A novel parallel finite element procedure for nonlinear dynamic problems using GPU and mixed-precision algorithm

Abstract: Purpose The purpose of this paper is to improve the computational speed of solving nonlinear dynamics by using parallel methods and mixed-precision algorithm on graphic processing units (GPUs). The computational efficiency of traditional central processing units (CPUs)-based computer aided engineering software has been difficult to satisfy the needs of scientific research and practical engineering, especially for nonlinear dynamic problems. Besides, when calculations are performed on GPUs, double-precision ope… Show more

“…These simulations are routinely used by scientists and engineers to solve Partial Differential Equations that describe physical phenomena on prescribed geometries: mechanical stress, heat dissipation, dispersion of chemicals, and so on. The literature on FEM and GPUs is now abundant [ 11 , 12 , 13 , 14 , 15 , 16 , 17 , 18 , 19 , 20 , 21 , 22 ], yet FEM software still heavily rely on CPUs for their computations, and few support GPUs (e.g., COMSOL [ 23 ], a popular commercial software, does not support GPUs). In absence of routine GPU-acceleration for FEM software, it is difficult to judge if a particular physical PDE could benefit from GPUs without actually implementing the FEM resolution at a low level on the GPU.…”

Accelerating the Finite-Element Method for Reaction-Diffusion Simulations on GPUs with CUDA

“…These simulations are routinely used by scientists and engineers to solve Partial Differential Equations that describe physical phenomena on prescribed geometries: mechanical stress, heat dissipation, dispersion of chemicals, and so on. The literature on FEM and GPUs is now abundant [ 11 , 12 , 13 , 14 , 15 , 16 , 17 , 18 , 19 , 20 , 21 , 22 ], yet FEM software still heavily rely on CPUs for their computations, and few support GPUs (e.g., COMSOL [ 23 ], a popular commercial software, does not support GPUs). In absence of routine GPU-acceleration for FEM software, it is difficult to judge if a particular physical PDE could benefit from GPUs without actually implementing the FEM resolution at a low level on the GPU.…”

Accelerating the Finite-Element Method for Reaction-Diffusion Simulations on GPUs with CUDA

“…In addition, the assimilation algorithms generally require considerable iterations to optimize the model's simulating process and must conduct a series of calculations in each iteration [48]. In recent years, graphic processing unit (GPU)-based highperformance computing technology has been increasingly applied in large-scale computing scenarios, such as mathematical calculations, image processing, computational biology and chemistry and fluid dynamics simulation [49][50][51][52][53][54][55]. Early works on GPU-based processing for RS data have been conducted by numerous researchers [56][57][58][59][60][61][62].…”

Parallel Computing for Obtaining Regional Scale Rice Growth Conditions Based on WOFOST and Satellite Images

Efficient strategy for space-time based finite element analysis of vibrating structures