2024
Discover HyperStudy functionality with interactive tutorials.
View new features for HyperStudy 2024.
Learn the basics and discover the workspace.
Learn how to access and download required model files.
Learn how to set up DOEs using different methods and then compare methods for accuracy and efficiency.
Learn how to run a simple DOE study on a cantilever beam to examine the influence of the length, width, and height of the beam on its volume, maximum bending stress, and deflection.
In this tutorial, you will learn how to build a predictive model (Fit) for an application where only design data in a Microsoft Excel spreadsheet is available (that is, no simulation model exists).
Learn how to perform an optimization study for an application where only design data in a .csv file is available (that is no simulation model exists).
Learn perform a Principle Component Analysis of a cantilever ibeam using a D-Optimal DOE.
Learn how to use a DOE to investigate the effects of the cross sectional dimensions and joint stiffness of a truss structure’s volume and natural frequencies.
Access additional solver tutorials through Altair Connect.
Create, open, import, and save models.
A study is a self-contained project in which models, variables, output responses, and approaches are defined.
Each approach in HyperStudy serves a different purpose in the design study.
Customize HyperStudy by registering solver scripts, functions, and optimizers, and defining user preferences files.
Keyboard shortcuts used to access HyperStudy features.
This section provides quick responses to typical and frequently asked questions regarding HyperStudy.
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