AbstractWe develop an algebraic theory for the top-down design of communicating systems in which levels of abstraction are represented by algebras, and their stepwise refinements are represented by homomorphisms. Particular attention is paid to the equational specification of these levels of abstraction. A number of examples are included for illustration, most notably a top-down design for a communication protocol
AbstractWe construct a graph model for ACPτ, the algebra of communicating processes with silent step...
As the size and complexity of VLSI chips increases, designers are beginning to rely more and more on...
Most software systems are concerned with concurrent systems and thus it is of paramount importance t...
AbstractWe develop an algebraic theory for the top-down design of communicating systems in which lev...
We develop an algebraic theory for the top-down design of communicating systems in which levels of ...
Central to theories of concurrency is the notion of abstraction. Abstraction from internal actions i...
Within the context of an algebraic theory of processes, an equational specification of process coope...
A process language is presented which makes a clear distinction between temporal order and causal or...
Process algebra is a widely accepted and much used technique in the specification and verification o...
AbstractWe present an axiom system ACP, for communicating processes with silent actions (‘τ-steps’)....
AbstractThis paper proposes a modular approach to the algebraic specification of process algebras. T...
This paper presents a new semantics of ACPτ, the Algebra of Communicating Processes with abstraction...
Algebraic Theory of Processes provides the first general and systematic introduction to the semantic...
AbstractThis article presents an extension of the formalism of algebraic specifications to the speci...
International audienceThe design productivity gap has been recognized by the semiconductor industry ...
AbstractWe construct a graph model for ACPτ, the algebra of communicating processes with silent step...
As the size and complexity of VLSI chips increases, designers are beginning to rely more and more on...
Most software systems are concerned with concurrent systems and thus it is of paramount importance t...
AbstractWe develop an algebraic theory for the top-down design of communicating systems in which lev...
We develop an algebraic theory for the top-down design of communicating systems in which levels of ...
Central to theories of concurrency is the notion of abstraction. Abstraction from internal actions i...
Within the context of an algebraic theory of processes, an equational specification of process coope...
A process language is presented which makes a clear distinction between temporal order and causal or...
Process algebra is a widely accepted and much used technique in the specification and verification o...
AbstractWe present an axiom system ACP, for communicating processes with silent actions (‘τ-steps’)....
AbstractThis paper proposes a modular approach to the algebraic specification of process algebras. T...
This paper presents a new semantics of ACPτ, the Algebra of Communicating Processes with abstraction...
Algebraic Theory of Processes provides the first general and systematic introduction to the semantic...
AbstractThis article presents an extension of the formalism of algebraic specifications to the speci...
International audienceThe design productivity gap has been recognized by the semiconductor industry ...
AbstractWe construct a graph model for ACPτ, the algebra of communicating processes with silent step...
As the size and complexity of VLSI chips increases, designers are beginning to rely more and more on...
Most software systems are concerned with concurrent systems and thus it is of paramount importance t...