ECCC-Report TR13-055https://eccc.weizmann.ac.il/report/2013/055Comments and Revisions published for TR13-055en-usFri, 05 Apr 2013 16:19:15 +0300
Paper TR13-055
| Limits of local algorithms over sparse random graphs |
David Gamarnik,
Madhu Sudan
https://eccc.weizmann.ac.il/report/2013/055Local algorithms on graphs are algorithms that run in parallel on the nodes of a graph to compute some global structural feature of the graph. Such algorithms use only local information available at nodes to determine local aspects of the global structure, while also potentially using some randomness. Recent research has shown that such algorithms show significant promise in computing structures like large independent sets in graphs locally. Indeed the promise led to a conjecture by Hatami, Lovasz and Szegedy [http://arxiv.org/abs/1205.4356] that local algorithms may be able to compute maximum independent sets in (sparse) random $d$-regular graphs. In this paper we refute this conjecture and show that every independent set produced by local algorithms is multiplicative factor $1/2+1/(2\sqrt{2})$ smaller than the largest, asymptotically as $d\rightarrow\infty$.
Our result is based on an important clustering phenomena predicted first in the literature on spin glasses, and recently proved rigorously for a variety of constraint satisfaction problems on random graphs. Such properties suggest that the geometry of the solution space can be quite intricate. The specific clustering property, that we prove and apply in this paper shows that typically every two large independent sets in a random graph either have a significant intersection, or have a nearly empty intersection. As a result, large independent sets are clustered according to the proximity to each other. While the clustering property was postulated earlier as an obstruction for the success of local algorithms, such as for example, the Belief Propagation algorithm, our result is the first one where the clustering property is used to formally prove limits on local algorithms.Fri, 05 Apr 2013 16:19:15 +0300https://eccc.weizmann.ac.il/report/2013/055