采用数值优化策略设计模拟CMOS电路的比较研究

2015 International Conference on Trends in Automation, Communications and Computing Technology (I-TACT-15) Pub Date : 2015-12-01 DOI:10.1109/ITACT.2015.7492670

S. Sridhar, Raghuram S

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引用次数: 3

摘要

模拟CMOS电路的设计既耗时又复杂。模拟电路通常需要手工制作，而软件和数字设计可以在参数改变后简单地重新编译。此外，设计参数的微小变化可能会对系统性能产生意想不到的结果，因此除了大多数非平凡的模拟电路配置外，手动设计空间探索可能很困难。在本文中，我们探索了基于数值优化工具的不同方法，这些方法可用于自动化模拟设计，以便在进行一些更改后可以简单地重新编译伪意义上的设计。我们探索遗传算法，几何优化以及寻找约束非线性多变量函数的最小值。研究结果为希望自动化参数选择过程的运放设计人员提供了指导。

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A comparative study of design of analog CMOS circuits using numerical optimization strategies

Design of analog CMOS circuits is time consuming and very complex. Analog circuits need to often be handcrafted as opposed to software and digital design which can simply be recompiled following a change of parameters. Further, minor changes in design parameters can have unexpected outcomes on system performance, due to which manual design space exploration can be difficult except for most non-trivial analog circuit configurations. In this paper we explore different methods for numerical optimization based tools which are available to automate analog design so that the design in a pseudo sense can simply be recompiled following some changes. We explore genetic algorithms, geometric optimization as well as finding the minimum of constrained nonlinear multivariable functions. The findings provide guidelines to Op-Amp designers looking to automate the parameter selection process.

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来源期刊

2015 International Conference on Trends in Automation, Communications and Computing Technology (I-TACT-15)

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