A Spike-Event-Based Neuromorphic Processor with Enhanced On-Chip STDP Learning in 28nm CMOS

Abstract

Event-based spiking neural network (SNN) has displayed a promising prospect to realize real-time, efficient and intelligent hardware platforms. Whereas great efforts are still being appealed to explore the possibility of introducing online learning abilities to neuromorphic systems. In this paper, a 28-nm CMOS neuromorphic processor is presented, fulfilling online learning by adopting counter and lookup table (LUT) based spike-timing-dependent plasticity (STDP) rule. Designed to work at high-precision scenarios, the presented processor integrates up to 1024 neurons and 256K signed 9-bit synapses. It also ensures chip array interconnection to fit large neural networks. Moreover, by utilizing the sparse property of spike events to minimize activity rate, the typical power consumption is further reduced to 3.348mW for training MNIST dataset.