Paper Info
Title
Optimal Distributed Covering Algorithms.
Abstract
We present a time-optimal deterministic distributed algorithm for approximating a minimum weight vertex cover in hypergraphs of rank ƒ. This problem is equivalent to the Minimum Weight Set Cover problem in which the frequency of every element is bounded by ƒ. The approximation factor of our algorithm is (ƒ + ε). Let Δ denote the maximum degree in the hypergraph. Our algorithm runs in the CONGEST model and requires O(log Δ/log log Δ) rounds, for constants ε ∈ (0,1] and ƒ ∈ N+. This is the first distributed algorithm for this problem whose running time does not depend on the vertex weights nor the number of vertices. Thus adding another member to the exclusive family of emphprovably optimal distributed algorithms. For constant values of ƒ and ε, our algorithm improves over the (&3402; + ε)-approximation algorithm of [16] whose running time is O(log Δ + log W), where W is the ratio between the largest and smallest vertex weights in the graph. Our algorithm also achieves an ƒ-approximation for the problem in O(ƒ log n) rounds, improving over the classical result of [13] that achieves a running time of O(ƒ log 2 n). Finally, for weighted vertex cover (ƒ=2) our algorithm achieves a deterministic running time of O(log n), matching the randomized previously best result of [14]. We also show that integer covering-programs can be reduced to the Minimum Weight Set Cover problem in the distributed setting. This allows us to achieve an (ƒ + ε)-approximate integral solution in O(1 + ƒ /log n)⋅ log Δ over log log Δ+(ƒ ⋅ log M)1.01⋅ log ε-1 ⋅(log Δ)0.01)) rounds, where ƒ bounds the number of variables in a constraint, Δ bounds the number of constraints a variable appears in, and M=max{1,1/a min},, amin, where amin is the smallest normalized constraint coefficient. This significantly improves over the results of [16] for the integral case, which achieves the same guarantees in O(ε-4 ⋅ ƒ4 ⋅ log ƒ ⋅ log(M ⋅ Δ)) rounds.
Year
DOI
Venue
2019
10.1145/3293611.3331577
Proceedings of the 2019 ACM Symposium on Principles of Distributed Computing
Keywords
Field
DocType
distributed computing, graph algorithms, primal dual, set cover, vertex cover
Integer,Binary logarithm,Set cover problem,Vertex (geometry),Computer science,Constraint graph,Algorithm,Vertex cover,Minimum weight,Bounded function
Journal
Volume
ISBN
Citations 
abs/1902.09377
978-1-4503-6217-7
0
PageRank 
References 
Authors
0.34
0
4
Name
Order
Citations
PageRank
Ran Ben-Basat110519.20
G. Even21007.19
Ken-ichi Kawarabayashi31731149.16
Gregory Schwartzman401.35