International audienceWe describe a general construction of finiteness spaces which subsumes the interpretations of all positive connectors of linear logic. We then show how to apply this construction to prove the existence of least fixpoints for particular functors in the category of finiteness spaces: these include the functors involved in a relational interpretation of lazy recursive algebraic datatypes along the lines of the coherence semantics of system T
Many applications of denotational semantics, such as higher-order model checking or the complexity o...
AbstractWe carry out a systematic investigation of the definability of linear order on classes of fi...
International audienceFiniteness spaces constitute a categorical model of Linear Logic (LL) whose ob...
International audienceWe describe a general construction of finiteness spaces which subsumes the int...
We describe a general construction of finiteness spaces which subsumes the interpretations of all po...
We study iteration and recursion operators in the multiset relational model of linear logic and prov...
We develop a denotational semantics of Linear Logic with least and greatest fixed points in coherenc...
short noteInternational audienceThis short note presents a new relation between coherent spaces and ...
Finiteness spaces were introduced by Ehrhard as a refinement of the relational model of linear logic...
In recent years several extensions of first-order logic have been investigated in the context of fin...
Abstract. Finiteness spaces constitute a categorical model of Linear Logic (LL) whose objects can be...
AbstractThe notion of the least fixed-point of an operator is widely applied in computer science as,...
We present a technique that enables the use of finite model finding to check the satisfiability of c...
We present a technique that enables the use of finite model finding to check the satisfiability of c...
14 pagesWe define a faithful functor from a cartesian closed category of linearly topologized vector...
Many applications of denotational semantics, such as higher-order model checking or the complexity o...
AbstractWe carry out a systematic investigation of the definability of linear order on classes of fi...
International audienceFiniteness spaces constitute a categorical model of Linear Logic (LL) whose ob...
International audienceWe describe a general construction of finiteness spaces which subsumes the int...
We describe a general construction of finiteness spaces which subsumes the interpretations of all po...
We study iteration and recursion operators in the multiset relational model of linear logic and prov...
We develop a denotational semantics of Linear Logic with least and greatest fixed points in coherenc...
short noteInternational audienceThis short note presents a new relation between coherent spaces and ...
Finiteness spaces were introduced by Ehrhard as a refinement of the relational model of linear logic...
In recent years several extensions of first-order logic have been investigated in the context of fin...
Abstract. Finiteness spaces constitute a categorical model of Linear Logic (LL) whose objects can be...
AbstractThe notion of the least fixed-point of an operator is widely applied in computer science as,...
We present a technique that enables the use of finite model finding to check the satisfiability of c...
We present a technique that enables the use of finite model finding to check the satisfiability of c...
14 pagesWe define a faithful functor from a cartesian closed category of linearly topologized vector...
Many applications of denotational semantics, such as higher-order model checking or the complexity o...
AbstractWe carry out a systematic investigation of the definability of linear order on classes of fi...
International audienceFiniteness spaces constitute a categorical model of Linear Logic (LL) whose ob...