A study is a self-contained project in which models, variables, output responses, and approaches are defined.
Before you can create approaches you must first setup your Study by defining input variables and output responses.
A model is part of a study. It is the model of the system that is subjected to a study.
In each study, you can add one or more models.
Learn about the different type of models available in HyperStudy.
View new features for HyperStudy 2019.
Learn the basics and discover the workspace.
Discover HyperStudy functionality with interactive tutorials.
Explore the HyperStudy user interface.
Learn how to create, open, import and save models.
Use the Editor to create and edit template files, parameterize ASCII files, create variables or shape templates, recognize and edit Templex statements in files, execute parameterized files, and perform advanced editing.
Use the Beta Preprocessor model to create a parametric connection to a B Preprocessor database enabling you to generate solver input files.
Use the FEKO model to connect to a Feko project, which enables you to automatically detect input variables and run high frequency electromagnetic simulations.
Use the Flux model to connect to any Flux 2D and 3D project, which enables you to automatically detect input variables and run low frequency electromagnetic simulations.
Use the FluxMotor model to connect to a FluxMotor model.
Use the HyperStudy Fit model to import the python based report created by a Fit approach from another HyperStudy session.
Use the HyperMesh model to directly access the HyperMesh database of the model, which enables you to perform easy design parameterization of solver input files.
Use the Internal Math model to create input variables that are contained entirely within HyperStudy and do not map to any external applications.
Use the Lookup model to extract values from a file with known input/output pairs.
Use the MotionView model to directly access the HyperView database of the model, which enables you to perform easy design parameterization of solver input files.
Use the Operator model to execute a process but not have an associated write operation.
A Parameterized File model is a general ASCII text file, which has search and replace substitution for input variables.
Use the SimLab model to parametrically drive SimLab macros, which can be used to automatically mesh and solve FEA problems.
Use the Spreadsheet model to perform calculations.
Use the Workbench model to connect to an ANSYS workbench project.
A resource file establishes the basis of the connection to HyperStudy. Information about the input variables and/or output responses are passed through the file.
When defining a model, model resources identify additional files required for the model to evaluate successfully, for example reference files called by script or linked result files that were generated by other models.
A solver input file is the name of the input file that the model will write during the evaluation.
Select the solver execution script you would like HyperStudy to use when executing the model.
A solver input argument is any argument to be passed to the solver.
An input variable is a system parameter that influences the system performance in the chosen output response. It is an object that is varied by the study based on certain rules.
Select a numerical method to use when evaluating run data from the study Setup.
Run the approach to test the proper writing, executing, and extraction of the models.
An output response is a measurement of system performances, such as weight, volume, displacement, stress, strain, reaction forces, and frequency.
View the computational results from the study Setup.
Package reports for data generated during the study setup.
Once the study Setup is complete, an unlimited combination of approaches can be added to a study. A study approach is a specific set of steps taken to study the mathematical model of a design.
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.
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