Asynchronous Graph Pattern Matching on Multiprocessor Systems

June 13, 2017 Β· Declared Dead Β· πŸ› Symposium on Advances in Databases and Information Systems

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Authors Alexander Krause, Annett UngethΓΌm, Thomas Kissinger, Dirk Habich, Wolfgang Lehner arXiv ID 1706.03968 Category cs.DB: Databases Cross-listed cs.DC Citations 4 Venue Symposium on Advances in Databases and Information Systems Last Checked 4 months ago
Abstract
Pattern matching on large graphs is the foundation for a variety of application domains. Strict latency requirements and continuously increasing graph sizes demand the usage of highly parallel in-memory graph processing engines that need to consider non-uniform memory access (NUMA) and concurrency issues to scale up on modern multiprocessor systems. To tackle these aspects, graph partitioning becomes increasingly important. Hence, we present a technique to process graph pattern matching on NUMA systems in this paper. As a scalable pattern matching processing infrastructure, we leverage a data-oriented architecture that preserves data locality and minimizes concurrency-related bottlenecks on NUMA systems. We show in detail, how graph pattern matching can be asynchronously processed on a multiprocessor system.
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