.. _pipeline_ini: ############################################################## Documentation of the :samp:`ini` file for the post-processing pipeline ############################################################## Aim of the :samp:`ini` file =================== Using an :samp:`ini` file should help to keep an overview on large grid repositories and ensures that all workflows 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 :samp:`ini` file is described :ref:`below `. It will create two files for each step, plot or check: 1. \*.csv 2. \*.slurm Additionally, it will prepare a :samp:`logs` directory (it may create 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 themselves in the working directory. .. _pipeline_ini_sections: Sections in the :samp:`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, ownership of all the files created by the pipeline will be assigned to :samp:`GROUP`. This is especially helpful if more than one user is making changes to the data set. General pipeline settings ------------------------- The next section outlines general information about the pipeline. The :samp:`PATH` specifies where you would like to have the pipeline files 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 `matplotlib `_. 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 joined as :samp:`PATH_TO_GRIDS/GRID_TYPE/VERSION/METALLICITY/GRID_SLICE`. The corresponding :samp:`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 omit checks, specify an empty list or comment out the 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 cropped before carbon depletion (set to 1 if so) or not (set to 0 if not) 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 needs to have the same number of entries as the :samp:`GRID_SLICES`; use an empty string to specify no control grid R RERUN_TYPE a defined rerun type R CLUSTER cluster name to get the appropriate :samp:`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_F] 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' ====================== ======