English

Small-World File-Sharing Communities

Distributed, Parallel, and Cluster Computing 2007-05-23 v1 Condensed Matter Networking and Internet Architecture

Abstract

Web caches, content distribution networks, peer-to-peer file sharing networks, distributed file systems, and data grids all have in common that they involve a community of users who generate requests for shared data. In each case, overall system performance can be improved significantly if we can first identify and then exploit interesting structure within a community's access patterns. To this end, we propose a novel perspective on file sharing based on the study of the relationships that form among users based on the files in which they are interested. We propose a new structure that captures common user interests in data--the data-sharing graph-- and justify its utility with studies on three data-distribution systems: a high-energy physics collaboration, the Web, and the Kazaa peer-to-peer network. We find small-world patterns in the data-sharing graphs of all three communities. We analyze these graphs and propose some probable causes for these emergent small-world patterns. The significance of small-world patterns is twofold: it provides a rigorous support to intuition and, perhaps most importantly, it suggests ways to design mechanisms that exploit these naturally emerging patterns.

Keywords

Cite

@article{arxiv.cs/0307036,
  title  = {Small-World File-Sharing Communities},
  author = {Adriana Iamnitchi and Matei Ripeanu and Ian Foster},
  journal= {arXiv preprint arXiv:cs/0307036},
  year   = {2007}
}