Advertisement
| fault tolerant design: Fault-Tolerant Design Elena Dubrova, 2013-03-15 This textbook serves as an introduction to fault-tolerance, intended for upper-division undergraduate students, graduate-level students and practicing engineers in need of an overview of the field. Readers will develop skills in modeling and evaluating fault-tolerant architectures in terms of reliability, availability and safety. They will gain a thorough understanding of fault tolerant computers, including both the theory of how to design and evaluate them and the practical knowledge of achieving fault-tolerance in electronic, communication and software systems. Coverage includes fault-tolerance techniques through hardware, software, information and time redundancy. The content is designed to be highly accessible, including numerous examples and exercises. Solutions and powerpoint slides are available for instructors. |
| fault tolerant design: Fault-Tolerant Systems Israel Koren, C. Mani Krishna, 2010-07-19 Fault-Tolerant Systems is the first book on fault tolerance design with a systems approach to both hardware and software. No other text on the market takes this approach, nor offers the comprehensive and up-to-date treatment that Koren and Krishna provide. This book incorporates case studies that highlight six different computer systems with fault-tolerance techniques implemented in their design. A complete ancillary package is available to lecturers, including online solutions manual for instructors and PowerPoint slides. Students, designers, and architects of high performance processors will value this comprehensive overview of the field. - The first book on fault tolerance design with a systems approach - Comprehensive coverage of both hardware and software fault tolerance, as well as information and time redundancy - Incorporated case studies highlight six different computer systems with fault-tolerance techniques implemented in their design - Available to lecturers is a complete ancillary package including online solutions manual for instructors and PowerPoint slides |
| fault tolerant design: Fault-tolerant Control Systems Hassan Noura, Didier Theilliol, Jean-Christophe Ponsart, Abbas Chamseddine, 2009-07-30 The seriesAdvancesinIndustrialControl aims to report and encourage te- nologytransfer in controlengineering. The rapid development of controlte- nology has an impact on all areas of the control discipline. New theory, new controllers, actuators, sensors, new industrial processes, computer methods, new applications, new philosophies. . . , new challenges. Much of this devel- ment work resides in industrial reports, feasibility study papers, and the - ports of advanced collaborative projects. The series o?ers an opportunity for researchers to present an extended exposition of such new work in all aspects of industrial control for wider and rapid dissemination. Control system design and technology continues to develop in many d- ferent directions. One theme that the Advances in Industrial Control series is following is the application of nonlinear control design methods, and the series has some interesting new commissions in progress. However, another theme of interest is how to endow the industrial controller with the ability to overcome faults and process degradation. Fault detection and isolation is a broad ?eld with a research literature spanning several decades. This topic deals with three questions: • How is the presence of a fault detected? • What is the cause of the fault? • Where is it located? However, there has been less focus on the question of how to use the control system to accommodate and overcome the performance deterioration caused by the identi?ed sensor or actuator fault. |
| fault tolerant design: Patterns for Fault Tolerant Software Robert S. Hanmer, 2013-07-12 Software patterns have revolutionized the way developer’s and architects think about how software is designed, built and documented. This new title in Wiley’s prestigious Series in Software Design Patterns presents proven techniques to achieve patterns for fault tolerant software. This is a key reference for experts seeking to select a technique appropriate for a given system. Readers are guided from concepts and terminology, through common principles and methods, to advanced techniques and practices in the development of software systems. References will provide access points to the key literature, including descriptions of exemplar applications of each technique. Organized into a collection of software techniques, specific techniques can be easily found with sufficient detail to allow appropriate choices for the system being designed. |
| fault tolerant design: Design and Analysis of Fault-tolerant Digital Systems Barry W. Johnson, 1989 |
| fault tolerant design: Design And Analysis Of Reliable And Fault-tolerant Computer Systems Mostafa I Abd-el-barr, 2006-12-15 Covering both the theoretical and practical aspects of fault-tolerant mobile systems, and fault tolerance and analysis, this book tackles the current issues of reliability-based optimization of computer networks, fault-tolerant mobile systems, and fault tolerance and reliability of high speed and hierarchical networks.The book is divided into six parts to facilitate coverage of the material by course instructors and computer systems professionals. The sequence of chapters in each part ensures the gradual coverage of issues from the basics to the most recent developments. A useful set of references, including electronic sources, is listed at the end of each chapter./a |
| fault tolerant design: Reliability of Computer Systems and Networks Martin L. Shooman, 2003-04-08 With computers becoming embedded as controllers in everything from network servers to the routing of subway schedules to NASA missions, there is a critical need to ensure that systems continue to function even when a component fails. In this book, bestselling author Martin Shooman draws on his expertise in reliability engineering and software engineering to provide a complete and authoritative look at fault tolerant computing. He clearly explains all fundamentals, including how to use redundant elements in system design to ensure the reliability of computer systems and networks. Market: Systems and Networking Engineers, Computer Programmers, IT Professionals. |
| fault tolerant design: Data-driven Design of Fault Diagnosis and Fault-tolerant Control Systems Steven X. Ding, 2014-04-12 Data-driven Design of Fault Diagnosis and Fault-tolerant Control Systems presents basic statistical process monitoring, fault diagnosis, and control methods and introduces advanced data-driven schemes for the design of fault diagnosis and fault-tolerant control systems catering to the needs of dynamic industrial processes. With ever increasing demands for reliability, availability and safety in technical processes and assets, process monitoring and fault-tolerance have become important issues surrounding the design of automatic control systems. This text shows the reader how, thanks to the rapid development of information technology, key techniques of data-driven and statistical process monitoring and control can now become widely used in industrial practice to address these issues. To allow for self-contained study and facilitate implementation in real applications, important mathematical and control theoretical knowledge and tools are included in this book. Major schemes are presented in algorithm form and demonstrated on industrial case systems. Data-driven Design of Fault Diagnosis and Fault-tolerant Control Systems will be of interest to process and control engineers, engineering students and researchers with a control engineering background. |
| fault tolerant design: Fault-Tolerant Process Control Prashant Mhaskar, Jinfeng Liu, Panagiotis D. Christofides, 2012-11-27 Fault-Tolerant Process Control focuses on the development of general, yet practical, methods for the design of advanced fault-tolerant control systems; these ensure an efficient fault detection and a timely response to enhance fault recovery, prevent faults from propagating or developing into total failures, and reduce the risk of safety hazards. To this end, methods are presented for the design of advanced fault-tolerant control systems for chemical processes which explicitly deal with actuator/controller failures and sensor faults and data losses. Specifically, the book puts forward: · A framework for detection, isolation and diagnosis of actuator and sensor faults for nonlinear systems; · Controller reconfiguration and safe-parking-based fault-handling methodologies; · Integrated-data- and model-based fault-detection and isolation and fault-tolerant control methods; · Methods for handling sensor faults and data losses; and · Methods for monitoring the performance of low-level PID loops. The methodologies proposed employ nonlinear systems analysis, Lyapunov techniques, optimization, statistical methods and hybrid systems theory and are predicated upon the idea of integrating fault-detection, local feedback control, and supervisory control. The applicability and performance of the methods are demonstrated through a number of chemical process examples. Fault-Tolerant Process Control is a valuable resource for academic researchers, industrial practitioners as well as graduate students pursuing research in this area. |
| fault tolerant design: Diagnosis and Fault-Tolerant Control Mogens Blanke, Jochen Schröder, 2003 The book presents effective model-based analysis and design methods for fault diagnosis and fault-tolerant control. Architectural and structural models are used to analyse the propagation of the fault through the process, to test the fault detectability and to find the redundancies in the process that can be used to ensure fault tolerance. Design methods for diagnostic systems and fault-tolerant controllers are presented for processes that are described by analytical models, by discrete-event models or that can be dealt with as quantised systems. Four case studies on pilot processes show the applicability of the presented methods. The theoretical results are illustrated by two running examples which are used throughout the book. The book addresses engineering students, engineers in industry and researchers who wish to get a survey over the variety of approaches to process diagnosis and fault-tolerant control. |
| fault tolerant design: Fault Tolerant and Fault Testable Hardware Design Parag K. Lala, 1985 |
| fault tolerant design: Fault-tolerant Computing Dhiraj K. Pradhan, 1986 Fault-tolerant computing has evolved into a broad discipline, one that encompasses all aspects of reliable computer design. Diverse areas of fault-tolerant study range from failure mechanisms in integrated circuits to the design of robust software. Fault-tolerant computing is driven by a number of key factors, including ultra-high reliability, reduced life-cycle costs, and long-life applications. This book is intended to be both introductory and suitable for advanced-level graduates. Chapters can be selected in various combinations to provide courses with different orientations. |
| fault tolerant design: System-on-chip Test Architectures Laung-Terng Wang, Charles E. Stroud, Nur A. Touba, 2008 Written by a stellar team of field experts, this title is a comprehensive guide to new VLSI Testing and Design-for-Testability techniques that allow VSLI designers, DFT practitioners, and students to master quickly System-on-Chip Test architectures, memory, and analog/mixed-signal designs. |
| fault tolerant design: Fault-Tolerant Design and Control of Automated Vehicles and Processes Ralf Stetter, 2019-02-14 This book summarizes strategies, methods, algorithms, frameworks and systems for the fault-tolerant design and control of automated vehicles and processes. Intelligent systems may be able to accommodate inevitable faults, but this ability requires targeted design processes and advanced control systems. This book explains the respective elements involved in automated vehicles and processes. It provides detailed descriptions of fault-tolerant design, not offered in the existent scientific literature. With regard to fault-tolerant control, the focus is on innovative methods, which can accommodate not only uncertainties, but also shared and flexible redundant elements. The book is intended to present a concise guide for researchers in the field of fault-tolerant design and control, and to provide concrete insights for design and control engineers working in the field of automated vehicles and processes. |
| fault tolerant design: Fault-Tolerant Systems Israel Koren, C. Mani Krishna, 2020-09-01 Fault-Tolerant Systems, Second Edition, is the first book on fault tolerance design utilizing a systems approach to both hardware and software. No other text takes this approach or offers the comprehensive and up-to-date treatment that Koren and Krishna provide. The book comprehensively covers the design of fault-tolerant hardware and software, use of fault-tolerance techniques to improve manufacturing yields, and design and analysis of networks. Incorporating case studies that highlight more than ten different computer systems with fault-tolerance techniques implemented in their design, the book includes critical material on methods to protect against threats to encryption subsystems used for security purposes. The text's updated content will help students and practitioners in electrical and computer engineering and computer science learn how to design reliable computing systems, and how to analyze fault-tolerant computing systems. - Delivers the first book on fault tolerance design with a systems approach - Offers comprehensive coverage of both hardware and software fault tolerance, as well as information and time redundancy - Features fully updated content plus new chapters on failure mechanisms and fault-tolerance in cyber-physical systems - Provides a complete ancillary package, including an on-line solutions manual for instructors and PowerPoint slides |
| fault tolerant design: Fault-Diagnosis Systems Rolf Isermann, 2006-01-16 With increasing demands for efficiency and product quality plus progress in the integration of automatic control systems in high-cost mechatronic and safety-critical processes, the field of supervision (or monitoring), fault detection and fault diagnosis plays an important role. The book gives an introduction into advanced methods of fault detection and diagnosis (FDD). After definitions of important terms, it considers the reliability, availability, safety and systems integrity of technical processes. Then fault-detection methods for single signals without models such as limit and trend checking and with harmonic and stochastic models, such as Fourier analysis, correlation and wavelets are treated. This is followed by fault detection with process models using the relationships between signals such as parameter estimation, parity equations, observers and principal component analysis. The treated fault-diagnosis methods include classification methods from Bayes classification to neural networks with decision trees and inference methods from approximate reasoning with fuzzy logic to hybrid fuzzy-neuro systems. Several practical examples for fault detection and diagnosis of DC motor drives, a centrifugal pump, automotive suspension and tire demonstrate applications. |
| fault tolerant design: Advanced methods for fault diagnosis and fault-tolerant control Steven X. Ding, 2020-11-24 The major objective of this book is to introduce advanced design and (online) optimization methods for fault diagnosis and fault-tolerant control from different aspects. Under the aspect of system types, fault diagnosis and fault-tolerant issues are dealt with for linear time-invariant and time-varying systems as well as for nonlinear and distributed (including networked) systems. From the methodological point of view, both model-based and data-driven schemes are investigated.To allow for a self-contained study and enable an easy implementation in real applications, the necessary knowledge as well as tools in mathematics and control theory are included in this book. The main results with the fault diagnosis and fault-tolerant schemes are presented in form of algorithms and demonstrated by means of benchmark case studies. The intended audience of this book are process and control engineers, engineering students and researchers with control engineering background. |
| fault tolerant design: Methods, Models and Tools for Fault Tolerance Michael Butler, Cliff B. Jones, Alexander Romanovsky, Elena Troubitsyna, 2009-03-26 The growing complexity of modern software systems makes it increasingly difficult to ensure the overall dependability of software-intensive systems. Mastering system complexity requires design techniques that support clear thinking and rigorous validation and verification. Formal design methods together with fault-tolerant design techniques help to achieve this. Therefore, there is a clear need for methods that enable rigorous modeling and the development of complex fault-tolerant systems. This book is an outcome of the workshop on Methods, Models and Tools for Fault Tolerance, MeMoT 2007, held in conjunction with the 6th international conference on Integrated Formal Methods, iFM 2007, in Oxford, UK, in July 2007. The authors of the best workshop papers were asked to enhance and expand their work, and a number of well-established researchers working in the area contributed invited chapters in addition. From the 15 refereed and revised papers presented, 12 are versions reworked from the workshop and 3 papers are invited. The articles are organized in four topical sections on: formal reasoning about fault-tolerant systems and protocols; fault tolerance: modelling in B; fault tolerance in system development process; and fault-tolerant applications. |
| fault tolerant design: Fault-Tolerance Techniques for SRAM-Based FPGAs Fernanda Lima Kastensmidt, Ricardo Reis, 2007-02-01 Fault-tolerance in integrated circuits is not an exclusive concern regarding space designers or highly-reliable application engineers. Rather, designers of next generation products must cope with reduced margin noises due to technological advances. The continuous evolution of the fabrication technology process of semiconductor components, in terms of transistor geometry shrinking, power supply, speed, and logic density, has significantly reduced the reliability of very deep submicron integrated circuits, in face of the various internal and external sources of noise. The very popular Field Programmable Gate Arrays, customizable by SRAM cells, are a consequence of the integrated circuit evolution with millions of memory cells to implement the logic, embedded memories, routing, and more recently with embedded microprocessors cores. These re-programmable systems-on-chip platforms must be fault-tolerant to cope with present days requirements. This book discusses fault-tolerance techniques for SRAM-based Field Programmable Gate Arrays (FPGAs). It starts by showing the model of the problem and the upset effects in the programmable architecture. In the sequence, it shows the main fault tolerance techniques used nowadays to protect integrated circuits against errors. A large set of methods for designing fault tolerance systems in SRAM-based FPGAs is described. Some presented techniques are based on developing a new fault-tolerant architecture with new robustness FPGA elements. Other techniques are based on protecting the high-level hardware description before the synthesis in the FPGA. The reader has the flexibility of choosing the most suitable fault-tolerance technique for its project and to compare a set of fault tolerant techniques for programmable logic applications. |
| fault tolerant design: Fault Tolerant Control Design for Hybrid Systems Hao Yang, Bin Jiang, Vincent Cocquempot, 2009-12-31 This book provides readers a good understanding on how to achieve Fault Tolerant Control goal of Hybrid Systems. It presents important theoretical results as well as their applications. |
| fault tolerant design: Fault-Tolerance Techniques for High-Performance Computing Thomas Herault, Yves Robert, 2015-07-01 This timely text presents a comprehensive overview of fault tolerance techniques for high-performance computing (HPC). The text opens with a detailed introduction to the concepts of checkpoint protocols and scheduling algorithms, prediction, replication, silent error detection and correction, together with some application-specific techniques such as ABFT. Emphasis is placed on analytical performance models. This is then followed by a review of general-purpose techniques, including several checkpoint and rollback recovery protocols. Relevant execution scenarios are also evaluated and compared through quantitative models. Features: provides a survey of resilience methods and performance models; examines the various sources for errors and faults in large-scale systems; reviews the spectrum of techniques that can be applied to design a fault-tolerant MPI; investigates different approaches to replication; discusses the challenge of energy consumption of fault-tolerance methods in extreme-scale systems. |
| fault tolerant design: Software-Implemented Hardware Fault Tolerance Olga Goloubeva, Maurizio Rebaudengo, Matteo Sonza Reorda, Massimo Violante, 2006-09-19 Software-Implemented Hardware Fault Tolerance addresses the innovative topic of software-implemented hardware fault tolerance (SIHFT), i.e., how to deal with faults affecting the hardware by only (or mainly) acting on the software. The first SIHFT techniques were proposed and adopted several decades ago, but they have been the object of new interest in the past few years, mainly due to the need for developing low-cost safety-critical computer-based applications in fields such as automotive, biomedics, and telecommunications. Therefore, several new approaches to detect, and when possible correct, transient and permanent faults in the hardware have been recently proposed. These approaches are innovative (with respect to those proposed in the past) since they are of higher applicability (often starting from the source-level code of an application) and generality, being capable of coping with many different fault types. The book presents the theory behind software-implemented hardware fault tolerance, as well as the practical aspects related to put it at work on real examples. By evaluating accurately the advantages and disadvantages of the already available approaches, the book provides a guide to developers willing to adopt software-implemented hardware fault tolerance in their applications. Moreover, the book identifies open issues for researchers willing to improve the already available techniques. |
| fault tolerant design: Fault-Tolerant Traction Electric Drives Igor Bolvashenkov, Hans-Georg Herzog, Flyur Ismagilov, Vyacheslav Vavilov, Lev Khvatskin, Ilia Frenkel, Anatoly Lisnianski, 2019-07-01 This concise book focuses on the reliability of traction electrical drives. The first chapter presents the Lz-transform approach for the comparative analysis of the fault tolerance of multi-motor electrical drives with multi-phase traction motors. The second chapter then provides an estimate of the value of the operational availability and performance of a diesel–electric multi-drive propulsion system, while the third chapter introduces the concept of a more electric aircraft. Lastly, the fourth chapter analyzes the requirements for multi-phase permanent-magnet motors applicable in various aircraft systems. |
| fault tolerant design: Software Fault Tolerance Techniques and Implementation Laura L. Pullum, 2001 Look to this innovative resource for the most comprehensive coverage of software fault tolerance techniques available in a single volume. It offers you a thorough understanding of the operation of critical software fault tolerance techniques and guides you through their design, operation and performance. You get an in-depth discussion on the advantages and disadvantages of specific techniques, so you can decide which ones are best suited for your work. The book examines key programming techniques such as assertions, checkpointing, and atomic actions, and provides design tips and models to assist in the development of critical fault tolerant software that helps ensure dependable performance. From software reliability, recovery, and redundancy... to design and data diverse software fault tolerance techniques, this practical reference provides detailed insight into techniques that can improve the overall dependability of your software. |
| fault tolerant design: Fault-tolerant Computer System Design Dhiraj K. Pradhan, 1996 In the ten years since the publication of the first edition of this book, the field of fault-tolerant design has broadened in appeal, particularly with its emerging application in distributed computing. This new edition specifically deals with this dynamically changing computing environment, incorporating new topics such as fault-tolerance in multiprocessor and distributed systems. |
| fault tolerant design: Introduction To Quantum Computation And Information Adriano Barenco, Andrew M Steane, Timothy P Spiller, Daniel Rohrlich, John Preskill, Sandu Popescu, Hoi-kwong Lo, Richard Jozsa, Isaac L Chuang, Charles H Bennett, Hugo Zbinden, 1998-10-15 This book aims to provide a pedagogical introduction to the subjects of quantum information and quantum computation. Topics include non-locality of quantum mechanics, quantum computation, quantum cryptography, quantum error correction, fault-tolerant quantum computation as well as some experimental aspects of quantum computation and quantum cryptography. Only knowledge of basic quantum mechanics is assumed. Whenever more advanced concepts and techniques are used, they are introduced carefully. This book is meant to be a self-contained overview. While basic concepts are discussed in detail, unnecessary technical details are excluded. It is well-suited for a wide audience ranging from physics graduate students to advanced researchers.This book is based on a lecture series held at Hewlett-Packard Labs, Basic Research Institute in the Mathematical Sciences (BRIMS), Bristol from November 1996 to April 1997, and also includes other contributions. |
| fault tolerant design: Self-Checking and Fault-Tolerant Digital Design Parag K. Lala, 2001 With VLSI chip transistors getting smaller and smaller, today's digital systems are more complex than ever before. This increased complexity leads to more cross-talk, noise, and other sources of transient errors during normal operation. Traditional off-line testing strategies cannot guarantee detection of these transient faults. And with critical applications relying on faster, more powerful chips, fault-tolerant, self-checking mechanisms must be built in to assure reliable operation. Self-Checking and Fault-Tolerant Digital Design deals extensively with self-checking design techniques and is the only book that emphasizes major techniques for hardware fault tolerance. Graduate students in VLSI design courses as well as practicing designers will appreciate this balanced treatment of the concepts and theory underlying fault tolerance along with the practical techniques used to create fault-tolerant systems. Features: Introduces reliability theory and the importance of maintainability Presents coding and the construction of several error detecting and correcting codes Discusses in depth, the available techniques for fail-safe design of combinational circuits Details checker design techniques for detecting erroneous bits and encoding output of self-checking circuits Demonstrates how to design self-checking sequential circuits, including a technique for fail-safe state machine design |
| fault tolerant design: Fault-Tolerant Attitude Control of Spacecraft Qinglei Hu, Bing Xiao, Bo Li, Youmin Zhang, 2021-06-18 Fault-Tolerant Attitude Control of Spacecraft presents the fundamentals of spacecraft fault-tolerant attitude control systems, along with the most recent research and advanced, nonlinear control techniques. This book gives researchers a self-contained guide to the complex tasks of envisaging, designing, implementing and experimenting by presenting designs for integrated modeling, dynamics, fault-tolerant attitude control, and fault reconstruction for spacecraft. Specifically, the book gives a full literature review and presents preliminaries and mathematical models, robust fault-tolerant attitude control, fault-tolerant attitude control with actuator saturation, velocity-free fault tolerant attitude control, finite-time fault-tolerant attitude tracking control, and active fault-tolerant attitude contour. Finally, the book looks at the future of this interesting topic, offering readers a one-stop solution for those working on fault-tolerant attitude control for spacecraft. Presents the fundamentals of fault-tolerant attitude control systems for spacecraft in one practical solution Gives the latest research and thinking on nonlinear attitude control, fault tolerant control, and reliable attitude control Brings together concepts in fault control theory, fault diagnosis, and attitude control for spacecraft Covers advances in theory, technological aspects, and applications in spacecraft Presents detailed numerical and simulation results to assist engineers Offers a clear, systematic reference on fault-tolerant control and attitude control for spacecraft |
| fault tolerant design: Fault-tolerance and Reliability Techniques for High-density Random-access Memories Kanad Chakraborty, Pinaki Mazumder, 2002 This book deals with primarily with reliable and faul-tolerant circuit design and evaluation techniques for RAMS. It examines both the manufacturing faul-tolerance (e.g. self-repair at the time of manufacturing) and online and field-related fault-tolerance (e.g. error-correction). It talks a lot about important techniques and requirements, and explains what needs to be done and why for each of the techniques. |
| fault tolerant design: Software Engineering of Fault Tolerant Systems Patrizio Pelliccione, 2007 When architecting dependable systems, fault tolerance is required to improve the overall system robustness. Many studies have been proposed, but the solutions are usually commissioned late during the design and implementation phases of the software life-cycle (e.g., Java and Windows NT exception handling), thus reducing the error recovery effectiveness. Since the system design typically models only normal behaviors of the system while ignoring exceptional ones, the generated system implementation is unable to handle abnormal events. Consequently, the system may fail in unexpected ways due to some faults. Researchers have advocated that fault tolerance management during the entire life-cycle improves the overall system robustness and that different classes of exceptions must be identified for each identified phase of software development, depending on the abstraction level of the software system being modeled. This book builds on this trend and investigates how fault tolerance mechanisms can be used when engineering a software system. New problems will arise, new models are needed at different abstraction levels, methodologies for mode driven engineering of such systems must be defined, new technologies are required, and new validation and verification environments are necessary. |
| fault tolerant design: Defect and Fault Tolerance in VLSI Systems C.H. Stapper, V.K. Jain, Gabriele Saucier, 2013-05-05 Higher circuit densities, increasingly more complex application ohjectives, and advanced packaging technologies have suhstantially increased the need to incorporate defect-tolerance and fault-tolerance in the design of VLSI and WSI systems. The goals of defect-tolerance and fault-tolerance are yield enhancement and improved reliahility. The emphasis on this area has resulted in a new field of interdisciplinary scientific research. I n fact, advanced methods of defect/fault control and tolerance are resulting in enhanced manufacturahility and productivity of integrated circuit chips, VI.SI systems, and wafer scale integrated circuits. In 1987, Dr. W. Moore organized an International Workshop on Designing for Yield at Oxford University. Edited papers of that workshop were published in reference [II. The participants in that workshop agreed that meetings of this type should he con tinued. preferahly on a yearly hasis. It was Dr. I. Koren who organized the IEEE Inter national Workshop on Defect and Fault Tolerance in VLSI Systems in Springfield Massachusetts the next year. Selected papers from that workshop were puhlished as the first volume of this series [21. |
| fault tolerant design: Designing for Scalability With Erlang/Otp Francesco Cesarini, Simon Thompson, Steve Vinoski, 2015-07-25 Design and build complex, scalable commercial-grade systems with the Open Telecom Platform (OTP), the open source system developed by Ericsson and written in Erlang. With this hands-on book, you’ll learn how to apply OTP libraries and techniques to develop concurrent, fault-tolerant systems with no single point of failure. Written by the authors of O'Reilly's Erlang Programming, including a member of OTP’s R1 release team, this guide takes you through the basics of OTP and Erlang Design Patterns, and demonstrates how the platform can be used in a wide range of industries. If you have Erlang experience, you’ll learn how to overcome key obstacles in OTP that have thwarted many other developers. |
| fault tolerant design: Application-layer Fault-tolerance Protocols Vincenzo De Florio, 2009 This book increases awareness of the need for application-level fault-tolerance (ALFT) through introduction of problems and qualitative analysis of solutions--Provided by publisher. |
| fault tolerant design: Fault Tolerant Computer Architecture Daniel Sorin, 2022-05-31 For many years, most computer architects have pursued one primary goal: performance. Architects have translated the ever-increasing abundance of ever-faster transistors provided by Moore's law into remarkable increases in performance. Recently, however, the bounty provided by Moore's law has been accompanied by several challenges that have arisen as devices have become smaller, including a decrease in dependability due to physical faults. In this book, we focus on the dependability challenge and the fault tolerance solutions that architects are developing to overcome it. The two main purposes of this book are to explore the key ideas in fault-tolerant computer architecture and to present the current state-of-the-art - over approximately the past 10 years - in academia and industry. Table of Contents: Introduction / Error Detection / Error Recovery / Diagnosis / Self-Repair / The Future |
| fault tolerant design: Diagnosis and Fault-tolerant Control Volume 2 Vicenc Puig, Silvio Simani, 2021-11-30 This book presents recent advances in fault diagnosis and fault-tolerant control of dynamic processes. Its impetus derives from the need for an overview of the challenges of the fault diagnosis technique and sustainable control, especially for those demanding systems that require reliability, availability, maintainability, and safety to ensure efficient operations. Moreover, the need for a high degree of tolerance with respect to possible faults represents a further key point, primarily for complex systems, as modeling and control are inherently challenging, and maintenance is both expensive and safety-critical. Diagnosis and Fault-tolerant Control 2 also presents and compares different fault diagnosis and fault-tolerant schemes, using well established, innovative strategies for modeling the behavior of the dynamic process under investigation. An updated treatise of diagnosis and fault-tolerant control is addressed with the use of essential and advanced methods including signal-based, model-based and data-driven techniques. Another key feature is the application of these methods for dealing with robustness and reliability. |
| fault tolerant design: Active Fault Tolerant Control Systems Mufeed Mahmoud, Jin Jiang, Youmin Zhang, 2003-02-13 Modern technological systems rely on sophisticated control functions to meet increased performance requirements. For such systems, Fault Tolerant Control Systems (FTCS) need to be developed. Active FTCS are dependent on a Fault Detection and Identification (FDI) process to monitor system performance and to detect and isolate faults in the systems. The main objective of this book is to study and to validate some important issues in real-time Active FTCS by means of theoretical analysis and simulation. Several models are presented to achieve this objective, taking into consideration practical aspects of the system to be controlled, performance deterioration in FDI algorithms, and limitations in reconfigurable control laws. |
FAULT Definition & Meaning - Merriam-Webster
The meaning of FAULT is weakness, failing; especially : a moral weakness less serious than a vice. How to use fault in a sentence.
FAULT | English meaning - Cambridge Dictionary
FAULT definition: 1. a mistake, especially something for which you are to blame: 2. a weakness in a person's…. Learn more.
Fault - definition of fault by The Free Dictionary
fault - a wrong action attributable to bad judgment or ignorance or inattention; "he made a bad mistake"; "she was quick to point out my errors"; "I could understand his English in spite of his …
Fault Definition & Meaning | Britannica Dictionary
FAULT meaning: 1 : a bad quality or part of someone's character a weakness in character; 2 : a problem or bad part that prevents something from being perfect a flaw or defect
FAULT definition in American English | Collins English Dictionary
A fault is a mistake in what someone is doing or in what they have done. It is a big fault to think that you can learn how to manage people in business school. A fault in someone or something is a …
fault noun - Definition, pictures, pronunciation and usage notes ...
Definition of fault noun from the Oxford Advanced Learner's Dictionary. [uncountable] the responsibility for something wrong that has happened or been done. Why should I say sorry …
Fault - Definition, Meaning, Synonyms & Etymology - Better Words
It denotes a failure to meet expected standards or fulfill obligations. Fault can also refer to responsibility or blame assigned to someone for a particular action or outcome. It implies a …
fault - Wiktionary, the free dictionary
May 23, 2025 · Compare French faute (“fault, foul”), Portuguese falta (“lack, shortage”) and Spanish falta (“lack, absence”). More at fail, false. fault (plural faults) (typically uncountable) …
What is a fault and what are the different types?
What is a fault and what are the different types? A fault is a fracture or zone of fractures between two blocks of rock. Faults allow the blocks to move relative to each other. This movement may …
Fault - Definition, Meaning & Synonyms - Vocabulary.com
A fault is an error caused by ignorance, bad judgment or inattention. If you're a passenger, it might be your fault that your friend missed the exit, if you were supposed to be watching for it, not …
FAULT Definition & Meaning - Merriam-Webster
The meaning of FAULT is weakness, failing; especially : a moral weakness less serious than a vice. How to use fault in a sentence.
FAULT | English meaning - Cambridge Dictionary
FAULT definition: 1. a mistake, especially something for which you are to blame: 2. a weakness in a person's…. Learn more.
Fault - definition of fault by The Free Dictionary
fault - a wrong action attributable to bad judgment or ignorance or inattention; "he made a bad mistake"; "she was quick to point out my errors"; "I could understand his English in spite of his …
Fault Definition & Meaning | Britannica Dictionary
FAULT meaning: 1 : a bad quality or part of someone's character a weakness in character; 2 : a problem or bad part that prevents something from being perfect a flaw or defect
FAULT definition in American English | Collins English Dictionary
A fault is a mistake in what someone is doing or in what they have done. It is a big fault to think that you can learn how to manage people in business school. A fault in someone or something …
fault noun - Definition, pictures, pronunciation and usage notes ...
Definition of fault noun from the Oxford Advanced Learner's Dictionary. [uncountable] the responsibility for something wrong that has happened or been done. Why should I say sorry …
Fault - Definition, Meaning, Synonyms & Etymology - Better Words
It denotes a failure to meet expected standards or fulfill obligations. Fault can also refer to responsibility or blame assigned to someone for a particular action or outcome. It implies a …
fault - Wiktionary, the free dictionary
May 23, 2025 · Compare French faute (“fault, foul”), Portuguese falta (“lack, shortage”) and Spanish falta (“lack, absence”). More at fail, false. fault (plural faults) (typically uncountable) …
What is a fault and what are the different types?
What is a fault and what are the different types? A fault is a fracture or zone of fractures between two blocks of rock. Faults allow the blocks to move relative to each other. This movement may …
Fault - Definition, Meaning & Synonyms - Vocabulary.com
A fault is an error caused by ignorance, bad judgment or inattention. If you're a passenger, it might be your fault that your friend missed the exit, if you were supposed to be watching for it, …
