921 3 1.8669E-03 -5.290786 4.552124 -99.000000 -99.000000 -7.930863 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase 30 5.562804 4319.662 -20.069945 -20.069945 20.000000 20.000000 0.759700 0.000005 0.240200 -12.889198 459 0 -2.7037E+00 5.562803 2.527764 -99.000000 -21.467813 -5.646080 0.000000 0.240200 0.000048 0.000100 0.011921 2 1.1819E-02 -5.290754 4.552022 -99.000000 -99.000000 -7.930632 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase 40 5.562868 4319.585 -20.068732 -20.068732 20.000000 20.000000 0.759700 0.000005 0.240200 -12.888956 459 0 -1.9119E+00 5.562868 2.527699 -99.000000 -21.466600 -5.646175 0.000000 0.240200 0.000048 0.000100 0.011921 2 7.3439E-02 -5.290552 4.551860 -99.000000 -99.000000 -7.930460 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase 50 5.563266 4319.852 -20.061234 -20.061234 19.999999 19.999999 0.759700 0.000005 0.240200 -12.887461 460 0 -1.1201E+00 5.563266 2.527316 -99.000000 -21.459102 -5.646893 0.000000 0.240200 0.000048 0.000100 0.011921 2 4.5497E-01 -5.289306 4.551200 -99.000000 -99.000000 -7.930249 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase 60 5.565704 4321.650 -20.015288 -20.015288 19.999994 19.999994 0.759700 0.000005 0.240200 -12.878260 462 0 -3.2831E-01 5.565703 2.524976 -99.000000 -21.413156 -5.651312 0.000000 0.240200 0.000048 0.000100 0.011925 3 2.8173E+00 -5.281653 4.547244 -99.000000 -99.000000 -7.929147 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase 70 5.579915 4332.102 -19.747999 -19.747999 19.999962 19.999962 0.759700 0.000005 0.240200 -12.823216 459 0 4.6351E-01 5.579914 2.511258 -99.000000 -21.145868 -5.677440 0.000000 0.240200 0.000048 0.000100 0.011948 4 1.7444E+01 -5.236430 4.524004 -99.000000 -99.000000 -7.922562 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase 80 5.645855 4384.636 -18.529260 -18.529260 19.999802 19.999802 0.759700 0.000005 0.240200 -12.534888 469 0 1.2553E+00 5.645855 2.447079 -99.000000 -19.927128 -5.805222 0.000000 0.240200 0.000048 0.000100 0.012192 4 1.0801E+02 -5.012292 4.416585 -99.000000 -99.000000 -7.895117 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase 90 5.782881 4486.916 -16.154675 -16.154675 19.999425 19.999425 0.759700 0.000005 0.240200 -11.804578 490 0 1.6474E+00 5.782880 2.343711 -99.000000 -17.552543 -6.051679 0.000000 0.240200 0.000048 0.000100 0.013283 4 4.4919E+02 -4.489564 4.249907 -99.000000 -99.000000 -7.866364 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase 100 5.939647 4580.779 -13.730366 -13.730366 19.998986 19.998986 0.759700 0.000005 0.240200 -11.073334 519 0 1.6898E+00 5.939646 2.396331 -99.000000 -15.128234 -6.008449 0.000000 0.240200 0.000048 0.000100 0.014151 5 9.6556E+02 -3.936806 4.391113 -99.000000 -99.000000 -8.035150 0.000000 0.000017 0.000011 0.000004 0.000E+00 lgRho_cntr hydro_solver_step returned ierr -1 s% model_number 108 nz 542 s% num_retries 0 retry: logT < hydro_mtx_min_allowed_logT 40 108 110 6.085484 5295.505 -11.714915 -11.714915 19.998573 19.998573 0.759700 0.000005 0.240200 -10.593171 564 1 1.4752E+00 6.085484 2.365155 -99.000000 -13.112783 -6.143617 0.000000 0.240200 0.000048 0.000100 0.014041 8 1.3815E+03 -3.509473 4.580633 -99.000000 -99.000000 -8.643885 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase hydro_solver_step returned ierr -1 s% model_number 111 nz 556 s% num_retries 1 retry: logRho > hydro_mtx_max_allowed_logRho 106 111 solver rejected trial model s% model_number 115 s% solver_call_number 192 nz 565 s% num_retries 2 dt 9.7717519821532249D+08 log dt/secyer 1.4908684684829345D+00 retry: max residual jumped -- give up in solver 115 solver rejected trial model s% model_number 119 s% solver_call_number 197 nz 575 s% num_retries 3 dt 8.4427937125803864D+08 log dt/secyer 1.4273822109618277D+00 retry: avg corr too large -- give up in solver 119 120 6.145682 5760.388 -10.936361 -10.936361 19.998471 19.998471 0.759700 0.000005 0.240200 -10.404139 585 4 1.1264E+00 6.145681 2.311232 -99.000000 -12.334229 -6.348978 0.000000 0.240200 0.000048 0.000100 0.013953 5 1.5632E+03 -3.337057 4.618964 -99.000000 -99.000000 -8.926316 0.000000 0.000017 0.000011 0.000004 0.000E+00 hold solver rejected trial model s% model_number 124 s% solver_call_number 203 nz 586 s% num_retries 4 dt 8.7534885212033439D+08 log dt/secyer 1.4430771994883458D+00 retry: max residual jumped -- give up in solver 124 130 6.210430 6323.969 -10.132918 -10.132918 19.998398 19.998398 0.759700 0.000005 0.240200 -10.206269 577 5 1.5380E+00 6.210429 2.243402 -99.000000 -11.530786 -6.553472 0.000000 0.240200 0.000048 0.000100 0.013834 6 1.7732E+03 -3.153972 4.645456 -99.000000 -99.000000 -9.255914 0.000000 0.000017 0.000011 0.000004 0.000E+00 max increase hydro_solver_step returned ierr -1 s% model_number 132 nz 577 s% num_retries 5 retry: adjust_correction failed in eval_equations -- give up in solver 132 140 6.327632 7506.096 -8.757841 -8.757841 19.998324 19.998324 0.759700 0.000005 0.240200 -9.853241 608 6 1.8059E+00 6.327632 2.106235 -99.000000 -10.155709 -6.975656 0.000000 0.240200 0.000048 0.000100 0.013598 5 2.2158E+03 -2.824784 4.668820 -99.000000 -99.000000 -10.112325 0.000000 0.000017 0.000011 0.000004 0.000E+00 lgTeff 150 6.489524 9523.217 -7.003640 -7.003640 19.998287 19.998287 0.759700 0.000005 0.240200 -9.345193 639 6 1.9658E+00 6.489523 1.904538 -99.000000 -8.401509 -7.768603 0.000000 0.240200 0.000048 0.000100 0.013369 4 3.0325E+03 -2.361178 4.678904 -99.000000 -99.000000 -10.680521 0.000000 0.000017 0.000011 0.000004 0.000E+00 lgTeff 160 6.660805 1.209E+04 -5.314213 -5.314213 19.998279 19.998279 0.759700 0.000005 0.240200 -8.780282 653 6 2.1798E+00 6.660805 1.700807 -99.000000 -6.712081 -8.536939 0.000000 0.240200 0.000048 0.000100 0.013253 5 4.2777E+03 -1.858724 4.685631 -20.373130 -99.000000 -10.315192 0.000000 0.000017 0.000011 0.000004 0.000E+00 varcontrol 170 6.836677 1.528E+04 -3.737592 -3.737592 19.998273 19.998273 0.759700 0.000005 0.240200 -8.192070 662 6 2.3408E+00 6.836676 1.507443 -99.000000 -5.135462 -8.406646 0.000000 0.240200 0.000048 0.000100 0.013171 5 6.1116E+03 -1.339164 4.705626 -14.987269 -99.000000 -9.949981 0.000000 0.000017 0.000011 0.000004 0.000E+00 varcontrol 180 7.012272 1.918E+04 -2.302253 -2.302253 19.998260 19.998260 0.759700 0.000005 0.240200 -7.603924 682 6 2.4972E+00 7.012271 1.317973 -58.198878 -3.700706 -8.261630 0.000000 0.240200 0.000048 0.000100 0.013096 5 8.7379E+03 -0.819906 4.722322 -10.250849 -99.000000 -9.618331 0.000000 0.000017 0.000011 0.000004 0.000E+00 varcontrol 190 7.189167 2.398E+04 -0.860867 -0.860867 19.998242 19.998242 0.759700 0.000005 0.240200 -7.007316 704 6 2.6733E+00 7.189167 1.128677 -47.542237 -2.348119 -9.574257 0.000000 0.240200 0.000048 0.000100 0.013039 3 1.2602E+04 -0.294813 4.731547 -9.079424 -99.000000 -9.326288 0.000000 0.000017 0.000011 0.000004 0.000E+00 lgRho_cntr 200 7.362366 2.974E+04 1.689469 1.689469 19.998239 19.998239 0.759700 0.000005 0.240200 -6.407782 772 6 2.8020E+00 7.362366 0.945322 -38.527356 0.111021 -9.088867 0.000000 0.240200 0.000048 0.000100 0.013033 3 1.8205E+04 0.224141 4.738896 -5.345569 -99.000000 -9.102776 0.000000 0.000017 0.000011 0.000004 0.000E+00 lgRho_cntr 210 7.535984 3.678E+04 3.119748 3.119763 19.998228 19.998228 0.759688 0.000026 0.240200 -5.814413 823 6 3.0030E+00 7.535983 0.763257 -28.980839 2.320040 -8.806961 0.000000 0.240209 0.000047 0.000100 0.013011 5 2.6581E+04 0.742789 4.743730 -1.336250 -99.000000 -8.936442 0.000000 0.000000 0.000011 0.000004 0.000E+00 varcontrol 220 7.667530 4.252E+04 4.655471 4.655653 19.998199 19.998199 0.759199 0.000051 0.240200 -5.556228 917 6 3.4916E+00 7.667530 0.596009 -21.843026 3.505071 -8.850217 0.000000 0.240702 0.000017 0.000100 0.012206 5 4.3741E+04 1.053884 4.661057 1.277833 -99.000000 -8.705926 0.000000 0.000001 0.000011 0.000004 0.000E+00 max increase 230 7.660102 4.176E+04 4.625790 4.625973 19.998099 19.998099 0.755157 0.000065 0.240200 -5.598686 918 6 4.2834E+00 7.660102 0.593878 -22.204999 3.470905 -8.988197 0.000000 0.244746 0.000001 0.000100 0.012171 5 1.4036E+05 1.025218 4.625586 1.251261 -99.000000 -8.704116 0.000000 0.000001 0.000011 0.000004 0.000E+00 max increase 240 7.662644 4.173E+04 4.642504 4.642687 19.997460 19.997460 0.729154 0.000065 0.240200 -5.623042 911 6 5.0752E+00 7.662643 0.603017 -21.963099 3.486475 -8.957780 0.000000 0.270749 0.000001 0.000100 0.012263 10 7.3862E+05 1.024985 4.642367 1.268137 -99.000000 -8.717796 0.000000 0.000001 0.000011 0.000004 0.000E+00 max increase write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/a09_z0.0_x0.5.bin write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/a09_z0.0001_x0.5.bin 250 7.673309 4.141E+04 4.708318 4.708502 19.994716 19.994716 0.623964 0.000065 0.240200 -5.718056 926 6 5.2873E+00 7.673308 0.642462 -21.073045 3.548455 -8.821784 0.000000 0.375939 0.000001 0.000100 0.012728 10 2.8501E+06 1.027182 4.708140 1.334002 -99.000000 -8.777724 0.000000 0.000001 0.000011 0.000004 0.000E+00 XHe_cntr 260 7.684652 4.079E+04 4.770132 4.770315 19.991670 19.991670 0.518388 0.000065 0.240200 -5.807268 939 6 5.1894E+00 7.684652 0.686583 -20.260678 3.607540 -8.689273 0.000000 0.481515 0.000001 0.000100 0.013385 10 4.5569E+06 1.034858 4.769902 1.395457 -99.000000 -8.845857 0.000000 0.000001 0.000011 0.000004 0.000E+00 XHe_cntr write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/a09_z0.0_x0.35.bin write /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/kap_data/cache/a09_z0.0001_x0.35.bin stop because have dropped below central lower limit for h1 0.4973419336E+00 0.5000000000E+00 262 7.687026 4.062E+04 4.782021 4.782204 19.991030 19.991030 0.497342 0.000065 0.240200 -5.824213 931 6 5.1718E+00 7.687026 0.696040 -20.102567 3.618992 -8.664314 0.000000 0.502561 0.000001 0.000100 0.013544 10 4.8570E+06 1.037166 4.781779 1.407230 -99.000000 -8.860501 0.000000 0.000001 0.000011 0.000004 0.000E+00 XHe_cntr save LOGS/profile2.data for model 262 solver retries 7 varcontrol dt limit 36 max increase dt limit 209 lgTeff dt limit 15 lgRho_cntr dt limit 55 XHe_cntr dt limit 19 model saved to pre_tzo.mod save photos/x262 for model 262 termination code: xa_central_lower_limit runtime (minutes), retries, steps 1.08 6 262 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc 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 __________________________________________________________________________________________________________________________________________________ 262 7.687026 4.062E+04 4.782021 4.782204 19.991030 19.991030 0.497342 0.000065 0.240200 -5.824213 931 6 5.1718E+00 7.687026 0.696040 -20.102567 3.618992 -8.664314 0.000000 0.502561 0.000001 0.000100 0.013544 10 4.8570E+06 1.037166 4.781779 1.407230 -99.000000 -8.860501 0.000000 0.000001 0.000011 0.000004 0.000E+00 XHe_cntr DATE: 2024-10-01 TIME: 12:37:50 finished inlist_initial_header run inlist_initial_make_header DATE: 2024-10-01 TIME: 12:37:51 reading user weak rate file /n/holyscratch01/conroy_lab/ebauer/mesa-git-tests/tmp.fbFpnvGuxt/data/rates_data/rate_tables/S13_r_be7_wk_li7.h5 version_number 2aca86c read inlist_common read inlist_initial_make 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 pre_tzo.mod set_initial_age 0.0000000000000000D+00 set_age 0.0000000000000000D+00 set_initial_dt (years) 1.0000000000000000D-08 set_initial_model_number 0 set_initial_number_retries 0 relax_core 1.3999999999999999D+00 current core mass 0.0000000000000000D+00 relax to new_core_mass 1.3999999999999999D+00 dlg_core_mass_per_step 5.0000000000000003D-02 s% M_center 2.2310325696394042D+25 s% L_center 2.2310325696394043D+30 s% R_center 1.2108732417091934D+05 s% xmstar 3.9750360520698199D+34 s% M_center 2.5032597152841497D+25 s% L_center 2.5032597152841497D+30 s% R_center 1.2582453925772180D+05 s% xmstar 3.9750360517975930D+34 s% M_center 2.8087035964595031D+25 s% L_center 2.8087035964595029D+30 s% R_center 1.3074708511248270D+05 s% xmstar 3.9750360514921491D+34 s% M_center 3.1514172678918675D+25 s% L_center 3.1514172678918674D+30 s% R_center 1.3586221230181609D+05 s% xmstar 3.9750360511494353D+34 s% M_center 3.5359483317805602D+25 s% L_center 3.5359483317805601D+30 s% R_center 1.4117745505120617D+05 s% xmstar 3.9750360507649042D+34 s% M_center 3.9673992817160433D+25 s% L_center 3.9673992817160435D+30 s% R_center 1.4670064234239553D+05 s% xmstar 3.9750360503334533D+34 s% M_center 4.4514952096697679D+25 s% L_center 4.4514952096697678D+30 s% R_center 1.5243990944492936D+05 s% xmstar 3.9750360498493572D+34 s% M_center 4.9946597744862830D+25 s% L_center 4.9946597744862828D+30 s% R_center 1.5840370989883973D+05 s% xmstar 3.9750360493061928D+34 s% M_center 5.6041004399333095D+25 s% L_center 5.6041004399333090D+30 s% R_center 1.6460082796612033D+05 s% xmstar 3.9750360486967521D+34 10 7.687099 4.062E+04 4.782542 4.782725 19.991030 19.991030 0.497342 0.000065 0.240200 -5.824093 930 0 0.0000E+00 7.687063 0.696018 -20.100802 3.619530 -99.000000 0.000000 0.502561 0.000001 0.000100 0.013544 3 1.0000E+01 1.037249 4.781831 1.407824 -99.000000 -8.860465 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 2.8183829312645368D-08 1.3999999999999999D+00 9.9999997986869338D-01 s% M_center 6.2879041133669440D+25 s% L_center 6.2879041133669435D+30 s% R_center 1.7104039156933146D+05 s% xmstar 3.9750360480129483D+34 s% M_center 7.0551444540789595D+25 s% L_center 7.0551444540789595D+30 s% R_center 1.7773188573639333D+05 s% xmstar 3.9750360472457081D+34 s% M_center 7.9160022752427675D+25 s% L_center 7.9160022752427675D+30 s% R_center 1.8468516657137027D+05 s% xmstar 3.9750360463848502D+34 s% M_center 8.8819006371187427D+25 s% L_center 8.8819006371187423D+30 s% R_center 1.9191047577182445D+05 s% xmstar 3.9750360454189520D+34 s% M_center 9.9656564241235907D+25 s% L_center 9.9656564241235910D+30 s% R_center 1.9941845571412149D+05 s% xmstar 3.9750360443351961D+34 s% M_center 1.1181650417099579D+26 s% L_center 1.1181650417099579D+31 s% R_center 2.0722016512890943D+05 s% xmstar 3.9750360431192024D+34 s% M_center 1.2546018117538968D+26 s% L_center 1.2546018117538967D+31 s% R_center 2.1532709538985678D+05 s% xmstar 3.9750360417548346D+34 s% M_center 1.4076863855885546D+26 s% L_center 1.4076863855885546D+31 s% R_center 2.2375118743964346D+05 s% xmstar 3.9750360402239887D+34 s% M_center 1.5794501024999924D+26 s% L_center 1.5794501024999925D+31 s% R_center 2.3250484937813730D+05 s% xmstar 3.9750360385063515D+34 s% M_center 1.7721721626541247D+26 s% L_center 1.7721721626541247D+31 s% R_center 2.4160097473865928D+05 s% xmstar 3.9750360365791311D+34 20 7.687176 4.062E+04 4.782534 4.782717 19.991030 19.991030 0.497342 0.000065 0.240200 -5.823966 930 0 0.0000E+00 7.687064 0.696018 -20.100817 3.619528 -99.000000 0.000000 0.502561 0.000001 0.000100 0.013543 3 2.0000E+01 1.037251 4.781830 1.407819 -99.000000 -8.860465 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 8.9125093813378957D-08 1.3999999999999999D+00 9.9999993633921880D-01 s% M_center 1.9884098706981478D+26 s% L_center 1.9884098706981477D+31 s% R_center 2.5105296147925840D+05 s% xmstar 3.9750360344167539D+34 s% M_center 2.2310325696395018D+26 s% L_center 2.2310325696395019D+31 s% R_center 2.6087473171696879D+05 s% xmstar 3.9750360319905270D+34 s% M_center 2.5032597152842547D+26 s% L_center 2.5032597152842547D+31 s% R_center 2.7108075223411806D+05 s% xmstar 3.9750360292682557D+34 s% M_center 2.8087035964596159D+26 s% L_center 2.8087035964596160D+31 s% R_center 2.8168605578688777D+05 s% xmstar 3.9750360262138166D+34 s% M_center 3.1514172678919881D+26 s% L_center 3.1514172678919879D+31 s% R_center 2.9270626324751310D+05 s% xmstar 3.9750360227866799D+34 s% M_center 3.5359483317806901D+26 s% L_center 3.5359483317806903D+31 s% R_center 3.0415760661273962D+05 s% xmstar 3.9750360189413694D+34 s% M_center 3.9673992817161883D+26 s% L_center 3.9673992817161882D+31 s% R_center 3.1605695291242085D+05 s% xmstar 3.9750360146268600D+34 s% M_center 4.4514952096699309D+26 s% L_center 4.4514952096699308D+31 s% R_center 3.2842182905347925D+05 s% xmstar 3.9750360097859003D+34 s% M_center 4.9946597744864570D+26 s% L_center 4.9946597744864574D+31 s% R_center 3.4127044763581117D+05 s% xmstar 3.9750360043542547D+34 s% M_center 5.6041004399334957D+26 s% L_center 5.6041004399334957D+31 s% R_center 3.5462173377818335D+05 s% xmstar 3.9750359982598484D+34 30 7.687421 4.062E+04 4.782527 4.782710 19.991030 19.991030 0.497342 0.000065 0.240200 -5.823561 930 0 0.0000E+00 7.687067 0.696019 -20.100830 3.619526 -99.000000 0.000000 0.502561 0.000001 0.000100 0.013541 3 3.0000E+01 1.037259 4.781831 1.407815 -99.000000 -8.860466 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 2.8183829312646301D-07 1.3999999999999999D+00 9.9999979868693345D-01 s% M_center 6.2879041133671529D+26 s% L_center 6.2879041133671532D+31 s% R_center 3.6849535299360892D+05 s% xmstar 3.9750359914218115D+34 s% M_center 7.0551444540791925D+26 s% L_center 7.0551444540791926D+31 s% R_center 3.8291174015527254D+05 s% xmstar 3.9750359837494080D+34 s% M_center 7.9160022752430152D+26 s% L_center 7.9160022752430150D+31 s% R_center 3.9789212959568156D+05 s% xmstar 3.9750359751408300D+34 s% M_center 8.8819006371190055D+26 s% L_center 8.8819006371190062D+31 s% R_center 4.1345858638334600D+05 s% xmstar 3.9750359654818464D+34 s% M_center 9.9656564241239023D+26 s% L_center 9.9656564241239017D+31 s% R_center 4.2963403882309527D+05 s% xmstar 3.9750359546442884D+34 s% M_center 1.1181650417099969D+27 s% L_center 1.1181650417099968D+32 s% R_center 4.4644231222786376D+05 s% xmstar 3.9750359424843487D+34 s% M_center 1.2546018117539429D+27 s% L_center 1.2546018117539429D+32 s% R_center 4.6390816401171818D+05 s% xmstar 3.9750359288406715D+34 s% M_center 1.4076863855886035D+27 s% L_center 1.4076863855886035D+32 s% R_center 4.8205732015579974D+05 s% xmstar 3.9750359135322143D+34 s% M_center 1.5794501025000449D+27 s% L_center 1.5794501025000449D+32 s% R_center 5.0091651310090197D+05 s% xmstar 3.9750358963558426D+34 s% M_center 1.7721721626541803D+27 s% L_center 1.7721721626541802D+32 s% R_center 5.2051352112249046D+05 s% xmstar 3.9750358770836363D+34 40 7.688194 4.062E+04 4.782521 4.782704 19.991030 19.991030 0.497342 0.000065 0.240200 -5.822281 930 0 0.0000E+00 7.687079 0.696019 -20.100839 3.619525 -99.000000 0.000000 0.502561 0.000001 0.000100 0.013535 3 4.0000E+01 1.037285 4.781831 1.407811 -99.000000 -8.860467 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 8.9125093813381760D-07 1.3999999999999999D+00 9.9999936339218698D-01 s% M_center 1.9884098706982171D+27 s% L_center 1.9884098706982173D+32 s% R_center 5.4087720924615778D+05 s% xmstar 3.9750358554598657D+34 s% M_center 2.2310325696395835D+27 s% L_center 2.2310325696395835D+32 s% R_center 5.6203757176380500D+05 s% xmstar 3.9750358311975956D+34 s% M_center 2.5032597152843460D+27 s% L_center 2.5032597152843460D+32 s% R_center 5.8402577641312988D+05 s% xmstar 3.9750358039748813D+34 s% M_center 2.8087035964597189D+27 s% L_center 2.8087035964597190D+32 s% R_center 6.0687421028553555D+05 s% xmstar 3.9750357734304931D+34 s% M_center 3.1514172678921035D+27 s% L_center 3.1514172678921035D+32 s% R_center 6.3061652753005410D+05 s% xmstar 3.9750357391591257D+34 s% M_center 3.5359483317808195D+27 s% L_center 3.5359483317808192D+32 s% R_center 6.5528769892356370D+05 s% xmstar 3.9750357007060193D+34 s% M_center 3.9673992817163330D+27 s% L_center 3.9673992817163331D+32 s% R_center 6.8092406338030216D+05 s% xmstar 3.9750356575609245D+34 s% M_center 4.4514952096700865D+27 s% L_center 4.4514952096700868D+32 s% R_center 7.0756338147654384D+05 s% xmstar 3.9750356091513319D+34 s% M_center 4.9946597744866316D+27 s% L_center 4.9946597744866316D+32 s% R_center 7.3524489106930967D+05 s% xmstar 3.9750355548348750D+34 s% M_center 5.6041004399336907D+27 s% L_center 5.6041004399336910D+32 s% R_center 7.6400936509097985D+05 s% xmstar 3.9750354938908088D+34 50 7.690608 4.062E+04 4.782518 4.782701 19.991030 19.991030 0.497342 0.000065 0.240200 -5.818272 930 0 0.0000E+00 7.687117 0.696020 -20.100833 3.619527 -99.000000 0.000000 0.502561 0.000001 0.000100 0.013516 3 5.0000E+01 1.037369 4.781831 1.407811 -99.000000 -8.860467 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 2.8183829312647283D-06 1.3999999999999999D+00 9.9999798686933483D-01 s% M_center 6.2879041133673613D+27 s% L_center 6.2879041133673614D+32 s% R_center 7.9389917160498467D+05 s% xmstar 3.9750354255104413D+34 s% M_center 7.0551444540794258D+27 s% L_center 7.0551444540794260D+32 s% R_center 8.2495833621100336D+05 s% xmstar 3.9750353487864072D+34 s% M_center 7.9160022752432763D+27 s% L_center 7.9160022752432763D+32 s% R_center 8.5723260689160833D+05 s% xmstar 3.9750352627006250D+34 s% M_center 8.8819006371192988D+27 s% L_center 8.8819006371192988D+32 s% R_center 8.9076952139583533D+05 s% xmstar 3.9750351661107891D+34 s% M_center 9.9656564241242333D+27 s% L_center 9.9656564241242332D+32 s% R_center 9.2561847725899064D+05 s% xmstar 3.9750350577352103D+34 s% M_center 1.1181650417100318D+28 s% L_center 1.1181650417100317D+33 s% R_center 9.6183080456176458D+05 s% xmstar 3.9750349361358109D+34 s% M_center 1.2546018117539821D+28 s% L_center 1.2546018117539820D+33 s% R_center 9.9945984153585613D+05 s% xmstar 3.9750347996990408D+34 s% M_center 1.4076863855886501D+28 s% L_center 1.4076863855886501D+33 s% R_center 1.0385610131274731D+06 s% xmstar 3.9750346466144670D+34 s% M_center 1.5794501025000969D+28 s% L_center 1.5794501025000970D+33 s% R_center 1.0791919126344062D+06 s% xmstar 3.9750344748507501D+34 s% M_center 1.7721721626542390D+28 s% L_center 1.7721721626542390D+33 s% R_center 1.1214123865369500D+06 s% xmstar 3.9750342821286898D+34 60 7.697967 4.062E+04 4.782525 4.782709 19.991030 19.991030 0.497342 0.000065 0.240200 -5.805961 930 0 0.0000E+00 7.687237 0.696020 -20.100783 3.619539 -99.000000 0.000000 0.502561 0.000001 0.000100 0.013458 3 6.0000E+01 1.037638 4.781832 1.407821 -99.000000 -8.860468 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 8.9125093813384708D-06 1.3999999999999999D+00 9.9999363392187046D-01 s% M_center 1.9884098706982794D+28 s% L_center 1.9884098706982792D+33 s% R_center 1.1652846226475700D+06 s% xmstar 3.9750340658909820D+34 s% M_center 2.2310325696396535D+28 s% L_center 2.2310325696396534D+33 s% R_center 1.2108732417092377D+06 s% xmstar 3.9750338232682829D+34 s% M_center 2.5032597152844292D+28 s% L_center 2.5032597152844292D+33 s% R_center 1.2582453925772663D+06 s% xmstar 3.9750335510411375D+34 s% M_center 2.8087035964598119D+28 s% L_center 2.8087035964598118D+33 s% R_center 1.3074708511248748D+06 s% xmstar 3.9750332455972563D+34 s% M_center 3.1514172678922075D+28 s% L_center 3.1514172678922076D+33 s% R_center 1.3586221230182108D+06 s% xmstar 3.9750329028835845D+34 s% M_center 3.5359483317809366D+28 s% L_center 3.5359483317809368D+33 s% R_center 1.4117745505121108D+06 s% xmstar 3.9750325183525210D+34 s% M_center 3.9673992817164575D+28 s% L_center 3.9673992817164576D+33 s% R_center 1.4670064234240092D+06 s% xmstar 3.9750320869015708D+34 s% M_center 4.4514952096702339D+28 s% L_center 4.4514952096702340D+33 s% R_center 1.5243990944493469D+06 s% xmstar 3.9750316028056431D+34 s% M_center 4.9946597744867961D+28 s% L_center 4.9946597744867959D+33 s% R_center 1.5840370989884499D+06 s% xmstar 3.9750310596410780D+34 s% M_center 5.6041004399338755D+28 s% L_center 5.6041004399338753D+33 s% R_center 1.6460082796612605D+06 s% xmstar 3.9750304502004125D+34 70 7.716555 4.062E+04 4.782564 4.782747 19.991030 19.991030 0.497342 0.000065 0.240200 -5.774695 958 0 0.0000E+00 7.687588 0.696020 -20.100589 3.619581 -99.000000 0.000000 0.502561 0.000001 0.000100 0.013314 3 7.0000E+01 1.038421 4.781834 1.407864 -99.000000 -8.860468 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 2.8183829312648211D-05 1.3999999999999999D+00 9.9997986869334821D-01 s% M_center 6.2879041133675678D+28 s% L_center 6.2879041133675675D+33 s% R_center 1.7104039156933713D+06 s% xmstar 3.9750297663967394D+34 s% M_center 7.0551444540796457D+28 s% L_center 7.0551444540796457D+33 s% R_center 1.7773188573639921D+06 s% xmstar 3.9750289991563984D+34 s% M_center 7.9160022752435250D+28 s% L_center 7.9160022752435254D+33 s% R_center 1.8468516657137605D+06 s% xmstar 3.9750281382985776D+34 s% M_center 8.8819006371195931D+28 s% L_center 8.8819006371195930D+33 s% R_center 1.9191047577183081D+06 s% xmstar 3.9750271724002156D+34 s% M_center 9.9656564241245640D+28 s% L_center 9.9656564241245644D+33 s% R_center 1.9941845571412810D+06 s% xmstar 3.9750260886444283D+34 s% M_center 1.1181650417100689D+29 s% L_center 1.1181650417100688D+34 s% R_center 2.0722016512891629D+06 s% xmstar 3.9750248726504357D+34 s% M_center 1.2546018117540236D+29 s% L_center 1.2546018117540236D+34 s% R_center 2.1532709538986427D+06 s% xmstar 3.9750235082827352D+34 s% M_center 1.4076863855886941D+29 s% L_center 1.4076863855886942D+34 s% R_center 2.2375118743965086D+06 s% xmstar 3.9750219774369966D+34 s% M_center 1.5794501025001493D+29 s% L_center 1.5794501025001493D+34 s% R_center 2.3250484937814497D+06 s% xmstar 3.9750202597998278D+34 s% M_center 1.7721721626542974D+29 s% L_center 1.7721721626542974D+34 s% R_center 2.4160097473866725D+06 s% xmstar 3.9750183325792263D+34 80 7.761127 4.062E+04 4.782701 4.782885 19.991030 19.991030 0.497342 0.000065 0.240200 -5.697617 970 0 0.0000E+00 7.688733 0.696019 -20.099946 3.619723 -99.000000 0.000000 0.502561 0.000001 0.000100 0.012985 3 8.0000E+01 1.040978 4.781839 1.408010 -99.000000 -8.860466 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 8.9125093813387652D-05 1.3999999999999999D+00 9.9993633921870473D-01 s% M_center 1.9884098706983452D+29 s% L_center 1.9884098706983451D+34 s% R_center 2.5105296147926669D+06 s% xmstar 3.9750161702021457D+34 s% M_center 2.2310325696397272D+29 s% L_center 2.2310325696397270D+34 s% R_center 2.6087473171697739D+06 s% xmstar 3.9750137439751561D+34 s% M_center 2.5032597152845076D+29 s% L_center 2.5032597152845077D+34 s% R_center 2.7108075223412705D+06 s% xmstar 3.9750110217036999D+34 s% M_center 2.8087035964598999D+29 s% L_center 2.8087035964598999D+34 s% R_center 2.8168605578689757D+06 s% xmstar 3.9750079672648880D+34 s% M_center 3.1514172678923069D+29 s% L_center 3.1514172678923068D+34 s% R_center 2.9270626324752276D+06 s% xmstar 3.9750045401281738D+34 s% M_center 3.5359483317810469D+29 s% L_center 3.5359483317810471D+34 s% R_center 3.0415760661274968D+06 s% xmstar 3.9750006948175350D+34 s% M_center 3.9673992817165819D+29 s% L_center 3.9673992817165820D+34 s% R_center 3.1605695291243130D+06 s% xmstar 3.9749963803080355D+34 s% M_center 4.4514952096703651D+29 s% L_center 4.4514952096703652D+34 s% R_center 3.2842182905349010D+06 s% xmstar 3.9749915393487558D+34 s% M_center 4.9946597744869437D+29 s% L_center 4.9946597744869437D+34 s% R_center 3.4127044763582251D+06 s% xmstar 3.9749861077031080D+34 s% M_center 5.6041004399340410D+29 s% L_center 5.6041004399340406D+34 s% R_center 3.5462173377819508D+06 s% xmstar 3.9749800132964533D+34 90 7.841299 4.062E+04 4.783150 4.783334 19.991030 19.991030 0.497342 0.000065 0.240200 -5.552285 1008 0 0.0000E+00 7.692377 0.696013 -20.097868 3.620177 -99.000000 0.000000 0.502561 0.000001 0.000100 0.012442 3 9.0000E+01 1.049129 4.781853 1.408480 -99.000000 -8.860459 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 2.8183829312649044D-04 1.3999999999999999D+00 9.9979868693348106D-01 s% M_center 6.2879041133677433D+29 s% L_center 6.2879041133677434D+34 s% R_center 3.6849535299362047D+06 s% xmstar 3.9749731752597189D+34 s% M_center 7.0551444540798357D+29 s% L_center 7.0551444540798357D+34 s% R_center 3.8291174015528453D+06 s% xmstar 3.9749655028563120D+34 s% M_center 7.9160022752437307D+29 s% L_center 7.9160022752437308D+34 s% R_center 3.9789212959569260D+06 s% xmstar 3.9749568942781004D+34 s% M_center 8.8819006371198006D+29 s% L_center 8.8819006371198008D+34 s% R_center 4.1345858638335825D+06 s% xmstar 3.9749472352944816D+34 s% M_center 9.9656564241247962D+29 s% L_center 9.9656564241247965D+34 s% R_center 4.2963403882310791D+06 s% xmstar 3.9749363977366112D+34 s% M_center 1.1181650417100950D+30 s% L_center 1.1181650417100949D+35 s% R_center 4.4644231222787686D+06 s% xmstar 3.9749242377966816D+34 s% M_center 1.2546018117540517D+30 s% L_center 1.2546018117540518D+35 s% R_center 4.6390816401173100D+06 s% xmstar 3.9749105941196770D+34 s% M_center 1.4076863855887245D+30 s% L_center 1.4076863855887245D+35 s% R_center 4.8205732015581308D+06 s% xmstar 3.9748952856622936D+34 s% M_center 1.5794501025001806D+30 s% L_center 1.5794501025001805D+35 s% R_center 5.0091651310091680D+06 s% xmstar 3.9748781092906024D+34 s% M_center 1.7721721626543327D+30 s% L_center 1.7721721626543328D+35 s% R_center 5.2051352112250486D+06 s% xmstar 3.9748588370845870D+34 100 7.966050 4.063E+04 4.784586 4.784769 19.991030 19.991030 0.497342 0.000065 0.240200 -5.310372 1093 0 0.0000E+00 7.704120 0.695995 -18.205436 3.621618 -99.000000 0.000000 0.502561 0.000001 0.000100 0.011709 3 1.0000E+02 1.075490 4.781899 1.409979 -99.000000 -8.860435 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 8.9125093813389425D-04 1.3999999999999999D+00 9.9936339218704728D-01 s% M_center 1.9884098706983828D+30 s% L_center 1.9884098706983828D+35 s% R_center 5.4087720924617378D+06 s% xmstar 3.9748372133137826D+34 s% M_center 2.2310325696397675D+30 s% L_center 2.2310325696397673D+35 s% R_center 5.6203757176382057D+06 s% xmstar 3.9748129510438886D+34 s% M_center 2.5032597152845525D+30 s% L_center 2.5032597152845526D+35 s% R_center 5.8402577641314501D+06 s% xmstar 3.9747857283293244D+34 s% M_center 2.8087035964599476D+30 s% L_center 2.8087035964599476D+35 s% R_center 6.0687421028555129D+06 s% xmstar 3.9747551839412066D+34 s% M_center 3.1514172678923577D+30 s% L_center 3.1514172678923578D+35 s% R_center 6.3061652753007049D+06 s% xmstar 3.9747209125740636D+34 s% M_center 3.5359483317811011D+30 s% L_center 3.5359483317811009D+35 s% R_center 6.5528769892358314D+06 s% xmstar 3.9746824594676744D+34 s% M_center 3.9673992817166391D+30 s% L_center 3.9673992817166388D+35 s% R_center 6.8092406338031990D+06 s% xmstar 3.9746393143726809D+34 s% M_center 4.4514952096704287D+30 s% L_center 4.4514952096704290D+35 s% R_center 7.0756338147656219D+06 s% xmstar 3.9745909047798855D+34 s% M_center 4.9946597744870112D+30 s% L_center 4.9946597744870116D+35 s% R_center 7.3524489106932878D+06 s% xmstar 3.9745365883234039D+34 s% M_center 5.6041004399341118D+30 s% L_center 5.6041004399341118D+35 s% R_center 7.6400936509099836D+06 s% xmstar 3.9744756442568591D+34 110 8.139532 4.063E+04 4.789187 4.789371 19.991030 19.991030 0.497342 0.000065 0.240200 -4.947168 1181 0 0.0000E+00 7.742773 0.695937 -10.163513 3.626230 -99.000000 0.000000 0.502561 0.000001 0.000100 0.010871 3 1.1000E+02 1.163035 4.782041 1.414777 -99.000000 -8.860357 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 2.8183829312649401D-03 1.3999999999999999D+00 9.9798686933481073D-01 s% M_center 6.2879041133678285D+30 s% L_center 6.2879041133678285D+35 s% R_center 7.9389917160500251D+06 s% xmstar 3.9744072638895158D+34 s% M_center 7.0551444540799379D+30 s% L_center 7.0551444540799375D+35 s% R_center 8.2495833621102478D+06 s% xmstar 3.9743305398554444D+34 s% M_center 7.9160022752438450D+30 s% L_center 7.9160022752438450D+35 s% R_center 8.5723260689162742D+06 s% xmstar 3.9742444540733282D+34 s% M_center 8.8819006371199290D+30 s% L_center 8.8819006371199288D+35 s% R_center 8.9076952139585670D+06 s% xmstar 3.9741478642371407D+34 s% M_center 9.9656564241249297D+30 s% L_center 9.9656564241249301D+35 s% R_center 9.2561847725901138D+06 s% xmstar 3.9740394886584402D+34 s% M_center 1.1181650417101092D+31 s% L_center 1.1181650417101092D+36 s% R_center 9.6183080456178598D+06 s% xmstar 3.9739178892591425D+34 s% M_center 1.2546018117540688D+31 s% L_center 1.2546018117540687D+36 s% R_center 9.9945984153587855D+06 s% xmstar 3.9737814524890986D+34 s% M_center 1.4076863855887438D+31 s% L_center 1.4076863855887437D+36 s% R_center 1.0385610131274926D+07 s% xmstar 3.9736283679152640D+34 s% M_center 1.5794501025002004D+31 s% L_center 1.5794501025002004D+36 s% R_center 1.0791919126344325D+07 s% xmstar 3.9734566041983526D+34 s% M_center 1.7721721626543533D+31 s% L_center 1.7721721626543534D+36 s% R_center 1.1214123865369713D+07 s% xmstar 3.9732638821381985D+34 120 8.355184 4.065E+04 4.822632 4.822810 19.991030 19.991030 0.497342 0.000065 0.240200 -4.463976 1242 0 0.0000E+00 7.880114 0.695752 -3.214232 3.659060 -99.000000 0.000000 0.502561 0.000001 0.000100 0.010049 3 1.2000E+02 1.482250 4.782490 1.435184 -99.000000 -8.860109 0.000000 0.000001 0.000011 0.000004 0.000E+00 max_dt current & target core masses 8.9125093813390462D-03 1.3999999999999999D+00 9.9363392187047206D-01 s% M_center 1.9884098706984078D+31 s% L_center 1.9884098706984077D+36 s% R_center 1.1652846226475939D+07 s% xmstar 3.9730476444301541D+34 s% M_center 2.2310325696397955D+31 s% L_center 2.2310325696397954D+36 s% R_center 1.2108732417092649D+07 s% xmstar 3.9728050217312127D+34 s% M_center 2.5032597152845822D+31 s% L_center 2.5032597152845820D+36 s% R_center 1.2582453925772877D+07 s% xmstar 3.9725327945855680D+34 retry: logRho > hydro_mtx_max_allowed_logRho 1171 123 correction_norm > tol_correction_norm 123 3.1168445496356010D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 123 1.5737477054377597D-01 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 123 retry: logRho > hydro_mtx_max_allowed_logRho 1171 123 retry: avg corr too large -- give up in solver 123 retry: logT > hydro_mtx_max_allowed_logT 1176 123 retry: logT > hydro_mtx_max_allowed_logT 1196 123 retry: avg corr too large -- give up in solver 123 retry: logRho > hydro_mtx_max_allowed_logRho 1280 123 retry: max residual jumped -- give up in solver 123 retry: logT > hydro_mtx_max_allowed_logT 1270 123 retry: logRho > hydro_mtx_max_allowed_logRho 1266 123 retry: logRho > hydro_mtx_max_allowed_logRho 1280 123 retry: logRho > hydro_mtx_max_allowed_logRho 1280 123 retry: logRho > hydro_mtx_max_allowed_logRho 1244 123 retry: logRho > hydro_mtx_max_allowed_logRho 1210 123 retry: max residual jumped -- give up in solver 123 retry: get_T_tau -- L <= 0 123 retry: get_T_tau -- L <= 0 123 retry: max residual jumped -- give up in solver 123 retry: avg corr too large -- give up in solver 123 correction_norm > tol_correction_norm 123 6.3854316497464873D-04 3.0000000000000001D-05 1.0000000000000000D-02 max_abs_correction > tol_max_correction 123 1.8803935561515935D-02 3.0000000000000001D-03 1.0000000000000000D-02 retry: avg+max corr -- give up in solver 123 s% dt < relax_core_dt*0.9d0 1.5047836303710938D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.5047836303710938D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 max_abs_correction > tol_max_correction 125 3.7146372334814423D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 125 s% dt < relax_core_dt*0.9d0 1.3294424067411375D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.3294424067411375D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.6588848134822751D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 5.3177696269645502D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 129 retry: get_T_tau -- L <= 0 129 max_abs_correction > tol_max_correction 129 9.2995704405157299D-03 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 129 s% dt < relax_core_dt*0.9d0 1.3294424067411375D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 130 8.426012 4.066E+04 4.961407 4.961542 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301272 1288 25 -6.3754E+00 7.968237 0.695643 -1.417789 3.791588 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009816 3 1.2200E+02 1.692310 4.782795 1.455418 -91.932798 -8.859963 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 1.3294424067411375D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 1171 131 s% dt < relax_core_dt*0.9d0 1.3294424067411375D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.3294424067411375D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.6588848134822751D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 5.3177696269645502D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 1207 135 retry: max residual jumped -- give up in solver 135 retry: avg corr too large -- give up in solver 135 s% dt < relax_core_dt*0.9d0 1.3294424067411375D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.3294424067411375D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logT > hydro_mtx_max_allowed_logT 1170 137 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 139 4.4922409958269840D-05 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 139 9.1985766666488611D-03 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 139 correction_norm > tol_correction_norm 139 3.3056788144057004D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 139 3.3996386576268522D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 139 s% dt < relax_core_dt*0.9d0 5.3234549311963359D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 140 8.425949 4.067E+04 4.960909 4.961045 19.991030 19.991030 0.497342 0.000065 0.240200 -4.302949 1290 32 -6.7729E+00 7.968205 0.695643 -1.420919 3.791114 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009811 3 1.2200E+02 1.692140 4.782892 1.455399 -91.948895 -8.859968 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 5.3234549311963359D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: eos evaluated at too low a density 141 max_abs_correction > tol_max_correction 141 5.9065301364261700D-03 3.0000000000000001D-03 1.0000000000000000D-02 retry: avg+max corr -- give up in solver 141 s% dt < relax_core_dt*0.9d0 2.6617274655981680D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.6617274655981680D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 5.3234549311963359D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 max_abs_correction > tol_max_correction 145 7.1504546391530175D-03 3.0000000000000001D-03 1.0000000000000001D-01 retry: max corr -- give up in solver 145 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 max_abs_correction > tol_max_correction 147 1.3535029919464960D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 147 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 149 retry: eos evaluated at too low a density 149 correction_norm > tol_correction_norm 149 5.2742009058307609D-05 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 149 3.1137877598565407D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 149 s% dt < relax_core_dt*0.9d0 2.6617274655981680D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 150 8.425991 4.066E+04 4.961269 4.961405 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301647 1287 39 -7.0739E+00 7.968238 0.695642 -1.418635 3.791457 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009815 3 1.2200E+02 1.692269 4.782714 1.455412 -91.938104 -8.859958 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 2.6617274655981680D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 5.3234549311963359D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: eos evaluated at too low a density 153 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.1293819724785344D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 4.2587639449570688D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 157 1.2396478350174369D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 157 4.3174664517034778D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 157 retry: max residual jumped -- give up in solver 157 max_abs_correction > tol_max_correction 157 3.5082217386572926D-03 3.0000000000000001D-03 1.0000000000000001D-01 retry: max corr -- give up in solver 157 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 1288 159 correction_norm > tol_correction_norm 159 4.7781868080902105D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 159 7.6778189239539621D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 159 s% dt < relax_core_dt*0.9d0 5.3234549311963359D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 160 8.426008 4.066E+04 4.961382 4.961518 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301329 1289 45 -6.7729E+00 7.968252 0.695643 -1.417948 3.791565 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009816 3 1.2200E+02 1.692396 4.782750 1.455417 -91.933971 -8.859960 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 5.3234549311963359D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.0646909862392672D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.1293819724785344D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 163 s% dt < relax_core_dt*0.9d0 2.1293819724785344D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.1293819724785344D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logT > hydro_mtx_max_allowed_logT 1288 165 s% dt < relax_core_dt*0.9d0 2.1293819724785344D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.1293819724785344D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 1171 167 retry: logRho > hydro_mtx_max_allowed_logRho 1284 167 retry: logT > hydro_mtx_max_allowed_logT 1236 167 correction_norm > tol_correction_norm 167 4.8476545594615102D-05 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 167 3.0266933995472631D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 167 s% dt < relax_core_dt*0.9d0 2.3008812315495368D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.3008812315495368D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 4.0065823373671341D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 170 8.426292 4.066E+04 4.963345 4.963480 19.991030 19.991030 0.497342 0.000065 0.240200 -4.295450 1292 51 -6.5953E+00 7.968422 0.695643 -1.405659 3.793433 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009832 3 1.2200E+02 1.692929 4.782749 1.455477 -91.861888 -8.859960 0.000000 0.000001 0.000011 0.000004 0.000E+00 max increase current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 8.0131646747342682D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.6026329349468536D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.2052658698937073D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 6.4105317397874146D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.2821063479574829D+02 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 160 175 s% dt < relax_core_dt*0.9d0 1.2821063479574829D+02 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.2821063479574829D+02 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 177 s% dt < relax_core_dt*0.9d0 1.2821063479574829D+02 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.2821063479574829D+02 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 179 s% dt < relax_core_dt*0.9d0 1.2821063479574829D+02 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 180 8.426058 4.066E+04 4.961656 4.961792 19.991030 19.991030 0.497342 0.000065 0.240200 -4.300779 1296 54 -5.3912E+00 7.968289 0.695644 -1.416298 3.791826 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009817 3 1.2200E+02 1.692642 4.782716 1.455429 -91.921382 -8.859961 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 1.2821063479574829D+02 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: max residual jumped -- give up in solver 181 retry: max residual jumped -- give up in solver 181 retry: avg corr too large -- give up in solver 181 correction_norm > tol_correction_norm 181 2.9859484996704474D-03 3.0000000000000001D-05 2.0000000000000001D-01 max_abs_correction > tol_max_correction 181 3.2414403008672465D-01 3.0000000000000001D-03 2.0000000000000001D-01 retry: avg+max corr -- give up in solver 181 s% dt < relax_core_dt*0.9d0 1.6026329349468536D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.6026329349468536D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 183 s% dt < relax_core_dt*0.9d0 1.6026329349468536D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.6026329349468536D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 1207 185 max_abs_correction > tol_max_correction 185 2.1625105862484530D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 185 s% dt < relax_core_dt*0.9d0 7.6649258092860233D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 7.6649258092860233D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.5329851618572047D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.5455846159615046D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 189 correction_norm > tol_correction_norm 189 6.5854952393778408D-05 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 189 3.6093390689803127D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 189 s% dt < relax_core_dt*0.9d0 1.1045348194454240D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 190 8.426022 4.067E+04 4.961436 4.961571 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301342 1290 63 -6.4559E+00 7.968267 0.695645 -1.417657 3.791615 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009816 3 1.2200E+02 1.692531 4.783085 1.455420 -91.930424 -8.859982 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 1.1045348194454240D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 160 191 s% dt < relax_core_dt*0.9d0 1.1045348194454240D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.1045348194454240D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 max_abs_correction > tol_max_correction 193 7.3553782214045346D-03 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 193 correction_norm > tol_correction_norm 193 3.7538506241491915D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 193 3.4903737929259937D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 193 correction_norm > tol_correction_norm 193 6.9389269183839250D-05 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 193 3.9780937578698314D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 193 s% dt < relax_core_dt*0.9d0 2.7613370486135600D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.7613370486135600D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: max residual jumped -- give up in solver 195 retry: avg corr too large -- give up in solver 195 retry: avg corr too large -- give up in solver 195 retry: logT > hydro_mtx_max_allowed_logT 1171 195 s% dt < relax_core_dt*0.9d0 3.4516713107669500D-01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.4516713107669500D-01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 6.9033426215339000D-01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.3806685243067800D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.7613370486135600D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 200 8.426037 4.067E+04 4.961524 4.961659 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301117 1290 71 -6.7570E+00 7.968275 0.695645 -1.417105 3.791699 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009816 3 1.2200E+02 1.692539 4.783141 1.455422 -91.926703 -8.859984 0.000000 0.000001 0.000011 0.000004 0.000E+00 max increase current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 5.5226740972271200D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.1045348194454240D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.2090696388908480D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 max_abs_correction > tol_max_correction 203 9.9038495615582089D-03 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 203 s% dt < relax_core_dt*0.9d0 2.2090696388908480D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.2090696388908480D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 205 retry: avg corr too large -- give up in solver 205 correction_norm > tol_correction_norm 205 2.4008016158719517D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 205 8.3002803059234714D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 205 max_abs_correction > tol_max_correction 205 1.7155475937682990D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 205 s% dt < relax_core_dt*0.9d0 2.7613370486135600D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.7613370486135600D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 5.5226740972271200D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.1045348194454240D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 max_abs_correction > tol_max_correction 209 1.5426449538736509D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 209 retry: max residual jumped -- give up in solver 209 s% dt < relax_core_dt*0.9d0 5.5226740972271200D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 210 8.426015 4.067E+04 4.961368 4.961504 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301609 1290 78 -6.7570E+00 7.968259 0.695644 -1.418083 3.791551 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009815 3 1.2200E+02 1.692508 4.783037 1.455417 -91.932128 -8.859978 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 5.5226740972271200D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: max residual jumped -- give up in solver 211 s% dt < relax_core_dt*0.9d0 5.5226740972271200D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 5.5226740972271200D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 213 5.3122725890500508D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 213 4.7726345241954254D-01 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 213 s% dt < relax_core_dt*0.9d0 5.5226740972271200D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 5.5226740972271200D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 215 3.3171433669846185D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 215 1.1021184552939937D-01 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 215 s% dt < relax_core_dt*0.9d0 5.5226740972271200D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 5.5226740972271200D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.1045348194454240D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.8341408888079915D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: max residual jumped -- give up in solver 219 max_abs_correction > tol_max_correction 219 7.9134465621322231D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 219 correction_norm > tol_correction_norm 219 1.6321888298952841D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 219 7.3489390333684512D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 219 s% dt < relax_core_dt*0.9d0 3.9898719469811157D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 220 8.426012 4.067E+04 4.961354 4.961490 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301616 1290 84 -6.8981E+00 7.968258 0.695644 -1.418160 3.791538 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009815 3 1.2200E+02 1.692481 4.782979 1.455414 -91.932962 -8.859974 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 3.9898719469811157D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 221 1.3547681037951804D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 221 6.3306281221876579D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 221 s% dt < relax_core_dt*0.9d0 3.9898719469811157D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.9898719469811157D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 223 2.4364016173804065D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 223 6.3640018988244951D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 223 s% dt < relax_core_dt*0.9d0 3.9898719469811157D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.9898719469811157D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 1230 225 s% dt < relax_core_dt*0.9d0 3.9898719469811157D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.9898719469811157D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 7.9797438939622314D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.5959487787924463D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.1918975575848926D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 230 8.425971 4.067E+04 4.961061 4.961196 19.991030 19.991030 0.497342 0.000065 0.240200 -4.302522 1290 87 -5.7998E+00 7.968232 0.695644 -1.420006 3.791258 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009813 3 1.2200E+02 1.692389 4.783000 1.455406 -91.943490 -8.859975 0.000000 0.000001 0.000011 0.000004 0.000E+00 solver current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 5.0033638050019725D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: get_T_tau -- L <= 0 231 s% dt < relax_core_dt*0.9d0 4.1651649603428659D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 4.1651649603428659D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 233 6.5498888592717235D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 233 8.9666101805002230D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 233 s% dt < relax_core_dt*0.9d0 4.1651649603428659D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 4.1651649603428659D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: get_T_tau -- L <= 0 235 s% dt < relax_core_dt*0.9d0 4.1651649603428659D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 4.1651649603428659D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logT > hydro_mtx_max_allowed_logT 1206 237 max_abs_correction > tol_max_correction 237 8.1762650082738732D-03 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 237 s% dt < relax_core_dt*0.9d0 2.0825824801714329D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.0825824801714329D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: max residual jumped -- give up in solver 239 correction_norm > tol_correction_norm 239 2.1629625780028518D-04 3.0000000000000001D-05 2.3373450627111467D-01 max_abs_correction > tol_max_correction 239 2.1739122531591268D-01 3.0000000000000001D-03 2.3373450627111467D-01 retry: avg+max corr -- give up in solver 239 correction_norm > tol_correction_norm 239 6.5232927557156144D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 239 3.1507083207646375D-01 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 239 s% dt < relax_core_dt*0.9d0 5.2064562004285824D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 240 8.426034 4.066E+04 4.961527 4.961663 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301021 1290 95 -6.7826E+00 7.968273 0.695643 -1.417063 3.791703 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009817 3 1.2200E+02 1.692533 4.782858 1.455422 -91.927381 -8.859967 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 5.2064562004285824D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.0412912400857165D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.0825824801714329D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 243 1.1620933158586206D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 243 3.9545674455900848D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 243 s% dt < relax_core_dt*0.9d0 2.0825824801714329D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.0825824801714329D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.8795911100458667D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 7.7591822200917335D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 247 s% dt < relax_core_dt*0.9d0 7.7591822200917335D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 7.7591822200917335D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho < hydro_mtx_min_allowed_logRho 1171 249 correction_norm > tol_correction_norm 249 5.4306559216939741D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 249 5.5666027885528491D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 249 retry: avg corr too large -- give up in solver 249 s% dt < relax_core_dt*0.9d0 1.9397955550229334D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 250 8.426034 4.066E+04 4.961478 4.961613 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301347 1293 100 -6.2113E+00 7.968273 0.695643 -1.417403 3.791656 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009816 3 1.2200E+02 1.692533 4.782846 1.455420 -91.927370 -8.859966 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 1.9397955550229334D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 251 s% dt < relax_core_dt*0.9d0 1.9397955550229334D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.9397955550229334D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.8795911100458667D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 6.2381357520145713D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: get_T_tau -- L <= 0 255 s% dt < relax_core_dt*0.9d0 5.2926235723349890D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 5.2926235723349890D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 288 257 retry: logRho > hydro_mtx_max_allowed_logRho 1207 257 correction_norm > tol_correction_norm 257 8.2913975721806722D-04 3.0000000000000001D-05 1.0000000000000000D+00 max_abs_correction > tol_max_correction 257 5.5300584229915829D-02 3.0000000000000001D-03 1.0000000000000000D+00 retry: avg+max corr -- give up in solver 257 max_abs_correction > tol_max_correction 257 5.5101075755109273D-03 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 257 s% dt < relax_core_dt*0.9d0 6.6157794654187363D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 6.6157794654187363D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.3231558930837473D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 260 8.426034 4.067E+04 4.961521 4.961656 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301047 1290 106 -6.0765E+00 7.968270 0.695653 -1.417098 3.791697 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009817 3 1.2200E+02 1.692503 4.783184 1.455420 -91.927478 -8.859999 0.000000 0.000001 0.000011 0.000004 0.000E+00 max increase current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 2.6463117861674945D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 261 1.7065753168564009D-02 3.0000000000000001D-05 1.0000000000000000D+00 max_abs_correction > tol_max_correction 261 2.5890932132688373D+00 3.0000000000000001D-03 1.0000000000000000D+00 retry: avg+max corr -- give up in solver 261 s% dt < relax_core_dt*0.9d0 2.6463117861674945D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.6463117861674945D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 1272 263 max_abs_correction > tol_max_correction 263 1.0926266716814816D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 263 s% dt < relax_core_dt*0.9d0 1.3231558930837473D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.3231558930837473D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: max residual jumped -- give up in solver 265 s% dt < relax_core_dt*0.9d0 1.3231558930837473D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.3231558930837473D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logT > hydro_mtx_max_allowed_logT 1171 267 s% dt < relax_core_dt*0.9d0 1.3231558930837473D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.3231558930837473D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.9719532716908763D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 270 8.426027 4.071E+04 4.961468 4.961603 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301221 1291 111 -5.9032E+00 7.968267 0.695653 -1.417431 3.791646 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009816 3 1.2200E+02 1.692481 4.784643 1.455418 -91.929249 -8.860073 0.000000 0.000001 0.000011 0.000004 0.000E+00 max increase current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 3.9439065433817525D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: max residual jumped -- give up in solver 271 retry: max residual jumped -- give up in solver 271 max_abs_correction > tol_max_correction 271 2.7332701019729660D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 271 s% dt < relax_core_dt*0.9d0 9.8597663584543813D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 9.8597663584543813D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 273 s% dt < relax_core_dt*0.9d0 9.8597663584543813D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 9.8597663584543813D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logT > hydro_mtx_max_allowed_logT 1176 275 correction_norm > tol_correction_norm 275 5.3121218619344595D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 275 3.1820800985474257D-01 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 275 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 1282 277 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 279 2.0266261406553691D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 279 7.4690350002150102D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 279 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 280 8.426046 4.069E+04 4.961587 4.961722 19.991030 19.991030 0.497342 0.000065 0.240200 -4.300881 1291 119 -6.8063E+00 7.968274 0.695649 -1.416669 3.791759 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009817 3 1.2200E+02 1.692511 4.783871 1.455420 -91.924433 -8.860028 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 9.8597663584543813D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.9719532716908763D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logT > hydro_mtx_max_allowed_logT 1178 283 max_abs_correction > tol_max_correction 283 9.0801798729642693D-03 3.0000000000000001D-03 1.0000000000000001D-01 retry: max corr -- give up in solver 283 correction_norm > tol_correction_norm 283 9.9967027997993944D-04 3.0000000000000001D-05 1.0000000000000000D+00 max_abs_correction > tol_max_correction 283 1.1608084480165832D+00 3.0000000000000001D-03 1.0000000000000000D+00 retry: avg+max corr -- give up in solver 283 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 9.8597663584543813D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.9719532716908763D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 1171 287 max_abs_correction > tol_max_correction 287 1.1299850869415012D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 287 correction_norm > tol_correction_norm 287 6.9316828320112911D-05 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 287 5.5603690788633572D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 287 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 289 1.9310410314743117D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 289 8.0943502097565567D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 289 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 290 8.426062 4.068E+04 4.961702 4.961837 19.991030 19.991030 0.497342 0.000065 0.240200 -4.300563 1289 126 -6.8063E+00 7.968292 0.695647 -1.415988 3.791869 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009818 3 1.2200E+02 1.692604 4.783480 1.455427 -91.920410 -8.860005 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 291 2.6689088926955528D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 291 4.1230163958443367D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 291 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 4.9298831792271907D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 9.8597663584543813D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.9719532716908763D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.9439065433817525D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 6.0335024264356498D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: max residual jumped -- give up in solver 297 retry: get_T_tau -- L <= 0 297 retry: max residual jumped -- give up in solver 297 retry: avg corr too large -- give up in solver 297 correction_norm > tol_correction_norm 297 1.3162347862445667D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 297 8.9622038623442118D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 297 max_abs_correction > tol_max_correction 297 2.7272196540796656D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 297 s% dt < relax_core_dt*0.9d0 1.5302094845499548D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.5302094845499548D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.4208439191922229D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 300 8.426004 4.071E+04 4.961256 4.961391 19.991030 19.991030 0.497342 0.000065 0.240200 -4.302058 1291 133 -6.8141E+00 7.968251 0.695648 -1.418798 3.791444 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009814 3 1.2200E+02 1.692476 4.784665 1.455412 -91.934999 -8.860066 0.000000 0.000001 0.000011 0.000004 0.000E+00 max increase current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 4.8416878383844457D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 9.6833756767688914D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.9366751353537783D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: get_T_tau -- L <= 0 303 s% dt < relax_core_dt*0.9d0 1.9366751353537783D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.9366751353537783D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logRho > hydro_mtx_max_allowed_logRho 1262 305 correction_norm > tol_correction_norm 305 1.2060811681449679D-04 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 305 1.7401145881586005D-01 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 305 s% dt < relax_core_dt*0.9d0 7.4562053631591327D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 7.4562053631591327D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.4912410726318265D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.9824821452636531D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 309 5.5146876217272971D-04 3.0000000000000001D-05 1.0000000000000000D+00 max_abs_correction > tol_max_correction 309 4.5540679935801059D-01 3.0000000000000001D-03 1.0000000000000000D+00 retry: avg+max corr -- give up in solver 309 correction_norm > tol_correction_norm 309 6.8022204840037219D-05 3.0000000000000001D-05 1.0000000000000000D+00 max_abs_correction > tol_max_correction 309 4.5181389890771986D-02 3.0000000000000001D-03 1.0000000000000000D+00 retry: avg+max corr -- give up in solver 309 max_abs_correction > tol_max_correction 309 1.3829639196355405D-02 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 309 s% dt < relax_core_dt*0.9d0 7.4562053631591327D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 310 8.426029 4.065E+04 4.961489 4.961625 19.991030 19.991030 0.497342 0.000065 0.240200 -4.301140 1289 139 -6.6266E+00 7.968270 0.695641 -1.417298 3.791666 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009816 3 1.2200E+02 1.692519 4.782269 1.455419 -91.928676 -8.859932 0.000000 0.000001 0.000011 0.000004 0.000E+00 hold current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 7.4562053631591327D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 correction_norm > tol_correction_norm 311 3.8444729160164756D-05 3.0000000000000001D-05 1.0000000000000001D-01 max_abs_correction > tol_max_correction 311 1.1086470486221092D-01 3.0000000000000001D-03 1.0000000000000001D-01 retry: avg+max corr -- give up in solver 311 s% dt < relax_core_dt*0.9d0 7.4562053631591327D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 7.4562053631591327D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.4912410726318265D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.3382574798617721D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.8905494437637621D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 6.0862906796719450D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 317 retry: avg corr too large -- give up in solver 317 retry: eos evaluated at too low a density 317 retry: logRho > hydro_mtx_max_allowed_logRho 1208 317 retry: max residual jumped -- give up in solver 317 correction_norm > tol_correction_norm 317 4.8753905019304606D-04 3.0000000000000001D-05 2.0000000000000001D-01 max_abs_correction > tol_max_correction 317 4.9409899225684872D-01 3.0000000000000001D-03 2.0000000000000001D-01 retry: avg+max corr -- give up in solver 317 s% dt < relax_core_dt*0.9d0 1.4943763301978832D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.4943763301978832D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.7154600239977689D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 320 8.425917 4.057E+04 4.960631 4.960767 19.991030 19.991030 0.497342 0.000065 0.240200 -4.303988 1289 146 -6.7642E+00 7.968192 0.695637 -1.422711 3.790849 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009808 3 1.2200E+02 1.692249 4.778949 1.455388 -91.957187 -8.859743 0.000000 0.000001 0.000011 0.000004 0.000E+00 max increase current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 5.4309200479955377D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.0861840095991075D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.1723680191982151D+01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: eos evaluated at too low a density 323 retry: eos evaluated at too low a density 323 retry: avg corr too large -- give up in solver 323 retry: logRho > hydro_mtx_max_allowed_logRho 1171 323 s% dt < relax_core_dt*0.9d0 2.7154600239977689D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.7154600239977689D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: logT < hydro_mtx_min_allowed_logT 1172 325 retry: max residual jumped -- give up in solver 325 retry: max residual jumped -- give up in solver 325 retry: avg corr too large -- give up in solver 325 retry: logRho > hydro_mtx_max_allowed_logRho 1173 325 retry: logRho > hydro_mtx_max_allowed_logRho 1173 325 retry: logRho > hydro_mtx_max_allowed_logRho 1172 325 retry: logRho > hydro_mtx_max_allowed_logRho 1172 325 retry: logRho > hydro_mtx_max_allowed_logRho 1172 325 retry: logRho > hydro_mtx_max_allowed_logRho 1172 325 retry: logRho > hydro_mtx_max_allowed_logRho 1172 325 retry: logT > hydro_mtx_max_allowed_logT 1206 325 retry: avg corr too large -- give up in solver 325 retry: logT > hydro_mtx_max_allowed_logT 1171 325 retry: avg corr too large -- give up in solver 325 retry: logT > hydro_mtx_max_allowed_logT 1286 325 retry: logT < hydro_mtx_min_allowed_logT 1286 325 retry: avg corr too large -- give up in solver 325 s% dt < relax_core_dt*0.9d0 2.0717315856916572D-05 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.0717315856916572D-05 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.8610995012556301D-05 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 7.7221990025112602D-05 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.5444398005022520D-04 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 330 8.426042 4.067E+04 4.961109 4.961245 19.991030 19.991030 0.497342 0.000065 0.240200 -4.303768 1287 168 -1.1009E+01 7.968253 0.695650 -1.419842 3.791304 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009808 3 1.2200E+02 1.692342 4.783047 1.455399 -91.926026 -8.859987 0.000000 0.000001 0.000011 0.000004 0.000E+00 max increase current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 3.0888796010045041D-04 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 6.1777592020090082D-04 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.2355518404018016D-03 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 2.4711036808036033D-03 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 4.9422073616072065D-03 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 9.8844147232144131D-03 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.9768829446428826D-02 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 3.9537658892857652D-02 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 7.9075317785715304D-02 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.5815063557143061D-01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 340 8.426040 4.067E+04 4.961157 4.961293 19.991030 19.991030 0.497342 0.000065 0.240200 -4.303408 1287 168 -7.9990E+00 7.968252 0.695651 -1.419507 3.791350 -99.000000 0.000000 0.502561 0.000001 0.000100 0.009809 3 1.2200E+02 1.692337 4.783102 1.455405 -91.926442 -8.859990 0.000000 0.000001 0.000011 0.000004 0.000E+00 max increase current & target core masses 1.2589254117943947D-02 1.3999999999999999D+00 9.9100767563004000D-01 s% dt < relax_core_dt*0.9d0 3.1630127114286122D-01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 6.3260254228572244D-01 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 s% dt < relax_core_dt*0.9d0 1.2652050845714449D+00 2.8401840000000000D+07 s% max_timestep 3.1557600000000000D+07 s% max_years_for_timestep*secyer 3.1557600000000000D+07 retry: avg corr too large -- give up in solver 343 retry: logT > hydro_mtx_max_allowed_logT 1174 343 retry: logT > hydro_mtx_max_allowed_logT 1174 343 retry: logT > hydro_mtx_max_allowed_logT 1174 343 retry: logT < hydro_mtx_min_allowed_logT 1202 343 retry: logT < hydro_mtx_min_allowed_logT 1216 343 retry: logT > hydro_mtx_max_allowed_logT 1170 343 retry: logT > hydro_mtx_max_allowed_logT 1170 343 retry: max residual jumped -- give up in solver 343 retry: logT > hydro_mtx_max_allowed_logT 1196 343 retry: logT > hydro_mtx_max_allowed_logT 1214 343 retry: logT > hydro_mtx_max_allowed_logT 1230 343 retry: logT > hydro_mtx_max_allowed_logT 1262 343 retry: logT > hydro_mtx_max_allowed_logT 1264 343 retry: logT < hydro_mtx_min_allowed_logT 1252 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 retry: avg corr too large -- give up in solver 343 dt 7.3644628548729517D-11 min_timestep_limit 1.0000000000000000D-10 stopping because of problems dt < min_timestep_limit failed in relax core star_relax_core ierr -1 do_star_job_controls_after ierr -1 do_before_evolve_loop ierr -1 do_before_evolve_loop ierr -1 DATE: 2024-10-01 TIME: 12:43:23 ****************************************************************** failed to create tzo.mod when running inlist_initial_make_header ****************************************************************** ******************** tzo failed: non-zero exit code ********************