Fast Reduction Algorithms in the Frequency-Domain Layered Finite Element Method for the Electromagnetic Analysis of Large-Scale High-Frequency Integrated Circuits

IEEE Transactions on Advanced Packaging Pub Date : 2010-02-01 DOI:10.1109/TADVP.2009.2014353

Feng Sheng, D. Jiao

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引用次数: 2

Abstract

In this paper, fast algorithms are proposed for an efficient reduction of a 3-D layered system matrix to a 2-D layered one in the framework of the frequency-domain layered finite element method. These algorithms include: 1) an effective preconditioner P that can converge the iterative solution of the volume-unknown-based matrix equation in a few iterations; 2) a fast direct computation of P -1 in linear complexity in both CPU run time and memory consumption; and 3) a fast evaluation of P -1 b in linear complexity, with b being an arbitrary vector. With these fast algorithms, the volume-unknown-based matrix equation is solved in linear complexity with a small constant in front of the number of unknowns, and hence significantly reducing the complexity of the 3-D to 2-D reduction. The algorithms are rigorous without making any approximation. They apply to any arbitrarily-shaped multilayer structure. Numerical and experimental results are shown to demonstrate the accuracy and efficiency of the proposed algorithms.

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大规模高频集成电路电磁分析的频域分层有限元快速约简算法

本文在频域分层有限元法的框架下，提出了一种将三维分层系统矩阵有效约简为二维分层系统矩阵的快速算法。这些算法包括:1)一个有效的预调节器P，它可以在几次迭代中收敛基于体积未知的矩阵方程的迭代解;2)在CPU运行时间和内存消耗方面线性复杂度P -1的快速直接计算;3)快速求出P -1 b的线性复杂度，其中b是一个任意向量。利用这些快速算法，基于体积未知量的矩阵方程以线性复杂度求解，未知量前面有一个小常数，从而显著降低了三维到二维化简的复杂度。算法是严格的，没有做任何近似。它们适用于任意形状的多层结构。数值和实验结果验证了所提算法的准确性和有效性。

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IEEE Transactions on Advanced Packaging 工程技术-材料科学：综合

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6 months