Journal ArticleDOI
Monte Carlo Analysis and Design-Application to a Crystal-Controlled Oscillator
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TLDR
An algorithm, based on Monte Carlo techniques, is presented for the design and analysis of a crystal controlled oscillator that should yield improved frequency stability and reduced cost compared with results obtained from conventional design methods.Abstract:
An algorithm, based on Monte Carlo techniques, is presented for the design and analysis of a crystal controlled oscillator. A digital computer simulates the oscillator as its circuit components change in accordance with their probability distributions. Selection of the final oscillator design is based on the probability of circuit failure as calculated by the computer. This method should yield improved frequency stability and reduced cost compared with results obtained from conventional design methods.read more
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Journal ArticleDOI
Complex ray analysis of scattering from ram coated targets
Ruan Yingzheng,Du Huiping +1 more
TL;DR: In this paper, the authors extended the complex ray theory from lossless media into lossy ones and used it in the problems of scattering analysis of objects coated with radar absorbing materials (RAM).
Journal ArticleDOI
Study on the EM scattering of rivets on the plate
TL;DR: In this paper, the electromagnetic scattering by rivets on the conducting plate was studied by using electric field integral equation (EFIE) in conjunction with the moment method, where the surfaces of the rivets and the plate were partitioned into triangular cells, the current distribution on the patches was represented by subdomain type basis function, the EFIE was translated into matrix equation by the Galerkin method, then the current coefficient was obtained.
References
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Journal ArticleDOI
Statistical Analysis of Logic Circuit Performance in Digital Systems
TL;DR: This paper reviews methods for combining statistical distributions of a set of parameters to obtain the distributions of the performance characteristics and some new circuit configurations are shown to lead to greater economy and reliability.
Journal ArticleDOI
A Computer Application to Reliable Circuit Design
TL;DR: The problem of reliable electronic circuit design by statistical methods by Monte Carlo methods, and two implementations of this method, as digital-computer programs, are given.