基于牛顿- gmres波形弛豫的高速通道瞬态分析

2012 IEEE 21st Conference on Electrical Performance of Electronic Packaging and Systems Pub Date : 2012-10-01 DOI:10.1109/EPEPS.2012.6457886

S. Olivadese, Stefano Grivet-Talocia

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引用次数: 3

摘要

本文提出了一种以任意非线性驱动器和接收机为端接的耦合高速信道的数值模拟技术。该方法建立在许多现有技术的基础上。一个delay - rational Macromodel被用来以紧凑的形式描述通道，并且一个通用的波形松弛框架被用来将解决方案作为一个迭代过程，该过程细化了通道端口处瞬态散射波的初始估计。由于简单的波形松弛方法不能保证收敛，我们转向基于牛顿方法与广义最小残差迭代相结合的更一般的非线性代数求解方法，其中波形松弛方程作为前置条件。在一般情况下，可以证明该格式的收敛性。数值算例表明，即使对于强非线性终止，也只需要很少的迭代。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Transient analysis of high-speed channels via Newton-GMRES Waveform Relaxation

This paper presents a technique for the numerical simulation of coupled high-speed channels terminated by arbitrary nonlinear drivers and receivers. The method builds on a number of existing techniques. A Delayed-Rational Macromodel is used to describe the channel in compact form, and a general Waveform Relaxation framework is used to cast the solution as an iterative process that refines initial estimates of transient scattering waves at the channel ports. Since a plain Waveform Relaxation approach is not able to guarantee convergence, we turn to a more general class of nonlinear algebraic solvers based on a combination of the Newton method with a Generalized Minimal Residual iteration, where the Waveform Relaxation equations act as a preconditioner. The convergence of this scheme can be proved in the general case. Numerical examples show that very few iterations are indeed required even for strongly nonlinear terminations.

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2012 IEEE 21st Conference on Electrical Performance of Electronic Packaging and Systems

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