一种基于高度并行wdm -乘加器的光神经网络结构

T. Ishihara, Jun Shiomi, Naoki Hattori, Yutaka Masuda, A. Shinya, M. Notomi
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引用次数: 7

摘要

未来的应用,如网络异常检测和自动驾驶,在模式分类中需要极低的、亚微秒级的延迟处理。为了实现这种超快速的推理处理,本文提出了一种可以在亚纳秒延迟下对异常模式进行分类的光神经网络架构。该架构充分利用光的平行性,在矢量矩阵乘法中使用波分复用(WDM)。它还利用线性光学与无源纳米光子器件,如微环谐振器、光合并器和无源耦合器,这使得构建低功耗和超低延迟的光神经网络成为可能。利用光学电路实现多层感知器(MLP)的光电电路仿真证明了光学神经网络的亚纳秒处理能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Optical Neural Network Architecture based on Highly Parallelized WDM-Multiplier-Accumulator
Future applications such as anomaly detection in a network and autonomous driving require extremely low, submicrosecond latency processing in pattern classification. Towards the realization of such an ultra-fast inference processing, this paper proposes an optical neural network architecture which can classify anomaly patterns at sub-nanosecond latency. The architecture fully exploits optical parallelism of lights using wavelength division multiplexing (WDM) in vector-matrix multiplication. It also exploits a linear optics with passive nanophotonic devices such as microring resonators, optical combiners, and passive couplers, which make it possible to construct low power and ultra-low latency optical neural networks. Optoelectronic circuit simulation using optical circuit implementation of multi-layer perceptron (MLP) demonstrates sub-nanosecond processing of optical neural network.
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