• DocumentCode
    3215142
  • Title

    Incremental rate monotonic scheduling for improved control system performance

  • Author

    Binns, Pam

  • Author_Institution
    Honeywell Technol. Center, USA
  • fYear
    1997
  • fDate
    9-11 Jun 1997
  • Firstpage
    80
  • Lastpage
    90
  • Abstract
    The paper presents an algorithm and its run-time performance for scheduling periodic incremental and design-to-time processes. The algorithm is based on the slack stealer which dynamically answers the question “how much execution time is available prior to a deadline” when all periodic processes are scheduled using rate monotonic scheduling. An incremental process asks how much execution time is available after the baseline component has completed and prior to the execution of a process increment. A design-to-time process asks how much execution time is available before the process begins execution and selects a version which gives the greatest precision in the available time. For both incremental and design-to-time processes, a minimum amount of time is statically reserved so that an acceptable but suboptimal solution will always be calculated. The author identifies and proposes a solution for the practical problem of supporting criticalities when scheduling slack and analyze the run-time overheads of this algorithm. The analysis is applied to two real-world data sets. In certain cases, the execution time of this algorithm is found to be efficient
  • Keywords
    computational complexity; control engineering computing; optimisation; processor scheduling; real-time systems; algorithm; baseline component; criticality support; design-to-time process scheduling; execution time; execution time availability; improved control system performance; incremental rate monotonic scheduling; periodic incremental process scheduling; process increment; real-world data sets; run-time performance; slack stealer; statically reserved time; suboptimal solution; Algorithm design and analysis; Control systems; Dynamic scheduling; Process control; Process design; Processor scheduling; Runtime; Scheduling algorithm; Size control; System performance;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Real-Time Technology and Applications Symposium, 1997. Proceedings., Third IEEE
  • Conference_Location
    Montreal, Que.
  • Print_ISBN
    0-8186-8016-4
  • Type

    conf

  • DOI
    10.1109/RTTAS.1997.601346
  • Filename
    601346