Efficient Pre-stressed Harmonic Analysis of RF-Microresonators by Means of Model Order Reduction

微纳电子与智能制造 Pub Date : 2006-04-24 DOI:10.1109/ESIME.2006.1643943
L. Del Tin, R. Gaddi, A. Gnudi, E. Rudnyi, A. Greiner, J. Korvink
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引用次数: 2

Abstract

A simulation methodology to reduce computational time of pre-stressed harmonic analysis of radio frequency (RF) microresonators is demonstrated. The methodology is based on the application of model order reduction to a system of ordinary differential equations obtained after spatial discretization by finite element software. Model order reduction produces a low dimensional approximation of the original system and hence enables a substantial reduction of simulation time while maintaining a very small approximation error. The approach allows performing rapid device design and optimization. Once the device design and working conditions have been defined its reduced model can also be used to implement a behavioural model that can be employed in system level simulations
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基于模型降阶的射频微谐振器的有效预应力谐波分析
提出了一种减少射频微谐振器预应力谐波分析计算时间的仿真方法。该方法是将模型阶约法应用于由有限元软件进行空间离散后得到的常微分方程组。模型阶数减少产生原始系统的低维近似值,因此能够在保持非常小的近似值误差的同时大幅减少模拟时间。该方法允许执行快速的设备设计和优化。一旦确定了设备设计和工作条件,其简化模型也可用于实现可用于系统级模拟的行为模型
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来源期刊
微纳电子与智能制造
微纳电子与智能制造
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发文量
145
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