The value of archived simulation data to solve the most challenging design and engineering problems faster. Altair DesignAI enables organizations to scale existing expertise and realize Additional Inspire features include: Dynamic Motion Easily generate dynamic motion of complex mechanisms and use these dynamic loads as loadcases for optimization. Physics-based simulation-driven design augmented with machine learning-based AI-powered design has the potential to create high-potential designs earlier in development cycles. Inspire enables both simulation analysts and designers to perform ‘what-if’ studies faster, easier, and earlier, encouraging collaboration and reducing product time to market. Altair understands the requirements of meaningful models throughout a program and across disciplines to increase decision-makingĬonfidence and speed by enabling product performance target exploration, trade-off evaluations, and ‘what if’ studies.īy combining computationally efficient reduced-order models and detailed CAE analysis with process automation of repetitive and tedious tasks, Altair provides workflows for early system models, to mixed-fidelity simulationsĪnd multiphysics validations, across domains including electrification or advanced manufacturing. Bonus points are awarded for designs that meaningfully use Altair HyperWorks or SolidThinking Inspire engineering software tools to influence design.
Relevant and timely models for concept design, product engineering, and detailed analysis need different levels of complexity and data. Altair Design Innovation Awards are based on submitted design reports received before the published submission deadline following the template provided at the competition website.
The right model, for the right decision, at the right time. Altair Inspire accelerates the creation, optimization, and study of innovative, structurally efficient parts and assemblies through collaboration.
0 kommentar(er)
