Rugged Embedded Systems: Computing in Harsh Environments

Rugged Embedded Systems: Computing in Harsh Environments

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Overview

Rugged Embedded Systems: Computing in Harsh Environments describes how to design reliable embedded systems for harsh environments, including architectural approaches, cross-stack hardware/software techniques, and emerging challenges and opportunities.

A "harsh environment" presents inherent characteristics, such as extreme temperature and radiation levels, very low power and energy budgets, strict fault tolerance and security constraints, etc. that challenge the computer system in its design and operation. To guarantee proper execution (correct, safe, and low-power) in such scenarios, this contributed work discusses multiple layers that involve firmware, operating systems, and applications, as well as power management units and communication interfaces. This book also incorporates use cases in the domains of unmanned vehicles (advanced cars and micro aerial robots) and space exploration as examples of computing designs for harsh environments.




  • Provides a deep understanding of embedded systems for harsh environments by experts involved in state-of-the-art autonomous vehicle-related projects
  • Covers the most important challenges (fault tolerance, power efficiency, and cost effectiveness) faced when developing rugged embedded systems
  • Includes case studies exploring embedded computing for autonomous vehicle systems (advanced cars and micro aerial robots) and space exploration

Product Details

ISBN-13: 9780128024591
Publisher: Elsevier Science
Publication date: 12/16/2016
Pages: 362
Product dimensions: 7.40(w) x 9.10(h) x 0.80(d)

About the Author

Augusto Vega is a Research Staff Member within the Reliability and Power-Aware Microarchitecture department at IBM T. J. Watson Research Center. He has been involved in research and development work in support of IBM System p and Data Centric Systems. His primary focus area is power-aware computer architectures and associated system solutions. His research interests are in the areas of high performance, power/reliability-aware computer architectures, distributed and parallel computing, and performance analysis tools and techniques.

Pradip Bose is a Research Staff Member and Manager of the Reliability- and Power-Aware Microarchitectures Department at IBM T. J. Watson Research Center. His research interests are in the area of processor and system architectures, with a focus on technology-aware design. Pradip is also an Adjunct Professor in the Department of Computer Science at Columbia University. During 1983-1987, Pradip was a member of IBM’s pioneering RISC superscalar processor R&D team. During the 1989-90 academic year, Pradip was on sabbatical leave from IBM, serving as Visiting Associate Professor at Indian Statistical Institute (ISI) in Calcutta, India. At ISI, Pradip served as the coordinating leader of an UNDP-sponsored project on knowledge- based computer systems.

Alper Buyuktosunoglu is a Research Staff Member in Reliability and Power-Aware Microarchitecture department at IBM T. J. Watson Research Center. He has been involved in research and development work in support of IBM p-series and z-series systems in the area of power-aware computer architectures. His research interests are in the area of high performance, power/reliability-aware computer architectures. He has over 60 pending/issued patents, has published over 60 papers, and is currently serving on the editorial board of IEEE MICRO.

Table of Contents

1. Introduction 2. Reliable and power-aware architectures: Fundamentals and modeling 3. Real-time considerations for rugged embedded systems 4. Emerging resilience techniques for embedded devices 5. Resilience for extreme scale computing 6. Security in embedded systems 7. Embedded security 8. Reliable electrical systems for micro aerial vehicles and insect-scale robots: Challenges and progress 9. Rugged autonomous vehicles 10.Harsh computing in the space domain 11. Resilience in next-generation embedded systems

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