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Taxonomies of MoC's
Chris Shaver, Marten Lohstroh

Citation
Chris Shaver, Marten Lohstroh. "Taxonomies of MoC's". Talk or presentation, 7, November, 2013; Presented at the 10th Biennial Ptolemy Miniconference.

Abstract
A Model of Computation (MoC) describes the permissible operations that constitute a computation, or more generally, the behavior of a system through the behavior of its constituting components. Intuitively explained, an MoC represents the "laws of physics" the components of a system are subject to. There exist many different MoC's, each having different properties that make them to a greater or lesser extent suitable for modeling particular systems. Especially for people who are interested in modeling (cyber-physical) systems, but are no expert in the research domain of MoC's, this poster gives a concise overview of some of the most common MoC's and their key properties.

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Citation formats  
  • HTML
    Chris Shaver, Marten Lohstroh. <a
    href="http://chess.eecs.berkeley.edu/pubs/1034.html"><i>Taxonomies
    of MoC's</i></a>, Talk or presentation,  7,
    November, 2013; Presented at the <a
    href="http://ptolemy.eecs.berkeley.edu/conferences/13/"
    >10th Biennial Ptolemy Miniconference</a>.
  • Plain text
    Chris Shaver, Marten Lohstroh. "Taxonomies of
    MoC's". Talk or presentation,  7, November, 2013;
    Presented at the <a
    href="http://ptolemy.eecs.berkeley.edu/conferences/13/"
    >10th Biennial Ptolemy Miniconference</a>.
  • BibTeX
    @presentation{ShaverLohstroh13_TaxonomiesOfMoCs,
        author = {Chris Shaver and Marten Lohstroh},
        title = {Taxonomies of MoC's},
        day = {7},
        month = {November},
        year = {2013},
        note = {Presented at the <a
                  href="http://ptolemy.eecs.berkeley.edu/conferences/13/"
                  >10th Biennial Ptolemy Miniconference</a>.},
        abstract = {A Model of Computation (MoC) describes the
                  permissible operations that constitute a
                  computation, or more generally, the behavior of a
                  system through the behavior of its constituting
                  components. Intuitively explained, an MoC
                  represents the "laws of physics" the components of
                  a system are subject to. There exist many
                  different MoC's, each having different properties
                  that make them to a greater or lesser extent
                  suitable for modeling particular systems.
                  Especially for people who are interested in
                  modeling (cyber-physical) systems, but are no
                  expert in the research domain of MoC's, this
                  poster gives a concise overview of some of the
                  most common MoC's and their key properties.},
        URL = {http://chess.eecs.berkeley.edu/pubs/1034.html}
    }
    

Posted by Marten Lohstroh on 19 Nov 2013.
Groups: ptolemy
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