Lyuheng Yuan scite author profile

Finding frequent subgraph patterns in a big graph is an important problem with many applications such as classifying chemical compounds and building indexes to speed up graph queries. Since this problem is NP-hard, some recent parallel systems have been developed to accelerate the mining. However, they often have a huge memory cost, very long running time, suboptimal load balancing, and possibly inaccurate results. In this paper, we propose an efficient system called T-FSM for parallel mining of frequent subgraph patterns in a big graph. T-FSM adopts a novel task-based execution engine design to ensure high concurrency, bounded memory consumption, and effective load balancing. It also supports a new anti-monotonic frequentness measure called Fraction-Score, which is more accurate than the widely used MNI measure. Our experiments show that T-FSM is orders of magnitude faster than SOTA systems for frequent subgraph pattern mining. Our system code has been released at https://github.com/lyuheng/T-FSM.

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Maximal Directed Quasi -Clique Mining

Guo

Yan

Yuan

et al. 2022

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Parallel mining of large maximal quasi-cliques

et al. 2021

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An elevation-guided annotation tool for flood extent mapping on earth imagery (demo paper)

Adhikari

Yan

Sami

et al. 2022

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Lyuheng Yuan

Realistic urban traffic simulation with ride-hailing services

T-FSM: A Task-Based System for Massively Parallel Frequent Subgraph Pattern Mining from a Big Graph

Maximal Directed Quasi -Clique Mining

Parallel mining of large maximal quasi-cliques

An elevation-guided annotation tool for flood extent mapping on earth imagery (demo paper)

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