Amd radeon vii6/19/2023 ![]() ![]() The sparse linear solver is a critical part of AcuSolve and is the most time-consuming part for steady-state simulations, taking up to 60 to 80 percent of the total runtime on CPUs. Implicit finite element algorithms usually need to repeatedly solve large-scale sparse linear systems with tens or hundreds of millions of degrees of freedom. Scientifically proven numerical methods of AcuSolve deliver rapid linear and non-linear convergence rates for both steady-state and transient simulations. Focus areas for the product include thermal management, multiphase flows and internal/external aerodynamics. It has proven success in large-scale industrial applications for its accuracy, efficiency, and robustness. ![]() AcuSolve is an implicit steady-state and transient solver based on the stabilized Galerkin Least Finite Element method. It allows engineers and designers to quickly analyze and understand fluid and thermal effects on real world engineering applications using high-performance numerical simulations. This blog summarizes some of the results presented at the Supercomputing 2020 conference on GPU acceleration of Altair AcuSolve™.ĪcuSolve is a powerful general-purpose computational fluid dynamics (CFD) solver that provides a full range of physical models to analyze fluid and thermal systems. Whether a CFD solution uses a finite element, finite volume, or finite difference computational method, achieving optimal scalability on the latest HPC hardware is the ultimate quest.
0 Comments
Leave a Reply. |