Measurement-Based Timing Analysis for Reconfigurable Embedded Systems

Raimund Kirner, Sven Bünte, Michael Zolda

    Research output: Chapter in Book/Report/Conference proceedingChapter

    Abstract

    Reconfigurable embedded computing opens many interesting possibilities for efficiency and reliability improvement. Still, it is necessary to verify whether the reconfigurable embedded computer system fulfills its timing requirements. Purely static worst-case execution time (WCET) analysis is not the best choice for verifying the timing behavior of reconfigurable embedded computer systems, as frequent re-modeling of different hardware configurations is not practicable. We describe measurement-based timing analysis as an approach that is better applicable for reconfigurable applications. Measurement-based timing analysis is a hybrid approach that combines static program analysis techniques, borrowed from static WCET analysis, with empirical learning of the application’s timing behavior by performing systematic measurements. But even the MBTA approach is challenged by the reconfigurable computing paradigm by the need for adequate coverage of the reconfigurable fabric.
    Original languageEnglish
    Title of host publicationReconfigurable Embedded Control Systems
    Subtitle of host publicationApplications for Flexibility and Agility
    EditorsMohamed Khalgui, Hans-Michael Hanisch
    Place of PublicationHershey, PA, USA
    PublisherEngineering Science Reference (IGI-Global)
    Pages110-129
    ISBN (Electronic)97816096080884
    ISBN (Print)9781609600860
    Publication statusPublished - 2011

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