HyperWorks Simulation Platform Built for Innovation

April 8, 2017
Altair's simulation platform provides easy-to-learn, effective workflows that leverage domain knowledge and increase team productivity.

HyperWorks provides easy-to-learn, effective workflows that leverage domain knowledge and increase team productivity, enabling the efficient development of today’s increasingly complex and connected products.

 

The experience was created to free engineers to move from physics to physics, domain to domain, and even create reports without ever leaving their model. Create, explore, and optimize designs within HyperWorks to produce robust designs that accurately model structures, mechanisms, fluids, electromagnetics, electrical, embedded software, systems design, and manufacturing processes.

 

The solution-specific workflows enhance a growing number of engineering processes including fatigue analysis, concept design optimization, CFD modeling, and design exploration. Each provides a meticulously designed and intuitive user interface, differentiated for each user profile while remaining consistent and easy to learn.

 

Intuitive direct modeling for geometry creation and editing, mid-surface extraction, surface and midmeshing, and mesh quality correction, combined with efficient assembly management provides all the capabilities required for fast, accurate model creation and evaluation of design alternatives and product variants in less time.

 

HyperWorks offers a complete environment to visualize, query, and process results data. It gives access to a wide range of CAE data formats, including video files and images, enabling full post-processing and data analysis with advanced table and curve plotting up to 3D visualization of complex simulation and photo-realistic rendering. Furthermore, it enables users to share and customize working sessions through flexible templates and reporting infrastructure.

  • Fast, intuitive workflows
  • Manage the largest models
  • Direct FE and geometry modeling
  • Transition on your timeline
  • High-fidelity meshing
  • Interactive morphing