Smart Shape Optimization with the ANSYS Adjoint Solver

Version 16 of the ANSYS Adjoint Solver makes shape optimization smart, easy and efficient.

Features News

Latest Resource

Features Resources

Latest News

Hexagon Launches HxGN Alix

Siemens Releases AI-Augmented Electronic Systems Design Software

Siemens and Microsoft Deliver AI-Boosted NX X to Azure

EOS Debuts New Alloys for Metal Additive

HP Partners with ArcelorMittal on Additive Manufacturing Plans

A GPU Revolution in Discrete Element Method Applications

All posts

By Anthony J. Lockwood

March 26, 2015

Dear Desktop Engineering Reader:

A few iterations ago, ANSYS let users know that its CFD (computational fluid dynamics) software had new Adjoint Solver technology and that the technology was a work in progress. The Adjoint Solver technology in version 16, no doubt still under development, has come of age. It seems like an extraordinarily useful tool.

ANSYS Adjoint Solver smart shape optimization technology helped engineers identify the section of the design that needed to be modified to increase the down force in this racecar design. Image courtesy of ANSYS Corp.

So what is it about the Adjoint Solver that would make it an extraordinarily useful tool for you? Well, how about its capacity to help you get hours — even days — of your work life back?

See, with the ANSYS Adjoint Solver, you are not constantly feeding parameters into CFD setups as if they’re cousins of that toothy plant in the “Little Shop of Horrors” movie. And you’re not executing one CFD simulation after another to optimize a design’s shape. It helps you find the solution you need quickly.

In a Nutshell: ANSYS Adjoint Solver Version 16

Uses your CFD simulation results to find an optimal solution based your goals.
Helps you determine better-performing shapes and improve performance.
Eliminates endless trial-and-error CFD simulation runs.
Automatically identifies where a design needs modification.
Handles simulations using up to 50 million mesh elements.
Works with ANSYS’s mesh morpher to adjust design shape and computational mesh automatically.
Can be applied to new applications like porous media, user-defined sources, and for volume observables such as volumetric integrals, averages and variances.

Learn more about the ANSYS Adjoint Solver Version 16 here.

What the ANSYS Adjoint Solver does is takes your CFD simulation results, mates them with your goals — say maximize lift-over-draft ratio — and figures out how to change your design to meet those goals. Automatically. And it works with ANSYS morphing technology to adjust your design’s shape and the computational mesh. Also automatically.

No kidding.

Really, you have to see version 16 of the ANSYS Adjoint Solver in operation to appreciate what this technology can mean for you. So here’s what you do: Hit today’s Check it Out link to go to the ANSYS Adjoint Solver web resource. You’ll find lots of good stuff there to keep you informed.

But first, scroll down the page just below the fold. Watch that video. It’s just 5 minutes, 42 seconds long. The theme is how to identify where to change the design of an exhaust system to reduce pressure drop. Compare and contrast it with your current shape optimization process. You’ll understand what the ANSYS Adjoint Solver can mean for you. Good stuff.

Watch how the ANSYS Adjoint Solver makes smart shape optimization possible.