International audienceWe show that the protocol complex formalization of fault-tolerant protocols can be directly derived from a suitable semantics of the underlying synchronization and communication primitives, based on a geometrization of the state space. By constructing a one-to-one relationship between simplices of the protocol complex and (di)homotopy classes of (di)paths in the latter semantics, we describe a connection between these two geometric approaches to distributed computing: protocol complexes and directed algebraic topology. This is exemplified on atomic snapshot, iterated snapshot and layered immediate snapshot protocols, where a well-known combinatorial structure, interval orders, plays a key role. We believe that this cor...
International audienceThe famous asynchronous computability theorem (ACT) relates the existence of a...
In this work, we extend the topology-based approach for characterizing computability in asynchronous...
AbstractThe theory of distributed computing shares a deep and fascinating connection with combinator...
International audienceWe show that the protocol complex formalization of fault-tolerant protocols ca...
International audienceWe show that the protocol complex formalization of fault-tolerant protocols ca...
Le domaine des protocoles tolérants aux pannes étudie quelles tâches concurrentes sont résolubles da...
The area of fault-tolerant distributed computability is concerned with the solvability of decision t...
The field of fault-tolerant protocols studies which concurrent tasks are solvable in various computa...
AbstractThis paper contributes to the characterization of synchronous models of distributed computin...
The field of distributed computability studies whether a task is solvable in a distributed system, as...
Abstract We give necessary and sufficient combinatorial conditions characterizing the class of decis...
International audienceMore than two decades ago, combinatorial topology was shown to be useful for a...
International audienceSynchronization primitives for fault-tolerant distributed systems that ensure ...
The famous asynchronous computability theorem (ACT) relates the existence of an asynchronous wait-fr...
International audienceThe famous asynchronous computability theorem (ACT) relates the existence of a...
In this work, we extend the topology-based approach for characterizing computability in asynchronous...
AbstractThe theory of distributed computing shares a deep and fascinating connection with combinator...
International audienceWe show that the protocol complex formalization of fault-tolerant protocols ca...
International audienceWe show that the protocol complex formalization of fault-tolerant protocols ca...
Le domaine des protocoles tolérants aux pannes étudie quelles tâches concurrentes sont résolubles da...
The area of fault-tolerant distributed computability is concerned with the solvability of decision t...
The field of fault-tolerant protocols studies which concurrent tasks are solvable in various computa...
AbstractThis paper contributes to the characterization of synchronous models of distributed computin...
The field of distributed computability studies whether a task is solvable in a distributed system, as...
Abstract We give necessary and sufficient combinatorial conditions characterizing the class of decis...
International audienceMore than two decades ago, combinatorial topology was shown to be useful for a...
International audienceSynchronization primitives for fault-tolerant distributed systems that ensure ...
The famous asynchronous computability theorem (ACT) relates the existence of an asynchronous wait-fr...
International audienceThe famous asynchronous computability theorem (ACT) relates the existence of a...
In this work, we extend the topology-based approach for characterizing computability in asynchronous...
AbstractThe theory of distributed computing shares a deep and fascinating connection with combinator...