This data sheet describes fully managed, turnkey HPC clusters for ANSYS simulations. The HPC Starter Cluster solution, designed by HPE and TotalCAE, is delivered pre-configured, with ANSYS solutions installed, and integrated into your customer’s network to provide easy desktop access for engineers and analysts. The HPC system is remotely managed, with updates installed and user support included. There is no need for your customer's IT staff to manage the resources and learn all the HPC tools — although training is available if your customer wishes to develop onsite expertise.

Watch this webinar to learn about the capabilities of the newly released Discovery Live and to see the software in action on typical built-environment external flow applications

HuMoTech engineers used ANSYS Mechanical to achieve a 25 percent weight reduction of the prosthesis end-effector, which allows their device to more accurately emulate a wider range of prosthetic devices. This reduces the design and testing time of prosthetic devices and results in a better fit, which improves the patient’s quality of life, while helping clinicians and researchers to be more effective.

Read this application brief to learn how to translate printed circuit boards from a Cadence SPB environment to ANSYS Icepak.

Read this Application Brief to learn how to translate a printed circuit board from a Cadence SPB tool to ANSYS SIwave using IPC-2581 as the "go-between" format.

Simulation has helped engineers in the oil and gas industry for decades as they produce innovative designs for recovering and processing fuels. As the energy mix changes, the industry operates in a lower price environment, regulatory and consumer demands grow tougher, and launch cycles get shorter, simulation remains the best way to introduce innovative solutions and seize market leadership. The oil and gas industry is also pioneering the use of simulation beyond traditional applications. As products become more complex, smarter and more connected, simulation is emerging as a key technology in delivering accurate digital twins of operational assets and providing data-driven prognostics and health management. Read this white paper to learn how ANSYS simulations solutions are helping to solve the toughest challenges faced by oil and gas companies across the globe.

Transitioning between varying types of mesh elements in complex geometries and flow tegimes has long been a major simulation challenge. ANSYS Mosaic technology meets this challenge by automatically connecting different types of meshes with general polyhedral elements. Poly-Hexcore, the first application of Mosaic technology, fills the bulk region with octree hexes, keeps a high-quality layered poly-prism mesh in the boundary layer and conformally connects these two meshes with general polyhedral elements. The resulting simulation is faster with greater solution accuracy while using less RAM. Read this white paper to learn more about this innovation in meshing technology.

The combination of ANSYS Discovery Live for upfront design exploration and ANSYS Discovery AIM for validation and more in-depth physics studies is a powerful way to maximize the benefit of simulation and optimize your designs. Watch this video to see an example of in-depth physics in the form of observing the effects of air flow over a heat sink. The Discovery family of products has been designed so that engineers and designers with no (or minimal) simulation experience can quickly learn and start benefiting from simulation right away.

Autorient targets solutions for positioning and control of autonomous machines, robots and vehicles. As the market moves toward smaller products at lower cost with higher measurement precision, engineering simulation enables us to push design limits and to optimize systems.

CerebroScope® was founded with the goal of saving brain cells. We are developing a modified EEG system, called the CerebroPatch, with the goal of detecting, from the scalp, an electrical signal in the brain that occurs after severe acute brain injury, such as stroke, subarachnoid and intracerebral hemorrhage, and severe traumatic brain injury. This electrical signal — known as “cortical spreading depolarization (CSD)”— increases energy consumption near the damage site, which can result in the death of compromised brain tissue.