DATE: 2025-03-17 TIME: 02:05:37 run inlist_starspots_header DATE: 2025-03-17 TIME: 02:05:37 reading user weak rate file ../../../data/rates_data/rate_tables/S13_r_be7_wk_li7.h5 version_number 4e99e71 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: get_T_tau -- L <= 0 1 retry: get_T_tau -- L <= 0 1 retry: get_T_tau -- L <= 0 1 retry: get_T_tau -- L <= 0 1 retry: get_T_tau -- L <= 0 1 retry: get_T_tau -- L <= 0 1 retry: get_T_tau -- L <= 0 1 retry: logT < hydro_mtx_min_allowed_logT 54 1 retry: logT < hydro_mtx_min_allowed_logT 148 1 retry: logT < hydro_mtx_min_allowed_logT 476 1 retry: abs(dlogT) > hydro_mtx_max_allowed_abs_dlogT 111 1 retry: logT > hydro_mtx_max_allowed_logT 51 1 retry: logT < hydro_mtx_min_allowed_logT 784 1 retry: logT > hydro_mtx_max_allowed_logT 174 1 retry: logRho > hydro_mtx_max_allowed_lo 1 retry: get_T_tau -- L <= 0 1 retry: logT > hydro_mtx_max_allowed_logT 72 1 retry: logRho > hydro_mtx_max_allowed_logRho 4 1 retry: logT > hydro_mtx_max_allowed_logT 42 1 retry: logRho > hydro_mtx_max_allowed_logRho 82 1 retry: logT > hydro_mtx_max_allowed_logT 1722 1 retry: logT < hydro_mtx_min_allowed_logT 8 1 retry: logT < hydro_mtx_min_allowed_logT 311 1 retry: get_eos failed 1 retry: logT < hydro_mtx_min_allowed_logT 3 1 retry: logT < hydro_mtx_min_allowed_logT 61 1 retry: logT < hydro_mtx_min_allowed_logT 62 1 retry: logT > hydro_mtx_max_allowed_logT 50 1 retry: logRho > hydro_mtx_max_allowed_logRho 712 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 754 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 763 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 756 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 752 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 746 1 retry: logRho > hydro_mtx_max_allowed_logRho 756 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 763 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 763 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 750 1 retry: logRho > hydro_mtx_max_allowed_logRho 763 1 retry: logRho > hydro_mtx_max_allowed_logRho 754 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 756 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 756 1 retry: logRho > hydro_mtx_max_allowed_logRho 756 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 756 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 763 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 752 1 retry: logRho > hydro_mtx_max_allowed_logRho 754 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 763 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 758 1 retry: logRho > hydro_mtx_max_allowed_logRho 754 1 retry: logRho > hydro_mtx_max_allowed_logRho 754 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 756 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 762 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 retry: logRho > hydro_mtx_max_allowed_logRho 760 1 failed in relax num steps failed in do_relax_num_steps star_create_pre_ms_model ierr -1 do_load1_star ierr -1 do_before_evolve_loop ierr -1 do_before_evolve_loop ierr -1 DATE: 2025-03-17 TIME: 02:11:10 ****************************************************************** failed to create final.mod when running inlist_starspots_header ****************************************************************** ******************** starspots failed: non-zero exit code ********************