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An Analysis of Posynomial MOSFET Models Using Genetic Algorithms and Visualization

dc.date.accessioned2007-06-06T12:21:53Z
dc.date.accessioned2018-11-24T10:25:35Z
dc.date.available2007-06-06T12:21:53Z
dc.date.available2018-11-24T10:25:35Z
dc.date.issued2007-06-05
dc.identifier.urihttp://hdl.handle.net/1721.1/37597
dc.identifier.urihttp://repository.aust.edu.ng/xmlui/handle/1721.1/37597
dc.descriptionMEng thesis
dc.description.abstractAnalog designers are interested in optimization tools which automate the process of circuit sizing. Geometric programming, which uses posynomial models of MOSFET parameters, represents one such tool. Genetic algorithms have been used to evolve posynomial models for geometric programs, with a reasonable mean error when modeling MOSFET parameters. By visualizing MOSFET data using two dimensional plots, this thesis investigates the behavior of various MOSFET small and large signal parameters and consequently proposes a lower bound on the maximum error, which a posynomial cannot improve upon. It then investigates various error metrics which can be used to balance the mean and maximum errors generated by posynomial MOSFET models. Finally, the thesis uses empirical data to verify the existence of the lower bound, and compares the maximum error from various parameters modeled by the genetic algorithm and by monomial fitting. It concludes that posynomial MOSFET models suffer from inherent inaccuracies. Additionally, although genetic algorithms improve on the maximum model error, the improvement, in general, does not vastly surpass results obtained through monomial fitting, which is a less computationally intensive method. Genetic algorithms are hence best used when modeling partially convex MOSFET parameters, such as r0 .
dc.format.extent90 p
dc.subjectlimiations
dc.subjectconvex optimization
dc.titleAn Analysis of Posynomial MOSFET Models Using Genetic Algorithms and Visualization


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