A statistically optimal macromodeling framework with application in process variation analysis of MEMS devices

机译：统计优化的宏建模框架及其在MEMS器件工艺变化分析中的应用

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Macromodels are used extensively in circuit and process analysis for higher computation efficiency, and better insight into system behaviors. A statistically optimal and elegant framework for macro-modeling is proposed in this paper, which can successfully handle the modeling challenges created by the highly customized fabrication/design paradigm of MEMS devices. Without requirements for a priori knowledge and experience of fast emerging and highly diversified MEMS fabrication and design style, the proposed framework can adapt to arbitrary distribution and correlation by optimally scaling the order and dimension of the process variation models for trade-off between accuracy and efficiency. The effectiveness of the proposed framework is demonstrated by process variation modeling and analysis of MEMS devices.

机译：宏模型广泛用于电路和过程分析中，以提高计算效率并更好地了解系统行为。本文提出了一种统计上最优且优雅的宏模型框架，该框架可以成功应对由高度定制化的MEMS器件制造/设计范例所带来的建模挑战。无需先验知识和经验即可快速兴起且高度多样化的MEMS制造和设计风格，通过优化缩放过程变化模型的顺序和尺寸以在精度和效率之间进行权衡，所提出的框架可以适应任意分布和相关性。。通过对MEMS器件进行工艺变化建模和分析，证明了所提出框架的有效性。

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来源
《10th IEEE International New Circuits and Systems Conference.》|2012年|p.221- 224|共4页
会议地点 Montreal(CA)
作者
Wu Bin;
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正文语种 eng
中图分类电路理论;
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A statistically optimal macromodeling framework with application in process variation analysis of MEMS devices

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