A fast multipole algorithm for capacitance extraction of complex 3-D geometries

1989 Proceedings of the IEEE Custom Integrated Circuits Conference Pub Date : 1989-05-15 DOI:10.1109/CICC.1989.56806
K. Nabors, Jacob K. White
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引用次数: 14

Abstract

A fast algorithm for computing the capacitance of a complicated 3-D geometry of ideal conductors in a uniform dielectric is described. The method is an acceleration of the standard integral-equation for multiconductor capacitance extraction. These integral-equation methods are slow because they lead to dense matrix problems which are typically solved with some form of Gaussian elimination. This implies that the computation grows like n3, where n is the number of tiles needed to accuracy-discretize the conductor surface charges. The authors present a preconditioned conjugate-gradient iterative algorithm with a multipole approximation to compute the iterates. This reduces the complexity so that accurate multiconductor capacitance calculations grow as nm, where m is the number of conductors
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复杂三维几何图形电容提取的快速多极子算法
描述了一种计算均匀介质中理想导体复杂三维几何结构电容的快速算法。该方法是多导体电容提取标准积分方程的加速。这些积分方程方法是缓慢的,因为它们导致密集矩阵问题,通常用某种形式的高斯消去来解决。这意味着计算像n3一样增长,其中n是精确离散导体表面电荷所需的瓦片数。提出了一种基于多极逼近的预条件共轭梯度迭代算法。这降低了复杂性,因此精确的多导体电容计算以nm增长,其中m是导体的数量
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1989 Proceedings of the IEEE Custom Integrated Circuits Conference
1989 Proceedings of the IEEE Custom Integrated Circuits Conference
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