大型互连结构合理宏观建模的压缩策略

Stefano Grivet-Talocia, S. Olivadese, P. Triverio
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引用次数: 10

摘要

通过向量拟合算法进行合理的宏观建模是信号和电源完整性分析和设计流程的标准实践。然而,尽管矢量拟合方案具有鲁棒性和可靠性,但对于那些需要具有非常大端口数的模型的应用程序仍然存在一些挑战。完全耦合的信号和/或配电网络可能需要在扩展频带上对数百个同时耦合的端口进行并发建模。由于计算成本大,直接合理拟合是不切实际的。在这项工作中,我们提出了一种压缩策略,旨在通过几个精心选择的“基函数”来表示结构的动态行为。我们表明,模型精度可以交换复杂性,与完全控制近似误差。将标准向量拟合应用于得到的低维压缩系统,可以构建全局状态空间宏模型,大大减少了运行时和内存消耗。几个基准测试证明了该方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A compression strategy for rational macromodeling of large interconnect structures
Rational macromodeling via Vector Fitting algorithms is a standard practice in Signal and Power Integrity analysis and design flows. However, despite the robustness and reliability of the Vector Fitting scheme, some challenges remain for those applications requiring models with a very large port count. Fully coupled signal and/or power distribution networks may require concurrent modeling of hundreds of simultaneously coupled ports over extended frequency bands. Direct rational fitting is impractical for such structures due to a large computational cost. In this work, we present a compression strategy aimed at representing the dynamic behavior of the structure through few carefully selected “basis functions”. We show that model accuracy can be traded for complexity, with full control over approximation errors. Application of standard Vector Fitting to the obtained low-dimensional compressed system leads to the construction of a global state-space macromodel with significantly reduced runtime and memory consumption. Several benchmarks demonstrate the effectiveness of the approach.
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