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E-grāmata: Cross-Layer Reliability of Computing Systems

Edited by Stefano Di Carlo (Politecnico di Torino, Italy), Edited by Ramon Canal, Edited by Dimitris Gizopoulos (National and Kapodistrian University of Athens, Department of Informatics & Telecommunications, Greece), Edited by Alberto Bosio (Ecole Centrale de Lyon ), Edited by Giorgio Di Natale (National Research Center of France, TIMA Laboratory, Grenoble, France)

Formāts: PDF+DRM
Sērija : Materials, Circuits and Devices
Izdošanas datums: 27-Nov-2020
Izdevniecība: Institution of Engineering and Technology
Valoda: eng
ISBN-13: 9781785617980

Citas grāmatas par šo tēmu:

Electronics engineering

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Formāts: PDF+DRM
Sērija : Materials, Circuits and Devices
Izdošanas datums: 27-Nov-2020
Izdevniecība: Institution of Engineering and Technology
Valoda: eng
ISBN-13: 9781785617980

Citas grāmatas par šo tēmu:

Electronics engineering

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Reliability has always been a major concern in designing computing systems. However, the increasing complexity of such systems has led to a situation where efforts for assuring reliability have become extremely costly, both for the design of solutions for the mitigation of possible faults, and for the reliability assessment of such techniques.

Cross-layer reliability is fast becoming the preferred solution. In a cross-layer resilient system, physical and circuit level techniques can mitigate low-level faults. Hardware redundancy can be used to manage errors at the hardware architecture layer. Eventually, software implemented error detection and correction mechanisms can manage those errors that escaped the lower layers of the stack.

This book presents state-of-the-art solutions for increasing the resilience of computing systems, both at single levels of abstraction and multi-layers. The book begins by addressing design techniques to improve the resilience of computing systems, covering the logic layer, the architectural layer and the software layer. The second part of the book focuses on cross-layer resilience, including coverage of physical stress, reliability assessment approaches, fault injection at the ISA level, analytical modelling for cross-later resiliency, and stochastic methods.

Cross-Layer Reliability of Computing Systems is a valuable resource for researchers, postgraduate students and professional computer architects focusing on the dependability of computing systems.

This book presents state-of-the-art solutions for increasing the resilience of computing systems, both at single levels of abstraction and multi-layers. It is a valuable resource for researchers, postgraduate students and professional computer architects focusing on the dependability of computing systems.

Part I: Design techniques to improve the resilience of computing systems
- Chapter 1: Technological layer
- Chapter 2: Design techniques to improve the resilience of computing systems: logic layer
- Chapter 3: Design techniques to improve the resilience of computing systems: architectural layer
- Chapter 4: Design techniques to improve the resilience of computing systems: software layer
- Chapter 5: Cross-layer resilience
Part II: Reliability assessment
- Chapter 6: Physical stress
- Chapter 7: Soft error modeling and simulation
- Chapter 8: Microarchitecture-level reliability assessment of multi-core processors
- Chapter 9: Fault injection at the instruction set architecture (ISA) level
- Chapter 10: Analytical modeling for crosslayer resiliency
- Chapter 11: Stochastic methods

Giorgio Di Natale is director of research for the National Research Center of France at the TIMA laboratory in Grenoble, France. His research interests include hardware security and trust, reliability, fault tolerance, and testing. He is the chair of the TTTC (Computer Society), Golden Core member of the Computer Society and Senior member of the IEEE.

Dimitris Gizopoulos is a professor in the Department of Informatics & Telecommunications at the National and Kapodistrian University of Athens, Greece, where he leads the Computer Architecture Laboratory. His research focuses on the dependability, performance and energy efficiency of computing systems architectures built around general purpose microprocessors and specialized accelerators. He is a Fellow of IEEE and a Senior Member of ACM.

Stefano Di Carlo is a tenured associate professor at Politecnico di Torino, Italy. His research interests include DFT, BIST, and dependability. He has published more than 170 papers in peer reviewed IEEE and ACM journals and conferences.

Alberto Bosio is a full professor at Ecole Centrale de Lyon - INL in France. His research interests include approximate computing, in-memory computing, test and diagnosis of digital circuits and systems and reliability.

Ramon Canal is an associate professor and the vice dean of postgraduate studies at the Facultat d'Informatica de Barcelona at the Universitat Politecnica de Catalunya-Barcelona Tech (UPC). He is currently working in the Computer Architecture Department in the VirtuOS (Virtualization and Operating Systems) group.

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