Daniel Windhager, Bernhard Moser, Michael Lunglmayr,
"SNN Architecture for Differential Time Encoding Using Decoupled Processing Time"
, in IEEE: 2024 IEEE 6th International Conference on AI Circuits and Systems (AICAS), Seite(n) 26-30, 2024
Original Titel:
SNN Architecture for Differential Time Encoding Using Decoupled Processing Time
Sprache des Titels:
Englisch
Original Buchtitel:
2024 IEEE 6th International Conference on AI Circuits and Systems (AICAS)
Original Kurzfassung:
Spiking neural networks (SNNs) have gained attention in recent years due to their ability to handle sparse and event-based data better than regular artificial neural networks (ANNs). Since the structure of SNNs is less suited for typically used accelerators such as GPUs than conventional ANNs, there is a demand for custom hardware accelerators for processing SNNs. In the past, the main focus was on platforms that resemble the structure of multiprocessor systems. In this work, we propose a lightweight neuron layer architecture that allows network structures to be directly mapped onto digital hardware. Our approach is based on differential time coding of spike sequences and the decoupling of processing time and spike timing that allows the SNN to be processed on different hardware platforms. We present synthesis and performance results showing that this architecture can be implemented for networks of more than 1000 neurons with high clock speeds on a State-of-the-Art FPGA. We furthermore show results on the robustness of our approach to quantization. These results demonstrate that high-accuracy inference can be performed with bit widths as low as 4.
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