Symmetry Breaking in the Congest Model: Time- and Message-Efficient Algorithms for Ruling Sets

Shreyas Pai; Gopal Pandurangan; Sriram V Pemmaraju; Talal Riaz; Peter Robinson

doi:10.4230/lipics.disc.2017.38

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Symmetry Breaking in the Congest Model: Time- and Message-Efficient Algorithms for Ruling Sets

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Symmetry Breaking in the Congest Model: Time- and Message-Efficient Algorithms for Ruling Sets

Shreyas Pai, Gopal Pandurangan, Sriram V Pemmaraju, Talal Riaz and Peter Robinson

Leibniz International Proceedings in Informatics, Vol.91, pp.38:1-38:16

05/22/2017

DOI: 10.4230/lipics.disc.2017.38

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Abstract

We study local symmetry breaking problems in the CONGEST model, focusing on ruling set problems, which generalize the fundamental Maximal Independent Set (MIS) problem. A $\beta$-ruling set is an independent set such that every node in the graph is at most $\beta$ hops from a node in the independent set. Our work is motivated by the following central question: can we break the $\Theta(\log n)$ time complexity barrier and the $\Theta(m)$ message complexity barrier in the CONGEST model for MIS or closely-related symmetry breaking problems? We present the following results: - Time Complexity: We show that we can break the $O(\log n)$ "barrier" for 2- and 3-ruling sets. We compute 3-ruling sets in $O\left(\frac{\log n}{\log \log n}\right)$ rounds with high probability (whp). More generally we show that 2-ruling sets can be computed in $O\left(\log \Delta \cdot (\log n)^{1/2 + \varepsilon} + \frac{\log n}{\log\log n}\right)$ rounds for any $\varepsilon > 0$, which is $o(\log n)$ for a wide range of $\Delta$ values (e.g., $\Delta = 2^{(\log n)^{1/2-\varepsilon}}$). These are the first 2- and 3-ruling set algorithms to improve over the $O(\log n)$-round complexity of Luby's algorithm in the CONGEST model. - Message Complexity: We show an $\Omega(n^2)$ lower bound on the message complexity of computing an MIS (i.e., 1-ruling set) which holds also for randomized algorithms and present a contrast to this by showing a randomized algorithm for 2-ruling sets that, whp, uses only $O(n \log^2 n)$ messages and runs in $O(\Delta \log n)$ rounds. This is the first message-efficient algorithm known for ruling sets, which has message complexity nearly linear in $n$ (which is optimal up to a polylogarithmic factor).

Algorithms

Computer Science

Cluster Computing

Data Structures

Distributed

Parallel

Details

Title: Subtitle: Symmetry Breaking in the Congest Model: Time- and Message-Efficient Algorithms for Ruling Sets
Creators: Shreyas Pai - University of Iowa
Gopal Pandurangan - University of Houston
Sriram V Pemmaraju - University of Iowa
Talal Riaz - University of Iowa
Peter Robinson - University of London
Resource Type: Conference proceeding
Publication Details: Leibniz International Proceedings in Informatics, Vol.91, pp.38:1-38:16
DOI: 10.4230/lipics.disc.2017.38
ISSN: 1868-8969
Publisher: Schloss Dagstuhl - Leibniz-Zentrum fuer Informatik GmbH, Wadern/Saarbruecken, Germany; Dagstuhl, Germany
Grant note: 1540512 / National Science Foundation (nsf_________::NSF) 1318166 / National Science Foundation (nsf_________::NSF) 1527867 / National Science Foundation (nsf_________::NSF)
Language: English
Date published: 05/22/2017
Academic Unit: Computer Science
Record Identifier: 9984259493402771

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