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Paraview linux6/22/2023 It was not possible to read geometry from a METADB file. unv files.Ĭalculation of Major Principal Strain result for solid elements was not correct when the primary Strain results were stored in a METADB file. d3plot file.Įrroneous values for Rigid Elements were written during output of Stress results in. Saving curves in ISO TS13499 format was not operating properly in versions 23.0.x and 23.1.0.įailed elements were not saved as expected, when exporting a. Now they are correctly calculated in both 2D plot and 3D labels. Regarding Modal Response, Structural Modal Participation plot settings were wrongly taken from the corresponding fluid participation settings instead of the structural and Modal Response results in normal direction. META would hang when reading geometry results from files located on network drive on Linux OS.įocusing on FRF Assembly, in case the TPA input files for forces and transfer functions contained data at 0Hz with zero values, connection forces, transfer functions, and point mobilities were not displayed for any frequency. As for FEMZIP, META would cease to respond when switching to Results tab, in case of adaptive remeshing. Results from binout files with double precision would not be read as expected. Cross section planes would not be transformed properly, whereas vector tensor results for solids would not be read correctly. Unexpected termination could occur when reading ParaView VTK files. nas files could not be read on Windows OS, whereas strain scalar results from NX-Nastran were not read properly. "Time" abscissa for transient results in. Unexpected error would occur in the sensitivities' calculation of an MFREQ subcase with zero load. In specific, requesting RVDOF in 900 DOFs, the overall time was reduced from 2h:40m to 25m.ĮPILYSIS would stop operating in case of NSM on 2nd order shells with deleted nodes.įurthermore, unexpected termination would occur in machines with very large memory, when "IN ANSA" option was used to run the solver. An overall acceleration of up to 5 times has been tracked for typical ECAD cases.Ī significant speed-up has been achieved in cases where multiple RESVECS were requested. The performance of trace mapping is now significantly improved. Regarding 4-Sided Patterns, significant improvement on preserving the initial curvature of FE surface mesh while remeshing, has taken place.Īs for the Structured Mesh and, specifically, Extrude, the function would produce duplicate elements when the "Both sides" option was used for Direction.Īs for the Volumes and specifically for Conv2Poly function, negative Volume elements would be generated at the interface between Unstructured and Structured Mesh.ĪNSA could cease to respond during input of LS-DYNA solver files that contained both ANSA and FATXML comments.įocusing on Results Mapper, unexpected termination could occur during the mesh alignment when manual positioning, interactive manipulation, of source data for a USER format file.Ĭoncerning Renumber, unexpected termination would occur in Abaqus and Pam-Crash solver interfaces. The creation process of Curves could lead ANSA to freeze, when "Draw shell as solid" was activated.Ībrupt termination could occur when Quad element type (Pattern ) was applied on a macro area with neighboring unmeshed and frozen macro areas. The Lifecycle Graph for Simulation Runs would not be correctly drawn in cases of links based on the history links of the contained Simulation Model and Loadcase. Moreover, in case of consecutive runs of CAD to ANSA process, an erroneous indication for the currently alive runs might have led to partially incomplete translations. Regarding Input model definition, the performance of parsing JT files has been accelerated to half the operating time. A representative example is the acceleration in the "Dynamic" selection mode of the Measure. Real time performance upon mouse-hovering is now achieved.
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