Description

Book Synopsis
Fault-tolerant computing is the use of redundant elements in a system's design which allow the system to continue functioning when a component fails. These safety-critical systems are built into transportation systems and network servers, among other items.

Trade Review
"...develops the principles of reliability and availability analysis for computer networks, culminating in a n introduction network design principles." (SciTech Book News, Vol. 26, No. 2, June 2002)

"...a useful reference." (IEEE Computer-Review, August 2002)

"The author has created a wonderful toolbox for systems engineers. So much is right here in one place, and organized effectively. I recommend this book to anyone working on networks or systems where reliability is a concern." (IIE Transactions on Quality and Reliability Engineering)

"...very good practical hints...recommended for everyone who wants to learn either reliability fundamentals or know about the computer applications of reliability..." (Comsoc.org, April 2003)



Table of Contents
Preface.

1 Introduction.

1.1 What is Fault-Tolerant Computing?

1.2 The Rise of Microelectronics and the Computer.

1.3 Reliability and Availability.

1.4 Organization of the Book.

2 Coding Techniques.

2.1 Introduction.

2.2 Basic Principles.

2.3 Parity-Bit Codes.

2.4 Hamming Codes.

2.5 Error-Detection and Retransmission Codes.

2.6 Burst Error-Correction Codes.

2.7 Reed–Solomon Codes.

2.8 Other Codes.

3 Redundancy, Spares, and Repairs.

3.1 Introduction.

3.2 Apportionment.

3.3 System Versus Component Redundancy.

3.4 Approximate Reliability Functions.

3.5 Parallel Redundancy.

3.6 An r-out-of-n Structure.

3.7 Standby Systems.

3.8 Repairable Systems.

3.9 RAID Systems Reliability.

3.10 Typical Commercial Fault-Tolerant Systems: Tandem and Stratus.

4 N-Modular Redundancy.

4.1 Introduction.

4.2 The History of N-Modular Redundancy.

4.3 Triple Modular Redundancy.

4.4 N-Modular Redundancy.

4.5 Imperfect Voters.

4.6 Voter Logic.

4.7 N-Modular Redundancy with Repair.

4.8 N-Modular Redundancy with Repair and Imperfect Voters.

4.9 Availability of N-Modular Redundancy with Repair and Imperfect Voters.

4.10 Microcode-Level Redundancy.

4.11 Advanced Voting Techniques.

5 Software Reliability and Recovery Techniques.

5.1 Introduction.

5.2 The Magnitude of the Problem.

5.3 Software Development Life Cycle.

5.4 Reliability Theory.

5.5 Software Error Models.

5.6 Reliability Models.

5.7 Estimating the Model Constants.

5.8 Other Software Reliability Models.

5.9 Software Redundancy.

5.10 Rollback and Recovery.

6 Networked Systems Reliability.

6.1 Introduction.

6.2 Graph Models.

6.3 Definition of Network Reliability.

6.4 Two-Terminal Reliability.

6.5 Node Pair Resilience.

6.6 All-Terminal Reliability.

6.7 Design Approaches.

7 Reliability Optimization.

7.1 Introduction.

7.2 Optimum Versus Good Solutions.

7.3 A Mathematical Statement of the Optimization Problem.

7.4 Parallel and Standby Redundancy.

7.5 Hierarchical Decomposition.

7.6 Apportionment.

7.7 Optimization at the Subsystem Level via Enumeration.

7.8 Bounded Enumeration Approach.

7.9 Apportionment as an Approximate Optimization Technique.

7.10 Standby System Optimization.

7.11 Optimization Using a Greedy Algorithm.

7.12 Dynamic Programming.

7.13 Conclusion.

Appendix A Summary of Probability Theory.

A1 Introduction.

A2 Probability Theory.

A3 Set Theory.

A4 Combinatorial Properties.

A5 Discrete Random Variables.

A6 Continuous Random Variables.

A7 Moments.

A8 Markov Variables.

Appendix B Summary of Reliability Theory.

B1 Introduction.

B2 Combinatorial Reliability.

B3 Failure-Rate Models.

B4 System Reliability.

B5 Illustrative Example of Simplified Auto Drum Brakes.

B5.6 Summary.

B6 Markov Reliability and Availability Models.

B7 Repairable Systems.

B8 Laplace Transform Solutions of Markov Models.

Appendix C Review of Architecture Fundamentals.

C1 Introduction to Computer Architecture.

C2 Logic Gates, Symbols, and Integrated Circuits.

C3 Boolean Algebra and Switching Functions.

C4 Switching Function Simplification.

C5 Combinatorial Circuits.

C6 Common Circuits: Parity-Bit Generators and Decoders.

C7 Flip-Flops.

C8 Storage Registers.

Appendix D Programs for Reliability Modeling and Analysis.

D1 Introduction.

D2 Various Types of Reliability and Availability Programs.

D3 Testing Programs.

D4 Partial List of Reliability and Availability Programs.

D5 An Example of Computer Analysis.

Name Index.

Subject Index.

Reliability of Computer Systems Fault Tolerance

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A Hardback by Martin L. Shooman

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    View other formats and editions of Reliability of Computer Systems Fault Tolerance by Martin L. Shooman

    Publisher: John Wiley & Sons Inc
    Publication Date: 04/02/2002
    ISBN13: 9780471293422, 978-0471293422
    ISBN10: 0471293423
    Also in:
    Computing Computer networking and communications Systems analysis and design Electronics and communications engineering

    Description

    Book Synopsis
    Fault-tolerant computing is the use of redundant elements in a system's design which allow the system to continue functioning when a component fails. These safety-critical systems are built into transportation systems and network servers, among other items.

    Trade Review
    "...develops the principles of reliability and availability analysis for computer networks, culminating in a n introduction network design principles." (SciTech Book News, Vol. 26, No. 2, June 2002)

    "...a useful reference." (IEEE Computer-Review, August 2002)

    "The author has created a wonderful toolbox for systems engineers. So much is right here in one place, and organized effectively. I recommend this book to anyone working on networks or systems where reliability is a concern." (IIE Transactions on Quality and Reliability Engineering)

    "...very good practical hints...recommended for everyone who wants to learn either reliability fundamentals or know about the computer applications of reliability..." (Comsoc.org, April 2003)



    Table of Contents
    Preface.

    1 Introduction.

    1.1 What is Fault-Tolerant Computing?

    1.2 The Rise of Microelectronics and the Computer.

    1.3 Reliability and Availability.

    1.4 Organization of the Book.

    2 Coding Techniques.

    2.1 Introduction.

    2.2 Basic Principles.

    2.3 Parity-Bit Codes.

    2.4 Hamming Codes.

    2.5 Error-Detection and Retransmission Codes.

    2.6 Burst Error-Correction Codes.

    2.7 Reed–Solomon Codes.

    2.8 Other Codes.

    3 Redundancy, Spares, and Repairs.

    3.1 Introduction.

    3.2 Apportionment.

    3.3 System Versus Component Redundancy.

    3.4 Approximate Reliability Functions.

    3.5 Parallel Redundancy.

    3.6 An r-out-of-n Structure.

    3.7 Standby Systems.

    3.8 Repairable Systems.

    3.9 RAID Systems Reliability.

    3.10 Typical Commercial Fault-Tolerant Systems: Tandem and Stratus.

    4 N-Modular Redundancy.

    4.1 Introduction.

    4.2 The History of N-Modular Redundancy.

    4.3 Triple Modular Redundancy.

    4.4 N-Modular Redundancy.

    4.5 Imperfect Voters.

    4.6 Voter Logic.

    4.7 N-Modular Redundancy with Repair.

    4.8 N-Modular Redundancy with Repair and Imperfect Voters.

    4.9 Availability of N-Modular Redundancy with Repair and Imperfect Voters.

    4.10 Microcode-Level Redundancy.

    4.11 Advanced Voting Techniques.

    5 Software Reliability and Recovery Techniques.

    5.1 Introduction.

    5.2 The Magnitude of the Problem.

    5.3 Software Development Life Cycle.

    5.4 Reliability Theory.

    5.5 Software Error Models.

    5.6 Reliability Models.

    5.7 Estimating the Model Constants.

    5.8 Other Software Reliability Models.

    5.9 Software Redundancy.

    5.10 Rollback and Recovery.

    6 Networked Systems Reliability.

    6.1 Introduction.

    6.2 Graph Models.

    6.3 Definition of Network Reliability.

    6.4 Two-Terminal Reliability.

    6.5 Node Pair Resilience.

    6.6 All-Terminal Reliability.

    6.7 Design Approaches.

    7 Reliability Optimization.

    7.1 Introduction.

    7.2 Optimum Versus Good Solutions.

    7.3 A Mathematical Statement of the Optimization Problem.

    7.4 Parallel and Standby Redundancy.

    7.5 Hierarchical Decomposition.

    7.6 Apportionment.

    7.7 Optimization at the Subsystem Level via Enumeration.

    7.8 Bounded Enumeration Approach.

    7.9 Apportionment as an Approximate Optimization Technique.

    7.10 Standby System Optimization.

    7.11 Optimization Using a Greedy Algorithm.

    7.12 Dynamic Programming.

    7.13 Conclusion.

    Appendix A Summary of Probability Theory.

    A1 Introduction.

    A2 Probability Theory.

    A3 Set Theory.

    A4 Combinatorial Properties.

    A5 Discrete Random Variables.

    A6 Continuous Random Variables.

    A7 Moments.

    A8 Markov Variables.

    Appendix B Summary of Reliability Theory.

    B1 Introduction.

    B2 Combinatorial Reliability.

    B3 Failure-Rate Models.

    B4 System Reliability.

    B5 Illustrative Example of Simplified Auto Drum Brakes.

    B5.6 Summary.

    B6 Markov Reliability and Availability Models.

    B7 Repairable Systems.

    B8 Laplace Transform Solutions of Markov Models.

    Appendix C Review of Architecture Fundamentals.

    C1 Introduction to Computer Architecture.

    C2 Logic Gates, Symbols, and Integrated Circuits.

    C3 Boolean Algebra and Switching Functions.

    C4 Switching Function Simplification.

    C5 Combinatorial Circuits.

    C6 Common Circuits: Parity-Bit Generators and Decoders.

    C7 Flip-Flops.

    C8 Storage Registers.

    Appendix D Programs for Reliability Modeling and Analysis.

    D1 Introduction.

    D2 Various Types of Reliability and Availability Programs.

    D3 Testing Programs.

    D4 Partial List of Reliability and Availability Programs.

    D5 An Example of Computer Analysis.

    Name Index.

    Subject Index.

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