English

DYNAP-SE2: a scalable multi-core dynamic neuromorphic asynchronous spiking neural network processor

Neural and Evolutionary Computing 2024-01-11 v2 Artificial Intelligence

Abstract

With the remarkable progress that technology has made, the need for processing data near the sensors at the edge has increased dramatically. The electronic systems used in these applications must process data continuously, in real-time, and extract relevant information using the smallest possible energy budgets. A promising approach for implementing always-on processing of sensory signals that supports on-demand, sparse, and edge-computing is to take inspiration from biological nervous system. Following this approach, we present a brain-inspired platform for prototyping real-time event-based Spiking Neural Networks (SNNs). The system proposed supports the direct emulation of dynamic and realistic neural processing phenomena such as short-term plasticity, NMDA gating, AMPA diffusion, homeostasis, spike frequency adaptation, conductance-based dendritic compartments and spike transmission delays. The analog circuits that implement such primitives are paired with a low latency asynchronous digital circuits for routing and mapping events. This asynchronous infrastructure enables the definition of different network architectures, and provides direct event-based interfaces to convert and encode data from event-based and continuous-signal sensors. Here we describe the overall system architecture, we characterize the mixed signal analog-digital circuits that emulate neural dynamics, demonstrate their features with experimental measurements, and present a low- and high-level software ecosystem that can be used for configuring the system. The flexibility to emulate different biologically plausible neural networks, and the chip's ability to monitor both population and single neuron signals in real-time, allow to develop and validate complex models of neural processing for both basic research and edge-computing applications.

Keywords

Cite

@article{arxiv.2310.00564,
  title  = {DYNAP-SE2: a scalable multi-core dynamic neuromorphic asynchronous spiking neural network processor},
  author = {Ole Richter and Chenxi Wu and Adrian M. Whatley and German Köstinger and Carsten Nielsen and Ning Qiao and Giacomo Indiveri},
  journal= {arXiv preprint arXiv:2310.00564},
  year   = {2024}
}

Comments

*Ole Richter and Chenxi Wu contributed equally

R2 v1 2026-06-28T12:37:23.330Z