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2017-05-16
Bandyopadhyay, Bortik, Fuhry, David, Chakrabarti, Aniket, Parthasarathy, Srinivasan.  2016.  Topological Graph Sketching for Incremental and Scalable Analytics. Proceedings of the 25th ACM International on Conference on Information and Knowledge Management. :1231–1240.

We propose a novel, scalable, and principled graph sketching technique based on minwise hashing of local neighborhood. For an n-node graph with e-edges (e textgreatertextgreater n), we incrementally maintain in real-time a minwise neighbor sampled subgraph using k hash functions in O(n x k) memory, limit being user-configurable by the parameter k. Symmetrization and similarity based techniques can recover from these data structures a significant portion of the original graph. We present theoretical analysis of the minwise sampling strategy and also derive unbiased estimators for important graph properties such as triangle count and neighborhood overlap. We perform an extensive empirical evaluation of our graph sketch and it's derivatives on a wide variety of real-world graph data sets drawn from different application domains using important large network analysis algorithms: local and global clustering coefficient, PageRank, and local graph sparsification. With bounded memory, the quality of results using the sketch representation is competitive against baselines which use the full graph, and the computational performance is often better. Our framework is flexible and configurable to be leveraged by numerous other graph analytics algorithms, potentially reducing the information mining time on large streamed graphs for a variety of applications.