Accurate Mapping of RNNs on Neuromorphic Hardware with Adaptive Spiking Neurons
July 18, 2024 ยท Declared Dead ยท ๐ International Conference on Systems
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Authors
Gauthier Boeshertz, Giacomo Indiveri, Manu Nair, Alpha Renner
arXiv ID
2407.13534
Category
cs.NE: Neural & Evolutionary
Cross-listed
eess.AS
Citations
3
Venue
International Conference on Systems
Last Checked
4 months ago
Abstract
Thanks to their parallel and sparse activity features, recurrent neural networks (RNNs) are well-suited for hardware implementation in low-power neuromorphic hardware. However, mapping rate-based RNNs to hardware-compatible spiking neural networks (SNNs) remains challenging. Here, we present a $ฮฃฮ$-low-pass RNN (lpRNN): an RNN architecture employing an adaptive spiking neuron model that encodes signals using $ฮฃฮ$-modulation and enables precise mapping. The $ฮฃฮ$-neuron communicates analog values using spike timing, and the dynamics of the lpRNN are set to match typical timescales for processing natural signals, such as speech. Our approach integrates rate and temporal coding, offering a robust solution for the efficient and accurate conversion of RNNs to SNNs. We demonstrate the implementation of the lpRNN on Intel's neuromorphic research chip Loihi, achieving state-of-the-art classification results on audio benchmarks using 3-bit weights. These results call for a deeper investigation of recurrency and adaptation in event-based systems, which may lead to insights for edge computing applications where power-efficient real-time inference is required.
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