71,451 research outputs found
GraphMP: An Efficient Semi-External-Memory Big Graph Processing System on a Single Machine
Recent studies showed that single-machine graph processing systems can be as
highly competitive as cluster-based approaches on large-scale problems. While
several out-of-core graph processing systems and computation models have been
proposed, the high disk I/O overhead could significantly reduce performance in
many practical cases. In this paper, we propose GraphMP to tackle big graph
analytics on a single machine. GraphMP achieves low disk I/O overhead with
three techniques. First, we design a vertex-centric sliding window (VSW)
computation model to avoid reading and writing vertices on disk. Second, we
propose a selective scheduling method to skip loading and processing
unnecessary edge shards on disk. Third, we use a compressed edge cache
mechanism to fully utilize the available memory of a machine to reduce the
amount of disk accesses for edges. Extensive evaluations have shown that
GraphMP could outperform state-of-the-art systems such as GraphChi, X-Stream
and GridGraph by 31.6x, 54.5x and 23.1x respectively, when running popular
graph applications on a billion-vertex graph
BriskStream: Scaling Data Stream Processing on Shared-Memory Multicore Architectures
We introduce BriskStream, an in-memory data stream processing system (DSPSs)
specifically designed for modern shared-memory multicore architectures.
BriskStream's key contribution is an execution plan optimization paradigm,
namely RLAS, which takes relative-location (i.e., NUMA distance) of each pair
of producer-consumer operators into consideration. We propose a branch and
bound based approach with three heuristics to resolve the resulting nontrivial
optimization problem. The experimental evaluations demonstrate that BriskStream
yields much higher throughput and better scalability than existing DSPSs on
multi-core architectures when processing different types of workloads.Comment: To appear in SIGMOD'1
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