A relation of preconditioners for magnetostatic domain decomposition analysis

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY Journal of Advanced Simulation in Science and Engineering Pub Date : 2021-01-01 DOI:10.15748/JASSE.8.27
H. Kanayama, M. Ogino, S. Sugimoto, Kaworu Yodo
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Abstract

. A relation of preconditioners of domain decomposition method is shown for numerical analysis of 3-Dimensional (3D) magnetostatic problems taking the magnetic vector potential as an unknown function. The iterative domain decomposition method is combined with the Preconditioned Conjugate Gradient (PCG) procedure and the Hierarchical Domain Decomposition Method (HDDM) which is adopted in parallel computing. Our previously employed preconditioner was the Neumann-Neumann (NN) preconditioner. Numerical results showed that the method was only effective for small number subdomain problems. In this paper, we consider its improvement making use of the Balancing Domain Decomposition DIAGonal scaling (BDD-DIAG) preconditioner and show the asymptotic equivalence between BDD-DIAG and the simplified diagonal scaling (diag) preconditioner, which is derived from the following numerical evidences. Finally, nonlinear processing is also tried for the first time.
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静磁畴分解分析中的预调节器关系
. 给出了以磁矢量势为未知函数对三维静磁问题进行数值分析的域分解法的前置条件关系。迭代域分解方法与预条件共轭梯度法(PCG)和并行计算中采用的层次域分解法(HDDM)相结合。我们以前使用的预条件是诺伊曼-诺伊曼(NN)预条件。数值结果表明,该方法仅对少量子域问题有效。本文考虑利用平衡域分解对角尺度(BDD-DIAG)预条件对其进行改进,并通过以下数值证据证明了BDD-DIAG与简化对角尺度(diag)预条件之间的渐近等价。最后,也首次尝试了非线性处理。
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