This paper addresses the cornerstone family of local problems in distributed computing, and investigates the curious gap between randomized and deterministic solutions under bandwidth restrictions. Our main contribution is in providing tools for derandomizing solutions to local problems, when the n nodes can only send O(log n)-bit messages in each round of communication. We combine bounded independence, which we show to be sufficient for some algorithms, with the method of conditional expectations and with additional machinery, to obtain the following results. First, we show that in the Congested Clique model, which allows all-to-all communication, there is a deterministic maximal independent set (MIS) algorithm that runs in O(log^2 Delta...
We study the broadcast version of the CONGEST-CLIQUE model of distributed computing. This model oper...
We study connections between three different fields: distributed local algorithms, finitary factors ...
International audienceWe carry on investigating the line of research questioning the power of random...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
We present a constant-time randomized distributed algorithms in the congested clique model that comp...
It is a well known fact that sequential algorithms which exhibit a strong "local" nature can be adap...
The broadcast congested clique model (BClique) is a message-passing model of distributed computatio...
International audienceIn this talk we attempt to identify the characteristics of a task of distribut...
The broadcast congested clique model is a message-passing model of distributed computation where n ...
A long line of research about connectivity in the Massively Parallel Computation model has culminate...
International audienceIn this paper, we carry on investigating the line of research questioning the ...
We overview a recent line of work [Rozhoň and Ghaffari at STOC 2020; Ghaffari, Harris, and Kuhn at F...
Recently, very fast deterministic and randomized algorithms have been obtained for connectivity and ...
The HYBRID model was recently introduced by Augustine et al. [John Augustine et al., 2020] in order ...
We study the broadcast version of the CONGEST-CLIQUE model of distributed computing. This model oper...
We study connections between three different fields: distributed local algorithms, finitary factors ...
International audienceWe carry on investigating the line of research questioning the power of random...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
We present a constant-time randomized distributed algorithms in the congested clique model that comp...
It is a well known fact that sequential algorithms which exhibit a strong "local" nature can be adap...
The broadcast congested clique model (BClique) is a message-passing model of distributed computatio...
International audienceIn this talk we attempt to identify the characteristics of a task of distribut...
The broadcast congested clique model is a message-passing model of distributed computation where n ...
A long line of research about connectivity in the Massively Parallel Computation model has culminate...
International audienceIn this paper, we carry on investigating the line of research questioning the ...
We overview a recent line of work [Rozhoň and Ghaffari at STOC 2020; Ghaffari, Harris, and Kuhn at F...
Recently, very fast deterministic and randomized algorithms have been obtained for connectivity and ...
The HYBRID model was recently introduced by Augustine et al. [John Augustine et al., 2020] in order ...
We study the broadcast version of the CONGEST-CLIQUE model of distributed computing. This model oper...
We study connections between three different fields: distributed local algorithms, finitary factors ...
International audienceWe carry on investigating the line of research questioning the power of random...