Time and Schedulability analysis of Stateflow models

Time and Schedulability analysis of Stateflow models
Marco Di Natale

Citation
Marco Di Natale. "Time and Schedulability analysis of Stateflow models". Talk or presentation, 23, October, 2012.

Abstract
Model-based design of embedded systems using Synchronous Reactive (SR) models is among the best practices for software development in the automotive and aeronautics industry. The correct implementation of an SR model must guarantee the synchronous assumption, that is, all the system reactions complete before the next event. This assumption can be verified using schedulability analysis, but the analysis can be quite challenging when the system also consists of blocks implementing finite state machines, as in modern modeling tools like Simulink and SCADE.

Electronic downloads

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Citation formats

HTML

Marco Di Natale. <a
href="http://chess.eecs.berkeley.edu/pubs/944.html"
><i>Time and Schedulability analysis of Stateflow
models</i></a>, Talk or presentation,  23,
October, 2012.

Plain text

Marco Di Natale. "Time and Schedulability analysis of
Stateflow models". Talk or presentation,  23, October,
2012.

BibTeX

@presentation{DiNatale12_TimeSchedulabilityAnalysisOfStateflowModels,
    author = {Marco Di Natale},
    title = {Time and Schedulability analysis of Stateflow
              models},
    day = {23},
    month = {October},
    year = {2012},
    abstract = {Model-based design of embedded systems using
              Synchronous Reactive (SR) models is among the best
              practices for software development in the
              automotive and aeronautics industry. The correct
              implementation of an SR model must guarantee the
              synchronous assumption, that is, all the system
              reactions complete before the next event. This
              assumption can be verified using schedulability
              analysis, but the analysis can be quite
              challenging when the system also consists of
              blocks implementing finite state machines, as in
              modern modeling tools like Simulink and SCADE. },
    URL = {http://chess.eecs.berkeley.edu/pubs/944.html}
}

Posted by David Broman on 23 Oct 2012.
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