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Calculus of communicating systems

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The calculus of communicating systems (CCS) is a process calculus introduced by Robin Milner around 1980 and the title of a book describing the calculus. Its actions model indivisible communications between exactly two participants. The formal language includes primitives for describing parallel composition, summation between actions and scope restriction. CCS is useful for evaluating the qualitative correctness of properties of a system such as deadlock or livelock.[1]

According to Milner, "There is nothing canonical about the choice of the basic combinators, even though they were chosen with great attention to economy. What characterises our calculus is not the exact choice of combinators, but rather the choice of interpretation and of mathematical framework".

The expressions of the language are interpreted as a labelled transition system. Between these models, bisimilarity is used as a semantic equivalence.

Syntax

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Given a set of action names, the set of CCS processes is defined by the following BNF grammar:

The parts of the syntax are, in the order given above

inactive process
the inactive process is a valid CCS process
action
the process can perform an action and continue as the process
process identifier
write to use the identifier to refer to the process (which may contain the identifier itself, i.e., recursive definitions are allowed)
summation
the process can proceed either as the process or the process
parallel composition
tells that processes and exist simultaneously
renaming
is the process with all actions named renamed as
restriction
is the process without action
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Some other languages based on CCS:

Models that have been used in the study of CCS-like systems:

References

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  • Robin Milner: A Calculus of Communicating Systems, Springer Verlag, ISBN 0-387-10235-3. 1980.
  • Robin Milner, Communication and Concurrency, Prentice Hall, International Series in Computer Science, ISBN 0-13-115007-3. 1989
  1. ^ Herzog, Ulrich, ed. (May 2007). "Tackling Large State Spaces in Performance Modelling". Formal Methods for Performance Evaluation. Lecture Notes in Computer Science. Vol. 4486. Springer. pp. 318–370. doi:10.1007/978-3-540-72522-0. ISBN 978-3-540-72482-7. Archived from the original on 2008-04-12. Retrieved 2009-04-21.
  2. ^ A Philippou, M Toro, M Antonaki. Simulation and Verification in a Process Calculus for Spatially-Explicit Ecological Models. Scientific Annals of Computer Science 23 (1). 2014
  3. ^ Montesi, Fabrizio; Guidi, Claudio; Lucchi, Roberto; Zavattaro, Gianluigi (2007-06-27). "JOLIE: a Java Orchestration Language Interpreter Engine". Electronic Notes in Theoretical Computer Science. Combined Proceedings of the Second International Workshop on Coordination and Organization (CoOrg 2006) and the Second International Workshop on Methods and Tools for Coordinating Concurrent, Distributed and Mobile Systems (MTCoord 2006). 181: 19–33. doi:10.1016/j.entcs.2007.01.051. ISSN 1571-0661.