3.3.3.24. NXapm_paraprobe_config_surfacer¶
Status:
application definition (contribution), extends NXobject
Description:
Configuration of a paraprobe-surfacer tool run in atom probe microscopy.
Symbols:
The symbols used in the schema to specify e.g. dimensions of arrays.
n_alpha_values: Number of alpha values (and offset values) to probe.
n_values: How many different match values does the filter specify.
- Groups cited:
NXapm_input_ranging, NXapm_input_reconstruction, NXcg_cylinder_set, NXcg_ellipsoid_set, NXcg_face_list_data_structure, NXcg_hexahedron_set, NXcs_filter_boolean_mask, NXcs_profiling, NXentry, NXmatch_filter, NXprocess, NXspatial_filter, NXsubsampling_filter
Structure:
ENTRY: (required) NXentry
@version: (required) NX_CHAR
Version specifier of this application definition.
definition: (required) NX_CHAR ⤆
Official NeXus NXDL schema with which this file was written. ...
Official NeXus NXDL schema with which this file was written.
Obligatory value:
NXapm_paraprobe_config_surfacer
program: (required) NX_CHAR
Given name of the program/software/tool with which this NeXus ...
Given name of the program/software/tool with which this NeXus (configuration) file was generated.
@version: (required) NX_CHAR
Ideally program version plus build number, or commit hash or description ...
Ideally program version plus build number, or commit hash or description of ever persistent resources where the source code of the program and build instructions can be found so that the program can be configured ideally in such a manner that the result of this computational process is recreatable in the same deterministic manner.
time_stamp: (required) NX_DATE_TIME
ISO 8601 formatted time code with local time zone offset to UTC ...
ISO 8601 formatted time code with local time zone offset to UTC information included when this configuration file was created.
analysis_identifier: (required) NX_CHAR
Ideally, a (globally persistent) unique identifier for referring ...
Ideally, a (globally persistent) unique identifier for referring to this analysis.
analysis_description: (optional) NX_CHAR
Possibility for leaving a free-text description about this analysis.
results_path: (optional) NX_CHAR
Path to the directory where the tool should store NeXus/HDF5 results ...
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.
number_of_processes: (required) NX_UINT {units=NX_UNITLESS}
For now a support field for the tool to identify how many individual ...
For now a support field for the tool to identify how many individual analyses the tool should executed as part of the analysis.
PROCESS: (required) NXprocess ⤆
dataset: (required) NXapm_input_reconstruction
iontypes: (required) NXapm_input_ranging
spatial_filter: (optional) NXspatial_filter
windowing_method: (required) NX_CHAR ⤆
CG_ELLIPSOID_SET: (optional) NXcg_ellipsoid_set ⤆
CG_CYLINDER_SET: (optional) NXcg_cylinder_set ⤆
CG_HEXAHEDRON_SET: (optional) NXcg_hexahedron_set ⤆
CS_FILTER_BOOLEAN_MASK: (optional) NXcs_filter_boolean_mask ⤆
evaporation_id_filter: (optional) NXsubsampling_filter
linear_range_min_incr_max: (required) NX_UINT (Rank: 1, Dimensions: [3]) {units=NX_UNITLESS} ⤆
iontype_filter: (optional) NXmatch_filter
match: (required) NX_NUMBER (Rank: 1, Dimensions: [n_values]) {units=NX_UNITLESS} ⤆
hit_multiplicity_filter: (optional) NXmatch_filter
match: (required) NX_NUMBER (Rank: 1, Dimensions: [n_values]) {units=NX_UNITLESS} ⤆
surface_meshing: (required) NXprocess
preprocessing_method: (required) NX_CHAR
Specifies the method that is used to preprocess the point cloud. ...
Specifies the method that is used to preprocess the point cloud. The main purpose of this setting is to specify whether the point cloud should be segmented or not during the preprocessing to identify which points are more likely lying close to the edge of the point cloud. These points could be more relevant than the interior points for certain alpha-shape constructions.
By default no such filtering is used during pre-processing. By contrast, the option kuehbach activates a preprocessing during which a Hoshen-Kopelman percolation analysis is used to identify which points are closer to the edge of the dataset. This can reduce the number of points in the alpha-shape computation and thus improve performance substantially. Details about the methods are reported in M. Kühbach et al..
Any of these values:
default
|kuehbach
preprocessing_kernel_width: (required) NX_UINT {units=NX_UNITLESS}
When using the kuehbach preprocessing, this is the width of the ...
When using the kuehbach preprocessing, this is the width of the kernel for identifying which ions are in voxels close to the edge of the point cloud.
alpha_value_choice: (required) NX_CHAR
Specifies which method to use to define the alpha value. ...
Specifies which method to use to define the alpha value. The value convex_hull_naive is the default. This instructs the tool to use a fast specialized algorithm for computing only the convex hull. The resulting triangles can be skinny.
The value convex_hull_refine computes first also a convex_hull_naive but refines the mesh by triangle flipping and splitting to improve the quality of the mesh.
The value smallest_solid instructs the CGAL library to choose a value which realizes an alpha-shape that is the smallest solid.
The value cgal_optimal instructs the library to choose a value which the library considers as an optimal value. Details are define in the respective section of the CGAL library on 3D alpha shapes.
The value set_of_values instructs to compute a list of alpha-shapes for the specified alpha-values.
The value set_of_alpha_wrappings instructs the library to generate a set of so-called alpha wrappings. These are a method which is similar to alpha shapes but provide additional guarantees though such as watertightness and proximity constraints on the resulting wrapping.
Any of these values:
convex_hull_naive
convex_hull_refine
smallest_solid
cgal_optimal
set_of_values
set_of_alpha_wrappings
alpha_values: (required) NX_FLOAT (Rank: 1, Dimensions: [n_alpha_values]) {units=NX_ANY}
Array of alpha values to use when alpha_value_choice is set_of_values ...
Array of alpha values to use when alpha_value_choice is set_of_values or when alpha_value_choice is set_of_alpha_wrappings.
offset_values: (required) NX_FLOAT (Rank: 1, Dimensions: [n_alpha_values]) {units=NX_LENGTH}
Array of offset values to use when alpha_value_choice is ...
Array of offset values to use when alpha_value_choice is set_of_alpha_wrappings. The array of alpha_values and offset_values define a sequence of (alpha and offset value).
has_exterior_facets: (required) NX_BOOLEAN
Specifies if the tool should compute the set of exterior triangle ...
Specifies if the tool should compute the set of exterior triangle facets for each alpha complex (for convex hull, alpha shapes, and wrappings)
has_closure: (required) NX_BOOLEAN
Specifies if the tool should check if the alpha complex of exterior ...
Specifies if the tool should check if the alpha complex of exterior triangular facets is a closed polyhedron.
has_interior_tetrahedra: (required) NX_BOOLEAN
Specifies if the tool should compute all interior tetrahedra ...
Specifies if the tool should compute all interior tetrahedra of the alpha complex (currently only for alpha shapes).
performance: (required) NXcs_profiling
Hypertext Anchors¶
List of hypertext anchors for all groups, fields, attributes, and links defined in this class.
/NXapm_paraprobe_config_surfacer/ENTRY/analysis_description-field
/NXapm_paraprobe_config_surfacer/ENTRY/analysis_identifier-field
/NXapm_paraprobe_config_surfacer/ENTRY/number_of_processes-field
/NXapm_paraprobe_config_surfacer/ENTRY/performance/current_working_directory-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/dataset-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/dataset/dataset_name_mass_to_charge-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/dataset/dataset_name_reconstruction-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/dataset/filename-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/dataset/filename@version-attribute
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/evaporation_id_filter-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/evaporation_id_filter/linear_range_min_incr_max-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/hit_multiplicity_filter-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/hit_multiplicity_filter/match-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/hit_multiplicity_filter/method-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/iontype_filter-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/iontype_filter/match-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/iontype_filter/method-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/iontypes-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/iontypes/filename-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/iontypes/filename@version-attribute
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/iontypes/group_name_iontypes-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_CYLINDER_SET-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_CYLINDER_SET/cardinality-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_CYLINDER_SET/center-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_CYLINDER_SET/dimensionality-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_CYLINDER_SET/height-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_CYLINDER_SET/radii-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_ELLIPSOID_SET-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_ELLIPSOID_SET/cardinality-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_ELLIPSOID_SET/center-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_ELLIPSOID_SET/dimensionality-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_ELLIPSOID_SET/half_axes_radii-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_ELLIPSOID_SET/orientation-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_HEXAHEDRON_SET-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_HEXAHEDRON_SET/cardinality-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_HEXAHEDRON_SET/dimensionality-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CG_HEXAHEDRON_SET/hexahedra-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CS_FILTER_BOOLEAN_MASK-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CS_FILTER_BOOLEAN_MASK/bitdepth-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/CS_FILTER_BOOLEAN_MASK/mask-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/spatial_filter/windowing_method-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/surface_meshing-group
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/surface_meshing/alpha_value_choice-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/surface_meshing/alpha_values-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/surface_meshing/has_closure-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/surface_meshing/has_exterior_facets-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/surface_meshing/has_interior_tetrahedra-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/surface_meshing/offset_values-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/surface_meshing/preprocessing_kernel_width-field
/NXapm_paraprobe_config_surfacer/ENTRY/PROCESS/surface_meshing/preprocessing_method-field
/NXapm_paraprobe_config_surfacer/ENTRY/program@version-attribute