使用局部敏感哈希对图神经网络进行高效推理

IF 3 3区 计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Tao Liu;Peng Li;Zhou Su;Mianxiong Dong
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引用次数: 0

摘要

图神经网络(GNN)在处理对可持续计算至关重要的图结构数据(如能源网络)方面的能力令人印象深刻,因此吸引了大量研究人员的关注。我们发现,由于冗余数据加载,数据从主存储器加载到 GPU 的通信是 GNN 推断的主要瓶颈。在本文中,我们提出了用于图学习的高效 GNN 推断系统 RAIN。其中有两个关键设计。首先,我们探索了按顺序进行相似推理批次的机会,并重复使用相邻批次中的重复节点,以减少冗余数据负载。这种方法需要根据相似性对批次重新排序。然而,比较大量推理批次的相似性是一项计算成本很高的艰巨任务。因此,我们提出了一种基于局部敏感哈希(LSH)的聚类方案,无需成对比较就能快速将相似批次归为一类。其次,RAIN 包含一种高效的自适应采样策略,允许用户根据目标节点的程度对其邻居进行采样。采样邻居的数量与节点的度数大小成正比。我们用各种基线进行了大量实验。RAIN 可以实现高达 6.8 倍的加速度,而精度的下降则小于 0.1%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficient Inference of Graph Neural Networks Using Local Sensitive Hash
Graph neural networks (GNNs) have attracted significant research attention because of their impressive capability in dealing with graph-structure data, such as energy networks, that are crucial for sustainable computing. We find that the communication of data loading from main memory to GPUs is the main bottleneck of GNN inference because of redundant data loading. In this paper, we propose RAIN, an efficient GNN inference system for graph learning. There are two key designs. First, we explore the opportunity of conducting similar inference batches sequentially and reusing repeated nodes among adjacent batches to reduce redundant data loading. This method requires reordering the batches based on their similarity. However, comparing the similarity across a large number of inference batches is a difficult task with a high computational cost. Thus, we propose a local sensitive hash (LSH)-based clustering scheme to group similar batches together quickly without pair-wise comparison. Second, RAIN contains an efficient adaptive sampling strategy, allowing users to sample target nodes’ neighbors according to their degree. The number of sampled neighbors is proportional to the size of the node's degree. We conduct extensive experiments with various baselines. RAIN can achieve up to 6.8X acceleration, and the accuracy decrease is smaller than 0.1%.
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来源期刊
IEEE Transactions on Sustainable Computing
IEEE Transactions on Sustainable Computing Mathematics-Control and Optimization
CiteScore
7.70
自引率
2.60%
发文量
54
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