2 research outputs found
Benchmarking Deep Spiking Neural Networks on Neuromorphic Hardware
Ostrau C, Homburg JD, Klarhorst C, Thies M, Rückert U. Benchmarking Deep Spiking Neural Networks on Neuromorphic Hardware. In: Artificial Neural Networks and Machine Learning – ICANN 2020. Springer International Publishing; 2020.With more and more event-based neuromorphic hardware systems being developed
at universities and in industry, there is a growing need for assessing their
performance with domain specific measures. In this work, we use the methodology
of converting pre-trained non-spiking to spiking neural networks to evaluate
the performance loss and measure the energy-per-inference for three
neuromorphic hardware systems (BrainScaleS, Spikey, SpiNNaker) and common
simulation frameworks for CPU (NEST) and CPU/GPU (GeNN). For analog hardware we
further apply a re-training technique known as hardware-in-the-loop training to
cope with device mismatch. This analysis is performed for five different
networks, including three networks that have been found by an automated
optimization with a neural architecture search framework. We demonstrate that
the conversion loss is usually below one percent for digital implementations,
and moderately higher for analog systems with the benefit of much lower
energy-per-inference costs