Browsers provide a structured view of model data, which you can use to review, modify, create, and manage
the contents of a model. In addition to visualization, browsers offer features like search, filtering, and sorting,
which enhance your ability to navigate and interact with the model data.
FE geometry is topology on top of mesh, meaning CAD and mesh exist as a single entity. The purpose of FE geometry
is to add vertices, edges, surfaces, and solids on FE models which have no CAD geometry.
Tools and workflows that are dedicated to rapidly creating new parts for specific use cases, or amending existing
parts. The current capabilities are focused on stiffening parts.
Use the Ejection Mitigation (EM) tool for the automatic target marking according to FMVSS-226 rules, automatic positioning
of the headform impactor, and the automatic export of ready-to-run solver decks for all of the selected impact locations.
Use the IP Impact tools to automatically calculate the instrument panel (IP) testing area according to the regulations
FMVSS201 and ECE-R21, position the headform impactor, and export ready-to-run solver decks for all the selected impact
locations.
The Pedestrian Impact tool automates the vehicle marking, impactors positioning and the export of solver decks with minimal
input, therefore reducing the full process lead time.
The Vehicle Safety Tools preference file contains templates to plot IIHS front intrusion and IIHS side structure intrusion
plots for Radioss and LS-DYNA files.
The Compare Time History diagnostic tool consists of two pages. On the first page, the input data files, such as plot,
result, and FE files, are selected. Page two contains the data needed to compare the reference files and comparison
files.
Allows you to transform vector results from a time history or animation result files according to a coordinate system
defined by three nodes from the same result file.
The MPDB tool offers a complete automated post processing solution of the MPDB Frontal Compatibility Assessment load case,
for Radioss and LS-DYNA output files. It also has the capability to do the MPDB compatibility assessment for physical test data (scanned data)
written out in STL format.
Use PhysicsAI to build fast predictive models from CAE data. PhysicsAI can be trained on data with any physics or
remeshing and without design variables.
Explore, organize and manage your personal data, collaborate in teams, and connect to other data sources, such as
corporate PLM systems to access CAD data or publish simulation data.
The Compare Time History diagnostic tool consists of two pages. On the first page, the input data files, such as plot,
result, and FE files, are selected. Page two contains the data needed to compare the reference files and comparison
files.
The Compare Time History diagnostic tool consists of two pages. On the first page,
the input data files, such as plot, result, and FE files, are selected. Page two contains
the data needed to compare the reference files and comparison files.
Input Data Files
Load Model and Results
The diagnostic tool supports two solvers, Radioss and LS-DYNA.
From the File Type drop-down list, select the type of solver files to be
compared.
Reference Files
From this section, select the plot file (Time History File), FE (model)
File and Result File. The plot file is mandatory.
Comparison Files
From this section, select the plot file (Time History File) and Result
File. The plot file is mandatory.
Click the add button to add more than one set of comparison files (time
history and result files).
To delete a single set of comparison files, activate the check box for
the set of files you want to remove and click the single delete
button.
To delete all comparison file entries from the GUI, activate the check
boxes for all comparison file sets and click the delete all button.
After selecting the input files, click Load. A
page is added to the session and three windows are created on the same
page.
The first window is a HyperGraph window.
HyperMesh is loaded into the second window.
If a model file is specified, the FE model is loaded.
HyperView is loaded into the third window.
If result files (Reference Comparison files) are specified, those are
loaded into the HyperView window.
Click Load Defaults to select the model compare
default (*.def) files.
In this case, you do not need to select the files individually through
the application.
A sample def file is shown below:
Next
Click Next to go to the page tool of the Compare
Time History tool.
Close
Click Close to close the tool.
Compare Data
Result Type
From the Result Type drop-down list, select the Y-Types available for
the reference file specified on page one.
Result Request
From the list provided, select single or multiple Y-Requests for
comparison.
Click to select all of the elements listed.
Click to clear all of your current
selections.
Click to select the reverse of the currently
selected items.
Click to dislay the item in the graphics area.
This selection affects each item’s local display control. You can also
use this on the entire folder. In such cases, this shows all of the
items within that folder (all components for example, etc.).
Click to turn off the item in the graphics area.
This selection affects each item’s local display control. You can also
use this on the entire folder. In such cases, this hides all of the
items within that folder (all components for example, etc.).
Click to works locally within a specific entity
type. For example, if Component(s) are isolated, then all display states
of other displayable entities (such as Systems) remain untouched.
Isolate displays only the selected entities, turning their display state
to on, and turning all other entities of the same type off.
Click to display selected plots in the HyperGraph
window. If you do not want to see the plots on the graphics, deselect
the button. This button is on by default.
Click to display selected entities from the list
box in a HyperView window. If you do not want to see the entities on the
graphics, deselect the button. This button is on by default.
Click to display selected entities from list box
in a HyperMesh window. If you do not want to see the entities on the
graphics, deselect the button. This button is on by default.
Right-click on an element listed to display the context sensitive
menu:
Compare > At max Value
Compare > Every Time Step
Click the expansion button, , to undock the request list box
from the GUI.
Result Component
From the drop-down list, select a Y-Component. The list is automatically
updated upon selecting items from the Y-Requests list box, with respect
to the Y-Type selected.
Threshold Limit
To compare the reference file data with comparison file data, input a
threshold value.
Comparison Results
A tree structure is displayed, if any number of y-requests violate the
threshold limit values while comparing.
Click to select all of the root-children present
in the compared results.
Click to deselect all of the root-children
present in the compared results.
Click to reverse the selected root-children
present in the compared results.
Parts missing in comparison file
The files displayed are the Y-Requests missing from the comparison file
when compared to the Y-Requests in reference file.
Back
Click Back to go back to page one.
Save Defaults
Click Save Defaults to save the data from pages
one and two.
Note: To save the Y-requests in the default file, select the
items from request list box.
The first time you click Save Defaults for the
same session, the tool prompts you for a file location to save the
*.def file.
Clicking on the button a second time displays the following dialogue:
Click Yes to append the DEF file.
If you click No, it will prompt you to save a new
DEF file.
Load Defaults
Click Load Defaults to load a
*.def file from the file browser window.