Performance Computing (HPC) allows
scientists and engineers to solve complex science, engineering and
business problems using applications that require high bandwidth, low
latency networking, and very high compute capabilities. Typically,
scientists and engineers must wait in long queues to access shared
clusters or acquire expensive hardware systems.
adds tremendous value to engineering simulation by enabling the creation
of large, high-fidelity models that yield accurate and detailed insight
into the performance of a proposed design. High-fidelity simulations allow
engineering teams to innovate with a high degree of confidence that their
products will meet customer expectations — because their extremely
accurate simulations are predicting the actual performance of the product
under real-world conditions.
HPC also adds
value by enabling greater simulation throughput. Using HPC resources,
engineering teams can analyze not just a single design idea, but many
design variations. By simulating multiple design ideas
R&D teams can identify dramatic engineering improvements early in the
design process, prior to and more effectively than physical prototyping
specifically enables parallel processing for solution of the toughest,
higher-fidelity models — including more geometric detail, larger systems
and more complex physics. Using our solution to understand
detailed product behavior provides companies with confidence in the design
and helps ensure that the product will succeed in the market.