Citation
David Broman, Lev Greenberg, Michael Masin, Stavros Tripakis, Michael Wetter. "Requirements for Hybrid Cosimulation". Technical report, University of California, Berkeley, UCB/EECS-2014-157, August, 2014.

Abstract
This paper defines a suite of requirements for future hybrid cosimulation standards, and specifically provides guidance for development of a hybrid cosimulation version of the Functional Mockup Interface (FMI) standard. A cosimulation standard defines interfaces that enable diverse simulation tools to interoperate. Specifically, one tool defines a component that forms part of a simulation model in another tool. We focus on components with inputs and outputs that are functions of time, and specifically on inputs and outputs that are mixtures of discrete events and continuous time signals. This hybrid mixture is not well supported by existing cosimulation standards, and specifically not by FMI 2.0, for reasons that are explained in this paper. The paper defines a suite of test components, giving a mathematical model of an ideal behavior, plus a discussion of practical implementation considerations. The discussion includes acceptance criteria by which we can determine whether a standard supports definition of each component. In addition, the paper defines a set of test compositions of components. These compositions define requirements for coordination between components, including consistent handling of timed events.

Electronic downloads

• http://www.eecs.berkeley.edu/Pubs/TechRpts/2014/EECS-2014-157

• HTML

  David Broman, Lev Greenberg, Michael Masin, Stavros
  Tripakis, Michael Wetter. <a
  href="http://chess.eecs.berkeley.edu/pubs/1075.html"
  ><i>Requirements for Hybrid
  Cosimulation</i></a>, Technical report, 
  University of California, Berkeley, UCB/EECS-2014-157,
  August, 2014.

• Plain text

  David Broman, Lev Greenberg, Michael Masin, Stavros
  Tripakis, Michael Wetter. "Requirements for Hybrid
  Cosimulation". Technical report,  University of
  California, Berkeley, UCB/EECS-2014-157, August, 2014.

• BibTeX

  @techreport{BromanGreenbergMasinTripakisWetter14_RequirementsForHybridCosimulation,
      author = {David Broman and Lev Greenberg and Michael Masin
                and Stavros Tripakis and Michael Wetter},
      title = {Requirements for Hybrid Cosimulation},
      institution = {University of California, Berkeley},
      number = {UCB/EECS-2014-157},
      month = {August},
      year = {2014},
      abstract = {This paper defines a suite of requirements for
                future hybrid cosimulation standards, and
                specifically provides guidance for development of
                a hybrid cosimulation version of the Functional
                Mockup Interface (FMI) standard. A cosimulation
                standard defines interfaces that enable diverse
                simulation tools to interoperate. Specifically,
                one tool defines a component that forms part of a
                simulation model in another tool. We focus on
                components with inputs and outputs that are
                functions of time, and specifically on inputs and
                outputs that are mixtures of discrete events and
                continuous time signals. This hybrid mixture is
                not well supported by existing cosimulation
                standards, and specifically not by FMI 2.0, for
                reasons that are explained in this paper. The
                paper defines a suite of test components, giving a
                mathematical model of an ideal behavior, plus a
                discussion of practical implementation
                considerations. The discussion includes acceptance
                criteria by which we can determine whether a
                standard supports definition of each component. In
                addition, the paper defines a set of test
                compositions of components. These compositions
                define requirements for coordination between
                components, including consistent handling of timed
                events.},
      URL = {http://chess.eecs.berkeley.edu/pubs/1075.html}
  }
  

Posted by Mary Stewart on 8 Sep 2014.
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