Network decomposition is a central tool in distributed graph algorithms. We present two improvements on the state of the art for network decomposition, which thus lead to improvements in the (deterministic and randomized) complexity of several well-studied graph problems. - We provide a deterministic distributed network decomposition algorithm with O(log5 n) round complexity, using O(log n)-bit messages. This improves on the O(log7 n)-round algorithm of Rozhoň and Ghaffari [STOC'20], which used large messages, and their O(log8 n)-round algorithm with O(log n)-bit messages. This directly leads to similar improvements for a wide range of deterministic and randomized distributed algorithms, whose solution relies on network decomposition, in...
Motivated by the increasing need for fast processing of large-scale graphs, we study a number of fun...
This paper examines the complexity of distributed algorithms for finding a Minimum Spanning Tree in ...
This paper addresses the cornerstone family of local problems in distributed computing, and investig...
We overview a recent line of work [Rozhoň and Ghaffari at STOC 2020; Ghaffari, Harris, and Kuhn at F...
Network decompositions, as introduced by Awerbuch, Luby, Goldberg, and Plotkin [FOCS\u2789], are one...
In this paper, we improve the bounds for computing a network decomposition, which is a basic notion...
Network decomposition is a central concept in the study of distributed graph algorithms. We present ...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
A fundamental problem in distributed network algorithms is to obtain information flow matching the c...
A long line of research about connectivity in the Massively Parallel Computation model has culminate...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
this paper we are interested in this question in the context of distributed graph algorithms, where ...
The problem of obtaining fast deterministic algorithms for distributed symmetry breaking problems in...
Motivated by the increasing need to understand the distributed algorithmic foundations of large-scal...
Abstract. We present new efficient deterministic and randomized distributed algorithms for decomposi...
Motivated by the increasing need for fast processing of large-scale graphs, we study a number of fun...
This paper examines the complexity of distributed algorithms for finding a Minimum Spanning Tree in ...
This paper addresses the cornerstone family of local problems in distributed computing, and investig...
We overview a recent line of work [Rozhoň and Ghaffari at STOC 2020; Ghaffari, Harris, and Kuhn at F...
Network decompositions, as introduced by Awerbuch, Luby, Goldberg, and Plotkin [FOCS\u2789], are one...
In this paper, we improve the bounds for computing a network decomposition, which is a basic notion...
Network decomposition is a central concept in the study of distributed graph algorithms. We present ...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
A fundamental problem in distributed network algorithms is to obtain information flow matching the c...
A long line of research about connectivity in the Massively Parallel Computation model has culminate...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
this paper we are interested in this question in the context of distributed graph algorithms, where ...
The problem of obtaining fast deterministic algorithms for distributed symmetry breaking problems in...
Motivated by the increasing need to understand the distributed algorithmic foundations of large-scal...
Abstract. We present new efficient deterministic and randomized distributed algorithms for decomposi...
Motivated by the increasing need for fast processing of large-scale graphs, we study a number of fun...
This paper examines the complexity of distributed algorithms for finding a Minimum Spanning Tree in ...
This paper addresses the cornerstone family of local problems in distributed computing, and investig...