.. auto-generated by dev_tools.docs.nxdl from the NXDL source contributed_definitions/NXms_score_config.nxdl.xml -- DO NOT EDIT .. index:: ! NXms_score_config (application definition) ! ms_score_config (application definition) see: ms_score_config (application definition); NXms_score_config .. _NXms_score_config: ================= NXms_score_config ================= **Status**: application definition, extends :ref:`NXobject` **Description**: Application definition to control a simulation with the SCORE model. **Symbols**: **n_dg_ori**: Number of Bunge-Euler angle triplets for deformed grains. **n_rx_ori**: Number of Bunge-Euler angle triplets for recrystallization nuclei. **n_su**: Number of solitary unit domains to export. **Groups cited**: :ref:`NXcollection`, :ref:`NXcs_profiling`, :ref:`NXentry`, :ref:`NXprocess`, :ref:`NXprogram` .. index:: NXentry (base class); used in application definition, NXprogram (base class); used in application definition, NXprocess (base class); used in application definition, NXcollection (base class); used in application definition, NXcs_profiling (base class); used in application definition **Structure**: .. _/NXms_score_config/ENTRY-group: **ENTRY**: (required) :ref:`NXentry` .. _/NXms_score_config/ENTRY@version-attribute: .. index:: version (group attribute) **@version**: (required) :ref:`NX_CHAR ` Version specifier of this application definition. .. _/NXms_score_config/ENTRY/definition-field: .. index:: definition (field) **definition**: (required) :ref:`NX_CHAR ` Official NeXus NXDL schema with which this file was written. Obligatory value: ``NXms_score_config`` .. _/NXms_score_config/ENTRY/analysis_identifier-field: .. index:: analysis_identifier (field) **analysis_identifier**: (required) :ref:`NX_CHAR ` Ideally, a (globally persistent) unique identifier for referring to this analysis. .. _/NXms_score_config/ENTRY/analysis_description-field: .. index:: analysis_description (field) **analysis_description**: (optional) :ref:`NX_CHAR ` Possibility for leaving a free-text description about this analysis. .. _/NXms_score_config/ENTRY/results_path-field: .. index:: results_path (field) **results_path**: (optional) :ref:`NX_CHAR ` Path to the directory where the tool should store NeXus/HDF5 results of this analysis. If not specified results will be stored in the current working directory. .. _/NXms_score_config/ENTRY/time_stamp-field: .. index:: time_stamp (field) **time_stamp**: (required) :ref:`NX_DATE_TIME ` ISO 8601 formatted time code with local time zone offset to UTC information included when this configuration file was created. .. _/NXms_score_config/ENTRY/PROGRAM-group: **PROGRAM**: (required) :ref:`NXprogram` .. _/NXms_score_config/ENTRY/PROGRAM/program_name-field: .. index:: program_name (field) **program_name**: (required) :ref:`NX_CHAR ` .. _/NXms_score_config/ENTRY/PROGRAM/program_name@version-attribute: .. index:: version (field attribute) **@version**: (required) :ref:`NX_CHAR ` .. _/NXms_score_config/ENTRY/initial_microstructure-group: **initial_microstructure**: (required) :ref:`NXprocess` Relevant data to instantiate a starting configuration that is typically a microstructure in deformed conditions where stored (elastic) energy is stored in the form of crystal defects (in SCORE) modelled as dislocation content. .. _/NXms_score_config/ENTRY/initial_microstructure/type-field: .. index:: type (field) **type**: (required) :ref:`NX_CHAR ` Which model should be used to generate a starting microstructure. Any of these values: ``cuboidal`` | ``poisson_voronoi`` | ``ebsd`` | ``damask`` .. _/NXms_score_config/ENTRY/initial_microstructure/cell_size-field: .. index:: cell_size (field) **cell_size**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_LENGTH `} Edge length of the cubic cells of each CA domain. .. _/NXms_score_config/ENTRY/initial_microstructure/domain_size-field: .. index:: domain_size (field) **domain_size**: (required) :ref:`NX_UINT ` (Rank: 1, Dimensions: [3]) {units=\ :ref:`NX_UNITLESS `} Extend of each CA domain in voxel along the x, y, and z direction. Deformation of sheet material is assumed. The x axis is assumed pointing along the rolling direction. The y axis is assumed pointing along the transverse direction. The z axis is assumed pointing along the normal direction. .. _/NXms_score_config/ENTRY/initial_microstructure/grain_size-field: .. index:: grain_size (field) **grain_size**: (required) :ref:`NX_FLOAT ` (Rank: 1, Dimensions: [3]) {units=\ :ref:`NX_LENGTH `} Extend of each deformed grain along the x, y, and z direction when type is cuboidal. .. _/NXms_score_config/ENTRY/initial_microstructure/grain_diameter-field: .. index:: grain_diameter (field) **grain_diameter**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_LENGTH `} Average spherical diameter when type is poisson_voronoi. .. _/NXms_score_config/ENTRY/initial_microstructure/grain_euler-field: .. index:: grain_euler (field) **grain_euler**: (required) :ref:`NX_FLOAT ` (Rank: 2, Dimensions: [n_dg_ori, 3]) {units=\ :ref:`NX_ANGLE `} Set of Bunge-Euler angles to sample orientations randomly from. .. _/NXms_score_config/ENTRY/initial_microstructure/ebsd-group: **ebsd**: (optional) :ref:`NXprocess` .. _/NXms_score_config/ENTRY/initial_microstructure/ebsd/filename-field: .. index:: filename (field) **filename**: (required) :ref:`NX_CHAR ` Path and name of the EBSD dataset from which to generate the starting microstructure. .. _/NXms_score_config/ENTRY/initial_microstructure/ebsd/filename@version-attribute: .. index:: version (field attribute) **@version**: (required) :ref:`NX_CHAR ` SHA256 checksum of the file which contains the EBSD dataset. .. _/NXms_score_config/ENTRY/initial_microstructure/ebsd/stepsize-field: .. index:: stepsize (field) **stepsize**: (required) :ref:`NX_FLOAT ` (Rank: 1, Dimensions: [2]) {units=\ :ref:`NX_LENGTH `} Size of the EBSD. The EBSD has to be on a regular grid of squares. .. _/NXms_score_config/ENTRY/nucleation_model-group: **nucleation_model**: (required) :ref:`NXprocess` Phenomenological model according to which it nuclei are placed into the domain and assumed growing. .. _/NXms_score_config/ENTRY/nucleation_model/spatial_distribution_model-field: .. index:: spatial_distribution_model (field) **spatial_distribution_model**: (required) :ref:`NX_CHAR ` According to which model will the nuclei become distributed spatially. CSR means complete spatial randomness, custom is implementation specific, GB places nuclei at grain boundaries. Any of these values: ``csr`` | ``custom`` | ``gb`` .. _/NXms_score_config/ENTRY/nucleation_model/incubation_time_model-field: .. index:: incubation_time_model (field) **incubation_time_model**: (required) :ref:`NX_CHAR ` According to which model will the nuclei start to grow. Obligatory value: ``site_saturation`` .. _/NXms_score_config/ENTRY/nucleation_model/nucleus_euler-field: .. index:: nucleus_euler (field) **nucleus_euler**: (required) :ref:`NX_FLOAT ` (Rank: 2, Dimensions: [n_rx_ori, 3]) {units=\ :ref:`NX_ANGLE `} Set of Bunge-Euler angles to sample orientations of nuclei randomly from. .. _/NXms_score_config/ENTRY/material_properties-group: **material_properties**: (required) :ref:`NXprocess` Mechanical properties of the material which scale the amount of stored (elastic) energy in the system. .. _/NXms_score_config/ENTRY/material_properties/reference_shear_modulus-field: .. index:: reference_shear_modulus (field) **reference_shear_modulus**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_PRESSURE `} Shear modulus at zero Kelvin. .. _/NXms_score_config/ENTRY/material_properties/reference_burgers_magnitude-field: .. index:: reference_burgers_magnitude (field) **reference_burgers_magnitude**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_LENGTH `} Magnitude at the Burgers vector at zero Kelvin. .. _/NXms_score_config/ENTRY/material_properties/melting_temperature-field: .. index:: melting_temperature (field) **melting_temperature**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_TEMPERATURE `} Melting temperature in degrees Celsius. .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model-group: **grain_boundary_mobility_model**: (required) :ref:`NXprocess` Model for the assumed mobility of grain boundaries with different disorientation. .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/model-field: .. index:: model (field) **model**: (required) :ref:`NX_CHAR ` Which type of fundamental model for the grain boundary mobility: For the Sebald-Gottstein model the following equation is used. For the Rollett-Holm model the following equation is used. Any of these values: ``sebald_gottstein`` | ``rollett_holm`` .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter-group: **sebald_gottstein_parameter**: (required) :ref:`NXcollection` .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/lagb_pre_factor-field: .. index:: lagb_pre_factor (field) **lagb_pre_factor**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_ANY `} .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/lagb_enthalpy-field: .. index:: lagb_enthalpy (field) **lagb_enthalpy**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_ANY `} .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/hagb_pre_factor-field: .. index:: hagb_pre_factor (field) **hagb_pre_factor**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_ANY `} .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/hagb_enthalpy-field: .. index:: hagb_enthalpy (field) **hagb_enthalpy**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_ANY `} .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/special_pre_factor-field: .. index:: special_pre_factor (field) **special_pre_factor**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_ANY `} .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/special_enthalpy-field: .. index:: special_enthalpy (field) **special_enthalpy**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_ANY `} .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter-group: **rollett_holm_parameter**: (required) :ref:`NXcollection` .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter/hagb_pre_factor-field: .. index:: hagb_pre_factor (field) **hagb_pre_factor**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_ANY `} .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter/hagb_enthalpy-field: .. index:: hagb_enthalpy (field) **hagb_enthalpy**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_ANY `} .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter/lagb_to_hagb_cut-field: .. index:: lagb_to_hagb_cut (field) **lagb_to_hagb_cut**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_ANY `} .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter/lagb_to_hagb_transition-field: .. index:: lagb_to_hagb_transition (field) **lagb_to_hagb_transition**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_ANY `} .. _/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter/lagb_to_hagb_exponent-field: .. index:: lagb_to_hagb_exponent (field) **lagb_to_hagb_exponent**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_ANY `} .. _/NXms_score_config/ENTRY/stored_energy_recovery_model-group: **stored_energy_recovery_model**: (required) :ref:`NXprocess` Simulated evolution of the dislocation density as the stored (elastic) energy assumed stored in each grain. .. _/NXms_score_config/ENTRY/stored_energy_recovery_model/model-field: .. index:: model (field) **model**: (required) :ref:`NX_CHAR ` Which type of recovery model. Obligatory value: ``none`` .. _/NXms_score_config/ENTRY/dispersoid_drag_model-group: **dispersoid_drag_model**: (required) :ref:`NXprocess` Simulated reduction of the grain boundary speed due to the presence of dispersoids through which the total grain boundary area of the recrystallization front can be reduced. .. _/NXms_score_config/ENTRY/dispersoid_drag_model/model-field: .. index:: model (field) **model**: (required) :ref:`NX_CHAR ` Which type of drag model. Any of these values: ``none`` | ``zener_smith`` .. _/NXms_score_config/ENTRY/dispersoid_drag_model/zener_smith_parameter-group: **zener_smith_parameter**: (required) :ref:`NXcollection` .. _/NXms_score_config/ENTRY/dispersoid_drag_model/zener_smith_parameter/pre_factor-field: .. index:: pre_factor (field) **pre_factor**: (required) :ref:`NX_FLOAT ` .. _/NXms_score_config/ENTRY/dispersoid_drag_model/zener_smith_parameter/surface_energy_density-field: .. index:: surface_energy_density (field) **surface_energy_density**: (required) :ref:`NX_FLOAT ` .. _/NXms_score_config/ENTRY/dispersoid_drag_model/zener_smith_parameter/time-field: .. index:: time (field) **time**: (required) :ref:`NX_FLOAT ` (Rank: 1, Dimensions: [i]) {units=\ :ref:`NX_TIME `} Support point of the linearized curve of simulated time matching a specific support point of the average dispersoid radius. .. _/NXms_score_config/ENTRY/dispersoid_drag_model/zener_smith_parameter/radius-field: .. index:: radius (field) **radius**: (required) :ref:`NX_FLOAT ` (Rank: 1, Dimensions: [i]) {units=\ :ref:`NX_LENGTH `} Support point of the linearized curve of the average dispersoid radius. .. _/NXms_score_config/ENTRY/time_temperature_history-group: **time_temperature_history**: (required) :ref:`NXprocess` Simulated time temperature profile .. _/NXms_score_config/ENTRY/time_temperature_history/time-field: .. index:: time (field) **time**: (required) :ref:`NX_FLOAT ` (Rank: 1, Dimensions: [j]) {units=\ :ref:`NX_TIME `} Support point of the linearized curve of simulated time matching a specific support point of the temperature. .. _/NXms_score_config/ENTRY/time_temperature_history/temperature-field: .. index:: temperature (field) **temperature**: (required) :ref:`NX_FLOAT ` (Rank: 1, Dimensions: [j]) {units=\ :ref:`NX_LENGTH `} Support point of the linearized curve of the temperature. .. _/NXms_score_config/ENTRY/stop_criteria-group: **stop_criteria**: (required) :ref:`NXprocess` Criteria which enable to stop the simulation. Whichever criterion is fulfilled first stops the simulation. .. _/NXms_score_config/ENTRY/stop_criteria/max_x-field: .. index:: max_x (field) **max_x**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_DIMENSIONLESS `} Maximum recrystallized volume fraction. .. _/NXms_score_config/ENTRY/stop_criteria/max_time-field: .. index:: max_time (field) **max_time**: (required) :ref:`NX_NUMBER ` {units=\ :ref:`NX_TIME `} Maximum simulated physical time. .. _/NXms_score_config/ENTRY/stop_criteria/max_iteration-field: .. index:: max_iteration (field) **max_iteration**: (required) :ref:`NX_UINT ` {units=\ :ref:`NX_UNITLESS `} Maximum number of iteration steps. .. _/NXms_score_config/ENTRY/numerics-group: **numerics**: (required) :ref:`NXprocess` Settings relevant for stable numerical integration. .. _/NXms_score_config/ENTRY/numerics/max_delta_x-field: .. index:: max_delta_x (field) **max_delta_x**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_DIMENSIONLESS `} Maximum fraction equivalent to the migration of the fastest grain boundary in the system how much a cell may be consumed in a single iteration. .. _/NXms_score_config/ENTRY/numerics/initial_cell_cache-field: .. index:: initial_cell_cache (field) **initial_cell_cache**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_UNITLESS `} Fraction of the total number of cells in the CA which should initially be allocated for offering cells in the recrystallization front. .. _/NXms_score_config/ENTRY/numerics/realloc_cell_cache-field: .. index:: realloc_cell_cache (field) **realloc_cell_cache**: (required) :ref:`NX_FLOAT ` {units=\ :ref:`NX_UNITLESS `} By how much more times should the already allocated memory be is increased to offer space for storing states of cells in the recrystallization front. .. _/NXms_score_config/ENTRY/numerics/defragment_cell_cache-field: .. index:: defragment_cell_cache (field) **defragment_cell_cache**: (required) :ref:`NX_BOOLEAN ` Should the cache for cells in the recrystallization front be defragmented on-the-fly. .. _/NXms_score_config/ENTRY/numerics/defragment_x-field: .. index:: defragment_x (field) **defragment_x**: (required) :ref:`NX_FLOAT ` (Rank: 1, Dimensions: [i]) {units=\ :ref:`NX_DIMENSIONLESS `} Heuristic recrystallized volume target values at which the cache for cells in the recrystallization front will be defragmented on-the-fly. .. _/NXms_score_config/ENTRY/numerics/snapshot_x-field: .. index:: snapshot_x (field) **snapshot_x**: (required) :ref:`NX_FLOAT ` (Rank: 1, Dimensions: [j]) {units=\ :ref:`NX_DIMENSIONLESS `} List of recrystallized volume target values at which a snapshot of the CA state should be exported for. .. _/NXms_score_config/ENTRY/solitary_unit_model-group: **solitary_unit_model**: (required) :ref:`NXprocess` .. _/NXms_score_config/ENTRY/solitary_unit_model/apply-field: .. index:: apply (field) **apply**: (required) :ref:`NX_BOOLEAN ` Perform a statistical analyses of the results as it was proposed by M. Kühbach (solitary unit model ensemble approach). .. _/NXms_score_config/ENTRY/solitary_unit_model/number_of_domains-field: .. index:: number_of_domains (field) **number_of_domains**: (required) :ref:`NX_UINT ` {units=\ :ref:`NX_UNITLESS `} How many independent cellular automaton domains should be instantiated. .. _/NXms_score_config/ENTRY/solitary_unit_model/rediscretization-field: .. index:: rediscretization (field) **rediscretization**: (required) :ref:`NX_UINT ` {units=\ :ref:`NX_UNITLESS `} Into how many time steps should the real time interval be discretized upon during post-processing the results with the solitary unit modeling approach. .. _/NXms_score_config/ENTRY/solitary_unit_model/domain_identifier-field: .. index:: domain_identifier (field) **domain_identifier**: (required) :ref:`NX_UINT ` (Rank: 1, Dimensions: [n_su]) {units=\ :ref:`NX_UNITLESS `} List of identifier for those domain which should be rendered. Identifier start from 0. .. _/NXms_score_config/ENTRY/performance-group: **performance**: (required) :ref:`NXcs_profiling` .. _/NXms_score_config/ENTRY/performance/current_working_directory-field: .. index:: current_working_directory (field) **current_working_directory**: (required) :ref:`NX_CHAR ` Hypertext Anchors ----------------- List of hypertext anchors for all groups, fields, attributes, and links defined in this class. * :ref:`/NXms_score_config/ENTRY-group ` * :ref:`/NXms_score_config/ENTRY/analysis_description-field ` * :ref:`/NXms_score_config/ENTRY/analysis_identifier-field ` * :ref:`/NXms_score_config/ENTRY/definition-field ` * :ref:`/NXms_score_config/ENTRY/dispersoid_drag_model-group ` * :ref:`/NXms_score_config/ENTRY/dispersoid_drag_model/model-field ` * :ref:`/NXms_score_config/ENTRY/dispersoid_drag_model/zener_smith_parameter-group ` * :ref:`/NXms_score_config/ENTRY/dispersoid_drag_model/zener_smith_parameter/pre_factor-field ` * :ref:`/NXms_score_config/ENTRY/dispersoid_drag_model/zener_smith_parameter/radius-field ` * :ref:`/NXms_score_config/ENTRY/dispersoid_drag_model/zener_smith_parameter/surface_energy_density-field ` * :ref:`/NXms_score_config/ENTRY/dispersoid_drag_model/zener_smith_parameter/time-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model-group ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/model-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter-group ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter/hagb_enthalpy-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter/hagb_pre_factor-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter/lagb_to_hagb_cut-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter/lagb_to_hagb_exponent-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/rollett_holm_parameter/lagb_to_hagb_transition-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter-group ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/hagb_enthalpy-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/hagb_pre_factor-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/lagb_enthalpy-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/lagb_pre_factor-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/special_enthalpy-field ` * :ref:`/NXms_score_config/ENTRY/grain_boundary_mobility_model/sebald_gottstein_parameter/special_pre_factor-field ` * :ref:`/NXms_score_config/ENTRY/initial_microstructure-group ` * :ref:`/NXms_score_config/ENTRY/initial_microstructure/cell_size-field ` * :ref:`/NXms_score_config/ENTRY/initial_microstructure/domain_size-field ` * :ref:`/NXms_score_config/ENTRY/initial_microstructure/ebsd-group ` * :ref:`/NXms_score_config/ENTRY/initial_microstructure/ebsd/filename-field ` * :ref:`/NXms_score_config/ENTRY/initial_microstructure/ebsd/filename@version-attribute ` * :ref:`/NXms_score_config/ENTRY/initial_microstructure/ebsd/stepsize-field ` * :ref:`/NXms_score_config/ENTRY/initial_microstructure/grain_diameter-field ` * :ref:`/NXms_score_config/ENTRY/initial_microstructure/grain_euler-field ` * :ref:`/NXms_score_config/ENTRY/initial_microstructure/grain_size-field ` * :ref:`/NXms_score_config/ENTRY/initial_microstructure/type-field ` * :ref:`/NXms_score_config/ENTRY/material_properties-group ` * :ref:`/NXms_score_config/ENTRY/material_properties/melting_temperature-field ` * :ref:`/NXms_score_config/ENTRY/material_properties/reference_burgers_magnitude-field ` * :ref:`/NXms_score_config/ENTRY/material_properties/reference_shear_modulus-field ` * :ref:`/NXms_score_config/ENTRY/nucleation_model-group ` * :ref:`/NXms_score_config/ENTRY/nucleation_model/incubation_time_model-field ` * :ref:`/NXms_score_config/ENTRY/nucleation_model/nucleus_euler-field ` * :ref:`/NXms_score_config/ENTRY/nucleation_model/spatial_distribution_model-field ` * :ref:`/NXms_score_config/ENTRY/numerics-group ` * :ref:`/NXms_score_config/ENTRY/numerics/defragment_cell_cache-field ` * :ref:`/NXms_score_config/ENTRY/numerics/defragment_x-field ` * :ref:`/NXms_score_config/ENTRY/numerics/initial_cell_cache-field ` * :ref:`/NXms_score_config/ENTRY/numerics/max_delta_x-field ` * :ref:`/NXms_score_config/ENTRY/numerics/realloc_cell_cache-field ` * :ref:`/NXms_score_config/ENTRY/numerics/snapshot_x-field ` * :ref:`/NXms_score_config/ENTRY/performance-group ` * :ref:`/NXms_score_config/ENTRY/performance/current_working_directory-field ` * :ref:`/NXms_score_config/ENTRY/PROGRAM-group ` * :ref:`/NXms_score_config/ENTRY/PROGRAM/program_name-field ` * :ref:`/NXms_score_config/ENTRY/PROGRAM/program_name@version-attribute ` * :ref:`/NXms_score_config/ENTRY/results_path-field ` * :ref:`/NXms_score_config/ENTRY/solitary_unit_model-group ` * :ref:`/NXms_score_config/ENTRY/solitary_unit_model/apply-field ` * :ref:`/NXms_score_config/ENTRY/solitary_unit_model/domain_identifier-field ` * :ref:`/NXms_score_config/ENTRY/solitary_unit_model/number_of_domains-field ` * :ref:`/NXms_score_config/ENTRY/solitary_unit_model/rediscretization-field ` * :ref:`/NXms_score_config/ENTRY/stop_criteria-group ` * :ref:`/NXms_score_config/ENTRY/stop_criteria/max_iteration-field ` * :ref:`/NXms_score_config/ENTRY/stop_criteria/max_time-field ` * :ref:`/NXms_score_config/ENTRY/stop_criteria/max_x-field ` * :ref:`/NXms_score_config/ENTRY/stored_energy_recovery_model-group ` * :ref:`/NXms_score_config/ENTRY/stored_energy_recovery_model/model-field ` * :ref:`/NXms_score_config/ENTRY/time_stamp-field ` * :ref:`/NXms_score_config/ENTRY/time_temperature_history-group ` * :ref:`/NXms_score_config/ENTRY/time_temperature_history/temperature-field ` * :ref:`/NXms_score_config/ENTRY/time_temperature_history/time-field ` * :ref:`/NXms_score_config/ENTRY@version-attribute ` **NXDL Source**: https://github.com/nexusformat/definitions/blob/main/contributed_definitions/NXms_score_config.nxdl.xml