Homology, Homotopy and Applications

2003

DOI: 10.4310/hha.2003.v5.n2.a5

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Some geometric perspectives in concurrency theory

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Abstract: Concurrency, i.e., the domain in computer science which deals with parallel (asynchronous) computations, has very strong links with algebraic topology; this is what we are developing in this paper, giving a survey of "geometric" models for concurrency. We show that the properties we want to prove on concurrent systems are stable under some form of deformation, which is almost homotopy. In fact, as the "direction" of time matters, we have to allow deformation only as long as we do not reverse the direction of t… Show more

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Cited by 74 publications

(61 citation statements)

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“…For other examples of similar investigations with different algebraic topological models of concurrency, cf. for example [9] [2] [8].…”

Section: Introductionmentioning

confidence: 99%

Homological properties of non-deterministic branchings of mergings in higher dimensional automata

¹

2005

Homology, Homotopy and Applications

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The branching (resp. merging) space functor of a flow is a left Quillen functor. The associated derived functor allows to define the branching (resp. merging) homology of a flow. It is then proved that this homology theory is a dihomotopy invariant and that higher dimensional branchings (resp. mergings) satisfy a long exact sequence.

“…For other examples of similar investigations with different algebraic topological models of concurrency, cf. for example [9] [2] [8].…”

Section: Introductionmentioning

confidence: 99%

Homological properties of non-deterministic branchings of mergings in higher dimensional automata

¹

2005

Homology, Homotopy and Applications

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The branching (resp. merging) space functor of a flow is a left Quillen functor. The associated derived functor allows to define the branching (resp. merging) homology of a flow. It is then proved that this homology theory is a dihomotopy invariant and that higher dimensional branchings (resp. mergings) satisfy a long exact sequence.

“…Researchers have proposed to employ homotopy theory to model the complexity of mutual exclusion involving concurrently executing programs [6,16]. Interestingly, the stability properties of distributed concurrent processes can be analyzed by applying homotopy theory [15]. It is illustrated that, the semaphore objects (for mutual exclusions) can be formed in topological spaces having partial ordering and, it can be extended to analyze deadlock and serializability properties of concurrent processes [14].…”

Section: Related Workmentioning

confidence: 99%

“…The hybrid geodistributed computation is essentially asynchronous in nature [27,29]. The formal models of asynchronous distributed systems are constructed by employing algebraic topology and homotopy theory [5,6,10,15]. The algebraic topological models impose a set of very rigid and fixed geometric structures, whereas a more flexible structure would benefit the modeling of asynchronous distributed systems exposing finer states of control.…”

Section: Motivationmentioning

confidence: 99%

Modeling Slicer and Control Algorithm for Distributed Computation in Metrized Weaker Topological Spaces

2017

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Abstract

“…The mathematical connections move us closer to topology and geometry and their use in reasoning about processes [31,47,48,61].…”

Section: Operational Semanticsmentioning

confidence: 99%

Events, Causality and Symmetry

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2009

The Computer Journal

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The article discusses causal models, such as Petri nets and event structures, how they have been rediscovered in a wide variety of recent applications, and why they are fundamental to computer science. A discussion of their present limitations leads to their extension with symmetry. The consequences, actual and potential, are discussed.

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