Boston ; , : Northeastern University, , ©2008

[Piscataqay, New Jersey] : , : IEEE Xplore, , [2007]

1-5231-1706-0

1-59693-268-6

1 online resource (380 p.)

LombardiFabrizio <1955->

HuangJing <1970->

621.395

Cellular automata

Digital electronics - Design and construction

Digital electronics - Testing

Nanoelectronics

Quantum computers

Quantum dots

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Design and Test of Digital Circuits byQuantum-Dot Cellular Automata; Contents; Preface; Chapter 1 Introduction 1; Chapter 2 Nano Devices and Architectures Overview 11; Chapter 3 QCA 37; Chapter 4 QCA Combinational Logic Design 69; Chapter 5 Logic-Level Testing and Defect Characterization 91; Chapter 6 Two-Dimensional Schemes for Clocking/Timing of QCA Circuits 143; Chapter 7 Tile-Based QCA Design 171; Chapter 8 Sequential Circuit Design in QCA 213; Chapter 9 QCA Memory 247; Chapter 10 Implementing Universal Logic in QCA 287; Chapter 11 QCA Model for Computing and Energy Analysis 305

Chapter 12 Fault Tolerance of Reversible QCA Circuits 327Chapter 13 Conclusion and Future Work 349; Appendix A Preliminary for QCA Mechanical Model 353; Appendix B Validation of Mechanical Model 357; Appendix C Energy Dissipation Analysis of Circuit Units 363; About the Authors 367

Probing both the science and the engineering involved, this one-of-a-kind resource reviews current microchip fabrication methods and architectures and discusses fundamentals of nanoscale design and DNA self-assembly. Moreover, the book surveys current limitations and challenges, and features detailed case studies of lightweight self-organizing computer architectures. This roadmap to DNA microchip synthesis is essential reading for all engineers and researchers involved in developing nanoscale computer structures, devices, and applications.