ImageMesh

Generated mesh with the aspect ratio of a given image stack.

Description

The ImageMesh object is a convenience tool for setting up a mesh to match the pixel structure of a two or three dimensional image. It is generally used in union with the ImageFunction object to perform simulations that rely on image data, such as setting up an initial condition of a grain structure. By default the generated mesh is sized to the dimensions of the images and creates one element per pixel.

Example Syntax

[Mesh]
  type = ImageMesh
  dim = 3
  file_base = stack/test
  file_suffix = png
[]
(../moose/test/tests/functions/image_function/image_mesh_3d.i)

Input Parameters

  • file_suffixSuffix of the file to open, e.g. 'png'

    C++ Type:std::string

    Description:Suffix of the file to open, e.g. 'png'

  • zmax1Upper Z Coordinate of the generated mesh

    Default:1

    C++ Type:double

    Description:Upper Z Coordinate of the generated mesh

  • zmin0Lower Z Coordinate of the generated mesh

    Default:0

    C++ Type:double

    Description:Lower Z Coordinate of the generated mesh

  • parallel_typeDEFAULTDISTRIBUTED: Always use libMesh::DistributedMesh REPLICATED: Always use libMesh::ReplicatedMesh DEFAULT: Use libMesh::ReplicatedMesh unless --distributed-mesh is specified on the command line

    Default:DEFAULT

    C++ Type:MooseEnum

    Description:DISTRIBUTED: Always use libMesh::DistributedMesh REPLICATED: Always use libMesh::ReplicatedMesh DEFAULT: Use libMesh::ReplicatedMesh unless --distributed-mesh is specified on the command line

  • fileName of single image file to extract mesh parameters from. If provided, a 2D mesh is created.

    C++ Type:FileName

    Description:Name of single image file to extract mesh parameters from. If provided, a 2D mesh is created.

  • allow_renumberingTrueIf allow_renumbering=false, node and element numbers are kept fixed until deletion

    Default:True

    C++ Type:bool

    Description:If allow_renumbering=false, node and element numbers are kept fixed until deletion

  • xmin0Lower X Coordinate of the generated mesh

    Default:0

    C++ Type:double

    Description:Lower X Coordinate of the generated mesh

  • ymin0Lower Y Coordinate of the generated mesh

    Default:0

    C++ Type:double

    Description:Lower Y Coordinate of the generated mesh

  • ymax1Upper Y Coordinate of the generated mesh

    Default:1

    C++ Type:double

    Description:Upper Y Coordinate of the generated mesh

  • bias_z1The amount by which to grow (or shrink) the cells in the z-direction.

    Default:1

    C++ Type:double

    Description:The amount by which to grow (or shrink) the cells in the z-direction.

  • nx1Number of elements in the X direction

    Default:1

    C++ Type:unsigned int

    Description:Number of elements in the X direction

  • ny1Number of elements in the Y direction

    Default:1

    C++ Type:unsigned int

    Description:Number of elements in the Y direction

  • nz1Number of elements in the Z direction

    Default:1

    C++ Type:unsigned int

    Description:Number of elements in the Z direction

  • ghosting_patch_sizeThe number of nearest neighbors considered for ghosting purposes when 'iteration' patch update strategy is used. Default is 5 * patch_size.

    C++ Type:unsigned int

    Description:The number of nearest neighbors considered for ghosting purposes when 'iteration' patch update strategy is used. Default is 5 * patch_size.

  • max_leaf_size10The maximum number of points in each leaf of the KDTree used in the nearest neighbor search. As the leaf size becomes larger,KDTree construction becomes faster but the nearest neighbor searchbecomes slower.

    Default:10

    C++ Type:unsigned int

    Description:The maximum number of points in each leaf of the KDTree used in the nearest neighbor search. As the leaf size becomes larger,KDTree construction becomes faster but the nearest neighbor searchbecomes slower.

  • elem_typeThe type of element from libMesh to generate (default: linear element for requested dimension)

    C++ Type:MooseEnum

    Description:The type of element from libMesh to generate (default: linear element for requested dimension)

  • file_baseImage file base to open, use this option when a stack of images must be read (ignored if 'file' is given)

    C++ Type:FileNameNoExtension

    Description:Image file base to open, use this option when a stack of images must be read (ignored if 'file' is given)

  • cells_per_pixel1The number of mesh cells per pixel, must be <=1

    Default:1

    C++ Type:double

    Description:The number of mesh cells per pixel, must be <=1

  • file_rangeRange of images to analyze, used with 'file_base' (ignored if 'file' is given)

    C++ Type:std::vector

    Description:Range of images to analyze, used with 'file_base' (ignored if 'file' is given)

  • scale_to_oneTrueWhether or not to scale the image so its max dimension is 1

    Default:True

    C++ Type:bool

    Description:Whether or not to scale the image so its max dimension is 1

  • bias_x1The amount by which to grow (or shrink) the cells in the x-direction.

    Default:1

    C++ Type:double

    Description:The amount by which to grow (or shrink) the cells in the x-direction.

  • bias_y1The amount by which to grow (or shrink) the cells in the y-direction.

    Default:1

    C++ Type:double

    Description:The amount by which to grow (or shrink) the cells in the y-direction.

  • gauss_lobatto_gridFalseGrade mesh into boundaries according to Gauss-Lobatto quadrature spacing.

    Default:False

    C++ Type:bool

    Description:Grade mesh into boundaries according to Gauss-Lobatto quadrature spacing.

  • xmax1Upper X Coordinate of the generated mesh

    Default:1

    C++ Type:double

    Description:Upper X Coordinate of the generated mesh

Optional Parameters

  • partitionerdefaultSpecifies a mesh partitioner to use when splitting the mesh for a parallel computation.

    Default:default

    C++ Type:MooseEnum

    Description:Specifies a mesh partitioner to use when splitting the mesh for a parallel computation.

  • centroid_partitioner_directionSpecifies the sort direction if using the centroid partitioner. Available options: x, y, z, radial

    C++ Type:MooseEnum

    Description:Specifies the sort direction if using the centroid partitioner. Available options: x, y, z, radial

Partitioning Parameters

  • enableTrueSet the enabled status of the MooseObject.

    Default:True

    C++ Type:bool

    Description:Set the enabled status of the MooseObject.

  • patch_update_strategyneverHow often to update the geometric search 'patch'. The default is to never update it (which is the most efficient but could be a problem with lots of relative motion). 'always' will update the patch for all slave nodes at the beginning of every timestep which might be time consuming. 'auto' will attempt to determine at the start of which timesteps the patch for all slave nodes needs to be updated automatically.'iteration' updates the patch at every nonlinear iteration for a subset of slave nodes for which penetration is not detected. If there can be substantial relative motion between the master and slave surfaces during the nonlinear iterations within a timestep, it is advisable to use 'iteration' option to ensure accurate contact detection.

    Default:never

    C++ Type:MooseEnum

    Description:How often to update the geometric search 'patch'. The default is to never update it (which is the most efficient but could be a problem with lots of relative motion). 'always' will update the patch for all slave nodes at the beginning of every timestep which might be time consuming. 'auto' will attempt to determine at the start of which timesteps the patch for all slave nodes needs to be updated automatically.'iteration' updates the patch at every nonlinear iteration for a subset of slave nodes for which penetration is not detected. If there can be substantial relative motion between the master and slave surfaces during the nonlinear iterations within a timestep, it is advisable to use 'iteration' option to ensure accurate contact detection.

  • control_tagsAdds user-defined labels for accessing object parameters via control logic.

    C++ Type:std::vector

    Description:Adds user-defined labels for accessing object parameters via control logic.

  • nemesisFalseIf nemesis=true and file=foo.e, actually reads foo.e.N.0, foo.e.N.1, ... foo.e.N.N-1, where N = # CPUs, with NemesisIO.

    Default:False

    C++ Type:bool

    Description:If nemesis=true and file=foo.e, actually reads foo.e.N.0, foo.e.N.1, ... foo.e.N.N-1, where N = # CPUs, with NemesisIO.

  • construct_node_list_from_side_listTrueWhether or not to generate nodesets from the sidesets (usually a good idea).

    Default:True

    C++ Type:bool

    Description:Whether or not to generate nodesets from the sidesets (usually a good idea).

  • patch_size40The number of nodes to consider in the NearestNode neighborhood.

    Default:40

    C++ Type:unsigned int

    Description:The number of nodes to consider in the NearestNode neighborhood.

Advanced Parameters

  • dimThe dimension of the mesh to be generated

    C++ Type:MooseEnum

    Description:The dimension of the mesh to be generated

Main Parameters