2024.1
Prepare and run a computational fluid dynamics simulation.
Discover new features and enhancements.
New to Inspire? Learn the basics here.
Start using Inspire with our interactive tutorials.
Create parametric sketches, geometry, and PolyNURBS with construction history and variables.
Create implicit models with primitives, lattices, point clouds, fields, offsetting, Booleans, inverting, smoothing, morphing, and filleting.
Set up your model and run a structural analysis or optimization.
Set up and run a motion analysis, plot the results, and export the results.
Read a high-level overview of Inspire Fluids with usage notes directly from the Fluids product team.
A list of supported operating systems and minimum requirements for hardware and memory.
Create materials, assign materials to parts, and organize them into libraries.
Define the solid and fluid domains for the Fluids simulation.
Include at least one inlet and one outlet, and define the fluid and thermal boundary conditions.
Run and review the results of a Fluids analysis.
Read workflow tips and usage recommendations from the Fluids product team to help improve your simulation results.
Need help troubleshooting a problem in Inspire Fluids? Check out our troubleshooting topics.
Evaluate designs by using geometric variables and applying a design-of-experiments (DOE) or optimization method. We recommend fully constraining your sketch when sketch variables are used in the design exploration.
Set up and run a basic porosity or thinning analysis.
Prepare and run an additive manufacturing simulation, and export a file for 3D printing.
Adjust the materials and environment of objects in the scene to create a photorealistic image.
Learn how to access the Inspire Python API including online help, quick start demos, and the Extension Manager.
View the glossary, frequently asked questions, and errors and alerts.
Learn keyboard shortcuts and mouse controls for common operations.
