Logic Design of NanoICS

Svetlana N. Yanushkevich, Vlad P. Shmerko, Sergey Edward Lyshevski

October 28, 2004 by CRC Press
Reference - 488 Pages - 251 B/W Illustrations
ISBN 9780849327667 - CAT# 2766
Series: Nano- and Microscience, Engineering, Technology and Medicine

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  • Builds a foundation in the design and analysis of nanoICs, the next generation of circuitry
  • Introduces data structures that satisfy criteria of massive parallel processing, homogeneity, and fault tolerance, allowing you to choose appropriate models for a given application
  • Discusses the models and data structures necessary for synthesis of circuits in nanodimensions
  • Includes approximately 250 figures and tables, 100 equations, and 250 examples, illustrating the discussion and making the material more accessible
  • Contains 100 problems plus references and suggestions for further reading, building competence in design and analysis
  • Summary

    Today's engineers will confront the challenge of a new computing paradigm, relying on micro- and nanoscale devices. Logic Design of NanoICs builds a foundation for logic in nanodimensions and guides you in the design and analysis of nanoICs using CAD. The authors present data structures developed toward applications rather than a purely theoretical treatment.

    Requiring only basic logic and circuits background, Logic Design of NanoICs draws connections between traditional approaches to design and modern design in nanodimensions. The book begins with an introduction to the directions and basic methodology of logic design at the nanoscale, then proceeds to nanotechnologies and CAD, graphical representation of switching functions and networks, word-level and linear word-level data structures, 3-D topologies based on hypercubes, multilevel circuit design, and fault-tolerant computation in hypercube-like structures. The authors propose design solutions and techniques, going beyond the underlying technology to provide more applied knowledge.

    This design-oriented reference is written for engineers interested in developing the next generation of integrated circuitry, illustrating the discussion with approximately 250 figures and tables, 100 equations, 250 practical examples, and 100 problems. Each chapter concludes with a summary, references, and a suggested reading section.