DATE: 2024-10-01 TIME: 12:36:06 run inlist_starspots_header DATE: 2024-10-01 TIME: 12:36:06 read ../../../data/eosDT_data/helm_table.dat write ../../../data/eosDT_data/cache/helm_table.bin reading user weak rate file ../../../data/rates_data/rate_tables/S13_r_be7_wk_li7.h5 version_number 2aca86c read inlist_starspots 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 12 9.0000000000000002D-01 relax_num_steps 300 hydro_solver_step returned ierr -1 s% model_number 1 nz 1724 s% num_retries 0 retry: eos evaluated at too low a density 1 retry: max residual jumped -- give up in solver 6 100 5.477270 4192.672 -21.589747 -21.589747 0.900000 0.900000 0.700000 0.001039 0.280000 -7.816940 663 2 -5.0000E+00 5.477050 1.423702 -99.000000 -22.233754 -99.000000 0.000000 0.280000 0.008595 0.020000 0.077077 3 9.7007E-04 -3.199679 2.292062 -37.327719 -99.000000 -8.221022 0.000000 0.003544 0.001867 0.020000 0.000E+00 max_dt 200 5.477270 4022.176 -21.589752 -21.589752 0.900000 0.900000 0.700000 0.001039 0.280000 -7.816940 660 2 -5.0000E+00 5.477050 1.422741 -99.000000 -22.233758 -99.000000 0.000000 0.280000 0.008595 0.020000 0.077077 3 1.9701E-03 -3.199679 2.218021 -99.000000 -99.000000 -8.183478 0.000000 0.003544 0.001867 0.020000 0.000E+00 max_dt 300 5.477270 3944.638 -21.589753 -21.589753 0.900000 0.900000 0.700000 0.001039 0.280000 -7.816940 658 2 -5.0000E+00 5.477050 1.422173 -99.000000 -22.233760 -99.000000 0.000000 0.280000 0.008595 0.020000 0.077077 3 2.9701E-03 -3.199679 2.183068 -99.000000 -99.000000 -8.160142 0.000000 0.003544 0.001867 0.020000 0.000E+00 max_dt finished doing relax num steps read history_master.list read profile_master.list set_initial_number_retries 0 set_uniform_initial_composition initial_h1 7.3490000000000000D-01 initial_h2 2.7500000000000001D-05 initial_he3 8.5000000000000006D-05 initial_he4 2.3999999999999999D-01 metals AGSS09 net name pp_extras.net atm_option: table 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 Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 0 retry: logT < hydro_mtx_min_allowed_logT 58 1 1st model retry log10(dt/yr) -5.3010299956639804D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 2.0020660229015188D-05 1.0000000000000000D-08 max_residual > tol_max_residual 1 1.3798213575919221D-01 1.0000000000000001D-05 correction_norm > tol_correction_norm*coeff 1 2.8565503896875716D-06 3.0000000000000004D-07 1.0000000000000000D-02 max_abs_correction > tol_max_correction*coeff 1 3.9363676643816347D-04 3.0000000000000001D-05 1.0000000000000000D-02 solver rejected trial model s% model_number 1 s% solver_call_number 304 nz 658 s% num_retries 1 dt 1.5778800000000001D+02 log dt/secyer -5.3010299956639804D+00 retry: avg+max corr+resid -- give up in solver 1 1st model retry log10(dt/yr) -5.6020599913279616D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 4.5116204650298233D-07 1.0000000000000000D-08 max_residual > tol_max_residual 1 3.9940722753212202D-03 1.0000000000000001D-05 solver rejected trial model s% model_number 1 s% solver_call_number 305 nz 658 s% num_retries 2 dt 7.8894000000000005D+01 log dt/secyer -5.6020599913279616D+00 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -5.9030899869919429D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 2.6945687360370057D-07 1.0000000000000000D-08 max_residual > tol_max_residual 1 2.4184224056731630D-03 1.0000000000000001D-05 solver rejected trial model s% model_number 1 s% solver_call_number 306 nz 658 s% num_retries 3 dt 3.9447000000000003D+01 log dt/secyer -5.9030899869919429D+00 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -6.2041199826559241D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 1.6205069498426475D-07 1.0000000000000000D-08 max_residual > tol_max_residual 1 1.4609588857612929D-03 1.0000000000000001D-05 solver rejected trial model s% model_number 1 s% solver_call_number 307 nz 658 s% num_retries 4 dt 1.9723500000000001D+01 log dt/secyer -6.2041199826559241D+00 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -6.5051499783199054D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 1.1237276625020575D-03 1.0000000000000000D-08 max_residual > tol_max_residual 1 1.7051935643809884D+01 1.0000000000000001D-05 solver rejected trial model s% model_number 1 s% solver_call_number 308 nz 658 s% num_retries 5 dt 9.8617500000000007D+00 log dt/secyer -6.5051499783199054D+00 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -6.8061799739838866D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 1.1684246451477518D-07 1.0000000000000000D-08 max_residual > tol_max_residual 1 5.3758025941929568D-04 1.0000000000000001D-05 solver rejected trial model s% model_number 1 s% solver_call_number 309 nz 658 s% num_retries 6 dt 4.9308750000000003D+00 log dt/secyer -6.8061799739838866D+00 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -7.1072099696478679D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 1.1047953562890865D-07 1.0000000000000000D-08 max_residual > tol_max_residual 1 5.2645556023300745D-04 1.0000000000000001D-05 solver rejected trial model s% model_number 1 s% solver_call_number 310 nz 658 s% num_retries 7 dt 2.4654375000000002D+00 log dt/secyer -7.1072099696478679D+00 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -7.4082399653118491D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 7.3040433942455675D-08 1.0000000000000000D-08 max_residual > tol_max_residual 1 4.3568636039905632D-04 1.0000000000000001D-05 solver rejected trial model s% model_number 1 s% solver_call_number 311 nz 658 s% num_retries 8 dt 1.2327187500000001D+00 log dt/secyer -7.4082399653118491D+00 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -7.7092699609758304D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 6.4056060706873235D-08 1.0000000000000000D-08 max_residual > tol_max_residual 1 3.9459770843164663D-04 1.0000000000000001D-05 solver rejected trial model s% model_number 1 s% solver_call_number 312 nz 658 s% num_retries 9 dt 6.1635937500000004D-01 log dt/secyer -7.7092699609758304D+00 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -8.0102999566398108D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 8.9309172237077365D-07 1.0000000000000000D-08 max_residual > tol_max_residual 1 7.8261340948674561D-03 1.0000000000000001D-05 max_abs_correction > tol_max_correction*coeff 1 1.5256048120939182D-04 3.0000000000000001D-05 1.0000000000000000D-02 solver rejected trial model s% model_number 1 s% solver_call_number 313 nz 658 s% num_retries 10 dt 3.0817968750000002D-01 log dt/secyer -8.0102999566398108D+00 retry: max corr, avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -8.3113299523037920D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 2.9773795145822376D-08 1.0000000000000000D-08 max_residual > tol_max_residual 1 1.7281308132125527D-04 1.0000000000000001D-05 solver rejected trial model s% model_number 1 s% solver_call_number 314 nz 658 s% num_retries 11 dt 1.5408984375000001D-01 log dt/secyer -8.3113299523037920D+00 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -8.6123599479677733D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 9.1502903459509888D+00 1.0000000000000000D-08 max_residual > tol_max_residual 1 1.6717411716292665D+05 1.0000000000000001D-05 solver rejected trial model s% model_number 1 s% solver_call_number 315 nz 658 s% num_retries 12 dt 7.7044921875000005D-02 log dt/secyer -8.6123599479677733D+00 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -8.9133899436317545D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 13 retry: logT < hydro_mtx_min_allowed_logT 24 1 1st model retry log10(dt/yr) -9.2144199392957358D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 14 retry: logT < hydro_mtx_min_allowed_logT 26 1 1st model retry log10(dt/yr) -9.5154499349597170D+00 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 15 retry: logT > hydro_mtx_max_allowed_logT 22 1 1st model retry log10(dt/yr) -9.8164799306236983D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 16 retry: logT < hydro_mtx_min_allowed_logT 90 1 1st model retry log10(dt/yr) -1.0117509926287680D+01 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 17 retry: logT > hydro_mtx_max_allowed_logT 20 1 1st model retry log10(dt/yr) -1.0418539921951661D+01 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 18 retry: adjust_correction failed in eval_equations -- give up in solver 1 1st model retry log10(dt/yr) -1.0719569917615642D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 19 retry: logT < hydro_mtx_min_allowed_logT 20 1 1st model retry log10(dt/yr) -1.1020599913279623D+01 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 20 retry: logT < hydro_mtx_min_allowed_logT 22 1 1st model retry log10(dt/yr) -1.1321629908943605D+01 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 21 retry: adjust_correction failed in eval_equations -- give up in solver 1 1st model retry log10(dt/yr) -1.1622659904607586D+01 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 22 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 658 1 1st model retry log10(dt/yr) -1.1923689900271567D+01 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 7.4244268954230716D-08 1.0000000000000000D-08 max_residual > tol_max_residual 1 4.5404207391811223D-04 1.0000000000000001D-05 correction_norm > tol_correction_norm*coeff 1 1.0264857549670959D-06 3.0000000000000004D-07 1.0000000000000000D-02 max_abs_correction > tol_max_correction*coeff 1 1.9721092248956074D-03 3.0000000000000001D-05 1.0000000000000000D-02 solver rejected trial model s% model_number 1 s% solver_call_number 326 nz 658 s% num_retries 23 dt 3.7619590759277346D-05 log dt/secyer -1.1923689900271567D+01 retry: avg+max corr+resid -- give up in solver 1 1st model retry log10(dt/yr) -1.2224719895935548D+01 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 24 retry: logT < hydro_mtx_min_allowed_logT 656 1 1st model retry log10(dt/yr) -1.2525749891599530D+01 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 25 retry: adjust_correction failed in eval_equations -- give up in solver 1 1st model retry log10(dt/yr) -1.2826779887263511D+01 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 first model is slow to converge: num tries 140 first model is slow to converge: num tries 150 first model is slow to converge: num tries 160 first model is slow to converge: num tries 170 first model is slow to converge: num tries 180 first model is slow to converge: num tries 190 first model is slow to converge: num tries 200 first model is slow to converge: num tries 210 first model is slow to converge: num tries 220 first model is slow to converge: num tries 230 first model is slow to converge: num tries 240 first model is slow to converge: num tries 250 residual_norm > tol_residual_norm 1 2.0835608941345061D-04 1.0000000000000000D-08 max_residual > tol_max_residual 1 3.7876466780880076D+00 1.0000000000000001D-05 solver rejected trial model s% model_number 1 s% solver_call_number 329 nz 658 s% num_retries 26 dt 4.7024488449096683D-06 log dt/secyer -1.2826779887263511D+01 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -1.3127809882927492D+01 first model is slow to converge: num tries 70 first model is slow to converge: num tries 80 first model is slow to converge: num tries 90 first model is slow to converge: num tries 100 first model is slow to converge: num tries 110 first model is slow to converge: num tries 120 first model is slow to converge: num tries 130 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 27 retry: logT > hydro_mtx_max_allowed_logT 24 1 1st model retry log10(dt/yr) -1.3428839878591473D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 28 retry: logT > hydro_mtx_max_allowed_logT 20 1 1st model retry log10(dt/yr) -1.3729869874255455D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 29 retry: logT < hydro_mtx_min_allowed_logT 18 1 1st model retry log10(dt/yr) -1.4030899869919434D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 30 retry: logT > hydro_mtx_max_allowed_logT 14 1 1st model retry log10(dt/yr) -1.4331929865583415D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 31 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 10 1 1st model retry log10(dt/yr) -1.4632959861247397D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 32 retry: logT < hydro_mtx_min_allowed_logT 4 1 1st model retry log10(dt/yr) -1.4933989856911378D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 33 retry: logT < hydro_mtx_min_allowed_logT 8 1 1st model retry log10(dt/yr) -1.5235019852575359D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 34 retry: atm get_table: L < 0 1 1st model retry log10(dt/yr) -1.5536049848239340D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 35 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 8 1 1st model retry log10(dt/yr) -1.5837079843903322D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 36 retry: atm get_table: L < 0 1 1st model retry log10(dt/yr) -1.6138109839567303D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 37 retry: logT < hydro_mtx_min_allowed_logT 6 1 1st model retry log10(dt/yr) -1.6439139835231284D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 38 retry: logT < hydro_mtx_min_allowed_logT 8 1 1st model retry log10(dt/yr) -1.6740169830895265D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 39 retry: logT < hydro_mtx_min_allowed_logT 4 1 1st model retry log10(dt/yr) -1.7041199826559247D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 40 retry: atm get_table: L < 0 1 1st model retry log10(dt/yr) -1.7342229822223228D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 41 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 6 1 1st model retry log10(dt/yr) -1.7643259817887209D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 42 retry: atm get_table: L < 0 1 1st model retry log10(dt/yr) -1.7944289813551190D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 43 retry: logT < hydro_mtx_min_allowed_logT 6 1 1st model retry log10(dt/yr) -1.8245319809215172D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 44 retry: logT < hydro_mtx_min_allowed_logT 130 1 1st model retry log10(dt/yr) -1.8546349804879153D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 45 retry: logT < hydro_mtx_min_allowed_logT 2 1 1st model retry log10(dt/yr) -1.8847379800543134D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 46 retry: logT > hydro_mtx_max_allowed_logT 6 1 1st model retry log10(dt/yr) -1.9148409796207115D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 47 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 6 1 1st model retry log10(dt/yr) -1.9449439791871097D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 48 retry: logT < hydro_mtx_min_allowed_logT 4 1 1st model retry log10(dt/yr) -1.9750469787535078D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 49 retry: logT < hydro_mtx_min_allowed_logT 5 1 1st model retry log10(dt/yr) -2.0051499783199059D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 50 retry: logT < hydro_mtx_min_allowed_logT 4 1 1st model retry log10(dt/yr) -2.0352529778863040D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 51 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.0653559774527022D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 52 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.0954589770191003D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 53 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.1255619765854984D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 54 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 5 1 1st model retry log10(dt/yr) -2.1556649761518965D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 55 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.1857679757182947D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 56 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.2158709752846928D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 57 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.2459739748510909D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 58 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.2760769744174890D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 59 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 5 1 1st model retry log10(dt/yr) -2.3061799739838872D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 60 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.3362829735502849D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 61 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.3663859731166831D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 62 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.3964889726830812D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 63 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.4265919722494793D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 64 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.4566949718158774D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 65 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.4867979713822756D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 66 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.5169009709486737D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 67 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.5470039705150718D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 68 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.5771069700814699D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 69 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.6072099696478681D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 70 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.6373129692142662D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 71 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.6674159687806643D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 72 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.6975189683470624D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 73 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 5 1 1st model retry log10(dt/yr) -2.7276219679134606D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 74 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.7577249674798587D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 75 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.7878279670462568D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 76 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.8179309666126549D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 77 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.8480339661790531D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 78 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.8781369657454512D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 79 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.9082399653118493D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 80 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.9383429648782474D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 81 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 5 1 1st model retry log10(dt/yr) -2.9684459644446456D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 82 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -2.9985489640110437D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 83 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.0286519635774418D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 84 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.0587549631438399D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 85 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.0888579627102381D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 86 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 5 1 1st model retry log10(dt/yr) -3.1189609622766362D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 87 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.1490639618430343D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 88 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.1791669614094324D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 89 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.2092699609758306D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 90 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.2393729605422287D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 91 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.2694759601086268D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 92 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.2995789596750249D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 93 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.3296819592414231D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 94 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.3597849588078212D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 95 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.3898879583742193D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 96 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.4199909579406174D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 97 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.4500939575070156D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 98 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 5 1 1st model retry log10(dt/yr) -3.4801969570734137D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 99 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 4 1 1st model retry log10(dt/yr) -3.5102999566398118D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 658 s% num_retries 100 terminated evolution: nonzero_ierr runtime (minutes), retries, steps 3.31 100 1 DATE: 2024-10-01 TIME: 12:40:42 ****************************************************************** failed to create final.mod when running inlist_starspots_header ****************************************************************** ******************** starspots failed: non-zero exit code ********************