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Local Relaxation Method for Solving Elliptic PDEs (Partial Differential Equations) on Mesh-Connected Arrays

机译：网格连通阵列上求解椭圆偏微分方程（局部微分方程）的局部松弛法

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A local relaxation method for solving linear elliptic PDEs with O(N) processors and O(square root of N) computation time is proposed. We first examine the implementation of traditional relaxation algorithms for solving elliptic PDEs on mesh-connected processor arrays, which require O(N) processors and O(N) computation time. The disadvantage of these implementations is that the determination of the acceleration factors requires some global communication at each iteration. The high communication cost increases the computation time per iteration significantly. Therefore, a local relaxation scheme is proposed to achieve the acceleration effect with very little global communication in the loading stage. We use a Fourier analysis approach to analyze the local relaxation method and also show its convergence. The convergence rate of the local relaxation method is studied by computer simulation.

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Kuo, C. J.; Levy, B. C.; Musicus, B. R.;
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年度 1987
页码 p.1-25
总页数 25
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Fourier analysis; Partial differential equations; Linear differential equations; Solutions(General); Mesh; Arrays; Relaxation; Two dimensional; Reprints;

机译：傅里叶分析;偏微分方程;线性微分方程;解（通用）;网格;阵列;松弛;二维;重印;

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7. A local relaxation method for solving elliptic PDEs on mesh-connected arrays [O] . C. -c. Jay Kuo, Bernard C. Levy, Bruce, 1987

机译：求解网格连通阵列椭圆偏微分方程的局部松弛方法

Local Relaxation Method for Solving Elliptic PDEs (Partial Differential Equations) on Mesh-Connected Arrays

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