多层脉冲神经网络的时间缩减模型

Yanjing Li
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摘要

:峰值神经网络(SNNs)是一种生物神经网络模型,它比传统的人工神经网络(ann)具有更强的生物学合理性和计算能力。snn可以实现与ann相同的目标,并且可以构建大规模的网络结构(即深度尖峰神经网络)来完成复杂的任务。然而,由于脉冲事件的不可微性,训练深度脉冲神经网络是一个困难的问题,并且在训练期间需要大量的计算时间。本文提出了一种采用两种方法的减时模型来减少深度尖峰神经网络的计算时间(即用分段线性方法逼近尖峰响应函数,并选择合适的子突触数量)。实验结果表明,分段线性逼近和选择合适的子突触数目的方法是有效的。该方法不仅减少了训练时间,而且简化了网络结构。采用分段线性逼近法,可使原模型的计算时间至少减少一半。通过选择子突触数量的规则,可以将异或和虹膜任务的计算时间减少到原模型的十分之一以下。
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Time-Reduced Model for Multilayer Spiking Neural Networks
: Spiking neural networks (SNNs) is a type of biological neural network model, which is more biologically plausible and computationally powerful than traditional artificial neural networks (ANNs). SNNs can achieve the same goals as ANNs, and can build a large-scale network structure (i.e. deep spiking neural network) to accomplish complex tasks. However, training deep spiking neural network is difficult due to the non-differentiable nature of spike events, and it requires much computation time during the training period. In this paper, a time-reduced model adopting two methods is presented for reducing the computation time of a deep spiking neural network (i.e. approximating the spike response function by the piecewise linear method, and choosing the suitable number of sub-synapses). The experimental results show that the methods of piecewise linear approximation and choosing the suitable number of sub-synapses is effective. This method can not only reduce the training time but also simplify the network structure. With the piecewise linear approximation method, the half of computation time of the original model can be reduced by at least. With the rule of choosing the number of sub-synapses, the computation time of less than one-tenth of the original model can be reduced for XOR and Iris tasks.
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