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Paper detail

Silicon microring synapses enable photonic deep learning beyond 9-bit precision

Deep neural networks (DNN) consist of layers of neurons interconnected by synaptic weights. A high bit-precision in weights is generally required to guarantee high accuracy in many applications. Minimizing error accumulation between layers is also essential when building large-scale networks. Recent demonstrations of photonic neural networks are limited in bit-precision due to crosstalk and the high sensitivity of optical components (e.g., resonators). Here, we experimentally demonstrate a record-high precision of 9 bits with a dithering control scheme for photonic synapses. We then numerically simulated the impact with increased synaptic precision on a wireless signal classification application. This work could help realize the potential of photonic neural networks for many practical, real-world tasks.

preprint2022arXivOpen access
Weipeng ZhangChaoran HuangHsuan-Tung PengSimon BilodeauAashu JhaEric BlowThomas Ferreira de LimaBhavin J. ShastriPaul Prucnal
Systems and Controleess.SYphysics.app-phphysics.optics
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Weipeng ZhangChaoran HuangHsuan-Tung PengSimon BilodeauAashu JhaEric BlowThomas Ferreira de LimaBhavin J. ShastriPaul Prucnal

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