DATE: 2025-11-30 TIME: 14:39:29 run inlist_create_header DATE: 2025-11-30 TIME: 14:39:29 reading user weak rate file /mnt/home/pmocz/ceph/mesa-git-tests/tmp.beZwKFdNw9/data/rates_data/rate_tables/S13_r_be7_wk_li7.h5 version_number 1ce9aff WARNING: Failed to find colors namelist in file: inlist read inlist_create create initial model create initial model iteration 1 log10(L/Lsun)= -2.29803702E+00 Mass= 1.55405024E+30 Radius= 6.69898633E+10 log10(L/Lsun)= -2.38163095E+00 Mass= 1.43349429E+30 Radius= 6.47040336E+10 log10(L/Lsun)= -2.38317763E+00 Mass= 1.43529847E+30 Radius= 6.44856880E+10 create initial model iteration 2 log10(L/Lsun)= -2.31082089E+00 Mass= 1.57018776E+30 Radius= 6.50980708E+10 log10(L/Lsun)= -2.39579282E+00 Mass= 1.44954416E+30 Radius= 6.27381136E+10 log10(L/Lsun)= -2.39724583E+00 Mass= 1.45132964E+30 Radius= 6.25324210E+10 create initial model iteration 3 log10(L/Lsun)= -2.32499123E+00 Mass= 1.58529344E+30 Radius= 6.31646112E+10 log10(L/Lsun)= -2.40966662E+00 Mass= 1.46474187E+30 Radius= 6.08689403E+10 log10(L/Lsun)= -2.41104510E+00 Mass= 1.46650454E+30 Radius= 6.06747721E+10 create initial model iteration 4 log10(L/Lsun)= -2.33897170E+00 Mass= 1.59943985E+30 Radius= 6.13788964E+10 log10(L/Lsun)= -2.42336567E+00 Mass= 1.47915519E+30 Radius= 5.90893328E+10 log10(L/Lsun)= -2.42468832E+00 Mass= 1.48089191E+30 Radius= 5.89057671E+10 create initial model iteration 5 log10(L/Lsun)= -2.35250728E+00 Mass= 1.61266406E+30 Radius= 5.97419958E+10 log10(L/Lsun)= -2.43697287E+00 Mass= 1.49282562E+30 Radius= 5.73946714E+10 log10(L/Lsun)= -2.43825413E+00 Mass= 1.49452728E+30 Radius= 5.72212433E+10 create initial model iteration 6 log10(L/Lsun)= -2.36708410E+00 Mass= 1.62496474E+30 Radius= 5.80558290E+10 log10(L/Lsun)= -2.45047728E+00 Mass= 1.50574677E+30 Radius= 5.57850293E+10 log10(L/Lsun)= -2.45172109E+00 Mass= 1.50739460E+30 Radius= 5.56217200E+10 create initial model iteration 7 log10(L/Lsun)= -2.46404928E+00 Mass= 1.51784339E+30 Radius= 5.42648350E+10 log10(L/Lsun)= -2.38105787E+00 Mass= 1.63628993E+30 Radius= 5.65396704E+10 log10(L/Lsun)= -2.46568577E+00 Mass= 1.51940941E+30 Radius= 5.40707599E+10 create initial model iteration 8 log10(L/Lsun)= -2.39251991E+00 Mass= 1.64936926E+30 Radius= 5.51818202E+10 log10(L/Lsun)= -2.47544568E+00 Mass= 1.53158977E+30 Radius= 5.29040191E+10 log10(L/Lsun)= -2.47666276E+00 Mass= 1.53304194E+30 Radius= 5.27614441E+10 create initial model iteration 9 log10(L/Lsun)= -2.40547121E+00 Mass= 1.65869333E+30 Radius= 5.38429880E+10 log10(L/Lsun)= -2.48852104E+00 Mass= 1.54181400E+30 Radius= 5.15746674E+10 log10(L/Lsun)= -2.48968522E+00 Mass= 1.54312472E+30 Radius= 5.14420669E+10 create initial model iteration 10 log10(L/Lsun)= -2.41802625E+00 Mass= 1.66725423E+30 Radius= 5.25395994E+10 log10(L/Lsun)= -2.50079185E+00 Mass= 1.55118797E+30 Radius= 5.03247456E+10 log10(L/Lsun)= -2.50189581E+00 Mass= 1.55234360E+30 Radius= 5.02011502E+10 create initial model iteration 11 log10(L/Lsun)= -2.42936074E+00 Mass= 1.67526951E+30 Radius= 5.13894413E+10 log10(L/Lsun)= -2.51197315E+00 Mass= 1.55983441E+30 Radius= 4.91990625E+10 log10(L/Lsun)= -2.51308278E+00 Mass= 1.56084043E+30 Radius= 4.90827824E+10 create initial model iteration 12 log10(L/Lsun)= -2.44049374E+00 Mass= 1.68297870E+30 Radius= 5.02688979E+10 log10(L/Lsun)= -2.52267327E+00 Mass= 1.56793759E+30 Radius= 4.81294865E+10 log10(L/Lsun)= -2.52375188E+00 Mass= 1.56881669E+30 Radius= 4.80184608E+10 create initial model iteration 13 log10(L/Lsun)= -2.53261657E+00 Mass= 1.57569957E+30 Radius= 4.71137867E+10 log10(L/Lsun)= -2.45121942E+00 Mass= 1.69059955E+30 Radius= 4.91826949E+10 log10(L/Lsun)= -2.53400426E+00 Mass= 1.57648339E+30 Radius= 4.69763299E+10 create initial model iteration 14 log10(L/Lsun)= -3.34866252E+00 Mass= 1.70030634E+30 Radius= 4.68500866E+10 log10(L/Lsun)= -2.54059298E+00 Mass= 1.58516773E+30 Radius= 4.61765438E+10 log10(L/Lsun)= -2.54166916E+00 Mass= 1.58589105E+30 Radius= 4.60708446E+10 create initial model iteration 15 log10(L/Lsun)= -3.36248459E+00 Mass= 1.70817294E+30 Radius= 4.58889048E+10 log10(L/Lsun)= -2.54992286E+00 Mass= 1.59273054E+30 Radius= 4.52170818E+10 log10(L/Lsun)= -2.55101848E+00 Mass= 1.59342586E+30 Radius= 4.51123732E+10 create initial model iteration 16 log10(L/Lsun)= -3.37795406E+00 Mass= 1.71625761E+30 Radius= 4.49387809E+10 log10(L/Lsun)= -2.55931027E+00 Mass= 1.60033780E+30 Radius= 4.42668895E+10 log10(L/Lsun)= -2.56042756E+00 Mass= 1.60103559E+30 Radius= 4.41624797E+10 create initial model iteration 17 log10(L/Lsun)= -3.37730827E+00 Mass= 1.72459404E+30 Radius= 4.40234647E+10 log10(L/Lsun)= -2.56887840E+00 Mass= 1.60804079E+30 Radius= 4.33163190E+10 log10(L/Lsun)= -2.57031450E+00 Mass= 1.60877161E+30 Radius= 4.31869452E+10 create initial model iteration 18 log10(L/Lsun)= -3.37737119E+00 Mass= 1.73501903E+30 Radius= 4.31204142E+10 log10(L/Lsun)= -2.57812503E+00 Mass= 1.61755940E+30 Radius= 4.23928617E+10 log10(L/Lsun)= -2.57936784E+00 Mass= 1.61835661E+30 Radius= 4.22875759E+10 create initial model iteration 19 log10(L/Lsun)= -3.37879686E+00 Mass= 1.74387515E+30 Radius= 4.21338759E+10 log10(L/Lsun)= -2.58969243E+00 Mass= 1.62552538E+30 Radius= 4.14067452E+10 log10(L/Lsun)= -2.59079228E+00 Mass= 1.62642222E+30 Radius= 4.13116600E+10 create initial model iteration 20 log10(L/Lsun)= -3.38101364E+00 Mass= 1.75222885E+30 Radius= 4.11325971E+10 log10(L/Lsun)= -2.60217076E+00 Mass= 1.63295726E+30 Radius= 4.04077562E+10 log10(L/Lsun)= -2.60361877E+00 Mass= 1.63398706E+30 Radius= 4.03008115E+10 create initial model iteration 21 log10(L/Lsun)= -3.40605882E+00 Mass= 1.76166473E+30 Radius= 4.01113332E+10 log10(L/Lsun)= -2.61639427E+00 Mass= 1.64135359E+30 Radius= 3.93927298E+10 log10(L/Lsun)= -2.61777351E+00 Mass= 1.64254744E+30 Radius= 3.92847306E+10 create initial model iteration 22 log10(L/Lsun)= -3.41085158E+00 Mass= 1.77133715E+30 Radius= 3.90856848E+10 log10(L/Lsun)= -2.63110938E+00 Mass= 1.64995235E+30 Radius= 3.83544647E+10 log10(L/Lsun)= -2.63273170E+00 Mass= 1.65133839E+30 Radius= 3.82463765E+10 create initial model iteration 23 log10(L/Lsun)= -3.41611546E+00 Mass= 1.78116218E+30 Radius= 3.80216970E+10 log10(L/Lsun)= -2.64831815E+00 Mass= 1.65868497E+30 Radius= 3.72978438E+10 log10(L/Lsun)= -2.64980856E+00 Mass= 1.66028919E+30 Radius= 3.71893950E+10 create initial model iteration 24 log10(L/Lsun)= -3.42146412E+00 Mass= 1.79115506E+30 Radius= 3.69611408E+10 log10(L/Lsun)= -2.66608903E+00 Mass= 1.66756466E+30 Radius= 3.62228395E+10 log10(L/Lsun)= -2.66809236E+00 Mass= 1.66941328E+30 Radius= 3.60986240E+10 create initial model iteration 25 log10(L/Lsun)= -3.45026229E+00 Mass= 1.80239393E+30 Radius= 3.58730244E+10 log10(L/Lsun)= -2.68571495E+00 Mass= 1.67759173E+30 Radius= 3.51550202E+10 log10(L/Lsun)= -2.68729951E+00 Mass= 1.67971161E+30 Radius= 3.50477271E+10 create initial model iteration 26 log10(L/Lsun)= -3.45591825E+00 Mass= 1.81252525E+30 Radius= 3.47854588E+10 log10(L/Lsun)= -2.70712506E+00 Mass= 1.68659415E+30 Radius= 3.40474717E+10 log10(L/Lsun)= -2.70848097E+00 Mass= 1.68901100E+30 Radius= 3.39484990E+10 create initial model iteration 27 log10(L/Lsun)= -2.65924595E+00 Mass= 1.82220381E+30 Radius= 3.42096471E+10 log10(L/Lsun)= -2.73066191E+00 Mass= 1.69520158E+30 Radius= 3.29410247E+10 log10(L/Lsun)= -2.73242863E+00 Mass= 1.69793693E+30 Radius= 3.28370426E+10 create initial model iteration 28 log10(L/Lsun)= -3.48667532E+00 Mass= 1.83278562E+30 Radius= 3.25670792E+10 log10(L/Lsun)= -2.75530423E+00 Mass= 1.70470266E+30 Radius= 3.18442409E+10 log10(L/Lsun)= -2.75695339E+00 Mass= 1.70777066E+30 Radius= 3.17425136E+10 create initial model iteration 29 log10(L/Lsun)= -2.78173258E+00 Mass= 1.71360209E+30 Radius= 3.07439028E+10 log10(L/Lsun)= -2.70901819E+00 Mass= 1.84263710E+30 Radius= 3.19262645E+10 log10(L/Lsun)= -2.78332877E+00 Mass= 1.71700978E+30 Radius= 3.06451836E+10 create initial model iteration 30 log10(L/Lsun)= -2.80919249E+00 Mass= 1.72288982E+30 Radius= 2.96661447E+10 log10(L/Lsun)= -2.73597288E+00 Mass= 1.85281385E+30 Radius= 3.08033497E+10 log10(L/Lsun)= -2.81075646E+00 Mass= 1.72664037E+30 Radius= 2.95709391E+10 create initial model iteration 31 log10(L/Lsun)= -2.76437890E+00 Mass= 1.86265751E+30 Radius= 2.97000516E+10 log10(L/Lsun)= -2.83807546E+00 Mass= 1.73196074E+30 Radius= 2.86058480E+10 log10(L/Lsun)= -2.83962232E+00 Mass= 1.73605555E+30 Radius= 2.85145503E+10 create initial model iteration 32 log10(L/Lsun)= -2.79420803E+00 Mass= 1.87212487E+30 Radius= 2.86203029E+10 log10(L/Lsun)= -2.86823572E+00 Mass= 1.74078580E+30 Radius= 2.75670888E+10 log10(L/Lsun)= -2.86978915E+00 Mass= 1.74522606E+30 Radius= 2.74799674E+10 create initial model iteration 33 log10(L/Lsun)= -2.89940708E+00 Mass= 1.74933855E+30 Radius= 2.65529083E+10 log10(L/Lsun)= -2.82545039E+00 Mass= 1.88115941E+30 Radius= 2.75673104E+10 log10(L/Lsun)= -2.90103343E+00 Mass= 1.75412446E+30 Radius= 2.64702009E+10 create initial model iteration 34 log10(L/Lsun)= -2.93212841E+00 Mass= 1.75758109E+30 Radius= 2.55663874E+10 log10(L/Lsun)= -2.85803702E+00 Mass= 1.88969978E+30 Radius= 2.65435704E+10 log10(L/Lsun)= -2.93350047E+00 Mass= 1.76271015E+30 Radius= 2.54879482E+10 create initial model iteration 35 log10(L/Lsun)= -2.89187919E+00 Mass= 1.89772138E+30 Radius= 2.55514896E+10 log10(L/Lsun)= -2.96551830E+00 Mass= 1.76550489E+30 Radius= 2.46095327E+10 log10(L/Lsun)= -2.96698707E+00 Mass= 1.77097163E+30 Radius= 2.45357142E+10 create initial model iteration 36 log10(L/Lsun)= -2.92689063E+00 Mass= 1.90518202E+30 Radius= 2.45923387E+10 log10(L/Lsun)= -3.00007760E+00 Mass= 1.77308937E+30 Radius= 2.36843483E+10 log10(L/Lsun)= -3.00133840E+00 Mass= 1.77888632E+30 Radius= 2.36149466E+10 create initial model iteration 37 log10(L/Lsun)= -2.96295807E+00 Mass= 1.91208009E+30 Radius= 2.36671947E+10 log10(L/Lsun)= -3.03522360E+00 Mass= 1.78035868E+30 Radius= 2.27919603E+10 log10(L/Lsun)= -3.03636027E+00 Mass= 1.78647877E+30 Radius= 2.27269951E+10 create initial model iteration 38 log10(L/Lsun)= -2.99979385E+00 Mass= 1.91841172E+30 Radius= 2.27762037E+10 log10(L/Lsun)= -3.07114574E+00 Mass= 1.78734310E+30 Radius= 2.19331267E+10 log10(L/Lsun)= -3.07217598E+00 Mass= 1.79378224E+30 Radius= 2.18725024E+10 create initial model iteration 39 log10(L/Lsun)= -3.03731238E+00 Mass= 1.92418195E+30 Radius= 2.19192783E+10 log10(L/Lsun)= -3.10791761E+00 Mass= 1.79405818E+30 Radius= 2.11081119E+10 log10(L/Lsun)= -3.10891289E+00 Mass= 1.80081445E+30 Radius= 2.10517152E+10 create initial model iteration 40 log10(L/Lsun)= -3.07548196E+00 Mass= 1.92940118E+30 Radius= 2.10959135E+10 log10(L/Lsun)= -3.14561588E+00 Mass= 1.80050311E+30 Radius= 2.03167747E+10 log10(L/Lsun)= -3.14641819E+00 Mass= 1.80757525E+30 Radius= 2.02643689E+10 create initial model iteration 41 log10(L/Lsun)= -3.11424504E+00 Mass= 1.93408016E+30 Radius= 2.03061521E+10 log10(L/Lsun)= -3.18427550E+00 Mass= 1.80670531E+30 Radius= 1.95591860E+10 log10(L/Lsun)= -3.18497941E+00 Mass= 1.81409127E+30 Radius= 1.95106547E+10 create initial model iteration 42 log10(L/Lsun)= -3.22390812E+00 Mass= 1.81265853E+30 Radius= 1.88352710E+10 log10(L/Lsun)= -3.15375954E+00 Mass= 1.93816958E+30 Radius= 1.95501515E+10 log10(L/Lsun)= -3.22455748E+00 Mass= 1.82035408E+30 Radius= 1.87904722E+10 create initial model iteration 43 log10(L/Lsun)= -3.26446330E+00 Mass= 1.81832031E+30 Radius= 1.81452225E+10 log10(L/Lsun)= -3.19407329E+00 Mass= 1.94162269E+30 Radius= 1.88283059E+10 log10(L/Lsun)= -3.26512129E+00 Mass= 1.82631692E+30 Radius= 1.81040117E+10 create initial model iteration 44 log10(L/Lsun)= -3.30594120E+00 Mass= 1.82365572E+30 Radius= 1.74896442E+10 log10(L/Lsun)= -3.23486643E+00 Mass= 1.94440504E+30 Radius= 1.81412471E+10 log10(L/Lsun)= -3.30650779E+00 Mass= 1.83194075E+30 Radius= 1.74518110E+10 create initial model iteration 45 log10(L/Lsun)= -3.27687528E+00 Mass= 1.94646552E+30 Radius= 1.74906400E+10 log10(L/Lsun)= -3.34936816E+00 Mass= 1.82860637E+30 Radius= 1.68700005E+10 log10(L/Lsun)= -3.34958471E+00 Mass= 1.83716258E+30 Radius= 1.68352804E+10 create initial model iteration 46 log10(L/Lsun)= -3.31926581E+00 Mass= 1.94775782E+30 Radius= 1.68785435E+10 log10(L/Lsun)= -3.39434095E+00 Mass= 1.83306542E+30 Radius= 1.62872167E+10 log10(L/Lsun)= -3.39469444E+00 Mass= 1.84187147E+30 Radius= 1.62555550E+10 create initial model iteration 47 log10(L/Lsun)= -3.44592768E+00 Mass= 1.83688686E+30 Radius= 1.57432898E+10 log10(L/Lsun)= -3.36266472E+00 Mass= 1.94822342E+30 Radius= 1.63086901E+10 log10(L/Lsun)= -3.44596630E+00 Mass= 1.84591700E+30 Radius= 1.57143344E+10 create initial model iteration 48 log10(L/Lsun)= -3.51142147E+00 Mass= 1.83995721E+30 Radius= 1.52417365E+10 log10(L/Lsun)= -3.40774513E+00 Mass= 1.94781928E+30 Radius= 1.57868451E+10 log10(L/Lsun)= -3.51159461E+00 Mass= 1.84918119E+30 Radius= 1.52153330E+10 create initial model iteration 49 log10(L/Lsun)= -3.84865635E+00 Mass= 1.84206830E+30 Radius= 1.47565976E+10 log10(L/Lsun)= -3.45766917E+00 Mass= 1.94645932E+30 Radius= 1.53232076E+10 log10(L/Lsun)= -3.84764762E+00 Mass= 1.85145081E+30 Radius= 1.47327306E+10 create initial model iteration 50 log10(L/Lsun)= -3.94302133E+00 Mass= 1.84270108E+30 Radius= 1.44360174E+10 log10(L/Lsun)= -3.51513346E+00 Mass= 1.94408236E+30 Radius= 1.49514868E+10 log10(L/Lsun)= -3.94240043E+00 Mass= 1.85219581E+30 Radius= 1.44135814E+10 create initial model iteration 51 log10(L/Lsun)= -3.79920802E+00 Mass= 1.94110926E+30 Radius= 1.46228045E+10 log10(L/Lsun)= -4.02064732E+00 Mass= 1.84215467E+30 Radius= 1.41961168E+10 log10(L/Lsun)= -4.01780358E+00 Mass= 1.85172385E+30 Radius= 1.41746186E+10 create initial model iteration 52 log10(L/Lsun)= -3.86676884E+00 Mass= 1.93823237E+30 Radius= 1.44538889E+10 log10(L/Lsun)= -4.09835341E+00 Mass= 1.84093818E+30 Radius= 1.40454960E+10 log10(L/Lsun)= -4.09436183E+00 Mass= 1.85054773E+30 Radius= 1.40244248E+10 create initial model iteration 53 log10(L/Lsun)= -3.88944880E+00 Mass= 1.93617410E+30 Radius= 1.43927928E+10 log10(L/Lsun)= -4.12225280E+00 Mass= 1.83956187E+30 Radius= 1.39905400E+10 log10(L/Lsun)= -4.11875586E+00 Mass= 1.84917979E+30 Radius= 1.39697138E+10 create initial model iteration 54 log10(L/Lsun)= -3.89280094E+00 Mass= 1.93547036E+30 Radius= 1.43840153E+10 log10(L/Lsun)= -4.12632520E+00 Mass= 1.83898388E+30 Radius= 1.39827219E+10 log10(L/Lsun)= -4.12283249E+00 Mass= 1.84860045E+30 Radius= 1.39619200E+10 done build_initial_model set_initial_age 0.0000000000000000D+00 set_age 0.0000000000000000D+00 set_initial_number_retries 0 net name basic.net kap_option gs98 kap_CO_option gs98_co kap_lowT_option lowT_Freedman11 OMP_NUM_THREADS 64 __________________________________________________________________________________________________________________________________________________ step lg_Tmax Teff lg_LH lg_Lnuc_tot Mass H_rich H_cntr N_cntr Y_surf eta_cntr zones retry lg_dt_yrs lg_Tcntr lg_R lg_L3a lg_Lneu lg_Mdot He_core He_cntr O_cntr Z_surf gam_cntr iters age_yrs lg_Dcntr lg_L lg_LZ lg_Lphoto lg_Dsurf CO_core C_cntr Ne_cntr Z_cntr v_div_cs dt_limit __________________________________________________________________________________________________________________________________________________ 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 8.5301305633251758D+01 9.9999999999999995D-07 max_residual > tol_max_residual 1 4.9896722288272949D+05 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 1 nz 726 s% num_retries 0 dt 3.1557600000000002D+02 log dt/secyer -4.9999999999999991D+00 retry: avg+max resid -- give up in solver 1 1st model retry log10(dt/yr) -5.3010299956639804D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 1 retry: get_T_tau -- L <= 0 1 1st model retry log10(dt/yr) -5.6020599913279616D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 2 retry: adjust_correction failed in eval_equations -- give up in solver 1 1st model retry log10(dt/yr) -5.9030899869919429D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 3 retry: logT > hydro_mtx_max_allowed_logT 12 1 1st model retry log10(dt/yr) -6.2041199826559241D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 4 retry: logT < hydro_mtx_min_allowed_logT 48 1 1st model retry log10(dt/yr) -6.5051499783199054D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 5 retry: logT > hydro_mtx_max_allowed_logT 46 1 1st model retry log10(dt/yr) -6.8061799739838866D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 6 retry: logT > hydro_mtx_max_allowed_logT 1 1 1st model retry log10(dt/yr) -7.1072099696478679D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 7 retry: get_T_tau -- L <= 0 1 1st model retry log10(dt/yr) -7.4082399653118491D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 8 retry: get_T_tau -- L <= 0 1 1st model retry log10(dt/yr) -7.7092699609758304D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 9 retry: logT < hydro_mtx_min_allowed_logT 3 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 3.0359560195733994D+01 9.9999999999999995D-07 max_residual > tol_max_residual 1 4.0012583575977816D+05 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 11 nz 726 s% num_retries 10 dt 3.0817968750000002D-01 log dt/secyer -8.0102999566398108D+00 retry: get_T_tau -- L <= 0 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 8.9307260530580859D+00 9.9999999999999995D-07 max_residual > tol_max_residual 1 6.7286133803959790D+04 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 12 nz 726 s% num_retries 11 dt 1.5408984375000001D-01 log dt/secyer -8.3113299523037920D+00 retry: get_T_tau -- L <= 0 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 7.0991102915945660D+01 9.9999999999999995D-07 max_residual > tol_max_residual 1 6.6877520620435185D+05 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 13 nz 726 s% num_retries 12 dt 7.7044921875000005D-02 log dt/secyer -8.6123599479677733D+00 retry: get_T_tau -- L <= 0 1 1st model retry log10(dt/yr) -8.9133899436317545D+00 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 726 s% num_retries 13 retry: logT > hydro_mtx_max_allowed_logT 2 1 1st model retry log10(dt/yr) -9.2144199392957358D+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 2.1699410326146655D+01 9.9999999999999995D-07 max_residual > tol_max_residual 1 1.8599942863483587D+05 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 15 nz 726 s% num_retries 14 dt 1.9261230468750001D-02 log dt/secyer -9.2144199392957358D+00 retry: get_T_tau -- L <= 0 1 1st model retry log10(dt/yr) -9.5154499349597170D+00 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 15 retry: get_T_tau -- L <= 0 1 1st model retry log10(dt/yr) -9.8164799306236983D+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 4.3345408972225485D+01 9.9999999999999995D-07 max_residual > tol_max_residual 1 1.7692566761282034D+05 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 17 nz 726 s% num_retries 16 dt 4.8153076171875003D-03 log dt/secyer -9.8164799306236983D+00 retry: get_T_tau -- L <= 0 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 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 1.2080189986976992D+01 9.9999999999999995D-07 max_residual > tol_max_residual 1 9.3927766272193505D+04 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 18 nz 726 s% num_retries 17 dt 2.4076538085937502D-03 log dt/secyer -1.0117509926287680D+01 retry: get_T_tau -- L <= 0 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 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 3.5694310110995374D+01 9.9999999999999995D-07 max_residual > tol_max_residual 1 2.4817515826798108D+05 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 19 nz 726 s% num_retries 18 dt 1.2038269042968751D-03 log dt/secyer -1.0418539921951661D+01 retry: get_T_tau -- L <= 0 1 1st model retry log10(dt/yr) -1.0719569917615642D+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 6.1253110189132602D+00 9.9999999999999995D-07 max_residual > tol_max_residual 1 3.9446351187550776D+04 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 20 nz 726 s% num_retries 19 dt 6.0191345214843754D-04 log dt/secyer -1.0719569917615642D+01 retry: get_T_tau -- L <= 0 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 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 9.4185307832867249D+00 9.9999999999999995D-07 max_residual > tol_max_residual 1 4.1684987256151093D+04 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 21 nz 726 s% num_retries 20 dt 3.0095672607421877D-04 log dt/secyer -1.1020599913279623D+01 retry: get_T_tau -- L <= 0 1 1st model retry log10(dt/yr) -1.1321629908943605D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 21 retry: logT > hydro_mtx_max_allowed_logT 4 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 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 7.1072962651699152D+00 9.9999999999999995D-07 max_residual > tol_max_residual 1 7.3288923540521922D+04 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 23 nz 726 s% num_retries 22 dt 7.5239181518554693D-05 log dt/secyer -1.1622659904607586D+01 retry: get_T_tau -- L <= 0 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 7.7827627087196717D+01 9.9999999999999995D-07 max_residual > tol_max_residual 1 5.5625378937873116D+05 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 24 nz 726 s% num_retries 23 dt 3.7619590759277346D-05 log dt/secyer -1.1923689900271567D+01 retry: get_T_tau -- L <= 0 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 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 2.1899057134699973D+01 9.9999999999999995D-07 max_residual > tol_max_residual 1 1.5858139156543053D+05 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 25 nz 726 s% num_retries 24 dt 1.8809795379638673D-05 log dt/secyer -1.2224719895935548D+01 retry: get_T_tau -- L <= 0 1 1st model retry log10(dt/yr) -1.2525749891599530D+01 hydro_solver_step returned ierr -1 s% model_number 1 nz 726 s% num_retries 25 retry: logT < hydro_mtx_min_allowed_logT 2 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 4.3591678738067735D+01 9.9999999999999995D-07 max_residual > tol_max_residual 1 3.6952955189262761D+05 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 27 nz 726 s% num_retries 26 dt 4.7024488449096683D-06 log dt/secyer -1.2826779887263511D+01 retry: get_T_tau -- L <= 0 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 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 8.7771619075025811D+00 9.9999999999999995D-07 max_residual > tol_max_residual 1 5.9693827880150959D+04 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 28 nz 726 s% num_retries 27 dt 2.3512244224548341D-06 log dt/secyer -1.3127809882927492D+01 retry: get_T_tau -- L <= 0 1 1st model retry log10(dt/yr) -1.3428839878591473D+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 9.7780537476901387D+01 9.9999999999999995D-07 max_residual > tol_max_residual 1 1.1896715670156877D+06 1.0000000000000000D-04 solver rejected trial model s% model_number 1 s% solver_call_number 29 nz 726 s% num_retries 28 dt 1.1756122112274171D-06 log dt/secyer -1.3428839878591473D+01 retry: get_T_tau -- L <= 0 1 dt 5.8780610561370854D-07 min_timestep_limit 9.9999999999999995D-07 stopping because of problems dt < min_timestep_limit terminated evolution: cannot find acceptable model termination code: min_timestep_limit runtime (minutes), retries, steps 0.43 28 1 DATE: 2025-11-30 TIME: 14:42:04 ****************************************************************** failed to create planet_create_0.9685_MJ_2.0_RJ.mod when running inlist_create_header ****************************************************************** ******************** make_planets failed: non-zero exit code ********************