Journal ArticleDOI
Integrated physics-oriented statistical modeling, simulation, and optimization (MESFETs)
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TLDR
In this paper, a large-signal physics-based model is integrated into the harmonic balance equations for simulation of nonlinear circuits, involving an efficient Newton update, and exploited in a gradient-based FAST (feasible adjoint sensitivity technique) circuit optimization technique.Abstract:
Physics-based modeling of MESFETs is addressed from the point of view of efficient simulation, accurate behavior prediction and robust parameter extraction. A novel integration of a large-signal physics-based model into the harmonic balance equations for simulation of nonlinear circuits, involving an efficient Newton update, is presented and exploited in a gradient-based FAST (feasible adjoint sensitivity technique) circuit optimization technique. For yield-driven MMIC design a relevant physics-based statistical modeling methodology is presented. Quadratic approximation of responses and gradients suitable for yield optimization is discussed. The authors verify their theoretical contributions and exemplify their computational results using built-in and user-programmable modeling capabilities of the CAE systems OSA90/hope and HarPE. Results of device modeling using a field-theoretic nonlinear device simulator are reported. >read more
Citations
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A neural network modeling approach to circuit optimization and statistical design
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High-Frequency Characteristic Fluctuations of Nano-MOSFET Circuit Induced by Random Dopants
Yiming Li,Chih-Hong Hwang +1 more
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References
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Proceedings ArticleDOI
Statistical modeling of GaAs MESFETs
TL;DR: In this paper, the authors compared the statistical extraction of GaAs MESFET equivalent circuit model parameters and physical model parameters from wafer measurements and observed that the equivalent-circuit model of A. Materka and T. Kacprzak (1985) provided a better match for individual devices but the model based on physical parameters of P.H. Ladbrooke (1989) provides a better estimate of device statistics.
Proceedings ArticleDOI
A novel approach for the large signal analysis and optimisation of microwave frequency doublers
TL;DR: In this paper, a large-signal lumped-element model is used for an NE 71000 chip MESFET with a two-level harmonic balance program to analyze and optimize a target ideal doubler.