计算机科学
内容寻址存储器
光学性能监测
表(数据库)
解码方法
光开关
计算机硬件
光存储
干涉测量
光学晶体管
误码率
XNOR门
编码(内存)
电子工程
光交叉连接
扇出
逻辑门
电气工程
光电子学
工程类
与非门
物理
电信
波分复用
光学
晶体管
电压
光纤
炸薯条
算法
人工神经网络
波长
人工智能
操作系统
数据挖掘
机器学习
作者
Theodoros Moschos,Stelios Simos,Christos Vagionas,T. Alexoudi,Nikos Pleros
标识
DOI:10.1109/jlt.2022.3207220
摘要
We report for the first time, to the best of our knowledge, the experimental demonstration of a complete all-optical 2-bit Address Look-Up (AL) table that performs address matching and forwarding and operates at 10Gb/s. The circuit incorporates an optical Content Addressable Memory (CAM) and an optical Random Access Memory (RAM) table that are interconnected via an optical Encoding/Decoding circuit. The AL table has been experimentally validated for different sets of CAM and RAM word contents as well as for different CAM and RAM row interconnect settings at 10Gb/s, revealing a power penalty of around 9 dB at a bit-error-rate (BER) of 10 -9 . Furthermore, we demonstrate experimental results of a fully integrated InP-based optical CAM cell, which includes an integrated XGM Flip-Flop (FF) memory cell and a Mach-Zehnder Interferometer (MZI) XNOR Access Gate (AG) and supports content addressing operation at 5 Gb/s. This fully-integrated optical CAM cell indicates a possible integration roadmap for the AL constituent building blocks towards the deployment of integrated optical ALs that can be utilized in optical routing or, more general, in optical content matching and forwarding operations.
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