Kluwer Academic Publishers, 2004. - 377 p. - One of the grand challenges in the nano-scopic computing era is guarantees of robustness. Robust computing system design is confronted with quantum physical, probabilistic, and even biological phenomena, and guaranteeing high reliability is much more difficult than ever before. Scaling devices down to the level of single electron operation will bring forth new challenges due to probabilistic effects and uncertainty in guaranteeing 'zero-one' based computing. Minuscule devices imply billions of devices on a single chip, which may help mitigate the challenge of uncertainty by replication and redundancy. However, such device densities will create a design and validation nightmare with the shear scale.Contents Dedication Preface Foreword Acknowledgements Nano-Computing at the Physical Layer. Preface Nanometer Scale Technologies: Device Considerations Defect Tolerant Nano-Computing. Preface 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 Evaluating Reliability Trade-offs for Nano-Architectures Law of Large Numbers System Design Nano-Scale Quantum Computing. Preface Challenges in Reliable Quantum Computing Origins and Motivations for Design Rules in QCA Partitioning and Placement for Buildable QCA Circuits Validation of Nano-Scale Architectures. Preface Verification of Large-Scale Nano Systems with Unreliable Nano Devices Biographies.
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