Parallelizing Sequential Graph Computations Article Swipe

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computer science computation graph parallel computing monotonic function graph algorithms theoretical computer science algorithm mathematics mathematical analysis

Wenfei Fan , Jingbo Xu , Yinghui Wu , Wenyuan Yu , Jiaxin Jiang , Zeyu Zheng , Bohan Zhang , Yang Cao , Chao Tian ·

YOU? · · 2017 · Open Access · · DOI: https://doi.org/10.1145/3035918.3035942 · OA: W2613088476

This paper presents GRAPE, a parallel system for graph computations. GRAPE differs from prior systems in its ability to parallelize existing sequential graph algorithms as a whole. Underlying GRAPE are a simple programming model and a principled approach, based on partial evaluation and incremental computation. We show that sequential graph algorithms can be "plugged into" GRAPE with minor changes, and get parallelized. As long as the sequential algorithms are correct, their GRAPE parallelization guarantees to terminate with correct answers under a monotonic condition. Moreover, we show that algorithms in MapReduce, BSP and PRAM can be optimally simulated on GRAPE. In addition to the ease of programming, we experimentally verify that GRAPE achieves comparable performance to the state-of-the-art graph systems, using real-life and synthetic graphs.