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REK, V. NĚMEC, I.
Original Title
Parallel Computing Procedure for Dynamic Relaxation Method on GPU Using NVIDIA´s CUDA
Type
conference paper
Language
English
Original Abstract
This paper introduces a procedure for parallel computing with the Dynamic Relaxation method (DR) on a Graphic Processing Unit (GPU).This method facilitates the consideration of a variety of nonlinearities in an easy and explicit manner.Because of the presence of inertial forces, a static problem leads to a transient dynamic problem where the Central Difference Method is usedas a method for direct integration of equations of motion which arise from the Finite Element model.The natural characteristic of this explicit method is that the scheme can be easily parallelized. The assembly of a global stiffness matrix is not required.Due to slow convergence with this method, the high performance which GPUs provide is strongly suitable for this kind of computation.NVIDIA's CUDA is used for general-purpose computing on graphics processing units (GPGPU) for NVIDIA's GPUs with CUDA capability.
Keywords
Central Difference Method, Dynamic Relaxation, Finite Difference Method, Finite Element Method, GPGPU, GPU, NVIDIA CUDA, Parallel Computing
Authors
REK, V.; NĚMEC, I.
Released
16. 1. 2016
Location
Switzerland
ISBN
1805-8256
Periodical
Engineering Mechanics ....
Year of study
2016
Number
821
State
Czech Republic
Pages from
331
Pages to
337
Pages count
7
URL
https://www.engmech.cz/2015/im/doc/pdf/EA_Rek_055.pdf
BibTex
@inproceedings{BUT128593, author="Václav {Rek} and Ivan {Němec}", title="Parallel Computing Procedure for Dynamic Relaxation Method on GPU Using NVIDIA´s CUDA", booktitle="Applied Mechanics and Materials ", year="2016", journal="Engineering Mechanics ....", volume="2016", number="821", pages="331--337", address="Switzerland", doi="10.4028/www.scientific.net/AMM.821.331", issn="1805-8256", url="https://www.engmech.cz/2015/im/doc/pdf/EA_Rek_055.pdf" }