We consider an arbitrary communication network G where at most f messages can be lost at each round, and consider the classical k-set agreement problem in this setting. We characterize exactly for which f the k-set agreement problem can be solved on G. The case with k = 1, that is the Consensus problem, has first been introduced by Santoro and Widmayer in 1989, the characterization is already known from [Coulouma/Godard/Peters, TCS, 2015]. As a first contribution, we present a detailed and complete characterization for the 2-set problem. The proof of the impossibility result uses topological methods. We introduce a new subdivision approach for these topological methods that is of independent interest. In the second part, we show how to ex...
We prove tight bounds on the time needed to solve k-set agreement. In this problem, each processor s...
International audienceIn the \emph{$k$-set agreement} task each process proposes a value, and it is ...
We prove tight bounds on the time needed to solve k-set agreement. In this problem, each processor s...
AbstractThis paper considers the k-set agreement problem in a synchronous distributed system model w...
This paper considers the k-set agreement problem in a synchronous distributed system model with sen...
This paper considers the k-set agreement problem in a synchronous distributed system model with send...
AbstractThe k-set-agreement problem consists for a set of n processes to agree on less than k among ...
Despite of being quite similar (agreement) problems, 1-set agreement (consensus) and general k-set a...
International audienceThe failure detector abstraction has been used to solve agreement problems in ...
International audienceRound-based models are the main message-passing models; combinatorial topology...
This dissertation explores algorithmic solutions for some prominent agreement problems in the field ...
In the k-set agreement problem, each processor starts with a private input value and eventually deci...
International audienceThe k-set agreement problem is a generalization of the consensus problem where...
AbstractWe present a unified, axiomatic approach to proving lower bounds for the k-set agreement pro...
Distributed computations in a synchronous system prone to message loss can be modeled as a game betw...
We prove tight bounds on the time needed to solve k-set agreement. In this problem, each processor s...
International audienceIn the \emph{$k$-set agreement} task each process proposes a value, and it is ...
We prove tight bounds on the time needed to solve k-set agreement. In this problem, each processor s...
AbstractThis paper considers the k-set agreement problem in a synchronous distributed system model w...
This paper considers the k-set agreement problem in a synchronous distributed system model with sen...
This paper considers the k-set agreement problem in a synchronous distributed system model with send...
AbstractThe k-set-agreement problem consists for a set of n processes to agree on less than k among ...
Despite of being quite similar (agreement) problems, 1-set agreement (consensus) and general k-set a...
International audienceThe failure detector abstraction has been used to solve agreement problems in ...
International audienceRound-based models are the main message-passing models; combinatorial topology...
This dissertation explores algorithmic solutions for some prominent agreement problems in the field ...
In the k-set agreement problem, each processor starts with a private input value and eventually deci...
International audienceThe k-set agreement problem is a generalization of the consensus problem where...
AbstractWe present a unified, axiomatic approach to proving lower bounds for the k-set agreement pro...
Distributed computations in a synchronous system prone to message loss can be modeled as a game betw...
We prove tight bounds on the time needed to solve k-set agreement. In this problem, each processor s...
International audienceIn the \emph{$k$-set agreement} task each process proposes a value, and it is ...
We prove tight bounds on the time needed to solve k-set agreement. In this problem, each processor s...