ANSYS AIM – The First Integrated Multiphysics Simulation Environment

ANSYS AIM – The First Integrated Multiphysics Simulation Environment

As a new partner of ANSYS, TriStar is excited to introduce ANSYS, and their new, innovative  engineering environment known as AIM.

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If you’ve ever seen a rocket launch, flown on an airplane, driven a car, used a computer, touched a mobile device, crossed a bridge, or put on wearable technology, chances are you’ve used a product where ANSYS software played a critical role in its creation!

ANSYS is the global leader in engineering simulation, which is why TriStar has recently become partners with them. “It’s what our customers want and need,” says Dwight Griffith, President of TriStar, Inc. He adds, “We strive to provide the maximum value to our customers everyday, and by adding the Ansys product line we’ve extended the value now through simulation and analysis.”

Discover the Engineering Challenges ANSYS has conquered:
– Developed the SpaceX Rocket
ansys aim advantage– Helped increase fuel efficiency by 26% via deep-sea trenches and oil pipelines
– Read more

Alongside ANSYS, TriStar helps the world’s most innovative companies deliver radically better products to their customers. By offering the best and broadest portfolio of engineering simulation software, we help them solve the most complex design challenges and engineer products limited only by imagination.

With this being said, we (ANSYS | TriStar) are thrilled to announce and offer, AIM – The First Integrated, Comprehensive Multiphysics Environment! AIM offers integrated multiphysics solutions based on best-in-class solver technologies in a modern, new, immersive user environment that enables engineers to rapidly evaluate product design performance with confidence.

In this exciting environment, you can evaluate your product design performance using AIM’s simulation process paradigm that guides you through Multiphysics Workflows for:

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ANSYS AIM is designed to provide more flexibility, enabling automation and customization, and revolutionizing the engineering processes through Simulation Driven Product Development. All aspects of simulation workflow are supported in the single-window design, reducing the training and deployment costs typically associated with fragmented tool chains.

Moreover, AIM’s all new simulation process paradigm guides engineers through multiphysics workflows that consider the interaction of physical phenomena, while automating tedious tasks to free-up engineering time and resources. Read more

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