Create design points by sweeping parameter values
Create curves using parametric equations. Any valid Python equation or function can be used to generate parametric curves, with the ability to mark up to 50 independent coefficients as Workbench parameters
Expose Coupled Field Physics, piezo-electric and MEMS solver capabilities in Workbench.
Calculate flow through a variety of porous models. Easily compute permeability and inertial resistance coefficients by providing velocity and pressure drop profiles from a .csv file. [Contains source code]
Automate the creation of paths & linearized stress results to meet pressure vessels standards
Show the deformed mesh in downstream prestressed analyses
Post-processing reports for radar signature simulations in ANSYS Electronics Desktop. Provides automatic post-processing of range (echo) profiles, waterfall plots, inverse synthetic aperture radar (ISAR) images, and creation of Range-Doppler maps for dynamic radar scene simulation. A companion post-processing tool to the RADARpre ACT toolkit.
Automate analysis setup for simulation of radar Range Profiles, Waterfall plots and Inverse Synthetic Aperture (ISAR) images in the ANSYS Electronics Desktop.
Fast RBF mesh morphing technology that makes the mesh shape parametric with a few clicks. Basic and hierarchical shape modifications defined in the tree. Automatic shape optimisation now included.
Extract Linear and Time-Invariant (LTI) Reduced Order Model (ROM) from ANSYS Fluent 3-D Computation Fluid Dynamics (CFD) simulations for system-level analysis in ANSYS Simplorer.
Implement Modal Assurance Criterion calculation to compare the nodal solutions from two results files (.rst or .rstp) or from one results file and one Universal Format file (.unv)
Expose additional capabilities for random vibrations analysis or Power Spectral Density analysis (PSD). Make possible to apply a Pressure or Force PSD to a random vibration analysis. Enable the post processing of several nodes or elements at once [Contains source code]