Paper Info
Title
Sampling Random Colorings of Sparse Random Graphs.
Abstract
We study the mixing properties of the single-site Markov chain known as the Glauber dynamics for sampling k-colorings of a sparse random graph G(n, d/n) for constant d. The best known rapid mixing results for general graphs are in terms of the maximum degree Δ of the input graph G and hold when k > 11Δ/6 for all G. Improved results hold when k > αΔ for graphs with girth ≥ 5 and Δ sufficiently large where α ≈ 1.7632 . . . is the root of α = exp(1/α); further improvements on the constant α hold with stronger girth and maximum degree assumptions. For sparse random graphs the maximum degree is a function of n and the goal is to obtain results in terms of the expected degree d. The following rapid mixing results for G(n, d/n) hold with high probability over the choice of the random graph for sufficiently large constant d. Mossel and Sly (2009) proved rapid mixing for constant k, and Efthymiou (2014) improved this to k linear in d. The condition was improved to k > 3d by Yin and Zhang (2016) using non-MCMC methods. Here we prove rapid mixing when k > αd where α ≈ 1.7632 . . . is the same constant as above. Moreover we obtain O(n3) mixing time of the Glauber dynamics, while in previous rapid mixing results the exponent was an increasing function in d. Our proof analyzes an appropriately defined block dynamics to "hide" high-degree vertices. One new aspect in our improved approach is utilizing so-called local uniformity properties for the analysis of block dynamics. To analyze the "burn-in" phase we prove a concentration inequality for the number of disagreements propagating in large blocks.
Year
DOI
Venue
2018
10.5555/3174304.3175420
SODA '18: Symposium on Discrete Algorithms New Orleans Louisiana January, 2018
DocType
Volume
ISBN
Conference
abs/1707.03796
978-1-61197-503-1
Citations 
PageRank 
References 
2
0.38
11
Authors
4
Name
Order
Citations
PageRank
Charilaos Efthymiou120915.44
Thomas P. Hayes265954.21
Daniel Stefankovic324328.65
Eric Vigoda474776.55