.. _pipeline_ini: ############################################################## Documentation of the ini file for the post-processing pipeline ############################################################## Aim of the ini file =================== Using an ini file should help to keep an overview on large grid repositories and ensures that all will be setup the same way. There is a script to setup the pipeline, it takes one argument: .. code-block:: bash posydon-setup-pipeline PATH_TO_INI The content of the ini file is described :ref:`below `. It will create for each step, plot or check two files: 1. \*.csv 2. \*.slurm Additionally, it will prepare a :samp:`logs` directory (it may creates a save of some old logs) and create a shell script :samp:`run_pipeline.sh` to submit all :ref:`tasks `. Hence, you can run all :ref:`steps ` with simply running this script. .. code-block:: bash ./run_pipeline.sh .. note:: Currently, the user needs to take care of having a POSYDON_data directory which includes the tables for the core-collapse prescriptions him-/herself in the working directory. .. _pipeline_ini_sections: Sections in the ini file ======================== Account and slurm settings -------------------------- First we specify some details for the slurm jobs. This is similar to the :ref:`[slurm] section for running the grids `. Here is an example to show the supported key words: .. code-block:: ini [account] ACCOUNT = 'fragkos' PARTITION = 'public-cpu' WALLTIME = '23:00:00' MAILTYPE = 'ALL' EMAIL = 'matthias.kruckow@unige.ch' GROUP = 'GL_S_Astro_POSYDON' The last one :samp:`GROUP` is a bit special. If it is set, all the files created by the pipeline will get this owning group on the file system with read and write access for this group. This is especially helpful if more than one user is making changes to the data set. General pipeline settings ------------------------- The next sections deals with the general information about the pipeline. First it needs to know where the grids are located. The :samp:`PATH` specifies, where you would like to get the pipeline files being created. The :samp:`VERBOSE` option will be used for the creation of the pipeline files and during the run of the pipeline. Finally, we have switches to turn on (:samp:`True`) and off (:samp:`False`) individual :ref:`steps ` and :ref:`additions `. Additionally, the file extension of the plots can be set according to the restrictions of `mathplotlib `_. There is one additional extension :samp:`multipage-pdf`, which will create a PDF, where several plots are stored as pages in a single PDF. .. code-block:: ini [pipeline setup] PATH_TO_GRIDS = '/srv/beegfs/scratch/shares/astro/posydon/POSYDON_GRIDS_v2/' VERSION = '' # to have a verion below the grid type level PATH = '.' # working dir VERBOSE = True # steps CREATE_GRID_SLICES = True COMBINE_GRID_SLICES = True CALCULATE_EXTRA_VALUES = True TRAIN_INTERPOLATORS = True EXPORT_DATASET = True # rerun step RERUN = False # additions MAKE_PLOTS = True PLOT_EXTENSION = 'pdf' MAKE_CHECKS = True Step sections ------------- The path of each grid will be joint as :samp:`PATH_TO_GRIDS/GRID_TYPE/VERSION/METALLICITY/GRID_SLICE`. The corresponding h5 files will have names according to :samp:`PATH_TO_GRIDS/GRID_TYPE/VERSION/METALLICITY/COMPRESSION/GRID_SLICE.h5`. All sections have common keywords: .. table:: Common keywords of steps ================== =========== Keyword Description ================== =========== GRID_TYPES a list of grid types; the looped :samp:`GRID_TYPE` is used in the path name METALLICITIES a list of lists of the metallicities of the grids; the looped :samp:`METALLICITY` is used in the path name; the outer list allows you to have different lists for each grid type GRID_SLICES a list of lists of the grid slices; the looped :samp:`GRID_SLICE` is used in the path name; the outer list allows you to have different lists for each grid type COMPRESSIONS a list of lists of compression types DROP_MISSING_FILES boolean to ignore missing files; it allows to have different substructures and taking the existing ones into account when specifying union of all possible substructures CREATE_PLOTS a list of plots to make; this will be done independently whether the step is active or not; to make no plots put there an empty list or comment out such a line DO_CHECKS a list of checks to perform; this will be done independently whether the step is active or not; to make no checks put there an empty list or comment out such a line ================== =========== Some :ref:`steps ` have more keywords, which are specific to that step: .. table:: Step specific keywords ==== ============================ =========== Step Keyword Description ==== ============================ =========== 1 STOP_BEFORE_CARBON_DEPLETION indicating, whether high mass HMS stars should get their history croped short before carbon depletion (1) or not (0) 2 GRID_SLICES for this step, we have 3 layers of lists: the outermost is still the grid type, the inner most is still the grid slice, the middle layer is the combined grid 2 GRIDS_COMBINED a list of lists of combined grids; the outermost list is again referring to grid type; this is used as name for the new combined grid instead of :samp:`GRID_SLICE` 3 ORIGINAL_COMPRESSIONS a list of lists of the ORIGINAL compression to calculate the extra values from (the first one is used for all compressions for that grid type) 4 INTERPOLATION_METHODS a list of the interpolator types which are trained 4 CONTROL_GRIDS a list of lists of control grids for the :samp:`GRID_SLICES`; it need to have the same number of entries as the :samp:`GRID_SLICES`, to specify no control grid use an empty string R RERUN_TYPE a defined rerun type R CLUSTER cluster name to get the appropriate ini file ==== ============================ =========== Here is an example of all the :ref:`steps `: .. code-block:: ini #CREATE_GRID_SLICES [step_1] # e.g. ['CO-HMS_RLO','CO-HeMS','HMS-HMS'] GRID_TYPES = ['CO-HMS_RLO', 'CO-HeMS', 'HMS-HMS'] # e.g. ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'] METALLICITIES = [# CO-HMS_RLO ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # CO-HeMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # HMS-HMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'] ] GRID_SLICES = [# CO-HMS_RLO ['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2', 'rerun_PISN_grid_low_res_combined', 'rerun_TPAGBwind_grid_low_res_combined', 'grid_random_1', 'rerun_PISN_grid_random_combined', 'rerun_TPAGBwind_grid_random_combined'], # CO-HeMS ['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2', 'rerun_PISN_grid_low_res_combined', 'grid_random_1', 'grid_random_rerun', 'rerun_PISN_grid_random_combined'], # HMS-HMS ['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2', 'grid_low_res_3', 'grid_low_res_4', 'grid_low_res_5', 'rerun_PISN_grid_low_res_combined', 'rerun_reverse_MT_grid_low_res_combined', 'rerun_TPAGBwind_grid_low_res_combined', 'grid_random_1', 'rerun_PISN_grid_random_combined', 'rerun_reverse_MT_grid_random_combined', 'rerun_TPAGBwind_grid_random_combined'] ] COMPRESSIONS = [# CO-HMS_RLO ['LITE', 'ORIGINAL', 'LITE_RLO', 'ORIGINAL_RLO'], # CO-HeMS ['LITE', 'ORIGINAL', 'LITE_RLO', 'ORIGINAL_RLO'], # HMS-HMS ['LITE', 'ORIGINAL'] ] DROP_MISSING_FILES = True # EXTRA PARAMETERS # only applied to HMS grids STOP_BEFORE_CARBON_DEPLETION = 1 # supported plots: e.g. 'combined_TF12', 'termination_flag_1', 'termination_flag_2', 'termination_flag_3', 'termination_flag_4', and any quantity valid for a Z-plotting CREATE_PLOTS = [] # supported checks: e.g. 'failure_rate' DO_CHECKS = [] #COMBINE_GRID_SLICES [step_2] GRID_TYPES = ['CO-HMS_RLO', 'CO-HeMS', 'HMS-HMS'] METALLICITIES = [# CO-HMS_RLO ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # CO-HeMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # HMS-HMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'] ] GRID_SLICES = [# CO-HMS_RLO [['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2'], ['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2', 'rerun_PISN_grid_low_res_combined'], ['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2', 'rerun_PISN_grid_low_res_combined', 'rerun_TPAGBwind_grid_low_res_combined'], ['grid_random_1'], ['grid_random_1', 'rerun_PISN_grid_random_combined'], ['grid_random_1', 'rerun_PISN_grid_random_combined', 'rerun_TPAGBwind_grid_random_combined']], # CO-HeMS [['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2'], ['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2', 'rerun_PISN_grid_low_res_combined'], ['grid_random_1', 'grid_random_rerun'], ['grid_random_1', 'grid_random_rerun', 'rerun_PISN_grid_random_combined']], # HMS-HMS [['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2', 'grid_low_res_3', 'grid_low_res_4', 'grid_low_res_5'], ['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2', 'grid_low_res_3', 'grid_low_res_4', 'grid_low_res_5', 'rerun_PISN_grid_low_res_combined'], ['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2', 'grid_low_res_3', 'grid_low_res_4', 'grid_low_res_5', 'rerun_PISN_grid_low_res_combined', 'rerun_reverse_MT_grid_low_res_combined'], ['grid_low_res_0', 'grid_low_res_1', 'grid_low_res_2', 'grid_low_res_3', 'grid_low_res_4', 'grid_low_res_5', 'rerun_PISN_grid_low_res_combined', 'rerun_reverse_MT_grid_low_res_combined', 'rerun_TPAGBwind_grid_low_res_combined'], ['grid_random_1'], ['grid_random_1', 'rerun_PISN_grid_random_combined'], ['grid_random_1', 'rerun_PISN_grid_random_combined', 'rerun_reverse_MT_grid_random_combined'], ['grid_random_1', 'rerun_PISN_grid_random_combined', 'rerun_reverse_MT_grid_random_combined', 'rerun_TPAGBwind_grid_random_combined']] ] GRIDS_COMBINED = [# CO-HMS_RLO ['grid_low_res_combined', 'grid_low_res_combined_rerun1_PISN', 'grid_low_res_combined_rerun3_TPAGBwind', 'grid_random_combined', 'grid_random_combined_rerun1_PISN', 'grid_random_combined_rerun3_TPAGBwind'], # CO-HeMS ['grid_low_res_combined', 'grid_low_res_combined_rerun1_PISN', 'grid_random_combined', 'grid_random_combined_rerun1_PISN'], # HMS-HMS ['grid_low_res_combined', 'grid_low_res_combined_rerun1_PISN', 'grid_low_res_combined_rerun2_reverse_MT', 'grid_low_res_combined_rerun3_TPAGBwind', 'grid_random_combined', 'grid_random_combined_rerun1_PISN', 'grid_random_combined_rerun2_reverse_MT', 'grid_random_combined_rerun3_TPAGBwind'] ] COMPRESSIONS = [# CO-HMS_RLO ['LITE', 'ORIGINAL', 'LITE_RLO', 'ORIGINAL_RLO'], # CO-HeMS ['LITE', 'ORIGINAL', 'LITE_RLO', 'ORIGINAL_RLO'], # HMS-HMS ['LITE', 'ORIGINAL'] ] DROP_MISSING_FILES = True # supported plots: e.g. 'combined_TF12', 'termination_flag_1', 'termination_flag_2', 'termination_flag_3', 'termination_flag_4', and any quantity valid for a Z-plotting CREATE_PLOTS = ['PLOT_AFTER_COMBINE'] # supported checks: e.g. 'failure_rate' DO_CHECKS = ['CHECK_AFTER_COMBINE'] #CALCULATE_EXTRA_VALUES [step_3] GRID_TYPES = ['CO-HMS_RLO', 'CO-HeMS', 'HMS-HMS'] METALLICITIES = [# CO-HMS_RLO ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # CO-HeMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # HMS-HMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'] ] GRID_SLICES = [# CO-HMS_RLO ['grid_low_res_combined_rerun3_TPAGBwind', 'grid_random_combined_rerun3_TPAGBwind'], # CO-HeMS ['grid_low_res_combined_rerun1_PISN', 'grid_random_combined_rerun1_PISN'], # HMS-HMS ['grid_low_res_combined_rerun3_TPAGBwind', 'grid_random_combined_rerun3_TPAGBwind'] ] COMPRESSIONS = [# CO-HMS_RLO ['LITE', 'LITE_RLO'], # CO-HeMS ['LITE', 'LITE_RLO'], # HMS-HMS ['LITE'] ] ORIGINAL_COMPRESSIONS = [# CO-HMS_RLO ['ORIGINAL'], # CO-HeMS ['ORIGINAL'], # HMS-HMS ['ORIGINAL'] ] DROP_MISSING_FILES = True # supported plots: e.g. 'combined_TF12', 'termination_flag_1', 'termination_flag_2', 'termination_flag_3', 'termination_flag_4', and any quantity valid for a Z-plotting CREATE_PLOTS = ['PLOT_AFTER_EXTRA'] # supported checks: e.g. 'failure_rate', 'CO_TYPE', 'SN_TYPE' DO_CHECKS = ['CHECK_AFTER_EXTRA'] #TRAIN_INTERPOLATORS [step_4] GRID_TYPES = ['CO-HMS_RLO', 'CO-HeMS', 'HMS-HMS'] METALLICITIES = [# CO-HMS_RLO ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # CO-HeMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # HMS-HMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'] ] GRID_SLICES = [# CO-HMS_RLO ['grid_low_res_combined_rerun3_TPAGBwind_processed'], # CO-HeMS ['grid_low_res_combined_rerun1_PISN_processed'], # HMS-HMS ['grid_low_res_combined_rerun3_TPAGBwind_processed'] ] INTERPOLATION_METHODS = ["linear","1NN"] COMPRESSIONS = [# CO-HMS_RLO ['LITE_RLO'], # CO-HeMS ['LITE', 'LITE_RLO'], # HMS-HMS ['LITE'] ] CONTROL_GRIDS = [# CO-HMS_RLO ['grid_random_combined_rerun3_TPAGBwind_processed'], # CO-HeMS ['grid_random_combined_rerun1_PISN_processed'], # HMS-HMS ['grid_random_combined_rerun3_TPAGBwind_processed'] ] DROP_MISSING_FILES = True # supported plots: e.g. 'combined_TF12', 'termination_flag_1', 'termination_flag_2', 'termination_flag_3', 'termination_flag_4', and any quantity valid for a Z-plotting CREATE_PLOTS = ['PLOT_AFTER_TRAINING'] # supported checks: e.g. 'failure_rate' DO_CHECKS = ['CHECK_AFTER_TRAINING'] #EXPORT_DATASET [step_9] GRID_TYPES = ['CO-HMS_RLO', 'CO-HeMS', 'HMS-HMS'] METALLICITIES = [# CO-HMS_RLO ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # CO-HeMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # HMS-HMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'] ] GRID_SLICES = [# CO-HMS_RLO ['grid_low_res_combined_rerun3_TPAGBwind_processed'], # CO-HeMS ['grid_low_res_combined_rerun1_PISN_processed'], # HMS-HMS ['grid_low_res_combined_rerun3_TPAGBwind_processed'] ] COMPRESSIONS = [# CO-HMS_RLO ['LITE_RLO'], # CO-HeMS ['LITE', 'LITE_RLO'], # HMS-HMS ['LITE'] ] DROP_MISSING_FILES = True #EXPORT_RERUNS [rerun] GRID_TYPES = ['CO-HMS_RLO', 'CO-HeMS', 'HMS-HMS'] METALLICITIES = [# CO-HMS_RLO ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # CO-HeMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'], # HMS-HMS ['2e+00_Zsun', '1e+00_Zsun', '4.5e-01_Zsun', '2e-01_Zsun', '1e-01_Zsun', '1e-02_Zsun', '1e-03_Zsun', '1e-04_Zsun'] ] GRID_SLICES = [# CO-HMS_RLO ['grid_low_res_combined_rerun3_TPAGBwind','grid_random_combined_rerun3_TPAGBwind'], # CO-HeMS ['grid_low_res_combined_rerun1_PISN','grid_random_combined_rerun1_PISN'], # HMS-HMS ['grid_low_res_combined_rerun3_TPAGBwind','grid_random_combined_rerun3_TPAGBwind'] ] COMPRESSIONS = [# CO-HMS_RLO ['LITE'], # CO-HeMS ['LITE'], # HMS-HMS ['LITE'] ] DROP_MISSING_FILES = True # example reruns are 'PISN', 'reverse_MT', 'TPAGBwind', 'opacity_max' RERUN_TYPE = 'opacity_max' CLUSTER = 'quest' There are some predefined shortcuts for lists of :ref:`plots ` and :ref:`checks `: .. table:: Plot sets ===================== ===== Set name plots ===================== ===== 'PLOT_AFTER_CREATE' 'PLOT_AFTER_COMBINE' 'combined_TF12', 'termination_flag_1', 'termination_flag_2', 'termination_flag_3', 'termination_flag_4', 'rl_relative_overflow_1', 'rl_relative_overflow_2', 'lg_mtransfer_rate' 'PLOT_AFTER_EXTRA' 'S1_MODEL01_CO_type', 'S1_MODEL01_SN_type', 'S1_MODEL01_mass', 'S1_MODEL01_spin', 'S1_MODEL01_m_disk_radiated', 'S1_MODEL02_CO_type', 'S1_MODEL02_SN_type', 'S1_MODEL02_mass', 'S1_MODEL02_spin', 'S1_MODEL02_m_disk_radiated', 'S1_MODEL03_CO_type', 'S1_MODEL03_SN_type', 'S1_MODEL03_mass', 'S1_MODEL03_spin', 'S1_MODEL03_m_disk_radiated', 'S1_MODEL04_CO_type', 'S1_MODEL04_SN_type', 'S1_MODEL04_mass', 'S1_MODEL04_spin', 'S1_MODEL04_m_disk_radiated', 'S1_MODEL05_CO_type', 'S1_MODEL05_SN_type', 'S1_MODEL05_mass', 'S1_MODEL05_spin', 'S1_MODEL05_m_disk_radiated', 'S1_MODEL06_CO_type', 'S1_MODEL06_SN_type', 'S1_MODEL06_mass', 'S1_MODEL06_spin', 'S1_MODEL06_m_disk_radiated', 'S1_MODEL07_CO_type', 'S1_MODEL07_SN_type', 'S1_MODEL07_mass', 'S1_MODEL07_spin', 'S1_MODEL07_m_disk_radiated', 'S1_MODEL08_CO_type', 'S1_MODEL08_SN_type', 'S1_MODEL08_mass', 'S1_MODEL08_spin', 'S1_MODEL08_m_disk_radiated', 'S1_MODEL09_CO_type', 'S1_MODEL09_SN_type', 'S1_MODEL09_mass', 'S1_MODEL09_spin', 'S1_MODEL09_m_disk_radiated', 'S1_MODEL10_CO_type', 'S1_MODEL10_SN_type', 'S1_MODEL10_mass', 'S1_MODEL10_spin', 'S1_MODEL10_m_disk_radiated' 'PLOT_AFTER_TRAINING' 'INTERP_ERROR_age', 'INTERP_ERROR_star_1_mass', 'INTERP_ERROR_star_2_mass', 'INTERP_ERROR_period_days', 'INTERP_ERROR_S1_co_core_mass', 'INTERP_ERROR_S1_co_core_radius', 'INTERP_ERROR_S1_he_core_mass', 'INTERP_ERROR_S1_he_core_radius', 'INTERP_ERROR_S1_center_h1', 'INTERP_ERROR_S1_center_he4', 'INTERP_ERROR_S1_surface_h1', 'INTERP_ERROR_S1_surface_he4', 'INTERP_ERROR_S1_surf_avg_omega_div_omega_crit', 'INTERP_ERROR_S1_log_Teff', 'INTERP_ERROR_S1_log_L', 'INTERP_ERROR_S1_log_R', 'INTERP_ERROR_S1_spin_parameter', 'INTERP_ERROR_S1_lambda_CE_10cent', 'INTERP_ERROR_S2_co_core_mass', 'INTERP_ERROR_S2_co_core_radius', 'INTERP_ERROR_S2_he_core_mass', 'INTERP_ERROR_S2_he_core_radius', 'INTERP_ERROR_S2_center_h1', 'INTERP_ERROR_S2_center_he4', 'INTERP_ERROR_S2_surface_h1', 'INTERP_ERROR_S2_surface_he4', 'INTERP_ERROR_S2_surf_avg_omega_div_omega_crit', 'INTERP_ERROR_S2_log_Teff', 'INTERP_ERROR_S2_log_L', 'INTERP_ERROR_S2_log_R', 'INTERP_ERROR_S2_spin_parameter', 'INTERP_ERROR_S2_lambda_CE_10cent', 'INTERP_ERROR_S1_MODEL01_mass', 'INTERP_ERROR_S1_MODEL01_spin', 'INTERP_ERROR_S1_MODEL01_m_disk_radiated', 'INTERP_ERROR_S1_MODEL05_mass', 'INTERP_ERROR_S1_MODEL05_spin', 'INTERP_ERROR_S1_MODEL05_m_disk_radiated', 'INTERP_ERROR_S1_MODEL06_mass', 'INTERP_ERROR_S1_MODEL06_spin', 'INTERP_ERROR_S1_MODEL06_m_disk_radiated', 'INTERP_ERROR_S1_MODEL10_mass', 'INTERP_ERROR_S1_MODEL10_spin', 'INTERP_ERROR_S1_MODEL10_m_disk_radiated' ===================== ===== .. table:: Check sets ====================== ====== Set name checks ====================== ====== 'CHECK_AFTER_CREATE' 'CHECK_AFTER_COMBINE' 'failure_rate' 'CHECK_AFTER_EXTRA' 'CO_type', 'SN_type' 'CHECK_AFTER_TRAINING' ====================== ======