A time-domain methodology for statistical simulation of nonlinear dynamic integrated circuits with arbitrary excitations is presented. The statistical behavior of the circuits is described as a set of stochastic differential equations rather than estimated by a population of realizations and Gaussian closure approximations are introduced to obtain a closed form of moment equations. Statistical simulation of specific circuits shows that the proposed numerical methods offer accurate and efficient solution of stochastic differentials for variability and noise analysis of integrated circuits
This paper presents a systematic approach for the statistical simulation of nonlinear networks with ...
This paper addresses the statistical modeling and simulation of high-speed interconnects with uncert...
Process variations are a major concern in today's chip design since they can significantly degrade c...
A time-domain methodology for statistical simulation of nonlinear dynamic integrated circuits with a...
Abstract—- A time-domain methodology for noise analysis of non-linear dynamic integrated circuits wi...
One of the most notable features of nanometer scale CMOS technology is the increasing magnitude of v...
This paper presents a methodology for statistical simulation of non-linear integrated circuits affec...
In the past few decades, the semiconductor industry kept shrinking the feature size of CMOS transist...
This paper presents a systematic approach for the statistical simulation of nonlinear networks with ...
This paper presents a methodology for statistical simulation of non-linear integrated circuits affec...
AbstractThe transient simulation of noise in electronic circuits leads to differential-algebraic equ...
The aim of this paper is to demonstrate how the appropriate numerical, statistical and computer tech...
Due to significant manufacturing process variations, the performance of integrated circuits (ICs) ha...
Two types of noises can exist in an electrical circuit: external noise and internal noise. The effec...
This paper extends recent literature results concerning the statistical simulation of circuits affec...
This paper presents a systematic approach for the statistical simulation of nonlinear networks with ...
This paper addresses the statistical modeling and simulation of high-speed interconnects with uncert...
Process variations are a major concern in today's chip design since they can significantly degrade c...
A time-domain methodology for statistical simulation of nonlinear dynamic integrated circuits with a...
Abstract—- A time-domain methodology for noise analysis of non-linear dynamic integrated circuits wi...
One of the most notable features of nanometer scale CMOS technology is the increasing magnitude of v...
This paper presents a methodology for statistical simulation of non-linear integrated circuits affec...
In the past few decades, the semiconductor industry kept shrinking the feature size of CMOS transist...
This paper presents a systematic approach for the statistical simulation of nonlinear networks with ...
This paper presents a methodology for statistical simulation of non-linear integrated circuits affec...
AbstractThe transient simulation of noise in electronic circuits leads to differential-algebraic equ...
The aim of this paper is to demonstrate how the appropriate numerical, statistical and computer tech...
Due to significant manufacturing process variations, the performance of integrated circuits (ICs) ha...
Two types of noises can exist in an electrical circuit: external noise and internal noise. The effec...
This paper extends recent literature results concerning the statistical simulation of circuits affec...
This paper presents a systematic approach for the statistical simulation of nonlinear networks with ...
This paper addresses the statistical modeling and simulation of high-speed interconnects with uncert...
Process variations are a major concern in today's chip design since they can significantly degrade c...