An Improved Markov Random Field Design Approach For Digital Circuits: Introducing Fault-Tolerance With Higher Noise-Immunity For The Nano-Circuits As Compared To CMOS And MRF Designs - Tapa blanda

Anwer, Jahanzeb; Hisham Bin Hamid, Nor; Sagayan Asirvadam, Vijanth

9783844332636: An Improved Markov Random Field Design Approach For Digital Circuits: Introducing Fault-Tolerance With Higher Noise-Immunity For The Nano-Circuits As Compared To CMOS And MRF Designs

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ISBN 10: 3844332634 ISBN 13: 9783844332636

Editorial: LAP Lambert Academic Publishing, 2011

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As the MOSFET dimensions scale down to nanoscale level, the reliability of circuits based on these devices decreases. Therefore, a mechanism has to be devised that can make the nanoscale systems perform reliably using unreliable circuit components. The solution is fault-tolerant circuit design. Markov Random Field (MRF) is an effective approach that achieves fault-tolerance in integrated circuit design. The previous research on this technique suffers from limitations at the design, simulation and implementation levels. As improvements, the MRF fault-tolerance rules have been validated for a practical circuit example. The simulation framework is extended from thermal to a combination of thermal and random telegraph signal noise sources to provide a more rigorous noise environment for the simulation of nanoscale circuits. Moreover, an architecture-level improvement has been proposed in the design of previous MRF gates. The re-designed MRF is termed as Improved-MRF. By simulating various test circuits in Cadence, it is found that Improved-MRF circuits are 400 whereas MRF circuits are only 10 times more noise-tolerant than the CMOS alternatives.

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The authors work under the banner of fault-tolerance research group in Universiti Teknologi PETRONAS (UTP). The group is conducting research on various aspects of fault-tolerant circuit design with the support of UTP and MOSTI (Ministry of Science, Technology and Innovation) Malaysia.

The authors work under the banner of fault-tolerance research group in Universiti Teknologi PETRONAS (UTP). The group is conducting research on various aspects of fault-tolerant circuit design with the support of UTP and MOSTI (Ministry of Science, Technology and Innovation) Malaysia.

The authors work under the banner of fault-tolerance research group in Universiti Teknologi PETRONAS (UTP). The group is conducting research on various aspects of fault-tolerant circuit design with the support of UTP and MOSTI (Ministry of Science, Technology and Innovation) Malaysia.

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Editorial: LAP Lambert Academic Publishing
A�o de publicaci�n: 2011
Idioma: Ingl�s
ISBN 10: 3844332634
ISBN 13: 9783844332636
Encuadernaci�n: Tapa blanda
N�mero de p�ginas: 88
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An Improved Markov Random Field Design Approach For Digital Circuits

Jahanzeb Anwer

Publicado por LAP LAMBERT Academic Publishing Mai 2011, 2011

ISBN 10: 3844332634 ISBN 13: 9783844332636

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Librería: BuchWeltWeit Ludwig Meier e.K., Bergisch Gladbach, Alemania

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Taschenbuch. Condici�n: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -As the MOSFET dimensions scale down to nanoscale level, the reliability of circuits based on these devices decreases. Therefore, a mechanism has to be devised that can make the nanoscale systems perform reliably using unreliable circuit components. The solution is fault-tolerant circuit design. Markov Random Field (MRF) is an effective approach that achieves fault-tolerance in integrated circuit design. The previous research on this technique suffers from limitations at the design, simulation and implementation levels. As improvements, the MRF fault-tolerance rules have been validated for a practical circuit example. The simulation framework is extended from thermal to a combination of thermal and random telegraph signal noise sources to provide a more rigorous noise environment for the simulation of nanoscale circuits. Moreover, an architecture-level improvement has been proposed in the design of previous MRF gates. The re-designed MRF is termed as Improved-MRF. By simulating various test circuits in Cadence, it is found that Improved-MRF circuits are 400 whereas MRF circuits are only 10 times more noise-tolerant than the CMOS alternatives. 88 pp. Englisch. N� de ref. del art�culo: 9783844332636

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An Improved Markov Random Field Design Approach For Digital Circuits

Jahanzeb Anwer|Nor Hisham Bin Hamid|Vijanth Sagayan Asirvadam

Publicado por LAP LAMBERT Academic Publishing, 2011

ISBN 10: 3844332634 ISBN 13: 9783844332636

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Condici�n: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Autor/Autorin: Anwer JahanzebThe authors work under the banner of fault-tolerance research group in Universiti Teknologi PETRONAS (UTP). The group is conducting research on various aspects of fault-tolerant circuit design with the support of UTP an. N� de ref. del art�culo: 5473640

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An Improved Markov Random Field Design Approach For Digital Circuits : Introducing Fault-Tolerance With Higher Noise-Immunity For The Nano-Circuits As Compared To CMOS And MRF Designs

Jahanzeb Anwer

Publicado por LAP LAMBERT Academic Publishing, 2011

ISBN 10: 3844332634 ISBN 13: 9783844332636

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Librería: AHA-BUCH GmbH, Einbeck, Alemania

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Taschenbuch. Condici�n: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - As the MOSFET dimensions scale down to nanoscale level, the reliability of circuits based on these devices decreases. Therefore, a mechanism has to be devised that can make the nanoscale systems perform reliably using unreliable circuit components. The solution is fault-tolerant circuit design. Markov Random Field (MRF) is an effective approach that achieves fault-tolerance in integrated circuit design. The previous research on this technique suffers from limitations at the design, simulation and implementation levels. As improvements, the MRF fault-tolerance rules have been validated for a practical circuit example. The simulation framework is extended from thermal to a combination of thermal and random telegraph signal noise sources to provide a more rigorous noise environment for the simulation of nanoscale circuits. Moreover, an architecture-level improvement has been proposed in the design of previous MRF gates. The re-designed MRF is termed as Improved-MRF. By simulating various test circuits in Cadence, it is found that Improved-MRF circuits are 400 whereas MRF circuits are only 10 times more noise-tolerant than the CMOS alternatives. N� de ref. del art�culo: 9783844332636

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An Improved Markov Random Field Design Approach For Digital Circuits

Jahanzeb Anwer

Publicado por LAP LAMBERT Academic Publishing Mai 2011, 2011

ISBN 10: 3844332634 ISBN 13: 9783844332636

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Librería: buchversandmimpf2000, Emtmannsberg, BAYE, Alemania

Calificaci�n del vendedor: 5 de 5 estrellas

Taschenbuch. Condici�n: Neu. Neuware -As the MOSFET dimensions scale down to nanoscale level, the reliability of circuits based on these devices decreases. Therefore, a mechanism has to be devised that can make the nanoscale systems perform reliably using unreliable circuit components. The solution is fault-tolerant circuit design. Markov Random Field (MRF) is an effective approach that achieves fault-tolerance in integrated circuit design. The previous research on this technique suffers from limitations at the design, simulation and implementation levels. As improvements, the MRF fault-tolerance rules have been validated for a practical circuit example. The simulation framework is extended from thermal to a combination of thermal and random telegraph signal noise sources to provide a more rigorous noise environment for the simulation of nanoscale circuits. Moreover, an architecture-level improvement has been proposed in the design of previous MRF gates. The re-designed MRF is termed as Improved-MRF. By simulating various test circuits in Cadence, it is found that Improved-MRF circuits are 400 whereas MRF circuits are only 10 times more noise-tolerant than the CMOS alternatives.Books on Demand GmbH, �berseering 33, 22297 Hamburg 88 pp. Englisch. N� de ref. del art�culo: 9783844332636

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