em coupling

PathDimensionsTypeUnitsDescription

em_coupling

(alpha)

Description of the axisymmetric mutual electromagnetics; does not include non-axisymmetric coil systems; the convention is Quantity_Sensor_Source

em_coupling.active_coils

(alpha)

[pf_active.coil]

STR_1D

List of URIs of the active coils considered in the IDS

em_coupling.b_field_pol_probes

(alpha)

[magnetics.b_field_pol_probe]

STR_1D

List of URIs of the poloidal field probes considered in the IDS

em_coupling.b_field_pol_probes_active

(alpha)

[magnetics.b_field_pol_probe,
em_coupling.active_coils]

FLT_2D (uncertain)

T/A

Poloidal field coupling from active coils to poloidal field probes

em_coupling.b_field_pol_probes_passive

(alpha)

[em_coupling.b_field_pol_probes,
em_coupling.passive_loops]

FLT_2D (uncertain)

T/A

Poloidal field coupling from passive loops to poloidal field probes

em_coupling.b_field_pol_probes_plasma

(alpha)

[em_coupling.b_field_pol_probes,
em_coupling.plasma_elements]

FLT_2D (uncertain)

T/A

Poloidal field coupling from plasma elements to poloidal field probes

em_coupling.code

(alpha)

STRUCTURE

Generic decription of the code-specific parameters for the code that has produced this IDS

em_coupling.code.commit

(alpha)

STR_0D

Unique commit reference of software

em_coupling.code.description

(alpha)

STR_0D

Short description of the software (type, purpose)

em_coupling.code.library

(alpha)

[1...N]

STRUCT_ARRAY

List of external libraries used by the code that has produced this IDS

em_coupling.code.library[:].commit

(alpha)

STR_0D

Unique commit reference of software

em_coupling.code.library[:].description

(alpha)

STR_0D

Short description of the software (type, purpose)

em_coupling.code.library[:].name

(alpha)

STR_0D

Name of software

em_coupling.code.library[:].parameters

(alpha)

STR_0D

List of the code specific parameters in XML format

em_coupling.code.library[:].repository

(alpha)

STR_0D

URL of software repository

em_coupling.code.library[:].version

(alpha)

STR_0D

Unique version (tag) of software

em_coupling.code.name

(alpha)

STR_0D

Name of software generating IDS

em_coupling.code.output_flag

(alpha)

[em_coupling.time]

INT_1D

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

em_coupling.code.parameters

(alpha)

STR_0D

List of the code specific parameters in XML format

em_coupling.code.repository

(alpha)

STR_0D

URL of software repository

em_coupling.code.version

(alpha)

STR_0D

Unique version (tag) of software

em_coupling.coupling_matrix

(alpha)

[1...N]

STRUCT_ARRAY

Set of user-defined coupling matrices, complementary to the other system-based coupling matrices of this IDS

em_coupling.coupling_matrix[:].columns_uri

(alpha)

[1...N]

STR_1D

List of URIs corresponding to the columns (2nd dimension) of the coupling matrix. See examples above (rows_uri)

em_coupling.coupling_matrix[:].data

(alpha)

[em_coupling.coupling_matrix[:].rows_uri,
em_coupling.coupling_matrix[:].columns_uri]

FLT_2D (uncertain)

mixed

Coupling matrix

em_coupling.coupling_matrix[:].name

(alpha)

STR_0D

Name of this coupling matrix

em_coupling.coupling_matrix[:].quantity

(alpha)

STRUCTURE

Physical quantity obtained following the matrix multiplication of the data node with the vector constructed from references contained in the columns_uri node
1) magnetic_flux : Magnetic flux
2) b_field : Magnetic field, in the direction set by each target of the coupling matrix
3) b_field_x : Magnetic field, X component
4) b_field_y : Magnetic field, Y component
5) b_field_z : Magnetic field, Z component
6) b_field_r : Magnetic field, major radius component
7) db_field_x_dx : Gradient of magnetic field X component along the X coordinate
8) db_field_x_dy : Gradient of magnetic field X component along the Y coordinate
9) db_field_x_dz : Gradient of magnetic field X component along the Z coordinate
10) db_field_y_dx : Gradient of magnetic field Y component along the X coordinate
11) db_field_y_dy : Gradient of magnetic field Y component along the Y coordinate
12) db_field_y_dz : Gradient of magnetic field Y component along the Z coordinate
13) db_field_z_dx : Gradient of magnetic field Z component along the X coordinate
14) db_field_z_dy : Gradient of magnetic field Z component along the Y coordinate
15) db_field_z_dz : Gradient of magnetic field Z component along the Z coordinate
16) db_field_r_dr : Gradient of magnetic field major radius component along the major radius coordinate
17) db_field_r_dz : Gradient of magnetic field major radius component along the Z coordinate
18) db_field_z_dr : Gradient of magnetic field Z component along the major radius coordinate

em_coupling.coupling_matrix[:].quantity.description

(alpha)

STR_0D

Verbose description

em_coupling.coupling_matrix[:].quantity.index

(alpha)

INT_0D

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

em_coupling.coupling_matrix[:].quantity.name

(alpha)

STR_0D

Short string identifier

em_coupling.coupling_matrix[:].rows_uri

(alpha)

[1...N]

STR_1D

List of URIs corresponding to the rows (1st dimension) of the coupling matrix. If not all indices of a given node are used, they must be listed explicitly e.g. rows_uri(i) = pf_active:1/coil(i) will refer to a list of indices of the occurrence 1 of the pf_active IDS of this data entry. If the rows correspond to all indices of a given vector, it is sufficient to give a insgle uri, the one of the vector with the impliicit notation (:), e.g. rows_uri(1) = /grid_ggd(3)/grid_subset(2)/elements(:).

em_coupling.flux_loops

(alpha)

[magnetics.flux_loop]

STR_1D

List of URIs of the flux loops considered in the IDS

em_coupling.grid_ggd

(alpha)

[1...N]

STRUCT_ARRAY

Set of grids for use in the coupling_matrix array of structure, described using the GGD

em_coupling.grid_ggd[:].grid_subset

(alpha)

[1...N]

STRUCT_ARRAY

Grid subsets

em_coupling.grid_ggd[:].grid_subset[:].base

(alpha)

[1...N]

STRUCT_ARRAY

Set of bases for the grid subset. For each base, the structure describes the projection of the base vectors on the canonical frame of the grid.

em_coupling.grid_ggd[:].grid_subset[:].base[:].jacobian

(alpha)

[em_coupling.grid_ggd[:].grid_subset[:].element]

FLT_1D (uncertain)

mixed

Metric Jacobian

em_coupling.grid_ggd[:].grid_subset[:].base[:].tensor_contravariant

(alpha)

[em_coupling.grid_ggd[:].grid_subset[:].element,
1...N,
1...N]

FLT_3D (uncertain)

mixed

Contravariant metric tensor, given on each element of the subgrid (first dimension)

em_coupling.grid_ggd[:].grid_subset[:].base[:].tensor_covariant

(alpha)

[em_coupling.grid_ggd[:].grid_subset[:].element,
1...N,
1...N]

FLT_3D (uncertain)

mixed

Covariant metric tensor, given on each element of the subgrid (first dimension)

em_coupling.grid_ggd[:].grid_subset[:].dimension

(alpha)

INT_0D

Space dimension of the grid subset elements. This must be equal to the sum of the dimensions of the individual objects forming the element.

em_coupling.grid_ggd[:].grid_subset[:].element

(alpha)

[1...N]

STRUCT_ARRAY

Set of elements defining the grid subset. An element is defined by a combination of objects from potentially all spaces

em_coupling.grid_ggd[:].grid_subset[:].element[:].object

(alpha)

[1...N]

STRUCT_ARRAY

Set of objects defining the element

em_coupling.grid_ggd[:].grid_subset[:].element[:].object[:].dimension

(alpha)

INT_0D

Dimension of the object

em_coupling.grid_ggd[:].grid_subset[:].element[:].object[:].index

(alpha)

INT_0D

Object index

em_coupling.grid_ggd[:].grid_subset[:].element[:].object[:].space

(alpha)

INT_0D

Index of the space from which that object is taken

em_coupling.grid_ggd[:].grid_subset[:].identifier

(alpha)

STRUCTURE

Grid subset identifier
0) unspecified : unspecified
1) nodes : All nodes (0D) belonging to the associated spaces, implicit declaration (no need to replicate the grid elements in the grid_subset structure). In case of a structured grid represented with multiple 1D spaces, the order of the implicit elements in the grid_subset follows Fortran ordering, i.e. iterate always on nodes of the first space first, then move to the second node of the second space, ... : [((s1_1 to s1_end), s2_1, s3_1 ... sN_1), (((s1_1 to s1_end), s2_2, s3_1, ... sN_1)), ... ((s1_1 to s1_end), s2_end, s3_end ... sN_end)]
200) nodes_combining_spaces : All nodes (0D) belonging to the first space, implicitly extended in other dimensions represented by the other spaces in a structured way. The number of subset elements is thus equal to the number of nodes in the first space. Implicit declaration (no need to replicate the grid elements in the grid_subset structure).
2) edges : All edges (1D) belonging to the associated spaces, implicit declaration (no need to replicate the grid elements in the grid_subset structure)
3) x_aligned_edges : All x-aligned (poloidally) aligned edges belonging to the associated spaces
4) y_aligned_edges : All y-aligned (radially) aligned edges belonging to the associated spaces
5) cells : All cells (2D) belonging to the associated spaces, implicit declaration (no need to replicate the grid elements in the grid_subset structure)
6) x_points : Nodes defining x-points
7) core_cut : y-aligned edges inside the separatrix connecting to the active x-point
8) PFR_cut : y-aligned edges in the private flux region connecting to the active x-point
9) outer_throat : y-aligned edges in the outer SOL connecting to the active x-point
10) inner_throat : y-aligned edges in the inner SOL connecting to the active x-point
11) outer_midplane : y-aligned edges connecting to the node closest to outer midplane on the separatrix
12) inner_midplane : y-aligned edges connecting to the node closest to inner midplane on the separatrix
13) outer_target : y-aligned edges defining the outer target
14) inner_target : y-aligned edges defining the inner target
15) core_boundary : Innermost x-aligned edges
16) separatrix : x-aligned edges defining the active separatrix
17) main_chamber_wall : x-aligned edges defining main chamber wall outside of the divertor regions
18) outer_baffle : x-aligned edges defining the chamber wall of the outer active divertor region
19) inner_baffle : x-aligned edges defining the chamber wall of the inner active divertor region
20) outer_PFR_wall : x-aligned edges defining the private flux region wall of the outer active divertor region
21) inner_PFR_wall : x-aligned edges defining the private flux region wall of the inner active divertor region
22) core : Cells inside the active separatrix
23) sol : Cells defining the main SOL outside of the divertor regions
24) outer_divertor : Cells defining the outer divertor region
25) inner_divertor : Cells defining the inner divertor region
26) core_sol : x-aligned edges defining part of active separatrix separating core and sol
27) full_main_chamber_wall : main_chamber_wall + outer_baffle(s) + inner_baffle(s)
28) full_PFR_wall : outer_PFR__wall(s) + inner_PFR_wall(s)
29) core_cut_X2 : y-aligned edges inside the separatrix connecting to the non-active x-point
30) PFR_cut_X2 : y-aligned edges in the private flux region connecting to the non-active x-point
31) outer_throat_X2 : y-aligned edges in the outer SOL connecting to the non-active x-point
32) inner_throat_X2 : y-aligned edges in the inner SOL connecting to the non-active x-point
33) separatrix_2 : x-aligned edges defining the non-active separatrix
34) outer_baffle_2 : x-aligned edges defining the chamber wall of the outer non-active divertor region
35) inner_baffle_2 : x-aligned edges defining the chamber wall of the inner non-active divertor region
36) outer_PFR_wall_2 : x-aligned edges defining the private flux region wall of the outer non-active divertor region
37) inner_PFR_wall_2 : x-aligned edges defining the private flux region wall of the inner non-active divertor region
38) intra_sep : Cells between the two separatrices
39) outer_divertor_2 : Cells defining the outer inactive divertor region
40) inner_divertor_2 : Cells defining the inner inactive divertor region
41) outer_target_2 : y-aligned edges defining the outer inactive target
42) inner_target_2 : y-aligned edges defining the inner inactive target
43) volumes : All volumes (3D) belonging to the associated spaces, implicit declaration (no need to replicate the grid elements in the grid_subset structure)
44) full_wall : All edges defining walls, baffles, and targets
45) outer_sf_leg_entrance_1 : y-aligned edges defining the SOL entrance of the first snowflake outer leg
46) outer_sf_leg_entrance_2 : y-aligned edges defining the SOL entrance of the third snowflake outer leg
47) outer_sf_pfr_connection_1 : y-aligned edges defining the connection between the outer snowflake entrance and third leg
48) outer_sf_pfr_connection_2 : y-aligned edges defining the connection between the outer snowflake first and second leg
100) magnetic_axis : Point corresponding to the magnetic axis
101) outer_mid_plane_separatrix : Point on active separatrix at outer mid-plane
102) inner_mid_plane_separatrix : Point on active separatrix at inner mid-plane
103) outer_target_separatrix : Point on active separatrix at outer active target
104) inner_target_separatrix : Point on active separatrix at inner active target
105) outer_target_separatrix_2 : Point on non-active separatrix at outer non-active target
106) inner_target_separatrix_2 : Point on non-active separatrix at inner non-active target

em_coupling.grid_ggd[:].grid_subset[:].identifier.description

(alpha)

STR_0D

Verbose description

em_coupling.grid_ggd[:].grid_subset[:].identifier.index

(alpha)

INT_0D

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

em_coupling.grid_ggd[:].grid_subset[:].identifier.name

(alpha)

STR_0D

Short string identifier

em_coupling.grid_ggd[:].grid_subset[:].metric

(alpha)

STRUCTURE

Metric of the canonical frame onto Cartesian coordinates

em_coupling.grid_ggd[:].grid_subset[:].metric.jacobian

(alpha)

[em_coupling.grid_ggd[:].grid_subset[:].element]

FLT_1D (uncertain)

mixed

Metric Jacobian

em_coupling.grid_ggd[:].grid_subset[:].metric.tensor_contravariant

(alpha)

[em_coupling.grid_ggd[:].grid_subset[:].element,
1...N,
1...N]

FLT_3D (uncertain)

mixed

Contravariant metric tensor, given on each element of the subgrid (first dimension)

em_coupling.grid_ggd[:].grid_subset[:].metric.tensor_covariant

(alpha)

[em_coupling.grid_ggd[:].grid_subset[:].element,
1...N,
1...N]

FLT_3D (uncertain)

mixed

Covariant metric tensor, given on each element of the subgrid (first dimension)

em_coupling.grid_ggd[:].identifier

(alpha)

STRUCTURE

Grid identifier
0) unspecified : unspecified
1) linear : Linear
2) cylinder : Cylindrical geometry (straight in axial direction)
3) limiter : Limiter
4) SN : Single null
5) CDN : Connected double null
6) DDN_bottom : Disconnected double null with inner X-point below the midplane
7) DDN_top : Disconnected double null with inner X-point above the midplane
8) annulus : Annular geometry (not necessarily with straight axis)
9) stellarator_island : Stellarator island geometry
10) structured_spaces : Structured grid represented with multiple spaces of dimension 1
11) LFS_snowflake_minus : Snowflake grid with secondary x point on the low field side, and the secondary separatrix on top of the primary
12) LFS_snowflake_plus : Snowflake grid with secondary x point to the right of the primary, and the secondary separatrix below the primary
100) reference : Refers to a GGD described in another IDS indicated by grid_path. In such a case, do not fill the grid_ggd node of this IDS

em_coupling.grid_ggd[:].identifier.description

(alpha)

STR_0D

Verbose description

em_coupling.grid_ggd[:].identifier.index

(alpha)

INT_0D

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

em_coupling.grid_ggd[:].identifier.name

(alpha)

STR_0D

Short string identifier

em_coupling.grid_ggd[:].path

(alpha)

STR_0D

Path of the grid, including the IDS name, in case of implicit reference to a grid_ggd node described in another IDS. To be filled only if the grid is not described explicitly in this grid_ggd structure. Example syntax: IDS::wall/0/description_ggd(1)/grid_ggd, means that the grid is located in the wall IDS, occurrence 0, with relative path description_ggd(1)/grid_ggd, using Fortran index convention (here : first index of the array)

em_coupling.grid_ggd[:].space

(alpha)

[1...N]

STRUCT_ARRAY

Set of grid spaces

em_coupling.grid_ggd[:].space[:].coordinates_type

(alpha)

[1...N]

INT_1D

Type of coordinates describing the physical space, for every coordinate of the space. The size of this node therefore defines the dimension of the space. The meaning of these predefined integer constants can be found in the Data Dictionary under utilities/coordinate_identifier.xml

em_coupling.grid_ggd[:].space[:].geometry_type

(alpha)

STRUCTURE

Type of space geometry (0: standard, 1:Fourier, >1: Fourier with periodicity)

em_coupling.grid_ggd[:].space[:].geometry_type.description

(alpha)

STR_0D

Verbose description

em_coupling.grid_ggd[:].space[:].geometry_type.index

(alpha)

INT_0D

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

em_coupling.grid_ggd[:].space[:].geometry_type.name

(alpha)

STR_0D

Short string identifier

em_coupling.grid_ggd[:].space[:].identifier

(alpha)

STRUCTURE

Space identifier
0) unspecified : unspecified
1) primary_standard : Primary space defining the standard grid
2) primary_staggered : Primary space defining a grid staggered with respect to the primary standard space
3) secondary_structured : Secondary space defining additional dimensions that extend the primary standard space in a structured way

em_coupling.grid_ggd[:].space[:].identifier.description

(alpha)

STR_0D

Verbose description

em_coupling.grid_ggd[:].space[:].identifier.index

(alpha)

INT_0D

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

em_coupling.grid_ggd[:].space[:].identifier.name

(alpha)

STR_0D

Short string identifier

em_coupling.grid_ggd[:].space[:].objects_per_dimension

(alpha)

[1...N]

STRUCT_ARRAY

Definition of the space objects for every dimension (from one to the dimension of the highest-dimensional objects). The index correspond to 1=nodes, 2=edges, 3=faces, 4=cells/volumes, .... For every index, a collection of objects of that dimension is described.

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content

(alpha)

STRUCTURE

Content of the ../object/geometry node for this dimension
0) unspecified : unspecified
1) node_coordinates : For nodes : node coordinates
11) node_coordinates_connection : For nodes : node coordinates, then connection length, and distance in the poloidal plane to the nearest solid surface outside the separatrix
21) edge_areas : For edges : contains 3 surface areas after uniform extension in the third dimension of the edges. Geometry(1) and geometry(2) are the projections of that area along the local poloidal and radial coordinate respectively. Geometry(3) is the full surface area of the extended edge
31) face_indices_volume : For faces : coordinates indices (ix, iy) of the face within the structured grid of the code. The third element contains the volume after uniform extension in the third dimension of the faces
32) face_indices_volume_connection : For faces : coordinates indices (ix, iy) of the face within the structured grid of the code. The third element contains the volume after uniform extension in the third dimension of the faces. The fourth element is the connection length. The fifth element is the distance in the poloidal plane to the nearest solid surface outside the separatrix

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.description

(alpha)

STR_0D

Verbose description

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.index

(alpha)

INT_0D

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.name

(alpha)

STR_0D

Short string identifier

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object

(alpha)

[1...N]

STRUCT_ARRAY

Set of objects for a given dimension

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].boundary

(alpha)

[1...N]

STRUCT_ARRAY

Set of (n-1)-dimensional objects defining the boundary of this n-dimensional object

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].boundary[:].index

(alpha)

INT_0D

Index of this (n-1)-dimensional boundary object

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].boundary[:].neighbours

(alpha)

[1...N]

INT_1D

List of indices of the n-dimensional objects adjacent to the given n-dimensional object. An object may have multiple neighbours on a boundary

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry

(alpha)

[1...N]

FLT_1D (uncertain)

mixed

Geometry data associated with the object. Its detailed content is defined by ../../geometry_content. Its dimension depends on the type of object, geometry and coordinate considered.

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_2d

(alpha)

[1...N,
1...N]

FLT_2D (uncertain)

mixed

2D geometry data associated with the object. Its dimension depends on the type of object, geometry and coordinate considered. Typically, the first dimension represents the object coordinates, while the second dimension would represent the values of the various degrees of freedom of the finite element attached to the object.

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].measure

(alpha)

FLT_0D (uncertain)

m^dimension

Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,...)

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].nodes

(alpha)

[1...N]

INT_1D

List of nodes forming this object (indices to objects_per_dimension(1)%object(:) in Fortran notation)

em_coupling.ids_properties

(alpha)

STRUCTURE

Interface Data Structure properties. This element identifies the node above as an IDS

em_coupling.ids_properties.comment

(alpha)

STR_0D

Any comment describing the content of this IDS

em_coupling.ids_properties.creation_date

(alpha)

STR_0D

Date at which this data has been produced

em_coupling.ids_properties.homogeneous_time

(alpha)

INT_0D

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

em_coupling.ids_properties.name

(alpha)

STR_0D

User-defined name for this IDS occurrence

em_coupling.ids_properties.occurrence

INT_0D

em_coupling.ids_properties.occurrence_type

(alpha)

STRUCTURE

Type of data contained in this occurrence
1) reconstruction : Equilibrium reconstruction
2) prediction_fixed : Equilibrium prediction, fixed boundary
3) prediction_free : Equilibrium prediction, free boundary
4) mapping : Used for mapping equilibrium results from one grid type / resolution to another, or for including variables not present in the first set such as the calculation of magnetic field of other derived parameters

em_coupling.ids_properties.occurrence_type.description

(alpha)

STR_0D

Verbose description

em_coupling.ids_properties.occurrence_type.index

(alpha)

INT_0D

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

em_coupling.ids_properties.occurrence_type.name

(alpha)

STR_0D

Short string identifier

em_coupling.ids_properties.plugins

(alpha)

STRUCTURE

Information about the plugins used to write/read this IDS. This structure is filled automatically by the Access Layer at GET/PUT time, no need to fill it via a user program.

em_coupling.ids_properties.plugins.infrastructure_get

(alpha)

STRUCTURE

Plugin infrastructure used to GET the data

em_coupling.ids_properties.plugins.infrastructure_get.commit

(alpha)

STR_0D

Unique commit reference of software

em_coupling.ids_properties.plugins.infrastructure_get.description

(alpha)

STR_0D

Short description of the software (type, purpose)

em_coupling.ids_properties.plugins.infrastructure_get.name

(alpha)

STR_0D

Name of software used

em_coupling.ids_properties.plugins.infrastructure_get.repository

(alpha)

STR_0D

URL of software repository

em_coupling.ids_properties.plugins.infrastructure_get.version

(alpha)

STR_0D

Unique version (tag) of software

em_coupling.ids_properties.plugins.infrastructure_put

(alpha)

STRUCTURE

Plugin infrastructure used to PUT the data

em_coupling.ids_properties.plugins.infrastructure_put.commit

(alpha)

STR_0D

Unique commit reference of software

em_coupling.ids_properties.plugins.infrastructure_put.description

(alpha)

STR_0D

Short description of the software (type, purpose)

em_coupling.ids_properties.plugins.infrastructure_put.name

(alpha)

STR_0D

Name of software used

em_coupling.ids_properties.plugins.infrastructure_put.repository

(alpha)

STR_0D

URL of software repository

em_coupling.ids_properties.plugins.infrastructure_put.version

(alpha)

STR_0D

Unique version (tag) of software

em_coupling.ids_properties.plugins.node

(alpha)

[1...N]

STRUCT_ARRAY

Set of IDS nodes for which a plugin has been applied

em_coupling.ids_properties.plugins.node[:].get_operation

(alpha)

[1...N]

STRUCT_ARRAY

Plugins actually used to read back a node (potentially, multiple plugins can be applied, listed in reverse order of application). This information is filled by the plugin infrastructure during the GET operation.

em_coupling.ids_properties.plugins.node[:].get_operation[:].commit

(alpha)

STR_0D

Unique commit reference of software

em_coupling.ids_properties.plugins.node[:].get_operation[:].description

(alpha)

STR_0D

Short description of the software (type, purpose)

em_coupling.ids_properties.plugins.node[:].get_operation[:].name

(alpha)

STR_0D

Name of software used

em_coupling.ids_properties.plugins.node[:].get_operation[:].parameters

(alpha)

STR_0D

List of the code specific parameters in XML format

em_coupling.ids_properties.plugins.node[:].get_operation[:].repository

(alpha)

STR_0D

URL of software repository

em_coupling.ids_properties.plugins.node[:].get_operation[:].version

(alpha)

STR_0D

Unique version (tag) of software

em_coupling.ids_properties.plugins.node[:].path

(alpha)

STR_0D

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

em_coupling.ids_properties.plugins.node[:].put_operation

(alpha)

[1...N]

STRUCT_ARRAY

Plugins used to PUT a node (potentially, multiple plugins can be applied, if so they are listed by order of application)

em_coupling.ids_properties.plugins.node[:].put_operation[:].commit

(alpha)

STR_0D

Unique commit reference of software

em_coupling.ids_properties.plugins.node[:].put_operation[:].description

(alpha)

STR_0D

Short description of the software (type, purpose)

em_coupling.ids_properties.plugins.node[:].put_operation[:].name

(alpha)

STR_0D

Name of software used

em_coupling.ids_properties.plugins.node[:].put_operation[:].parameters

(alpha)

STR_0D

List of the code specific parameters in XML format

em_coupling.ids_properties.plugins.node[:].put_operation[:].repository

(alpha)

STR_0D

URL of software repository

em_coupling.ids_properties.plugins.node[:].put_operation[:].version

(alpha)

STR_0D

Unique version (tag) of software

em_coupling.ids_properties.plugins.node[:].readback

(alpha)

[1...N]

STRUCT_ARRAY

Plugins to be used to read back a node (potentially, multiple plugins can be applied, listed in reverse order of application)

em_coupling.ids_properties.plugins.node[:].readback[:].commit

(alpha)

STR_0D

Unique commit reference of software

em_coupling.ids_properties.plugins.node[:].readback[:].description

(alpha)

STR_0D

Short description of the software (type, purpose)

em_coupling.ids_properties.plugins.node[:].readback[:].name

(alpha)

STR_0D

Name of software used

em_coupling.ids_properties.plugins.node[:].readback[:].parameters

(alpha)

STR_0D

List of the code specific parameters in XML format

em_coupling.ids_properties.plugins.node[:].readback[:].repository

(alpha)

STR_0D

URL of software repository

em_coupling.ids_properties.plugins.node[:].readback[:].version

(alpha)

STR_0D

Unique version (tag) of software

em_coupling.ids_properties.provenance

(alpha)

STRUCTURE

Provenance information about this IDS

em_coupling.ids_properties.provenance.node

(alpha)

[1...N]

STRUCT_ARRAY

Set of IDS nodes for which the provenance is given. The provenance information applies to the whole structure below the IDS node. For documenting provenance information for the whole IDS, set the size of this array of structure to 1 and leave the child "path" node empty

em_coupling.ids_properties.provenance.node[:].path

(alpha)

STR_0D

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

em_coupling.ids_properties.provenance.node[:].sources

(alpha)

[1...N]

STR_1D

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

em_coupling.ids_properties.provider

(alpha)

STR_0D

Name of the person in charge of producing this data

em_coupling.ids_properties.source

(obsolescent)

STR_0D

Source of the data (any comment describing the origin of the data : code, path to diagnostic signals, processing method, ...). Superseeded by the new provenance structure.

em_coupling.ids_properties.version_put

(alpha)

STRUCTURE

Version of the access layer package used to PUT this IDS

em_coupling.ids_properties.version_put.access_layer

(alpha)

STR_0D

Version of Access Layer used to PUT this IDS

em_coupling.ids_properties.version_put.access_layer_language

(alpha)

STR_0D

Programming language of the Access Layer high level API used to PUT this IDS

em_coupling.ids_properties.version_put.data_dictionary

(alpha)

STR_0D

Version of Data Dictionary used to PUT this IDS

em_coupling.mutual_active_active

(alpha)

[em_coupling.active_coils,
em_coupling.active_coils]

FLT_2D (uncertain)

H

Mutual inductance coupling from active coils to active coils

em_coupling.mutual_loops_active

(alpha)

[em_coupling.flux_loops,
em_coupling.active_coils]

FLT_2D (uncertain)

H

Mutual inductance coupling from active coils to flux loops

em_coupling.mutual_loops_passive

(alpha)

[em_coupling.flux_loops,
em_coupling.passive_loops]

FLT_2D (uncertain)

H

Mutual inductance coupling from passive loops to flux loops

em_coupling.mutual_loops_plasma

(alpha)

[em_coupling.flux_loops,
em_coupling.plasma_elements]

FLT_2D (uncertain)

H

Mutual inductance from plasma elements to poloidal flux loops

em_coupling.mutual_passive_active

(alpha)

[em_coupling.passive_loops,
em_coupling.active_coils]

FLT_2D (uncertain)

H

Mutual inductance coupling from active coils to passive loops

em_coupling.mutual_passive_passive

(alpha)

[em_coupling.passive_loops,
em_coupling.passive_loops]

FLT_2D (uncertain)

H

Mutual inductance coupling from passive loops to passive loops

em_coupling.mutual_plasma_active

(alpha)

[em_coupling.plasma_elements,
em_coupling.active_coils]

FLT_2D (uncertain)

H

Mutual inductance coupling from active coils to plasma elements

em_coupling.mutual_plasma_passive

(alpha)

[em_coupling.plasma_elements,
em_coupling.passive_loops]

FLT_2D (uncertain)

H

Mutual inductance coupling from passive loops to plasma elements

em_coupling.mutual_plasma_plasma

(alpha)

[em_coupling.plasma_elements,
em_coupling.plasma_elements]

FLT_2D (uncertain)

H

Mutual inductance coupling from plasma elements to plasma elements

em_coupling.passive_loops

(alpha)

[pf_passive.loop]

STR_1D

List of URIs of the passive loops considered in the IDS

em_coupling.plasma_elements

(alpha)

[pf_plasma.element]

STR_1D

List of URIs of the plasma elements considered in the IDS

em_coupling.time

(alpha)

[1...N]

FLT_1D_TYPE

s

Generic time