High Level Fault Modeling of Analog Circuits Through Automated Model Generation Using Chebyshev And Newton Interpolating Polynomials

High Level Fault Modeling of Analog Circuits Through Automated Model Generation Using Chebyshev And Newton Interpolating Polynomials

With the help of automated model generation (AMG), high level modeling (HLM) of analog circuits is able to provide useful speedup and acceptable accuracy compared with standard SPICE-level circuit simulation. Unfortunately, this is not the case for high level fault modeling (HLFM) and high level fau...

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Main Authors: Xia, Likun, Farooq, Muhammad Umer, Bell, Ian
Format: Citation Index Journal
Published: 2013
Subjects:
QA Mathematics
Online Access:http://eprints.utp.edu.my/10918/1/JETT-S-13-00163.pdf
http://eprints.utp.edu.my/10918/
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Institution: Universiti Teknologi Petronas
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spelling my.utp.eprints.109182013-12-16T23:47:58Z High Level Fault Modeling of Analog Circuits Through Automated Model Generation Using Chebyshev And Newton Interpolating Polynomials Xia, Likun Farooq, Muhammad Umer Bell, Ian QA Mathematics With the help of automated model generation (AMG), high level modeling (HLM) of analog circuits is able to provide useful speedup and acceptable accuracy compared with standard SPICE-level circuit simulation. Unfortunately, this is not the case for high level fault modeling (HLFM) and high level fault simulation (HLFS). This is still the most critical issue that industry is facing in reducing analog testing cost. We present a novel algorithm using a fusion of Chebyshev and Newton interpolating polynomials (CNIP) in nonlinear state-space (ss) termed AMG-CNIP for HLFM in analog circuits. It is structured in MATLAB and the hardware description language (HDL) VHDL-AMS, respectively. The properties of AMG-CNIP are investigated by modeling nonlinear transmission line circuits using transient analysis. Results show that the AMG-CNIP models can handle both linear and nonlinear fault simulations with reasonable accuracy, and simulation speedup is achieved compared to standard SPICE-level simulations. 2013-11 Citation Index Journal NonPeerReviewed application/pdf http://eprints.utp.edu.my/10918/1/JETT-S-13-00163.pdf Xia, Likun and Farooq, Muhammad Umer and Bell, Ian (2013) High Level Fault Modeling of Analog Circuits Through Automated Model Generation Using Chebyshev And Newton Interpolating Polynomials. [Citation Index Journal] (Submitted) http://eprints.utp.edu.my/10918/
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
topic QA Mathematics
spellingShingle QA Mathematics
Xia, Likun
Farooq, Muhammad Umer
Bell, Ian
High Level Fault Modeling of Analog Circuits Through Automated Model Generation Using Chebyshev And Newton Interpolating Polynomials
description With the help of automated model generation (AMG), high level modeling (HLM) of analog circuits is able to provide useful speedup and acceptable accuracy compared with standard SPICE-level circuit simulation. Unfortunately, this is not the case for high level fault modeling (HLFM) and high level fault simulation (HLFS). This is still the most critical issue that industry is facing in reducing analog testing cost. We present a novel algorithm using a fusion of Chebyshev and Newton interpolating polynomials (CNIP) in nonlinear state-space (ss) termed AMG-CNIP for HLFM in analog circuits. It is structured in MATLAB and the hardware description language (HDL) VHDL-AMS, respectively. The properties of AMG-CNIP are investigated by modeling nonlinear transmission line circuits using transient analysis. Results show that the AMG-CNIP models can handle both linear and nonlinear fault simulations with reasonable accuracy, and simulation speedup is achieved compared to standard SPICE-level simulations.
format Citation Index Journal
author Xia, Likun
Farooq, Muhammad Umer
Bell, Ian
author_facet Xia, Likun
Farooq, Muhammad Umer
Bell, Ian
author_sort Xia, Likun
title High Level Fault Modeling of Analog Circuits Through Automated Model Generation Using Chebyshev And Newton Interpolating Polynomials
title_short High Level Fault Modeling of Analog Circuits Through Automated Model Generation Using Chebyshev And Newton Interpolating Polynomials
title_full High Level Fault Modeling of Analog Circuits Through Automated Model Generation Using Chebyshev And Newton Interpolating Polynomials
title_fullStr High Level Fault Modeling of Analog Circuits Through Automated Model Generation Using Chebyshev And Newton Interpolating Polynomials
title_full_unstemmed High Level Fault Modeling of Analog Circuits Through Automated Model Generation Using Chebyshev And Newton Interpolating Polynomials
title_sort high level fault modeling of analog circuits through automated model generation using chebyshev and newton interpolating polynomials
publishDate 2013
url http://eprints.utp.edu.my/10918/1/JETT-S-13-00163.pdf
http://eprints.utp.edu.my/10918/
_version_ 1738655911384186880

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