Rethinking the Role of Normalization and Residual Blocks for Spiking Neural Networks

Rethinking the Role of Normalization and Residual Blocks for Spiking Neural Networks

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Biologically inspired spiking neural networks (SNNs) are widely used to realize ultralow-power energy consumption. However, deep SNNs are not easy to train due to the excessive firing of spiking neurons in the hidden layers. To tackle this problem, we propose a novel but simple normalization techniq...

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Bibliographic Details
Main Authors: Ikegawa, S.-I (Author), Natori, N. (Author), Saiin, R. (Author), Sawada, Y. (Author)
Format: Article
Language:English
Published: MDPI 2022
Subjects:
Biologically-inspired
Biomimetics
Chemical activation
Energy utilization
Energy-consumption
Neural networks
Neural-networks
Normalisation
normalization
Post-synaptic potentials
Power energy
Pre-activation residual block
pre-activation residual blocks
Simple++
Spiking neural network
spiking neural networks
Ultra-low power
Online Access:View Fulltext in Publisher
Description
Summary:Biologically inspired spiking neural networks (SNNs) are widely used to realize ultralow-power energy consumption. However, deep SNNs are not easy to train due to the excessive firing of spiking neurons in the hidden layers. To tackle this problem, we propose a novel but simple normalization technique called postsynaptic potential normalization. This normalization removes the subtraction term from the standard normalization and uses the second raw moment instead of the variance as the division term. The spike firing can be controlled, enabling the training to proceed appropriately, by conducting this simple normalization to the postsynaptic potential. The experimental results show that SNNs with our normalization outperformed other models using other normalizations. Furthermore, through the pre-activation residual blocks, the proposed model can train with more than 100 layers without other special techniques dedicated to SNNs. © 2022 by the authors. Licensee MDPI, Basel, Switzerland.
ISBN:14248220 (ISSN)
DOI:10.3390/s22082876

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