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ABAQUS PARAVIEW SOFTWARE
It has a strong focus on image processing.ģD Reconstruction Software based on the AliceVision framework, which uses photogrammetry method to reconstruct models from photos. IDL is a programming language, but also provides a development environment for the analysis and visualization of scientific data. for results data from ANSYS products, OpenFoam, StarCCM+ and many other sources.ĬOMSOL Multiphysics is a finite element analysis, solver and simulation software/FEA software package for various physics and engineering applications, especially for coupled phenomena, and multi physics.
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product) can be used as a powerful, fully parallelized postprocessor for cross-software-vendor dataset comparisons, e.g. which contains Pre-/Postprocessors for structural mechanics and fluid dynamics software (APDL, CFX, Fluent) ĪNSYS Ensight (formerly known as CEI Inc.
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This might change with the announced future ANSYS support for Ubuntu LTS in later 2022.Ĭomplete software suite of ANSYS Inc. ANSYS Meshing is based on ANSYS Workbench, and due to the selection of Ubuntu Linux as the OS of the RVS_2021 machines the ANSYS Workbench is guaranteed not to run on these systems. ICEM/CFD Hexa/Tetra Meshing Tool ANSYS Fluent Meshing (a whole suite of parallel mesh generation tools for tet/prism, polyhedral, hex-dominant and combined MOSAIC meshing technology). A graphical user interface or a script language is used to combine modules into an application.ĪNSYS Pre-/Postprocessing Tools (CFD-Post, Fluent, Ensight)
ABAQUS PARAVIEW WINDOWS
Not sure if when connecting remotely with Microsoft Remote Desktop from a Windows computer the issue will be present.The Pre-/Postprocessor of Dassault Systems Abaqus structural mechanics solver (Abaqus CAE)Ĭreation of visualization and analysis applications with a focus on data from the life sciences and medicine. When running the script directly on the computer figures are fine (i.e., the cube looks like a cube). The issue happens even when using a Python script for generating the figures to avoid opening the user interface.
ABAQUS PARAVIEW UPDATE
UPDATE 2: I confirmed the issue indeed happens when connecting remotely with Microsoft Remote Desktop from my Mac computer. I guess the cause is the remote desktop because some software behaves differently and the visualization software Paraview just won't open. After closing Abaqus in that Windows machine, then using it in a second Windows machine, then back again in the first Windows machine now I see the cube as a cube. It seems the issue appears when I use Abaqus from the remote desktop. I have been working remotely and connecting to a Windows machie with Abaqus via the Microsoft Remote Desktop (from a Mac mini). UPDATE: I think the issue solved by itself. But again I don't know how it was applied. If I know what the scaling factor is, I could just set the sclaing to cancel out that scaling factor. If I check the box ans set all coordinates to 1, there are no changes. Something that gave me some hope is that in the visualization "Common Plot Option", in the tab Other, in the tab Scaling, there is an uncheck box with the option "Scale coordinates". Even if I open the odb file from which I got the images that actually show the cube, now show a rectangular prism. I also tried to open and close Abacus in case it was something particular of the simulation, but I still see the scaling in the axes. I have tried to look for options that are related to the scaling of the axis within Abaqus without success. I don't know how this happened if my simulation is done using the script and I did not set any changes in how the results are displayed nor I did this when exporting the images. If I go to Part or Assembly or Mesh, I will see a rectangular prism instead of a cube. So I guess there is some sort of scaling applied to the axes. But now, when I see the results in the Visualization module, the cube looks like a rectangular prism. A day later, I ran the same Python script but changed one parameter (maximum displacement applied). So I saved some images from the Visualization module showing the strain distribution in the cube. I ran a the simulation using a Python script, for which results look fine. I am using Abaqus and performing a simulation in a cube with some particles inside.