Multifronatal Method Preconditioned Sparse-Matrix/Canonical Grid Algorithm for Fast Analysis of Microstrip Structure

机译：用于微带结构快速分析的多胎法预处理稀疏矩阵/规范网格算法

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In this paper, the microstrip structure is analyzed in terms of the mixed potential integral equation (MPIE) by using of the Rao-Wilton-Glisson(RWG) function expansion. The integral equation is solved by the sparse-matrix/canonical grid (SMCG) method with fast Fourier transforms technique (FFT) to accelerate the matrix-vector multiplication. During the iterative process, multifrontal method is employed to precondition the matrix equations for the purpose of enhancing the computational efficiency of the Conjugate-gradient (CG) algorithm. The numerical calculations show that the proposed preconditioned SMCG algorithm can converge more than 30 times faster than the conventional one for the analysis of microstrip structures.

机译：本文利用Rao-Wilton-Glisson（RWG）函数展开，根据混合势积分方程（MPIE）分析了微带结构。通过稀疏矩阵/规范网格（SMCG）方法和快速傅里叶变换技术（FFT）求解积分方程，以加速矩阵矢量乘法。在迭代过程中，采用多前沿方法对矩阵方程进行预处理，以提高共轭梯度（CG）算法的计算效率。数值计算结果表明，所提出的预处理SMCG算法收敛速度比传统微带结构分析算法快30倍以上。

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来源
《Asia-Pacific Microwave Conference vol.4; 20051204-07; Suzhou(CN)》|2005年|P.2196-2198|共3页
会议地点 Suzhou(CN)
作者
W.Zhuang; X.P.Feng L Mo; R.S.Chen;
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Department of Communication Engineering Nanjing University of Science Technology Nanjing 210094, P.R.China;

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正文语种 eng
中图分类微波与超高频技术;
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Multifronatal Method Preconditioned Sparse-Matrix/Canonical Grid Algorithm for Fast Analysis of Microstrip Structure

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