Asymptotics for Pull on the Complete Graph
Abstract
We study the randomized rumor spreading algorithm \emph{pull} on complete graphs with vertices. Starting with one informed vertex and proceeding in rounds, each vertex yet uninformed connects to a neighbor chosen uniformly at random and receives the information, if the vertex it connected to is informed. The goal is to study the number of rounds needed to spread the information to everybody, also known as the \emph{runtime}. In our main result we provide a description, as gets large, for the distribution of the runtime that involves a martingale limit. %We provide a description of the distribution of the runtime in terms of a limit of a sequence of martingales. This allows us to establish that in general there is no limiting distribution and that convergence occurs only on suitably chosen subsequences of , namely when the fractional part of converges.
Cite
@article{arxiv.2110.09044,
title = {Asymptotics for Pull on the Complete Graph},
author = {Konstantinos Panagiotou and Simon Reisser},
journal= {arXiv preprint arXiv:2110.09044},
year = {2021}
}
Comments
20 Pages, 1 Figure, submitted to "Stochastic Processes and their Applications"