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Compact MOSFET models for VLSI design / A.B. Bhattacharyya.

By: Bhattacharyya, A. B., (Amalendu Bhushan) [author.].
Contributor(s): IEEE Xplore (Online Service) [distributor.] | Wiley InterScience (Online service) [publisher.].
Material type: materialTypeLabelBookPublisher: Singapore ; John Wiley & Sons (Asia), c2009Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2009]Description: 1 PDF (xxiv, 432 pages) : illustrations.Content type: text Media type: electronic Carrier type: online resourceISBN: 9780470823446.Subject(s): Integrated circuits -- Very large scale integration -- Design and construction | Metal oxide semiconductor field-effect transistors -- Design and construction | CMOS integrated circuits | Conductivity | Crystals | Dielectrics | Differential equations | Doping | Electric potential | Ellipsoids | Energy states | Equations | Guidelines | Indexes | Integrated circuit modeling | Interpolation | Logic gates | MOS capacitors | MOSFET circuits | MOSFETs | Mathematical model | Mobile communication | Noise | Numerical models | Periodic structures | Semiconductor process modeling | Silicon | Silicon on insulator technology | Space charge | Spline | Substrates | Threshold voltage | Transient analysis | Very large scale integrationGenre/Form: Electronic books.Additional physical formats: Print version:: No titleOnline resources: Abstract with links to resource Also available in print.
Contents:
Semiconductor physics review for MOSFET modeling -- Ideal metal oxide semiconductor capacitor -- Non-ideal and non-classical MOS capacitors -- Long channel MOS transistor -- The scaled MOS transistor -- Quasistatic, non-quasistatic, and noise models -- Quantum phenomena in MOS transistors -- Non-classical MOSFET structures -- Appendix A : expression for electric field and potential variation in the semiconductor space charge under the gate -- Appendix B : features of select compact MOSFET models -- Appendix C : PSP two-point collocation method.
Summary: Practicing designers, students, and educators in the semiconductor field face an ever expanding portfolio of MOSFET models. In Compact MOSFET Models for VLSI Design, A.B. Bhattacharyya presents a unified perspective on the topic, allowing the practitioner to view and interpret device phenomena concurrently using different modeling strategies. Readers will learn to link device physics with model parameters, helping to close the gap between device understanding and its use for optimal circuit performance. Bhattacharyya also lays bare the core physical concepts that will drive the future of VLSI development, allowing readers to stay ahead of the curve, despite the relentless evolution of new models. . Adopts a unified approach to guide students through the confusing array of MOSFET models. Links MOS physics to device models to prepare practitioners for real-world design activities. Helps fabless designers bridge the gap with off-site foundries. Features rich coverage of: . quantum mechanical related phenomena. Si-Ge strained-Silicon substrate. non-classical structures such as Double Gate MOSFETs . Presents topics that will prepare readers for long-term developments in the field. Includes solutions in every chapter. Can be tailored for use among students and professionals of many levels. Comes with MATLAB code downloads for independent practice and advanced study This book is essential for students specializing in VLSI Design and indispensible for design professionals in the microelectronics and VLSI industries. Written to serve a number of experience levels, it can be used either as a course textbook or practitioner's reference. Access the MATLAB code, solution manual, and lecture materials at the companion website: <a href="http://www.wiley.com/go/bhattacharyya">www.wiley.com/go/bhattacharyya</a>.
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Includes bibliographical references and index.

Semiconductor physics review for MOSFET modeling -- Ideal metal oxide semiconductor capacitor -- Non-ideal and non-classical MOS capacitors -- Long channel MOS transistor -- The scaled MOS transistor -- Quasistatic, non-quasistatic, and noise models -- Quantum phenomena in MOS transistors -- Non-classical MOSFET structures -- Appendix A : expression for electric field and potential variation in the semiconductor space charge under the gate -- Appendix B : features of select compact MOSFET models -- Appendix C : PSP two-point collocation method.

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Practicing designers, students, and educators in the semiconductor field face an ever expanding portfolio of MOSFET models. In Compact MOSFET Models for VLSI Design, A.B. Bhattacharyya presents a unified perspective on the topic, allowing the practitioner to view and interpret device phenomena concurrently using different modeling strategies. Readers will learn to link device physics with model parameters, helping to close the gap between device understanding and its use for optimal circuit performance. Bhattacharyya also lays bare the core physical concepts that will drive the future of VLSI development, allowing readers to stay ahead of the curve, despite the relentless evolution of new models. . Adopts a unified approach to guide students through the confusing array of MOSFET models. Links MOS physics to device models to prepare practitioners for real-world design activities. Helps fabless designers bridge the gap with off-site foundries. Features rich coverage of: . quantum mechanical related phenomena. Si-Ge strained-Silicon substrate. non-classical structures such as Double Gate MOSFETs . Presents topics that will prepare readers for long-term developments in the field. Includes solutions in every chapter. Can be tailored for use among students and professionals of many levels. Comes with MATLAB code downloads for independent practice and advanced study This book is essential for students specializing in VLSI Design and indispensible for design professionals in the microelectronics and VLSI industries. Written to serve a number of experience levels, it can be used either as a course textbook or practitioner's reference. Access the MATLAB code, solution manual, and lecture materials at the companion website: <a href="http://www.wiley.com/go/bhattacharyya">www.wiley.com/go/bhattacharyya</a>.

Also available in print.

Mode of access: World Wide Web

Description based on PDF viewed 12/21/2015.

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