用少量尖峰神经元更精确地逼近激活函数

arXiv - CS - Neural and Evolutionary Computing Pub Date : 2024-08-19 DOI:arxiv-2409.00044

Dayena Jeong, Jaewoo Park, Jeonghee Jo, Jongkil Park, Jaewook Kim, Hyun Jae Jang, Suyoun Lee, Seongsik Park

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引用次数: 0

摘要

最近的深度神经网络（DNN），如扩散模型[1]，面临着很高的计算要求。因此，尖峰神经网络（SNN）作为高能效神经网络吸引了大量关注。然而，传统的尖峰神经元（如泄漏整合-发射神经元）无法准确地表示复杂的非线性激活函数，如 Swish[2]。为了用尖峰神经元逼近激活函数，有人提出了少尖峰（FS）神经元 [3]，但由于缺乏考虑神经元的训练方法，逼近性能有限。因此，我们提出了基于时序的参数初始化（TBPI），利用训练参数初始化的时序依赖性来提高 FS 神经元激活函数的近似性。

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A More Accurate Approximation of Activation Function with Few Spikes Neurons

Recent deep neural networks (DNNs), such as diffusion models [1], have faced high computational demands. Thus, spiking neural networks (SNNs) have attracted lots of attention as energy-efficient neural networks. However, conventional spiking neurons, such as leaky integrate-and-fire neurons, cannot accurately represent complex non-linear activation functions, such as Swish [2]. To approximate activation functions with spiking neurons, few spikes (FS) neurons were proposed [3], but the approximation performance was limited due to the lack of training methods considering the neurons. Thus, we propose tendency-based parameter initialization (TBPI) to enhance the approximation of activation function with FS neurons, exploiting temporal dependencies initializing the training parameters.

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arXiv - CS - Neural and Evolutionary Computing

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