After the 2023 release, Altair HyperWorks was renamed to Altair HyperMesh.
Altair® HyperMesh® is a powerful simulation solution that redefines CAE design processes across industries with unmatched pre- and post-processing capabilities for finite element modeling. Powered by AI-augmented 3D modeling and visualization tools, next-gen design and optimization workflows, and an open, programmable, user-friendly interface, HyperMesh empowers users to effortlessly manage large and complex models, unveil critical insights, optimize designs, and foster innovation. It revolutionizes engineering workflows with unparalleled precision to enhance productivity and scale operations.
Complete CAE Solution
HyperMesh’s pre- and post-processing capabilities for finite element modeling streamlines workflows and manages complex models to boost productivity. HyperMesh offers specialized workflows, direct integration with PDM systems, seamless solver integration and I/O support, and extensive applications in various industries such as aerospace, automotive, heavy equipment, marine, architecture and control, and consumer goods to empower swift decision-making and cost-effective design processes throughout all stages of product development.
User-Friendly AI-Powered Engineering Workflows
Democratizing the design process, HyperMesh offers an intuitive user interface and support of domain-specific AI-powered workflows. In-app support, workflow guidance, and convenient mouse controls and keyboard shortcuts further elevate the user experience. This powerful FEM software optimizes efficiency by offering workflows tailored to specific industries or disciplines. By incorporating AI-powered workflows, it automates complex processes and delivers intelligent recommendations.
Open and Programmable Architecture
With an open and programmable architecture, users can effortlessly integrate HyperMesh into existing workflows and boost productivity through automation. Experience seamless integration with third-party software, such as CAD systems and solvers like FEA, CFD, and MBD. Users can also take advantage of programmable features and Python scripting support to personalize the platform according to users’ specific needs, providing the necessary flexibility to excel in tasks related to finite element modeling and beyond.
