Real Spike: Learning Real-valued Spikes for Spiking Neural Networks

Yu-Zhu Guo, Liwen Zhang, Y. Chen, Xinyi Tong, Xiaode Liu, Yinglei Wang, Xuhui Huang, Zhe Ma
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引用次数: 12

Abstract

Brain-inspired spiking neural networks (SNNs) have recently drawn more and more attention due to their event-driven and energyefficient characteristics. The integration of storage and computation paradigm on neuromorphic hardwares makes SNNs much different from Deep Neural Networks (DNNs). In this paper, we argue that SNNs may not benefit from the weight-sharing mechanism, which can effectively reduce parameters and improve inference efficiency in DNNs, in some hardwares, and assume that an SNN with unshared convolution kernels could perform better. Motivated by this assumption, a training-inference decoupling method for SNNs named as Real Spike is proposed, which not only enjoys both unshared convolution kernels and binary spikes in inference-time but also maintains both shared convolution kernels and Real-valued Spikes during training. This decoupling mechanism of SNN is realized by a re-parameterization technique. Furthermore, based on the training-inference-decoupled idea, a series of different forms for implementing Real Spike on different levels are presented, which also enjoy shared convolutions in the inference and are friendly to both neuromorphic and non-neuromorphic hardware platforms. A theoretical proof is given to clarify that the Real Spike-based SNN network is superior to its vanilla counterpart. Experimental results show that all different Real Spike versions can consistently improve the SNN performance. Moreover, the proposed method outperforms the state-of-the-art models on both non-spiking static and neuromorphic datasets.
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真实尖峰:学习尖峰神经网络的实值尖峰
近年来,脑激发型脉冲神经网络(SNNs)因其事件驱动和能量高效的特点而受到越来越多的关注。神经形态硬件上存储和计算模式的集成使得snn与深度神经网络(Deep Neural Networks, dnn)有很大的不同。在本文中,我们认为SNN在某些硬件中可能无法从权值共享机制中获益,而权值共享机制可以有效地减少dnn中的参数并提高推理效率,并假设具有非共享卷积核的SNN可以表现得更好。基于这一假设,提出了一种snn的训练-推理解耦方法Real Spike,该方法不仅在推理时间内具有非共享卷积核和二值尖峰,而且在训练过程中保持共享卷积核和实值尖峰。SNN的这种解耦机制是通过一种重参数化技术实现的。此外,基于训练-推理-解耦的思想,提出了一系列在不同层次上实现Real Spike的不同形式,这些形式在推理中具有共享卷积,并且对神经形态和非神经形态硬件平台都友好。从理论上证明了基于Real spike的SNN网络优于普通SNN网络。实验结果表明,所有不同的Real Spike版本都可以一致地提高SNN性能。此外,该方法在非尖峰静态和神经形态数据集上都优于最先进的模型。
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