陀螺编译器:用于MEMS陀螺仪设计的软IP模型综合与分析框架

S. Jairam, N. Bhat
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引用次数: 2

摘要

提出了陀螺仪设计的仿真模型和综合框架。主要动机是有一个框架,以软知识产权(ip)的形式开发陀螺仪模型,以便随后集成到主流VLSI系统中。针对不同性能等级的陀螺仪的综合是基于一个简单的表查找。下一阶段的模型细化涉及陀螺仪的不同物理方面的优化,如其形状,是基于统计设计的实验(DoE)。基于有限元和Simulink的模型已经被用来建立一个自定义的DoE框架来估计与期望的陀螺结构相关的参数。对一个简单的陀螺仪结构进行了有限元和Simulink建模分析。结果表明,基于DoE的框架可以准确地捕获陀螺仪结构的参数,并且可以方便地与系统级综合工具集成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
GyroCompiler: A Soft IP Model Synthesis and Analysis Framework for Design of MEMS Based Gyroscopes
A model to create a simulation and a synthesis framework for design of gyroscopes is proposed. The main motivation is to have a framework for developing gyroscope models in the form of soft intellectual properties (IPs) for their subsequent integration into mainstream VLSI systems. Synthesis targetting different performance classes of gyros is based on a simple table look-up. The next level of model refinement involving optimization of the different physical aspects of the gyro such as its shape is based on statistical design of experiments (DoE). Both FEM and Simulink based models have been used to build a custom DoE framework to estimate the parameters related to a desired gyro structure. A simple gyroscope structure is modeled and analysed with both FEM and Simulink based models. It is shown that DoE based framework can capture the parameters of a gyroscope structure, accurately and that it can be easily integrated with system level synthesis tools.
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