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2011 IEEE 11th International Conference on Data Mining (2011)
Vancouver, Canada
Dec. 11, 2011 to Dec. 14, 2011
ISSN: 1550-4786
ISBN: 978-0-7695-4408-3
pp: 587-596
ABSTRACT
Graph analysis is playing an increasingly important role in science and industry. Due to numerous limitations in sharing real-world graphs, models for generating massive graphs are critical for developing better algorithms. In this paper, we analyze the stochastic Kronecker graph model (SKG), which is the foundation of the Graph500 supercomputer benchmark due to its many favorable properties and easy parallelization. Our goal is to provide a deeper understanding of the parameters and properties of this model so that its functionality as a benchmark is increased. We develop a rigorous mathematical analysis that shows this model cannot generate a power-law distribution or even a lognormal distribution. However, we formalize an enhanced version of the SKG model that uses random noise for smoothing. We prove both in theory and in practice that this enhancement leads to a lognormal distribution. Additionally, we provide a precise analysis of isolated vertices, showing that graphs that are produced by SKG might be quite different than intended. For example, between 50% and 75% of the vertices in the Graph500 benchmarks will be isolated. Finally, we show that this model tends to produce extremely small core numbers (compared to most social networks and other real graphs) for common parameter choices.
INDEX TERMS
Stochastic Kronecker Graphs, Graph Mining, Social Networks, Graph500, Lognormal Degree Distributions, Random Graph Generation
CITATION

A. Pinar, C. Seshadhri and T. G. Kolda, "An In-depth Study of Stochastic Kronecker Graphs," 2011 IEEE 11th International Conference on Data Mining(ICDM), Vancouver, Canada, 2011, pp. 587-596.
doi:10.1109/ICDM.2011.23
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