Complex Results
For detailed information about complex results, refer to Complex Results.
View new features for HyperView 2022.
Learn the basics and discover the workspace.
Discover HyperView functionality with interactive tutorials.
Explore the various display and visualization tools.
Create and import/export sets, create user defined coordinate systems, or use the symmetry visualization tool.
Explore the various result plotting tools.
Annotate model results using the Measures, Notes, Tracing, Image Planes, and Build Plots tools.
From the Tools menu, you can access various panels and dialogs.
From the Preferences menu, you can define file export settings and access the Options dialog.
The Aerospace menu provides you with access to various aerospace tools.
The NVH menu provides you with access to various NVH utilities.
The Vehicle Safety Tools (VST) is a collection of over 200 macros, Templex functions, and external functions for use by a vehicle safety engineer.
A new workflow emphasizing upfront data loading for standard crash post processing use cases.
Supported solvers in HyperView.
When you select a model or results file, HyperView automatically detects the file type and selects the proper reader to import the data.
Overview of how the HyperView applications interface with the Abaqus solver.
The ODB Reader supports multiple versions of Abaqus ODB results files.
The ODB data structure is designed as parts and instances.
HyperView supports both field and history data from the Abaqus ODB file.
The HyperView ODB reader can be customized by using the Reader Options dialog in the Load Model panel.
The Contour panel in HyperView has contour options for FEA results.
In general, HyperView supports tensor results in global, analysis, and elemental (Nastran-like) systems.
Default option in Abaqus. If the ODB file contains only integration point results, the ODB reader in HyperView extrapolates the results to the element corner nodes in addition to the results for the integration points.
HyperView supports surface results that are available in ODB for shell and solid element.
In the Animation client, either the Abaqus INP or ODB file can be loaded for model data.
Overview of how the HyperView applications interface with the ADAMS solver.
Overview of how the HyperView applications interface with the ADVC solver.
Overview of how the HyperView applications interface with Animator DB.
Overview of how the HyperView applications interface with the ANSYS solver.
Overview of how the HyperView applications interface with the I-DEAS solver.
Overview of how the HyperView applications interface with the LS-DYNA solver.
Overview of how the HyperView applications interface with the LS-NIKE3D solver.
Overview of how the HyperView applications interface with the MADYMO solver.
Overview of how the HyperView applications interface with the MARC solver.
Overview of how the HyperView applications interface with Moldflow.
Overview of how the HyperView applications interface with the Nastran solver.
Overview of how the HyperView applications interface with the OptiStruct solver.
Overview of the HyperViewnSOFT interface.
Overview of how the HyperView applications interface with the PAM-CRASH 2G solver.
Overview of how the HyperView applications interface with the Radioss solver.
AcuSolve results for steady state, transient and moving/deforming mesh analyses can be imported and post-processed using the AcuSolve Reader (*.log) in HyperView.
Load post-processing files using the Load Model panel.
HyperView help for HyperWorks.
Supported solvers in HyperView.
Overview of how the HyperView applications interface with the Abaqus solver.
HyperView supports both field and history data from the Abaqus ODB file.
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