AbstractThis paper considers the k-set agreement problem in a synchronous distributed system model with send-omission failures in which at most f processes can fail by send-omission. We show that, in a system of n+1 processes (n+1) f), no algorithm can solve k-set agreement in ⌊ fk ⌋ rounds. Our lower bound proof uses topological techniques to characterize subsets of executions of our model. The characterization has a surprisingly regular structure which leads to a simple and succinct proof. We also show that the lower bound is tight by exhibiting a new algorithm that solves k-set agreement in ⌊ fk ⌋ + 1 rounds
Abstract. We have a new proof of the lower bound that k-set agreement requires ⌊f/k ⌋ + 1 rounds in ...
Despite of being quite similar (agreement) problems, 1-set agreement (consensus) and general k-set a...
International audienceSet agreement is a fundamental problem in distributed com- puting in which pro...
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 ...
The $k$-set agreement problem is a paradigm of coordination problems encountered in distributed comp...
We consider an arbitrary communication network G where at most f messages can be lost at each round,...
International audienceThe k-set agreement problem is a generalization of the consensus problem: cons...
AbstractThe k-set agreement problem is a generalization of the uniform consensus problem: each proce...
We prove tight bounds on the time needed to solve k-set agreement. In this problem, each processor s...
We prove tight bounds on the time needed to solve k-set agreement. In this problem, each processor s...
In the k-set agreement problem, each processor starts with a private input value and eventually deci...
There is no wait-free algorithm that solves k-set agreement among n ? k+1 processes in asynchronous ...
International audienceIn the \emph{$k$-set agreement} task each process proposes a value, and it is ...
Abstract. We have a new proof of the lower bound that k-set agreement requires ⌊f/k ⌋ + 1 rounds in ...
Despite of being quite similar (agreement) problems, 1-set agreement (consensus) and general k-set a...
International audienceSet agreement is a fundamental problem in distributed com- puting in which pro...
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 ...
The $k$-set agreement problem is a paradigm of coordination problems encountered in distributed comp...
We consider an arbitrary communication network G where at most f messages can be lost at each round,...
International audienceThe k-set agreement problem is a generalization of the consensus problem: cons...
AbstractThe k-set agreement problem is a generalization of the uniform consensus problem: each proce...
We prove tight bounds on the time needed to solve k-set agreement. In this problem, each processor s...
We prove tight bounds on the time needed to solve k-set agreement. In this problem, each processor s...
In the k-set agreement problem, each processor starts with a private input value and eventually deci...
There is no wait-free algorithm that solves k-set agreement among n ? k+1 processes in asynchronous ...
International audienceIn the \emph{$k$-set agreement} task each process proposes a value, and it is ...
Abstract. We have a new proof of the lower bound that k-set agreement requires ⌊f/k ⌋ + 1 rounds in ...
Despite of being quite similar (agreement) problems, 1-set agreement (consensus) and general k-set a...
International audienceSet agreement is a fundamental problem in distributed com- puting in which pro...