<output>
- <output> - <general> - <frozen_surface_geometry>
-
- true
- The “frozen geometry” output combines the geometry inside the Overset Mesh region at its initial state with the associated transient data. This facilitates the creation of dB maps for rotating geometries and advanced other data processing. Additional *_frozenGeometry.geo, *_frozenGeometry.case, and *_frozenGeometry.sos files are created for the general surface output. The *.data files are reused from the rotating (non-frozen) output.
- false (default)
- <output>- <general> - <merge_output_files>
-
- true
- You are provided the option to merge only a subset of output files. When set to true, activates the multi-node EnSight output of the specific category/instance that should be merged after the simulation has finished. Can be used on section_cut, partial_surface, partial_volume and visual output of monitoring_surface.
- false (default)
- <output> - <partial_surface> - <partial_surface_instance> - <frozen_surface_geometry>
-
- true
- Similar to the general surface output, the “frozen geometry” output for partial surfaces combines the geometry inside the Overset Mesh region at its initial state with the associated transient data. Additional *_frozenGeometry.geo, *_frozenGeometry.case, and *_frozenGeometry.sos files are created for the respective partial surface output. The *.data files are reused from the rotating (non-frozen) output.
- false (default)
- <max_relative_edge_length>
- <output>- <high_fidelity_mapping>
-
- true
- When activated, the triangles on the surface which it is applied to are split to the local voxel’s size (temporarily). The average of the quantities are used to calculate the value on the coarse input triangle (from the fine internally created voxels, weighted with the fine triangles’ area). The information is propagated back to the coarse input triangles. Applying HFM on a surface does incur computational cost and should be applied with caution as such.
- false (default)
- <output>- <high_fidelity_mapping> - <high_fidelity_mapping_instance>
-
- true
- Similar to the general surface output, the high fidelity mapping on a specific surface. When activated, the triangles on the surface which it is applied to are split to the local voxel’s size (temporarily). The average of the quantities are used to calculate the value on the coarse input triangle (from the fine internally created voxels, weighted with the fine triangles’ area). The information is propagated back to the coarse input triangles.
- false (default)
- <max_relative_edge_length>
- <parts> <name>
- The part(s) on which the high fidelity mapping should be output. Several parts can be called in the same instance. The specified names must exactly match the respective part names in the STL file.
- <output>- <general> - <mesh_displacement>
-
- true
- If set to true, mesh displacement will be written out. Can be used everywhere except for monitoring surfaces and probe output.
- false (default)
- <output>- <general> - <time_varying_geometry_output>
-
- true (default)
- If set to true, time varying geometry output will be written out.
- false
Note: If time_varying_geometry_output is set to false, the geometry is exported at iter=0 and new geo files are not written every time the output is called.