Multi-objective sensitivity-based optimization of analog circuits exploiting NSGA-II front ranking
2015 International Conference on Synthesis, Modeling, Analysis and Simulation Methods and Applications to Circuit Design (SMACD)(2015)
摘要
This work deals with the multi-objective optimization of analog circuits by generating the Pareto front where elements are low sensitive to parameters' variations. NSGA-II is used for obtaining the non-dominated solutions. Richardson extrapolation technique is used for the in-loop optimization approach for computing partial derivatives and, thus, the solutions' sensitivity. NSGA-II Pareto fronts' intrinsic ranking is exploited for the generation of the new `low-sensitive' Pareto front. The case of the optimal sizing of a CMOS voltage follower is considered to exemplify the proposed approach.
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关键词
CMOS voltage follower,intrinsic ranking,Richardson extrapolation technique,Pareto front,NSGA-II front ranking,analog circuit sizing,multiobjective sensitivity-based optimization
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