Journal ArticleDOI
A neural network modeling approach to circuit optimization and statistical design
TLDR
This paper presents a new approach to microwave circuit optimization and statistical design featuring neural network models at either device or circuit levels, which has the capability to handle high-dimensional and highly nonlinear problems.Abstract:
The trend of using accurate models such as physics-based FET models, coupled with the demand for yield optimization results in a computationally challenging task. This paper presents a new approach to microwave circuit optimization and statistical design featuring neural network models at either device or circuit levels. At the device level, the neural network represents a physics-oriented FET model yet without the need to solve device physics equations repeatedly during optimization. At the circuit level, the neural network speeds up optimization by replacing repeated circuit simulations. This method is faster than direct optimization of original device and circuit models. Compared to existing polynomial or table look-up models used in analysis and optimization, the proposed approach has the capability to handle high-dimensional and highly nonlinear problems. >read more
Citations
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Journal ArticleDOI
Artificial neural network models for coaxial to waveguide adapters
TL;DR: A multilayer perceptron neural network (MLPNN) is used to model a millimeter wave coaxial to waveguide adapter using the full-wave finite-difference time-domain (FDTD) method.
Proceedings ArticleDOI
Artificial Neural Network Based Modeling of GaAs HBT and Power Amplifier Design for Wireless Communication System
TL;DR: In this article, an ANN-based power amplifier based on a common-emitter large-signal equivalent circuit model has been implemented in Agilent Advance Design System (ADS) simulation environment.
Book ChapterDOI
Random nanosized metal grains and interface-trap fluctuations in emerging CMOS technologies
Proceedings ArticleDOI
Fast and Wide-Range Wavelength Locking Based on a Two-Layer Neural Network in a Silicon Microring Switch
TL;DR: A neural-network-based wavelength locking algorithm for a 1 × 2 silicon microring switch that is performed at a 20-nm/ms locking speed over a full free spectral range.
Proceedings ArticleDOI
Exact adjoint sensitivity analysis for neural based microwave modeling and design
TL;DR: In this article, an adjoint neural network method is introduced for sensitivity analysis in neural-based microwave modeling and design, and exact first and second order sensitivities are systematically calculated for generic microwave neural models including variety of knowledge based neural models embedding microwave empirical information.
References
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An introduction to computing with neural nets
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Journal ArticleDOI
A piecewise harmonic balance technique for determination of periodic response of nonlinear systems
M. Nakhla,J. Vlach +1 more
TL;DR: In this paper, a new method for the solution of nonlinear periodic networks has been developed, where the network is decomposed into a minimum number of linear and nonlinear subnetworks.
Journal ArticleDOI
State of the art and present trends in nonlinear microwave CAD techniques
Vittorio Rizzoli,Andrea Neri +1 more
TL;DR: A survey of modern nonlinear CAD techniques as applied to the specific field of microwave circuits shows that the various subjects are not just separate items, but rather can be chained in a strictly logical sequence.
Journal ArticleDOI
Circuit optimization: the state of the art
John W. Bandler,S.H. Chen +1 more
TL;DR: A unified hierarchical treatment of circuit models forms the basis of the presentation, and the concepts of design centering, tolerance assignment, and postproduction tuning in relation to yield enhancement and cost reduction suitable for integrated circuits are discussed.
Journal ArticleDOI
Nonlinear circuit analysis using the method of harmonic balance—A review of the art. Part I. Introductory concepts
TL;DR: The harmonic balance method is a technique for the numerical solution of nonlinear analog circuits operating in a periodic, or quasi-periodic, steady-state regime as mentioned in this paper, which can be used to efficiently derive the continuous-wave response of numerous nonlinear microwave components including amplifiers, mixers, and oscillators.