• DocumentCode
    2834977
  • Title

    Makespan Computation for GPU Threads Running on a Single Streaming Multiprocessor

  • Author

    Berezovskyi, Kostiantyn ; Bletsas, Konstantinos ; Andersson, Björn

  • Author_Institution
    CISTER/ISEP Res. Unit, Polytech. Inst. of Porto, Porto, Portugal
  • fYear
    2012
  • fDate
    11-13 July 2012
  • Firstpage
    277
  • Lastpage
    286
  • Abstract
    Graphics processors were originally developed for rendering graphics but have recently evolved towards being an architecture for general-purpose computations. They are also expected to become important parts of embedded systems hardware -- not just for graphics. However, this necessitates the development of appropriate timing analysis techniques which would be required because techniques developed for CPU scheduling are not applicable. The reason is that we are not interested in how long it takes for any given GPU thread to complete, but rather how long it takes for all of them to complete. We therefore develop a simple method for finding an upper bound on the make span of a group of GPU threads executing the same program and competing for the resources of a single streaming multiprocessor (whose architecture is based on NVIDIA Fermi, with some simplifying assumptions). We then build upon this method to formulate the derivation of the exact worst-case make span (and corresponding schedule) as an optimization problem. Addressing the issue of tractability, we also present a technique for efficiently computing a safe estimate of the worst-case make span with minimal pessimism, for use when finding an exact value would take too long.
  • Keywords
    embedded systems; graphics processing units; multiprocessing systems; optimisation; parallel architectures; processor scheduling; CPU scheduling; GPU threads; NVIDIA Fermi; embedded system hardware; exact worst case makespan; general purpose computation; graphic processors; makespan computation; optimization problem; single streaming multiprocessor; timing analysis techniques; tractability; Clocks; Computer architecture; Graphics processing unit; Hardware; Instruction sets; Kernel; Schedules; Graphics Processing Unit; Makespan; streaming multiprocessor;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Real-Time Systems (ECRTS), 2012 24th Euromicro Conference on
  • Conference_Location
    Pisa
  • ISSN
    1068-3070
  • Print_ISBN
    978-1-4673-2032-0
  • Type

    conf

  • DOI
    10.1109/ECRTS.2012.16
  • Filename
    6257579