Results 1  10
of
12
Relational Reasoning about Functions and Nondeterminism
, 1998
"... Reproduction of all or part of this work is permitted for educational or research use on condition that this copyright notice is included in any copy. See back inner page for a list of recent BRICS Dissertation Series publications. Copies may be obtained by contacting: BRICS ..."
Abstract

Cited by 31 (4 self)
 Add to MetaCart
Reproduction of all or part of this work is permitted for educational or research use on condition that this copyright notice is included in any copy. See back inner page for a list of recent BRICS Dissertation Series publications. Copies may be obtained by contacting: BRICS
Domain theory for concurrency
, 2003
"... Concurrent computation can be given an abstract mathematical treatment very similar to that provided for sequential computation by domain theory and denotational semantics of Scott and Strachey. ..."
Abstract

Cited by 23 (6 self)
 Add to MetaCart
Concurrent computation can be given an abstract mathematical treatment very similar to that provided for sequential computation by domain theory and denotational semantics of Scott and Strachey.
Relational Reasoning about Contexts
 HIGHER ORDER OPERATIONAL TECHNIQUES IN SEMANTICS, PUBLICATIONS OF THE NEWTON INSTITUTE
, 1998
"... ..."
Linearity in Process Languages
"... The meaning and mathematical consequences of linearity (managing without a presumed ability to copy) are studied for a pathbased model of processes which is also amodel of affinelinear logic. This connection yields an affinelinear language for processes, automatically respecting openmap bisim ..."
Abstract

Cited by 13 (10 self)
 Add to MetaCart
The meaning and mathematical consequences of linearity (managing without a presumed ability to copy) are studied for a pathbased model of processes which is also amodel of affinelinear logic. This connection yields an affinelinear language for processes, automatically respecting openmap bisimulation, in which a range of process operations can be expressed. An operational semantics isprovided for the tensor fragment of the language. Different ways to make assemblies of processes lead to differentchoices of exponential, some of which respect bisimulation.
A Linear Metalanguage for Concurrency
 Handbook of Logic in Computer Science
, 1998
"... A metalanguage for concurrent process languages is introduced. ..."
Abstract

Cited by 11 (4 self)
 Add to MetaCart
A metalanguage for concurrent process languages is introduced.
A Simple Adequate Categorical Model for PCF
 In Proceedings of Third International Conference on Typed Lambda Calculi and Applications
, 1997
"... Usually types of PCF are interpreted as cpos and terms as continuous functions. It is then the case that nontermination of a closed term of ground type corresponds to the interpretation being bottom; we say that the semantics is adequate. We shall here present an axiomatic approach to adequacy for ..."
Abstract

Cited by 4 (0 self)
 Add to MetaCart
Usually types of PCF are interpreted as cpos and terms as continuous functions. It is then the case that nontermination of a closed term of ground type corresponds to the interpretation being bottom; we say that the semantics is adequate. We shall here present an axiomatic approach to adequacy for PCF in the sense that we will introduce categorical axioms enabling an adequate semantics to be given. We assume the presence of certain "bottom" maps with the role of being the interpretation of nonterminating terms, but the orderstructure is left out. This is different from previous approaches where some kind of ordertheoretic structure has been considered as part of an adequate categorical model for PCF. We take the point of view that partiality is the fundamental notion from which orderstructure should be derived, which is corroborated by the observation that our categorical model induces an ordertheoretic model for PCF in a canonical way.
Girard Translation and Logical Predicates
, 2000
"... We present a short proof of a folklore result: the Girard translation from the simply typed lambda calculus to the linear lambda calculus is fully complete. The proof makes use of a notion of logical predicates for intuitionistic linear logic. While the main result is of independent interest, this p ..."
Abstract

Cited by 4 (3 self)
 Add to MetaCart
We present a short proof of a folklore result: the Girard translation from the simply typed lambda calculus to the linear lambda calculus is fully complete. The proof makes use of a notion of logical predicates for intuitionistic linear logic. While the main result is of independent interest, this paper can be read as a tutorial on this proof technique for reasoning about relations between type theories.
Linearity and nonlinearity in distributed computation
"... The copying of processes is limited in the context of distributed computation, either as a fact of life, often because remote networks are simply too complicated to have control over, or deliberately, as in the design of security protocols. Roughly, linearity is about how to manage without a presume ..."
Abstract

Cited by 3 (2 self)
 Add to MetaCart
The copying of processes is limited in the context of distributed computation, either as a fact of life, often because remote networks are simply too complicated to have control over, or deliberately, as in the design of security protocols. Roughly, linearity is about how to manage without a presumed ability to copy. The meaning and mathematical consequences of linearity are studied for pathbased models of processes which are also models of affinelinear logic. This connection yields an affinelinear language for processes in which processes are typed according to the kind of computation paths they can perform. One consequence is that the affinelinear language automatically respects openmap bisimulation. A range of process operations (from CCS, CCS with processpassing, mobile ambients, and dataflow) can be expressed within the affinelinear language showing the ubiquity of linearity. Of course, process code can be sent explicitly to be copied. Following the discipline of linear logic, suitable nonlinear maps are obtained as linear maps whose domain is under an exponential. Different ways to make assemblies of processes lead to different choices of exponential; the nonlinear maps of only some of which will respect bisimulation.
Separating Weakening and Contraction in a Linear Lambda Calculus
 in: Proc. CATS'98, Computing: the Fourth Australian Theory Symposium (Perth
, 1996
"... . We present a separatedlinear lambda calculus of resource consumption based on a refinement of linear logic which allows separate control of weakening and contraction. The calculus satisfies subject reduction and confluence, and inherits previous results on the relationship of Girard's two transla ..."
Abstract

Cited by 2 (1 self)
 Add to MetaCart
. We present a separatedlinear lambda calculus of resource consumption based on a refinement of linear logic which allows separate control of weakening and contraction. The calculus satisfies subject reduction and confluence, and inherits previous results on the relationship of Girard's two translations from minimal intuitionistic logic to linear logic with callbyname and callbyvalue. We construct a hybrid translation from Girard's two which is sound and complete for mapping types and reduction sequences from callbyneed into separatedlinear . This treatment of callbyneed is more satisfying than in previous work, allowing a contrasting of all three reduction strategies in the manner (for example) that the CPS translations allow for callbyname and callbyvalue. H OW can we explain the differences between parameterpassing styles? With the continuationpassing style (CPS) transforms [24, 25], one makes the flow of control explicit. Each parameterpassing style is associated ...