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Nanoelectronic circuit design / Niraj K. Jha, Deming Chen, editors.

Contributor(s): Material type: TextTextPublication details: New York : Springer, c2011.Description: xi, 485 p. : ill. ; 25 cmISBN:
  • 9781441974440
Subject(s): DDC classification:
  • 621.3815   22
Contents:
1 Introduction to Nanotechnology -- 2 FinFET Circuit Design -- 3 FinFET SRAM Design -- 4 A Hybrid Nano/CMOS Dynamically Reconfigurable System -- 5 Reliable Circuits Design with Nanowire Arrays -- 6 Leveraging Emerging Technology Through Architectural Exploration for the Routing Fabric of Future FPGAs -- 7 Nanoscale Application-Specific Integrated Circuits -- 8 Imperfection-Immune Carbon Nanotube VLSI Circuits -- 9 FPCNA: A Carbon Nanotube-Based Programmable Architecture -- 10 Graphene Transistors and Circuits -- 11 Study of Performances of Low-k Cu, CNTs, and Optical Interconnects -- 12 Circuit Design with Resonant Tunneling Diodes -- 13 Circuit Design with Quantum Cellular Automata.
Summary: Nanoelectronic Circuit Design Edited by: Niraj K. Jha Deming Chen This book is about large-scale electronic circuits design driven by nanotechnology, where nanotechnology is broadly defined as building circuits using nanoscale devices that are either implemented with nanomaterials (e.g., nanowires, nanotubes or graphene) or following an unconventional method (e.g., FinFETs, quantum dots or resonant tunneling diodes). These nanoscale devices have significant potential to revolutionize the fabrication and integration of electronic systems and scale beyond the perceived scaling limitations of traditional CMOS. While innovations in nanotechnology originate at the individual device level, realizing the true impact of electronic systems demands that these device-level capabilities be translated into system-level benefits. This is the first book to focus on nanoscale circuits and their design issues, bridging the existing gap between nanodevice research and nanosystem design. •Covers design, synthesis, assembly, fabrication, integration, fault tolerance and testing of nanocircuits and nanosystems; •Focuses on state-of-the-art research, as well as fundamental principles; •Describes potential of nanoelectronic technology and the unique challenges it presents across the whole device-to-system process.
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Holdings
Item type Current library Call number Copy number Status Date due Barcode
Books Books Main library General Stacks 621.3815 / JH.N 2011 (Browse shelf(Opens below)) 1 Available 011612

Includes bibliographical references and index.

1 Introduction to Nanotechnology -- 2 FinFET Circuit Design -- 3 FinFET SRAM Design -- 4 A Hybrid Nano/CMOS Dynamically Reconfigurable System -- 5 Reliable Circuits Design with Nanowire Arrays -- 6 Leveraging Emerging Technology Through Architectural Exploration for the Routing Fabric of Future FPGAs -- 7 Nanoscale Application-Specific Integrated Circuits -- 8 Imperfection-Immune Carbon Nanotube VLSI Circuits -- 9 FPCNA: A Carbon Nanotube-Based Programmable Architecture -- 10 Graphene Transistors and Circuits -- 11 Study of Performances of Low-k Cu, CNTs, and Optical Interconnects -- 12 Circuit Design with Resonant Tunneling Diodes -- 13 Circuit Design with Quantum Cellular Automata.

Nanoelectronic Circuit Design Edited by: Niraj K. Jha Deming Chen This book is about large-scale electronic circuits design driven by nanotechnology, where nanotechnology is broadly defined as building circuits using nanoscale devices that are either implemented with nanomaterials (e.g., nanowires, nanotubes or graphene) or following an unconventional method (e.g., FinFETs, quantum dots or resonant tunneling diodes). These nanoscale devices have significant potential to revolutionize the fabrication and integration of electronic systems and scale beyond the perceived scaling limitations of traditional CMOS. While innovations in nanotechnology originate at the individual device level, realizing the true impact of electronic systems demands that these device-level capabilities be translated into system-level benefits. This is the first book to focus on nanoscale circuits and their design issues, bridging the existing gap between nanodevice research and nanosystem design. •Covers design, synthesis, assembly, fabrication, integration, fault tolerance and testing of nanocircuits and nanosystems; •Focuses on state-of-the-art research, as well as fundamental principles; •Describes potential of nanoelectronic technology and the unique challenges it presents across the whole device-to-system process.

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