Training and inference in the ReckON RSNN architecture implemented on a MPSoC

With the rise of artificial intelligence, biological neuron models are being used to implement neural networks that can learn certain tasks after a training phase. One type of such networks are spiking neural networks (SNNs) that rely on a simplified model for biological neurons, the Integrate and Fire neuron. Several accelerators have emerged to implement SNNs with this kind of neuron. The ReckON system is one of these that allows both the training and execution of a recurrent SNN. The ReckON architecture, implemented on a custom ASIC, can be fully described using a hardware description language. In this work, we adapt the Verilog description to implement it on a Xilinx Multiprocessor System on Chip system (MPSoC). We present the circuits required for the efficient operation of the system, and a Python framework to use it on the Pynq ZU platform. We validate the architecture and implementation in two different scenarios, and show how the simulated accuracy is preserved with a peak performance of 3.8M events processed per second.