HgTrans translates solver results files from their native file format to Altair Binary Format (ABF). This can be done using
the HgTrans GUI or via the HgTrans batch mode.
The HWTK GUI Toolkit is a resource tool for coding Tcl/Tk dialogs. It contains documentation of the HWTK GUI Toolkit commands, demo pages that illustrate our Altair GUI standards, and sample code for creating those examples.
The Model Identification Tool (MIT) is a profile in HyperGraph for fitting test data from frequency- and amplitude-dependent bushings to analytical models. The MIT operates in conjunction with HyperGraph, MotionView and MotionSolve to provide you with a comprehensive solution for modeling and analysis.
Use the View Data tab to specify, plot and view your data. The tab is divided into three working sections: Dynamic
Data, Static Data, and Curve and Plot Properties. A fourth section displays a static image of the Conceptual Cubic.
The Filter Data tab provides options to filter experimental data. You can use this tab to remove certain frequency,
amplitude or preload data from the experiment.
The Altair Bushing Model is a library of sophisticated, frequency- and amplitude-dependent bushing models that you can use for
accurate vehicle dynamics, durability and NVH simulations. The Altair Bushing Model supports both rubber bushings and hydromounts.
This section provides information about using the Altair Bushing Model, also known as AutoBushFD, with MotionView. The Altair Bushing Model is a sophisticated model that you can use to simulate the behavior of bushings in vehicle
dynamics, durability and NVH simulations.
The HyperWorks Automation Toolkit (HWAT) is a collection of functions and widgets that allows an application to quickly assemble
HyperWorks automations with minimal effort and maximum portability.
The Model Identification Tool (MIT) is a profile in HyperGraph for fitting test data from frequency- and amplitude-dependent bushings to analytical models. The MIT operates in conjunction with HyperGraph, MotionView and MotionSolve to provide you with a comprehensive solution for modeling and analysis.
This section explains how to use the features in HWTK GUI Toolkit.
Select Data
Use the Select Data tab to specify the input data for your project.
View Data
Use the View Data tab to specify, plot and view your data. The tab is divided into three working sections: Dynamic Data, Static Data, and Curve and Plot Properties. A fourth section displays a static image of the Conceptual Cubic.
Filter Data
The Filter Data tab provides options to filter experimental data. You can use this tab to remove certain frequency, amplitude or preload data from the experiment.