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Foundations of Real-Time Computing: Scheduling and Resource Management

  • Book
  • © 1991

Overview

Editors:
  1. André M. Tilborg

    1. Office of Naval Research, USA

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    You can also search for this editor in PubMed   Google Scholar

  2. Gary M. Koob

    1. Office of Naval Research, USA

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    You can also search for this editor in PubMed   Google Scholar

Part of the book series: The Springer International Series in Engineering and Computer Science (SECS, volume 141)

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Table of contents (11 chapters)

  1. Front Matter

    Pages i-ix
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  2. Fixed Priority Scheduling Theory for Hard Real-Time Systems

    • John P. Lehoczky, Lui Sha, J. K. Strosnider, Hide Tokuda
    Pages 1-30

  3. Research in Real-Time Scheduling

    • Joseph Y.-T. Leung
    Pages 31-62

  4. Design and Analysis of Processor Scheduling Policies for Real-Time Systems

    • J. F. Kurose, Don Towsley, C. M. Krishna
    Pages 63-89

  5. Recent Results in Real-Time Scheduling

    • R. Bettati, D. Gillies, C. C. Han, K. J. Lin, C. L. Liu, J. W. S. Liu et al.
    Pages 91-127

  6. Rate Monotonic Analysis for Real-Time Systems

    • Lui Sha, Mark H. Klein, John B. Goodenough
    Pages 129-155

  7. Scheduling In Real-Time Transaction Systems

    • John A. Stankovic, Krithi Ramamritham, Don Towsley
    Pages 157-184

  8. Concurrency Control in Real-Time Database Systems

    • Sang H. Son, Yi Lin, Robert P. Cook
    Pages 185-202

  9. Algorithms for Scheduling Imprecise Computations

    • J. W. S. Liu, K. J. Lin, W. K. Shih, A. C. Yu, J. Y. Chung, W. Zhao
    Pages 203-249

  10. Allocating Smart Cache Segments for Schedulability

    • David B. Kirk, Jay K. Strosnider, John E. Sasinowski
    Pages 251-276

  11. Scheduling Strategies Adopted in Spring: An Overview

    • Krithi Ramamritham, John A. Stankovic
    Pages 277-305

  12. Real-Time, Priority-Ordered, Deadlock Avoidance Algorithms

    • Robert P. Cook, Lifeng Hsu, Sang H. Son
    Pages 307-324

  13. Back Matter

    Pages 325-326
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Keywords

About this book

This volume contains a selection of papers that focus on the state-of­ the-art in real-time scheduling and resource management. Preliminary versions of these papers were presented at a workshop on the foundations of real-time computing sponsored by the Office of Naval Research in October, 1990 in Washington, D.C. A companion volume by the title Foundations of Real-Time Computing: Fonnal Specifications and Methods complements this book by addressing many of the most advanced approaches currently being investigated in the arena of formal specification and verification of real-time systems. Together, these two texts provide a comprehensive snapshot of current insights into the process of designing and building real-time computing systems on a scientific basis. Many of the papers in this book take care to define the notion of real-time system precisely, because it is often easy to misunderstand what is meant by that term. Different communities of researchers variously use the term real-time to refer to either very fast computing, or immediate on-line data acquisition, or deadline-driven computing. This text is concerned with the very difficult problems of scheduling tasks and resource management in computer systems whose performance is inextricably fused with the achievement of deadlines. Such systems have been enabled for a rapidly increasing set of diverse end-uses by the unremitting advances in computing power per constant-dollar cost and per constant-unit-volume of space. End-use applications of deadline-driven real-time computers span a spectrum that includes transportation systems, robotics and manufacturing, aerospace and defense, industrial process control, and telecommunications.

Editors and Affiliations

  • Office of Naval Research, USA

    André M. Tilborg, Gary M. Koob

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