ILIF: Temporal Inhibitory Leaky Integrate-and-Fire Neuron for Overactivation in Spiking Neural Networks

Sun, Kai; Duan, Peibo; Kuhlmann, Levin; Wang, Beilun; Zhang, Bin

doi:10.24963/IJCAI.2025/468

ILIF: Temporal Inhibitory Leaky Integrate-and-Fire Neuron for Overactivation in Spiking Neural Networks

Kai Sun, Peibo Duan, Levin Kuhlmann, Beilun Wang, Bin Zhang

IJCAI 2025 pp. 4200-4208

doi:10.24963/IJCAI.2025/468 /ijcai/2025/sun2025ijcai-ilif/

Abstract

The Spiking Neural Network (SNN) has drawn increasing attention for its energy-efficient, event-driven processing and biological plausibility. To train SNNs via backpropagation, surrogate gradients are used to approximate the non-differentiable spike function, but they only maintain nonzero derivatives within a narrow range of membrane potentials near the firing threshold—referred to as the surrogate gradient support width gamma. We identify a major challenge, termed the dilemma of gamma: a relatively large gamma leads to overactivation, characterized by excessive neuron firing, which in turn increases energy consumption, whereas a small gamma causes vanishing gradients and weakens temporal dependencies. To address this, we propose a temporal Inhibitory Leaky Integrate-and-Fire (ILIF) neuron model, inspired by biological inhibitory mechanisms. This model incorporates interconnected inhibitory units for membrane potential and current, effectively mitigating overactivation while preserving gradient propagation. Theoretical analysis demonstrates ILIF’s effectiveness in overcoming the gamma dilemma, and extensive experiments on multiple datasets show that ILIF improves energy efficiency by reducing firing rates, stabilizes training, and enhances accuracy. The code is available at github.com/kaisun1/ILIF.

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Cite

Text

Sun et al. "ILIF: Temporal Inhibitory Leaky Integrate-and-Fire Neuron for Overactivation in Spiking Neural Networks." International Joint Conference on Artificial Intelligence, 2025. doi:10.24963/IJCAI.2025/468

Markdown

[Sun et al. "ILIF: Temporal Inhibitory Leaky Integrate-and-Fire Neuron for Overactivation in Spiking Neural Networks." International Joint Conference on Artificial Intelligence, 2025.](https://mlanthology.org/ijcai/2025/sun2025ijcai-ilif/) doi:10.24963/IJCAI.2025/468

BibTeX

@inproceedings{sun2025ijcai-ilif,
  title     = {{ILIF: Temporal Inhibitory Leaky Integrate-and-Fire Neuron for Overactivation in Spiking Neural Networks}},
  author    = {Sun, Kai and Duan, Peibo and Kuhlmann, Levin and Wang, Beilun and Zhang, Bin},
  booktitle = {International Joint Conference on Artificial Intelligence},
  year      = {2025},
  pages     = {4200-4208},
  doi       = {10.24963/IJCAI.2025/468},
  url       = {https://mlanthology.org/ijcai/2025/sun2025ijcai-ilif/}
}