A simulation-driven design process is proven to generate improved, more robust and cost-effective designs within a shorter design cycle. Incorporating simulation and optimization early in the design cycle helps shape the concept designs so less iterations and rework is necessary as the design matures. This paper is intended to discuss the initial steps that can be taken when using a simulation-driven design approach to design and engineer products. Several of Altair’s design and engineering tools will be coupled to achieve various design goals.

Bobsleds are powered by two forces, the team on board and gravity. So why would anyone want to light weight a bobsled? Inspire Motion can be used to create a virtual test rig for our existing bobsled design. This easy to use motion environment can be used to simulate these dynamic forces.

Wayne State Universty's Bioengineering Center is a leading laboratory focused on research into impact trauma, low back pain, and sports injury biomechanics. For the development of complete understanding of injury mechanisms for mild traumatic brain injury or concussions in order to prevent or mitigate injury occurrence, Altair HyperMesh helped establish a meaningful injury criterion through the use of field concussion data and finite element modeling of the head.

In this short interview Eric Morales, Sr Research Engineer at PING Golf, explains how combining CAE simulation with the latest HPC technology has greatly reduced product development time.