BitGNN: Unleashing the Performance Potential of Binary Graph Neural Networks on GPUs

Jou-An Chen, Hsin-Hsuan Sung, Xipeng Shen, Sutanay Choudhury, Ang Li
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Abstract

Recent studies have shown that Binary Graph Neural Networks (GNNs) are promising for saving computations of GNNs through binarized tensors. Prior work, however, mainly focused on algorithm designs or training techniques, leaving it open to how to materialize the performance potential on accelerator hardware fully. This work redesigns the binary GNN inference backend from the efficiency perspective. It fills the gap by proposing a series of abstractions and techniques to map binary GNNs and their computations best to fit the nature of bit manipulations on GPUs. Results on real-world graphs with GCNs, GraphSAGE, and GraphSAINT show that the proposed techniques outperform state-of-the-art binary GNN implementations by 8-22X with the same accuracy maintained. BitGNN code is publicly available.1.
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BitGNN:在gpu上释放二值图神经网络的性能潜力
近年来的研究表明,二值图神经网络(GNNs)有望通过二值化张量节省GNNs的计算量。然而,之前的工作主要集中在算法设计或训练技术上,如何在加速器硬件上充分实现性能潜力是一个开放的问题。本文从效率的角度重新设计了二进制GNN推理后端。它通过提出一系列抽象和技术来映射二进制gnn及其计算,以最好地适应gpu上的位操作的性质,从而填补了这一空白。在使用GCNs、GraphSAGE和GraphSAINT的真实图形上的结果表明,所提出的技术在保持相同精度的情况下比最先进的二进制GNN实现高出8-22X。BitGNN代码是公开的。
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