Fundamentals of reliability engineering applications in multistage interconnection networks

This book presents fundamentals of reliability engineering with its applications in evaluating reliability of multistage interconnection networks. In the first part of the book, it introduces the concept of reliability engineering, elements of probability theory, probability distributions, availabil...

Celý popis

Uložené v:
Podrobná bibliografia
Hlavný autor: Gunawan, Indra
Médium: E-kniha Kniha
Jazyk:English
Vydavateľské údaje: Beverly, MA Wiley 2014
Hoboken, N.J John Wiley & Sons
Scrivener Publishing
John Wiley & Sons, Incorporated
Scrivener Publishing/John Wiley & Sons, Inc
Wiley-Blackwell
Scrivener Pub
Vydanie:1st ed.
Edícia:Performability Engineering Series
Predmet:
Communication
Communication > Network analysis
Computer networks
COMPUTERS
Information Technology
Interconnects (Integrated circuit technology)
Network analysis
Reliability (Engineering)
Switching systems
Telecommunication
Telecommunication > Switching systems
ISBN:1118549562, 9781118549568, 1118914392, 9781118914397, 1118914384, 9781118914380
On-line prístup:Získať plný text
Tagy: Pridať tag
Žiadne tagy, Buďte prvý, kto otaguje tento záznam!
Obsah:
  • Cover -- Title Page -- Copyright Page -- Contents -- Preface -- 1 Introduction to Reliability Engineering -- 1.1 The Logic of Certainty -- 1.2 Union (OR) operation -- 1.3 Intersection (AND) operation -- 1.4 Series systems -- 1.5 Parallel systems -- 1.6 General Series-Parallel System -- 1.7 Active Redundancy -- 1.8 Standby Redundancy -- 1.9 Fault Tree Analysis -- 1.10 Minimum Cut Sets and Path Sets -- References -- 2 Elements of Probability Theory -- 2.1 Basic Rules of Probability -- 2.2 Cumulative Distribution Function -- 2.3 Probability Mass Function -- 2.4 Probability Density Function -- 2.5 Moments -- 2.6 Percentiles -- References -- 3 Probability Distributions -- 3.1 Binomial -- 3.2 Poisson -- 3.3 Exponential -- 3.4 Weibull -- 3.5 Normal -- 3.6 Lognormal -- 3.7 Mean Time To Failure (MTTF) -- References -- 4 Availability -- 4.1 Definition -- 4.2 Summary -- 4.3 Availability of Systems with Repair -- References -- 5 Data Analysis -- 5.1 Theoretical Model and Evidence -- 5.2 Censored Samples -- 5.3 Bayesian Theorem -- References -- 6 Introduction to Network Systems -- 6.1 Parallel Computing and Networks -- 6.2 Network Design Considerations -- 6.3 Classification of Interconnection Networks -- 6.3.1 Shared-Medium Networks -- 6.3.2 Direct Networks -- 6.3.3 Indirect Networks -- 6.3.4 Hybrid Networks -- References -- 7 Classification of Multistage Interconnection Networks -- 7.1 Background -- 7.1.1 Unidirectional Multistage Interconnection Networks -- 7.1.2 Bidirectional Multistage Interconnection Networks -- 7.1.3 Architectural Models of Parallel Machines -- 7.1.4 Terminology -- 7.1.5 Fault-Tolerant -- 7.2 Multistage Cube Network -- 7.3 Extra-Stage Cube Network -- 7.4 Shuffle-Exchange Network -- 7.5 Shuffle-Exchange Network with an Additional Stage -- 7.6 Gamma Network -- 7.7 Extra-Stage Gamma Network -- 7.8 Dynamic Redundancy Network
  • 7.9 Improved Enhanced Augmented Data Manipulator Network -- 7.10 Improved Logical Neighborhood Network -- 7.11 Comparison -- References -- 8 Network Reliability Evaluation Methods -- 8.1 Overview of Network Reliability -- 8.2 Network Model -- 8.3 Network Operations -- 8.4 Approaches for Calculating Network Reliability -- 8.4.1 Minpaths Method -- 8.4.2 Boolean Function Decomposition Method -- 8.4.3 Direct Enumeration Method -- 8.4.4 Inclusion-Exclusion Method -- 8.4.5 Disjoint Products Method -- 8.4.6 Factoring Method -- 8.5 Summary -- References -- 9 Reliability Analysis of Multistage Interconnection Networks -- 9.1 Reliability Analysis of Shuffle-Exchange Network with Minimal Extra Stages -- 9.1.1 Terminal Reliability Comparison of SEN, SEN+, and SEN+2 -- 9.1.2 Broadcast Reliability Comparison of SEN, SEN+, and SEN+2 -- 9.1.3 Network Reliability Comparison of SEN, SEN+, and SEN+2 -- 9.1.4 Concluding Remarks -- 9.2 Terminal Reliability Improvement in Modified Shuffle-Exchange Network -- 9.2.1 Terminal Reliability of Shuffle-Exchange Network (SEN) -- 9.2.2 Terminal Reliability of Modified Shuffle-Exchange Network (MODSEN) -- 9.2.3 Comparison of the Networks -- 9.2.4 Conclusion -- 9.3 Reliability Bounds for Large MINs -- 9.3.1 Lower Bound Reliability of the Extra-Stage Cube Network -- 9.3.2 Upper Bound Reliability of the Extra-Stage Cube Network -- 9.3.3 Comparison of the Bounds with the Exact Reliability of the Extra-Stage Cube Network -- 9.3.4 Lower Bound Reliability of the Gamma Network -- 9.3.5 Upper Bound Reliability of the Gamma Network -- 9.3.6 Comparison of the Bounds with the Exact Reliability of the Gamma Network -- 9.3.7 Conclusion -- References -- 10 Terminal Reliability Assessment of Gamma and Extra-Stage Gamma Networks -- 10.1 Introduction -- 10.2 Gamma Network -- 10.2.1 Routing Pattern in Gamma Network -- 10.2.2 Redundant Paths
  • 10.3 Terminal Reliability of Gamma Network -- 10.4 Extra-Stage Gamma Network -- 10.5 Comparison -- 10.6 Conclusions -- References -- 11 Reliability Prediction of Distributed Systems Using Monte Carlo Method -- 11.1 Introduction -- 11.2 Reliability Parameters -- 11.3 Monte Carlo Method -- 11.4 Confidence Interval for Monte Carlo Point Estimate -- 11.5 Numerical Results -- 11.6 Conclusion -- References -- Index