Nanoelectronic Mixed-Signal System Design

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  • Edition: 1st
  • Format: Hardcover
  • Copyright: 2015-02-26
  • Publisher: McGraw-Hill Education
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Cutting-edge nanoelectronic mixed-signal system design methods

Written by the director of the NanoSystem Design Laboratory at the University of North Texas, this authoritative resource discusses mixed-signal circuit and system design based on existing and emerging nanoelectronic technologies. The book features coverage of both digital and analog applications using nanoscale CMOS and post-CMOS. Key techniques required for design for excellence and manufacturability are discussed in this practice-driven text.

Nanoelectronic Mixed-Signal System Design covers:

  • Opportunities and challenges of nanoscale technology and systems
  • Emerging systems designed as analog/mixed-signal system-on-chips (AMS-SoCs)
  • Nanoelectronics issues in design for excellence
  • Phase-locked loop component circuits
  • Electronic signal converter circuits
  • Sensor circuits and systems
  • Memory in the AMS-SoCs
  • Mixed-signal circuit and system design flow
  • Mixed-signal circuit and system simulation
  • Power-, parasitic-, and thermal-aware AMS-SoC design methodologies
  • Variability-aware AMS-SoC design methodologies
  • Metamodel-based fast AMS-SoC design methodologies

Table of Contents

Ch. 1: Opportunities and Challenges of Nanoscale Technology and SystemsCh. 2: Emerging Systems Designed as Analog / Mixed-Signal System-on-Chips (AMS-SoCs)Ch. 3: Nanoelectronics Issues for Design for ExcellenceCh. 4: Phase-Locked Loop (PLL) Component CircuitsCh. 5: Electronic Signal Converter CircuitsCh. 6: Sensor Circuits and SystemsCh. 7 Memory in the AMS-SoCsCh. 8: Power Supply Subsystem for the AMS-SoCCh. 9: Mixed-Signal Circuit and System Design FlowCh. 10: Mixed-Signal Circuit and System Simulation Ch. 11: Power-Aware AMS-SoC Design MethodologiesCh. 12: Parasitic-Aware AMS-SoC Design MethodologiesCh. 13: Variability-Aware AMS-SoC Design MethodologiesCh. 14: Thermal-Aware Design of in AMS-SoC ComponentsCh. 15: Security-Aware Design of in AMS-SoC ComponentsCh. 16: Metamodel-Based Fast AMS-SoC Design MethodologiesCh. 17: Verilog-AMS Based Ultra-Fast and Accurate AMS-SoC Design ExplorationIndex

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