Efficient volterra series based sensitivity analysis of mildly nonlinear circuits

2007 50th Midwest Symposium on Circuits and Systems Pub Date : 2007-08-01 DOI:10.1109/MWSCAS.2007.4488680
Guoji Zhu, A. Opal
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引用次数: 0

Abstract

Sensitivity analysis is useful in comparing the quality of two different designs. It is also used to evaluate the gradient, Jacobian or Hessian matrices in analog computer aided design. In (Zhu and Opal, 2006) the authors presented a Volterra series based sensitivity analysis of mildly nonlinear circuits in the frequency domain. This sensitivity calculation can be expensive in certain circumstances because of multiple mixing effects (Zhu, 2007). In this paper, we propose the concept of nonlinear transfer matrix (NTM) to improve computational efficiency. Examples show that NTM improves the efficiency of sensitivity analysis of mildly nonlinear circuits, e.g. two orders of magnitude speedup for large circuits.
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基于volterra系列的轻度非线性电路灵敏度分析
灵敏度分析在比较两种不同设计的质量时是有用的。在模拟计算机辅助设计中,它也用于计算梯度、雅可比矩阵或黑森矩阵。在(Zhu和Opal, 2006)中,作者提出了基于Volterra系列的频域轻度非线性电路的灵敏度分析。由于多重混合效应,这种灵敏度计算在某些情况下可能是昂贵的(Zhu, 2007)。为了提高计算效率,本文提出了非线性传递矩阵(NTM)的概念。实例表明,NTM提高了轻度非线性电路的灵敏度分析效率,对大型电路的灵敏度分析速度提高了两个数量级。
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2007 50th Midwest Symposium on Circuits and Systems
2007 50th Midwest Symposium on Circuits and Systems
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