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SIMD-MIMD Real-Time Comparisons (Our Chapter 7)

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Title: SIMD-MIMD Real-Time Comparisons (Our Chapter 7)


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SIMD-MIMD Real-Time Comparisons(Our Chapter 7)
  • References
  • Stankovic, Spuri, Ramamritham, Buttazzo,
    Deadline Scheduling for Real-Time Systems,
    Kluwer, 1998, ISBN 0-7923-8269-2.
  • Stankovic, Spuri, Natale, Buttazzo, Implications
    of Classical Scheduling Results for Real-Time
    Systems, IEEE Computer, Vol. 28, No 6, pp.
    16-25, June 1995.
  • Meilander, Jin, Baker, Tractable Real-Time Air
    Traffic Control Automation, Fourteenth IASTED
    International Conference on Parallel and
    Distributed Computing and Systems (PDCS02), pp.
    483-488, November 2002.
  • Meilander, Baker, Jin, Importance of SIMD
    Computation Reconsidered, working copy handout.
  • Initially we will go through most of the slides
    used for the presentation of the paper,
    Tractable Real-Time Air Traffic Control
    Automation.
  • Presentation given by Will Meilander at PDCS
    Conference in November 2002.
  • The PDCS slides will follow this set of slides.
  • A polynomial time MP solution to the ATC is not
    believed possible. In particular,
  • MP solutions to virtually all real-time problems
    today include an online solution to one or more
    dynamic scheduling problems.
  • Dynamic scheduling is an NP-hard problem.
  • The MP cannot solve most real-time problems using
    a static scheduling algorithm (to avoid using
    dynamic scheduling).

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  • As observed in the earlier set of slides, a low
    order polynomial time solution to the ATC problem
    is possible on the AP.
  • Open Question Does there exist a splitting
    problem that has a polynomial time solution
    using an AP but all solutions using an MP involve
    solving an additional problem that is NP-hard.
  • Additional restrictions can be made, if needed.
  • Such a result would establish that MPs are not
    more powerful than SIMDs, as is currently
    believed by many professionals in the area.
  • This work raises other open questions as well,
    both practical and theoretical.
  • How much can one move away from the SIMD
    architectures and programming style towards MIMD
    before encountering the MIMD difficulty
  • That is, of having to solve NP-hard problems
    in order to solve original problem
  • In particular, how can the multiple instruction
    streams for MASC interact so as to avoid this
    MIMD difficulty?
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