International audienceMore than two decades ago, combinatorial topology was shown to be useful for analyzing distributed fault-tolerant algorithms in shared memory systems and in message passing systems. In this work, we show that combinatorial topology can also be useful for analyzing distributed algorithms in networks of arbitrary structure. To illustrate this, we analyze consensus, set-agreement, and approximate agreement in networks, and derive lower bounds for these problems under classical computational settings, such as the LOCAL model and dynamic networks
Abstract. A topology-aware network is a dynamic network in which the nodes can detect whether local...
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...
International audienceMore than two decades ago, combinatorial topology was shown to be useful for a...
Abstract. Besides the complexity in time or in number of messages, a common approach for analyzing d...
International audienceIn this paper, we provide a rigorous characterization of consensus solvability...
AbstractThe theory of distributed computing shares a deep and fascinating connection with combinator...
Consensus is one of the most fundamental problems in distributed computing. This paper studies the c...
The control and termination detection of a distributed computation involving large-scale distributed...
In this paper, we provide tools for convergence and performance analysis of an agreement protocol fo...
AbstractThe aim of this paper is to pose a challenge to the experts of (algebraic) topology techniqu...
Abstract—In this paper, we discuss consensus problems for networks of dynamic agents with fixed and ...
This dissertation explores algorithmic solutions for some prominent agreement problems in the field ...
International audienceBesides the complexity in time or in number of messages, a common approach for...
International audienceWe show that the protocol complex formalization of fault-tolerant protocols ca...
Abstract. A topology-aware network is a dynamic network in which the nodes can detect whether local...
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...
International audienceMore than two decades ago, combinatorial topology was shown to be useful for a...
Abstract. Besides the complexity in time or in number of messages, a common approach for analyzing d...
International audienceIn this paper, we provide a rigorous characterization of consensus solvability...
AbstractThe theory of distributed computing shares a deep and fascinating connection with combinator...
Consensus is one of the most fundamental problems in distributed computing. This paper studies the c...
The control and termination detection of a distributed computation involving large-scale distributed...
In this paper, we provide tools for convergence and performance analysis of an agreement protocol fo...
AbstractThe aim of this paper is to pose a challenge to the experts of (algebraic) topology techniqu...
Abstract—In this paper, we discuss consensus problems for networks of dynamic agents with fixed and ...
This dissertation explores algorithmic solutions for some prominent agreement problems in the field ...
International audienceBesides the complexity in time or in number of messages, a common approach for...
International audienceWe show that the protocol complex formalization of fault-tolerant protocols ca...
Abstract. A topology-aware network is a dynamic network in which the nodes can detect whether local...
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...