Contextually Communicating Sequential Processes - significado y definición. Qué es Contextually Communicating Sequential Processes
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Qué (quién) es Contextually Communicating Sequential Processes - definición

FORMAL LANGUAGE FOR CONCURRENT SYSTEMS
Communicating Sequential Processes; Cooperating sequential processes

Contextually Communicating Sequential Processes      
(CCSP) A notation based on CSP. ["Contextually Communicating Sequential Processes - A Software Engineering Approach", M. Hull et al, Software Prac & Exp 16(9):845-864 (Sept 1986)]. (1994-11-01)
Communicating sequential processes         
In computer science, communicating sequential processes (CSP) is a formal language for describing patterns of interaction in concurrent systems. It is a member of the family of mathematical theories of concurrency known as process algebras, or process calculi, based on message passing via channels.
Communicating Sequential Processes         
<language, parallel> (CSP) A notation for concurrency based on synchronous message passing and selective communications designed by Anthony Hoare in 1978. It features cobegin and coend and was a precursor to occam. See also Contextually Communicating Sequential Processes. ["Communicating Sequential Processes", A.R. Hoare, P-H 1985]. (1994-11-01)

Wikipedia

Communicating sequential processes

In computer science, communicating sequential processes (CSP) is a formal language for describing patterns of interaction in concurrent systems. It is a member of the family of mathematical theories of concurrency known as process algebras, or process calculi, based on message passing via channels. CSP was highly influential in the design of the occam programming language and also influenced the design of programming languages such as Limbo, RaftLib, Erlang, Go, Crystal, and Clojure's core.async.

CSP was first described in a 1978 article by Tony Hoare, but has since evolved substantially. CSP has been practically applied in industry as a tool for specifying and verifying the concurrent aspects of a variety of different systems, such as the T9000 Transputer, as well as a secure ecommerce system. The theory of CSP itself is also still the subject of active research, including work to increase its range of practical applicability (e.g., increasing the scale of the systems that can be tractably analyzed).