Multi-phase and multi-component flows are central to a wide range of engineering problems such as the development of artificial heart valves and pumps, minimizing injury due to blast trauma, flows around hydrofoils and submarines, hydraulics machinery, and more. 
 
Join Spencer Bryngelson from Georgia Institute of Technology as he presents a three-prong portable strategy for GPU acceleration of multiphase and compressible flow solvers that obtain large speedups at scale and enable the efficient use of the latest leadership-class systems.
 
By attending this webinar, you'll:

  • Learn about the capabilities and limitations of directive-based GPU offloading of stencil-based, nonlinear partial differential equation (PDE) solvers;
  • Explore how to relax the stress and slowdown introduced by high levels of abstraction in modern codebases;
  • Understand the practical tradeoffs between low- and high-level GPU offloading; and
  • Hear the latest observations for using directive-based offloading on GPU-based supercomputers.