AbstractWe study “causality” relationships in Concurrent Constraint Programming: what is observed is not just the conjunction of constraints deposited in the store, but also the causal dependencies between these constraints. We describe a denotational semantics for cc that is fully abstract with respect to observing this “causality” relation on constraints. This semantics preserves more fine-grained structure of computation; in particular the Interleaving Law(a→P)∥(b→Q)=(a→(P∥(b→Q)))(b→(Q∥(a→P)))is not verified (□ is indeterminate choice). Relationships between such a denotational approach to true concurrency and different powerdomain constructions are explored
Concurrent constraint programming [Sar89,SR90] is a simple and powerful model of concurrent computat...
We study the expressiveness and complexity of concurrent constraint programming languages over finit...
Concurrent constraint programming (ccp) is a well-established model for concurrency. Bisimilarity is...
We study “causality ” relationships in Concurrent Constraint Programming: what is observed is not ju...
AbstractWe study “causality” relationships in Concurrent Constraint Programming: what is observed is...
. We present a concurrent semantics for concurrent constraint (cc) programming framework with both (...
Concurrent Constraint Programming (CCP) has been the subject of growing interest as the focus of a n...
We develop a compositional proof-system for the partial correctness of concurrent constraint program...
Concurrent constraint programming (ccp), like most of the concurrent paradigms, has a mechanism of g...
AbstractConcurrent Constraint Programming (CCP) is a simple and powerful model of concurrency where ...
Concurrent constraint programming (ccp), like most of the concurrent paradigms, has a mechanism of ...
AbstractConcurrent constraint programming (ccp), like most of the concurrent paradigms, has a mechan...
A framework for the analysis of concurrent constraint programming (CCP) is proposed. The approach is...
AbstractA compositional and fully abstract semantics for concurrent constraint programming is develo...
This paper develops a denotation and abstract model based on closure operators for concurrent const...
Concurrent constraint programming [Sar89,SR90] is a simple and powerful model of concurrent computat...
We study the expressiveness and complexity of concurrent constraint programming languages over finit...
Concurrent constraint programming (ccp) is a well-established model for concurrency. Bisimilarity is...
We study “causality ” relationships in Concurrent Constraint Programming: what is observed is not ju...
AbstractWe study “causality” relationships in Concurrent Constraint Programming: what is observed is...
. We present a concurrent semantics for concurrent constraint (cc) programming framework with both (...
Concurrent Constraint Programming (CCP) has been the subject of growing interest as the focus of a n...
We develop a compositional proof-system for the partial correctness of concurrent constraint program...
Concurrent constraint programming (ccp), like most of the concurrent paradigms, has a mechanism of g...
AbstractConcurrent Constraint Programming (CCP) is a simple and powerful model of concurrency where ...
Concurrent constraint programming (ccp), like most of the concurrent paradigms, has a mechanism of ...
AbstractConcurrent constraint programming (ccp), like most of the concurrent paradigms, has a mechan...
A framework for the analysis of concurrent constraint programming (CCP) is proposed. The approach is...
AbstractA compositional and fully abstract semantics for concurrent constraint programming is develo...
This paper develops a denotation and abstract model based on closure operators for concurrent const...
Concurrent constraint programming [Sar89,SR90] is a simple and powerful model of concurrent computat...
We study the expressiveness and complexity of concurrent constraint programming languages over finit...
Concurrent constraint programming (ccp) is a well-established model for concurrency. Bisimilarity is...