Nanometer Scale Technologies: Device Considerations.- Nanocomputing in the Presence of Defects and Faults: A Survey.- Defect Tolerance at the End of the Roadmap.- Obtaining Quadrillion-Transistor Logic Systems Despite Imperfect Manufacture, Hardware Failure, and Incomplete System Specification.- A Probabilistic-Based Design for Nanoscale Computation.- Tools and Techniques for Evaluating Reliability Trade-Offs for Nano-Architectures.- Law of Large Numbers System Design.- Challenges in Reliable Quantum Computing.- Origins and Motivations for Design Rules in QCA.- Partitioning and Placement for Buildable QCA Circuits.- Verification of Large Scale Nano Systems with Unreliable Nano Devices.
"This book will serve a unique purpose. Several times over the past
few years I have had students ask me to point them toward
literature references on defect tolerant architectures for
nano-electronics, or nanoelectronics design concepts, etc. For
quantum computing and neural nets, well established research
communities exist and such references are easy to point to. For
some of these other paradigms, papers often appear in journals that
biologists, chemists, materials scientists, physicists, etc.,
rarely encounter - or, worse yet - students must turn to patent
literature! This book brings together, for the first time, many of
these modern architectural concepts into a single text, with
chapters written by a terrific group of experts. It is sure to
become a mainstay in my group, and I expect that it will be a
valuable resource for many years to come."
(Jim Heath, Elizabeth W. Gilloon Professor, California Institute of
Technology)
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