A performance evaluation of a new flexible preconditioning method on a parallel finite element structure analysis program, FrontISTR

IF 0.7 4区 数学 Q3 MATHEMATICS, APPLIED
Noriyuki Kushida, Hiroshi Okuda
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引用次数: 0

Abstract

Variable preconditioning methods for Krylov-type linear equation solvers have become popular thanks to their faster convergence speed compared to conventional methods, such as, the Incomplete Lower-Upper factorization and point Jacobi methods. Recently, Kushida and Okuda have introduced a variable preconditioning method, which updates the preconditioning matrix using the Broyden–Fletcher–Goldfarb–Shanno scheme, and applied it to the generalized minimum residual recursive scheme (GMRESR), which is a variant of the well-known GMRES method. Although their method indicated a superior performance to the conventional methods, the problems employed in their study were academic, and its performance on practical problems is of interest. In this study, we evaluate the feasibility of their variable preconditioning for practical problems. FrontISTR, which is a well established open-source parallel finite element analysis program and well used in the industrial field, is employed as the framework to implement the above-mentioned Kushida and Okuda’s preconditioning method in GMRESR (Self-Updating Preconditioning GMRESR; SUP-GMRESR). As results, (1) SUP-GMRESR indicated approximately a three-fold faster convergence than GMRES, which is one of the default linear equation solvers implemented on FrontISTR, using a 600 million degrees of freedom problem, and (2) SUP-GMRESR converged even when GMRES suffered from a stagnation.

Abstract Image

一种新的柔性预处理方法在并行有限元结构分析程序FrontISTR上的性能评价
krylov型线性方程解的变量预处理方法由于其收敛速度比传统方法(如不完全上下分解法和点Jacobi法)快而受到欢迎。最近,Kushida和Okuda提出了一种变量预处理方法,该方法使用Broyden-Fletcher-Goldfarb-Shanno格式更新预处理矩阵,并将其应用于广义最小残差递归算法(GMRESR)中,GMRESR是众所周知的GMRES方法的一种变体。虽然他们的方法表现出优于传统方法的性能,但他们所研究的问题是学术性的,其在实际问题上的表现令人感兴趣。在本研究中,我们评估了它们的变量预处理在实际问题中的可行性。采用FrontISTR作为框架,在GMRESR(自更新预处理GMRESR)中实现上述Kushida和Okuda的预处理方法。FrontISTR是一种成熟的开源并行有限元分析程序,在工业领域应用广泛;SUP-GMRESR)。结果表明:(1)supp - gmresr的收敛速度比GMRES快3倍,GMRES是FrontISTR上实现的默认线性方程求解器之一,使用6亿自由度问题;(2)即使GMRES出现停滞,supp - gmresr也能收敛。
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来源期刊
CiteScore
1.50
自引率
11.10%
发文量
56
审稿时长
>12 weeks
期刊介绍: Japan Journal of Industrial and Applied Mathematics (JJIAM) is intended to provide an international forum for the expression of new ideas, as well as a site for the presentation of original research in various fields of the mathematical sciences. Consequently the most welcome types of articles are those which provide new insights into and methods for mathematical structures of various phenomena in the natural, social and industrial sciences, those which link real-world phenomena and mathematics through modeling and analysis, and those which impact the development of the mathematical sciences. The scope of the journal covers applied mathematical analysis, computational techniques and industrial mathematics.
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