An Efficient Parallelization Approach of FEM-DDM for Large-Scale 3D Scattering Problems

Rui-Qing Liu, Ming-lin Yang, Hong-Wei Gao, Xinqing Sheng
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引用次数: 1

Abstract

We present in this paper an efficient parallelization approach of the finite element domain decomposition method (FEM-DDM) for large scale 3D scattering problems. In this parallel FEM-DDM, the domain decomposition is done in a hierarchical way to minimize the inter-processor communication. In the hierarchical domain decomposition scheme, the whole FEM solution domain is first decomposed into large size subdomains with a total number equals to MPI processes. Then, each large subdomain is distributed to a MPI process and further decomposed into smaller ones to achieve good computation efficiency. Numerical examples are presented to demonstrate the accuracy, scalability, and capability of the proposed parallel FEM-DDM algorithm.
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大规模三维散射问题的FEM-DDM高效并行化方法
本文提出了一种求解大尺度三维散射问题的有限元区域分解方法(FEM-DDM)的有效并行化方法。在这种并行FEM-DDM中,以分层的方式进行域分解,以尽量减少处理器间的通信。在分层域分解方案中,首先将整个有限元解域分解为大的子域,子域的总数等于MPI进程;然后,将每个大的子域分配到一个MPI进程中,并进一步分解成较小的子域,以获得较好的计算效率。数值算例验证了所提出的并行FEM-DDM算法的准确性、可扩展性和性能。
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