GRADUAL SURROGATE GRADIENT LEARNING IN DEEP SPIKING NEURAL NETWORKS
Yi Chen, Silin Zhang, Shiyu Ren, Hong Qu
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Spiking Neural Network (SNN) is a promising solution for ultra-low-power hardware. Recent SNNs have reached the performance of Deep Neural Networks (DNNs) in dealing with many tasks. However, these methods often suffer from a long simulation time to achieve the accurate spike train information. In addition, these methods are contingent on a well-designed initialization to effectively transmit the gradient information. To address these issues, we propose the Internal Spiking Neuron Model (ISNM), which uses the synaptic current instead of spike trains as the carrier of information. In addition, we design a gradual surrogate gradient learning algorithm to ensure that SNNs effectively back-propagate gradient information in the early stage of training and more accurate gradient information in the later stage of training. The experiments on various network structures on CIFAR-10 and CIFAR-100 datasets show that the proposed method can exceed the performance of previous SNN methods within 5 time steps.