© 2021 Elsevier B.V.In this paper we describe the research and development activities in the Center for Efficient Exascale Discretization within the US Exascale Computing Project, targeting state-of-the-art high-order finite-element algorithms for high-order applications on GPU-accelerated platforms. We discuss the GPU developments in several components of the CEED software stack, including the libCEED, MAGMA, MFEM, libParanumal, and Nek projects. We report performance and capability improvements in several CEED-enabled applications on both NVIDIA and AMD GPU systems
Combinatorial algorithms in general and graph algorithms in particular play a critical enabling role...
Abstract: We describe our FE-gMG solver, a finite element geometric multi-grid approach for problems...
A GPU-accelerated high-order massively-parallel 3D Navier-Stokes solver has been developed for heart...
© The Author(s) 2021.Efficient exploitation of exascale architectures requires rethinking of the num...
The Explicit Finite Element Method is a powerful tool in nonlinear dynamic finite element analysis. ...
ECP Milestone Report High-order algorithmic developments and optimizations for large-scale GPU-accel...
We present advances concerning efficient finite element assembly and linear solvers on current and u...
Graphical processing units (GPUs) have recently attracted attention for scientific applications such...
Processor technology is still dramatically advancing and promises enormous improvements in processin...
International audienceThis paper illustrates how GPU computing can be used to accelerate computation...
AbstractCurrent trends in high performance computing (HPC) are advancing towards the use of graphics...
Recently, graphics processing units (GPUs) have had great success in accelerating many numerical com...
An approach is developed to perform explicit time domain finite element simulations of elastodynamic...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
Combinatorial algorithms in general and graph algorithms in particular play a critical enabling role...
Abstract: We describe our FE-gMG solver, a finite element geometric multi-grid approach for problems...
A GPU-accelerated high-order massively-parallel 3D Navier-Stokes solver has been developed for heart...
© The Author(s) 2021.Efficient exploitation of exascale architectures requires rethinking of the num...
The Explicit Finite Element Method is a powerful tool in nonlinear dynamic finite element analysis. ...
ECP Milestone Report High-order algorithmic developments and optimizations for large-scale GPU-accel...
We present advances concerning efficient finite element assembly and linear solvers on current and u...
Graphical processing units (GPUs) have recently attracted attention for scientific applications such...
Processor technology is still dramatically advancing and promises enormous improvements in processin...
International audienceThis paper illustrates how GPU computing can be used to accelerate computation...
AbstractCurrent trends in high performance computing (HPC) are advancing towards the use of graphics...
Recently, graphics processing units (GPUs) have had great success in accelerating many numerical com...
An approach is developed to perform explicit time domain finite element simulations of elastodynamic...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
In this dissertation, the hardware and API architectures of GPUs are investigated, and the correspon...
Combinatorial algorithms in general and graph algorithms in particular play a critical enabling role...
Abstract: We describe our FE-gMG solver, a finite element geometric multi-grid approach for problems...
A GPU-accelerated high-order massively-parallel 3D Navier-Stokes solver has been developed for heart...