In this work, we use algebraic methods for studying distance computation and subgraph detection tasks in the congested clique model. Specifically, we adapt parallel matrix multiplication implementations to the congested clique, obtaining an $O(n^{1-2/\omega})$ round matrix multiplication algorithm, where $\omega < 2.3728639$ is the exponent of matrix multiplication. In conjunction with known techniques from centralised algorithmics, this gives significant improvements over previous best upper bounds in the congested clique model. The highlight results include: -- triangle and 4-cycle counting in $O(n^{0.158})$ rounds, improving upon the $O(n^{1/3})$ triangle detection algorithm of Dolev et al. [DISC 2012], -- a $(1 + o(1))$-approximation of...
We present a new technique for efficiently removing almost all short cycles in a graph without unint...
AbstractWe provide simple, faster algorithms for the detection of cliques and dominating sets of fix...
We study a design framework for robust, independently verifiable, and workload-balanced distributed ...
In this work, we use algebraic methods for studying distance computation and subgraph detection task...
In this work, we use algebraic methods for studying distance computation and subgraph detection task...
We design fast deterministic algorithms for distance computation in the Congested Clique model. Our ...
We show how to multiply two n x n matrices S and T over semirings in the Congested Clique model, whe...
Over the past decade, there has been increasing interest in distributed/parallel algorithms for proc...
Monge matrices play a fundamental role in optimisation theory, graph and string algorithms. Distance...
In this paper we give fast distributed graph algorithms for detecting and listing small subgraphs, a...
International audienceThe first output-sensitive algorithm for the Maximal Clique Listing problem wa...
This project is for students interested in applying algebra and computa-tion to an important problem...
The broadcast congested clique model is a message-passing model of distributed computation where n ...
This electronic version was submitted by the student author. The certified thesis is available in th...
In a sequence of recent results (PODC 2015 and PODC 2016), the running time of the fastest algorithm...
We present a new technique for efficiently removing almost all short cycles in a graph without unint...
AbstractWe provide simple, faster algorithms for the detection of cliques and dominating sets of fix...
We study a design framework for robust, independently verifiable, and workload-balanced distributed ...
In this work, we use algebraic methods for studying distance computation and subgraph detection task...
In this work, we use algebraic methods for studying distance computation and subgraph detection task...
We design fast deterministic algorithms for distance computation in the Congested Clique model. Our ...
We show how to multiply two n x n matrices S and T over semirings in the Congested Clique model, whe...
Over the past decade, there has been increasing interest in distributed/parallel algorithms for proc...
Monge matrices play a fundamental role in optimisation theory, graph and string algorithms. Distance...
In this paper we give fast distributed graph algorithms for detecting and listing small subgraphs, a...
International audienceThe first output-sensitive algorithm for the Maximal Clique Listing problem wa...
This project is for students interested in applying algebra and computa-tion to an important problem...
The broadcast congested clique model is a message-passing model of distributed computation where n ...
This electronic version was submitted by the student author. The certified thesis is available in th...
In a sequence of recent results (PODC 2015 and PODC 2016), the running time of the fastest algorithm...
We present a new technique for efficiently removing almost all short cycles in a graph without unint...
AbstractWe provide simple, faster algorithms for the detection of cliques and dominating sets of fix...
We study a design framework for robust, independently verifiable, and workload-balanced distributed ...