HyperStudy

HyperStudy Tutorials

HyperStudy Tutorials

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HyperStudy Tutorials

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HyperStudy performs DOE (Design of Experiments), optimization, and stochastic studies in a CAE environment.

The design of HyperStudy as a wizard makes it very easy to learn and use.  It is applicable to study the different aspects of a design under various conditions, including non-linear behaviors.  It can be applied in the multi-disciplinary optimization of a design combining different analysis types.

Besides the typical definition of solver input data as input variables, the shape of a finite element model can also be parameterized.

hmtoggle_plus1greyTutorials by Domain:
HS-1535: Coupling HyperStudy, Morphing and AcuSolve (HyperStudy Job Launcher)
HS-1570:  DOE and Optimization Study Using FLUENT

 
HS-1030:  Parameterize a MotionView Model
HS-2205:  DOE Study Using MotionView and HyperStudy
HS-4430:  Optimization Study Using MotionView and HyperStudy

 
HS-4445:  Bearing Length Optimization Using HyperXtrude and HyperStudy

 
HS-4415:  Optimization Study of a Landing Beam Using Excel

 
HS-4220:  Size Optimization Study on an Impact Simulation Using RADIOSS
HS-4405: Reliability-Based Optimization Study on an Impact Simulation Using RADIOSS
HS-4420:  Optimization Study of a Spherical Impactor

 

 
hmtoggle_plus1greyTutorials by Solver:
HS-1035:  Optimization Study Using an Excel Spreadsheet
HS-1036:  Setting Up an Excel Model with a Visual Basic Script
HS-2200:  Using Existing Design Data from an Excel Spreadsheet
HS-3005:  Exporting Fit Models to Excel
HS-4205:  Multi-Objective Optimization Study Using an Excel Spreadsheet
HS-4415:  Optimization Study of a Landing Beam Using an Excel Spreadsheet

 
HS-1030:  Parameterize a MotionView Model
HS-2205:  DOE Study Using MotionView and HyperStudy
HS-4430:  Optimization Study Using MotionView and HyperStudy

 
HS-1070:  Defining Discrete Size Variables with Conditional Linking for use in HyperStudy
HS-1610:  Setting Up a SimLab Model
HS-4000:  Optimization Method Comparison: Arm Model Shape Optimization
HS-4200:  Material Calibration Using System Identification
HS-4210:  Multi-Disciplinary Optimization Study
HS-4215:  Multi-Disciplinary Design Optimization Study
HS-4220: Size Optimization Study on an Impact Simulation Using RADIOSS
HS-4230:  Optimization Study with Discrete Variables
HS-4405: Reliability-Based Optimization Study on an Impact Simulation Using RADIOSS
HS-4420:  Optimization Study of a Spherical Impactor
HS-4425:  Multi-objective Shape Optimization Study
HS-4445:  Bearing Length Optimization Using HyperXtrude and HyperStudy

 
HS-1615:  Setting Up a FEKO Model

 
HS-1620:  Setting Up a Flux Model

 
HS-1540:  Shape Optimization Study Using HyperMesh and ANSYS
HS-1545:  DOE and Optimization Study with HyperMesh, HyperStudy, and ANSYS CFX
HS-1550:  Shape Optimization Study Using HyperMesh and Abaqus
HS-1560:  Shape Optimization Study Using LS-DYNA and HyperStudy
HS-1570:  DOE and Optimization Study Using FLUENT
HS-1580:  DOE Study Using CATIA
HS-1590:  DOE Study Using Madymo
HS-1600:  Creating an Optimization Study with MADYMO/Workspace Objective Rating and HyperStudy
HS-1605:  Setting Up an ANSYS Workbench Model

 

 
hmtoggle_plus1greyTutorials by Approach:
HS-1080:  Settings Up an Operator Model
HS-1615:  Setting Up a FEKO Model
HS-1700:  Simple DOE Study
HS-2000:  DOE Method Comparison: Arm Model Study
HS-2005:  DOE Study of a Cantilever Beam Using Templex
HS-2200:  Using Existing Design Data from an Excel Spreadsheet
HS-2205:  DOE Study Using MotionView and HyperStudy
HS-2210:  Principle Component Analysis of a Cantilever Ibeam

 
HS-1710:  Simple Optimization Study
HS-4000:  Optimization Method Comparison: Approximation on the Arm Model
HS-4200:  Material Calibration Using System Identification
HS-4205:  Multi-Objective Optimization Study Using an Excel Spreadsheet
HS-4210:  Multi-Disciplinary Optimization Study
HS-4215:  Multi-Disciplinary Design Optimization Study
HS-4220: Size Optimization Study on an Impact Simulation Using RADIOSS
HS-4230:  Optimization Study with Discrete Variables
HS-4405: Reliability-Based Optimization Study on an Impact Simulation Using RADIOSS
HS-4415:  Optimization Study of a Landing Beam Using Excel
HS-4420:  Optimization Study of a Spherical Impactor
HS-4425:  Multi-Objective Shape Optimization Study
HS-4430:  Optimization Study Using MotionView and HyperStudy
HS-4445:  Bearing Length Optimization Using HyperXtrude and HyperStudy
HS-4450:  Multi-Objective Optimization of a Cantilever Ibeam using an Inclusion Matrix

 
HS-3000:  Fit Method Comparison: Approximation on the Arm Model
HS-3005:  Exporting Fit Models to Excel
HS-3010:  Fuselage Sizing Trade-Off using Categorical Variables

 
HS-1620:  Setting Up a Flux Model
HS-5000:  Stochastic Method Comparison: Stochastic Study of the Arm Model

 
HS-1505:  Register a Templex Function in HyperStudy
HS-4200:  Material Calibration Using System Identification

 
HS:4210:  Multi-Disciplinary Optimization Study
HS-4215:  Multi-Disciplinary Design Optimization Study

 
HS-4205:  Multi-Objective Optimization Study Using an Excel Spreadsheet
HS-4425:  Multi-Objective Shape Optimization Study

 
HS-4405:  Reliability-Based Optimization Study on an Impact Simulation Using RADIOSS

 

 
hmtoggle_plus1greyTutorials by Parameterization:
HS-1020:  Working with a Parameterized File Model for Size Variables
HS-1025:  Working with a HyperMesh and HyperMorph Model
HS-1070:  Defining Discrete Size Variables with Conditional Linking for use in HyperStudy
HS-4220:  Size Optimization Study on an Impact Simulation Using RADIOSS

 
HS-1021:  Working with a Parameterized File Model for Shape Variables
HS-1025:  Working with a HyperMesh and HyperMorph Model
HS-1540:  Shape Optimization Study Using HyperMesh and ANSYS
HS-1550:  Shape Optimization Study Using HyperMesh and Abaqus
HS-1560:  Shape Optimization Study Using LS-DYNA and HyperStudy
HS-4425:  Multi-Objective Shape Optimization Study

 
HS-4200:  Material Calibration Using System Identification

 

 
hmtoggle_plus1greyComplete List of HyperStudy Tutorials
HS-1010:  Simple Study Setup
HS-1015:  Working with an Internal Math Model
HS-1020:  Working with a Parameterized File Model for Size Variables
HS-1021:  Working with a Parameterized File Model for Shape Variables
HS-1025:  Working with a HyperMesh and HyperMorph Model
HS-1030:  Parameterize a MotionView Model
HS-1035:  Optimization Study Using an Excel Spreadsheet
HS-1036:  Setting Up an Excel Model with a Visual Basic Script
HS-1040:  Registering HyperMath Functions in HyperStudy
HS-1050: Registering Python Functions in HyperStudy
HS-1060:  Linking Variables of a Model to Output Responses of Other Models
HS-1070:  Defining Discrete Size Variables with Conditional Linking for use in HyperStudy
HS-1080:  Settings Up an Operator Model
HS-1505:  Register a Templex Function in HyperStudy
HS-1506:  Register a HyperMath Function in HyperStudy
HS-1515:  Using HyperView Results Math Integration for Output Response Extraction
HS-1525:  Simple Optimization Study Using HyperMath Functions in HyperStudy
HS-1535:  Coupling HyperStudy, Morphing and AcuSolve (HyperStudy Job Launcher)
HS-1540:  Shape Optimization Study Using HyperMesh and ANSYS
HS-1545:  DOE and Optimization Study with HyperMesh, HyperStudy, and ANSYS CFX
HS-1550:  Shape Optimization Study Using HyperMesh and Abaqus
HS-1560:  Shape Optimization Study Using LS-DYNA and HyperStudy
HS-1570:  DOE and Optimization Study Using FLUENT
HS-1580:  DOE Study Using CATIA
HS-1590:  DOE Study Using Madymo
HS-1600:  Creating an Optimization Study with MADYMO/Workspace Objective Rating and HyperStudy
HS-1605:  Setting Up an ANSYS Workbench Model
HS-1610:  Setting Up a SimLab Model
HS-1615:  Setting Up a FEKO Model
HS-1620:  Setting Up a Flux Model
HS-1700:  Simple DOE Study
HS-1705:  Simple Fit Study
HS-1710:  Simple Optimization Study
HS-1715:  Simple Stochastic Study
HS-1810:  Post Proceesing with HyperStudy
HS-2000:  DOE Method Comparison: Arm Model Study
HS-2005:  DOE Study of a Cantilever Beam Using Templex
HS-2200:  Using Existing Design Data from an Excel Spreadsheet
HS-2205:  DOE Study Using MotionView and HyperStudy
HS-2210:  Principle Component Analysis of a Cantilever Ibeam
HS-3000:  Fit Method Comparison: Approximation on the Arm Model
HS-3005:  Exporting Fit Models to Excel
HS-3010:  Fuselage Sizing Trade-Off using Categorical Variables
HS-4000:  Optimization Method Comparison: Arm Model Shape Optimization
HS-4200:  Material Calibration Using System Identification
HS-4205:  Multi-Objective Optimization Study Using an Excel Spreadsheet
HS-4210:  Multi-Disciplinary Optimization Study
HS-4215:  Multi-Disciplinary Design Optimization Study
HS-4220:  Size Optimization Study on an Impact Simulation Using RADIOSS
HS-4230:  Optimization Study with Discrete Variables
HS-4405:  Reliability-Based Optimization Study on an Impact Simulation Using RADIOSS
HS-4410:  Frequency Maximization Application
HS-4415:  Optimization Study of a Landing Beam Using Excel
HS-4420:  Optimization Study of a Spherical Impactor
HS-4425:  Multi-Objective Shape Optimization Study
HS-4430:  Optimization Study Using MotionView and HyperStudy
HS-4445:  Bearing Length Optimization Using HyperXtrude and HyperStudy
HS-4450:  Multi-Objective Optimization of a Cantilever Ibeam using an Inclusion Matrix
HS-5000:  Stochastic Method Comparison: Stochastic Study of the Arm Model