English

ELSA: An ELastic SNN Inference Architecture for Efficient Neuromorphic Computing

Hardware Architecture 2026-05-21 v1 Artificial Intelligence

Abstract

Spiking neural networks (SNNs) exploit event-driven and addition-only computation to substantially improve efficiency for intelligent computation. A key temporal property of SNNs, elastic inference, allows outputs to emerge progressively, enabling responses to salient inputs much earlier than full evaluation. However, existing SNN-specific accelerators cannot capitalize on this property. Layer-by-layer designs emit outputs only after all layers are complete, while time-step-by-time-step designs rely on coarse-grained, layer-wise pipelines that require synchronizing all spines/tokens within a layer. This barrier prevents results from being forwarded immediately, delaying the earliest possible response and forfeiting the benefits of elastic inference. To address these challenges, we propose ELSA, a near-SRAM dataflow architecture that realizes true elastic inference through a fine-grained spine/token-wise pipeline and hardware optimizations tailored to SNNs. ELSA forwards each spine/token immediately upon production, forming a continuous streaming pipeline that substantially reduces the latency to the first response. To enhance this lightweight execution, ELSA introduces a bundled address event representation protocol to lower communication traffic of network-on-chip (NoC), and leverages mini-batch spiking Gustavson-product to cut memory access and exploit inherent sparsity. Combined with mapping and scheduling optimizations, ELSA achieves efficient, event-driven computation without compromising accuracy. Experiments show that SNNs can outperform quantized artificial neural networks (QANNs) while maintaining on-par accuracy. For a 4-bit ResNet-50, ELSA achieves 3.4×\times speedup and 13.6×\times higher energy efficiency over the SOTA QANN accelerator (ANT), and 2.9×\times speedup and 22.1×\times energy efficiency gains over the SOTA SNN accelerator (PAICORE).

Keywords

Cite

@article{arxiv.2605.20802,
  title  = {ELSA: An ELastic SNN Inference Architecture for Efficient Neuromorphic Computing},
  author = {Kang You and Chen Nie and Lee Jun Yan and Ziling Wei and Cheng Zou and Zekai Xu and Yu Feng and Honglan Jiang and Zhezhi He},
  journal= {arXiv preprint arXiv:2605.20802},
  year   = {2026}
}

Comments

17 pages, Proceedings of the 53rd Annual International Symposium on Computer Architecture (ISCA), 2026