上海交通大学 区域光纤通信网与新型光纤通信系统国家重点实验室 智能微波光波融合创新中心, 上海 200240
光子模数转换技术是克服传统电子模数转换技术在采样速率、输入带宽、时钟抖动和比较器模糊等局限性的有效手段。光子模数转换技术为超宽带雷达、超高速示波器、大容量光通信等前沿应用的高速率、大带宽、高精度接收提供了有效解决方案。文章首先简要介绍了光子模数转换技术的技术途径分类及对比, 然后重点介绍作者所在课题组围绕并行解复用光子模数转换系统开展的理论研究与应用研究工作。此外, 分析了集成光子模数转换系统现状并展望了其未来发展思路和关键挑战。最后对全文进行了总结。
光子模数转换技术 高速率 集成化 通道交织 photonic analog-to-digital converter high-speed integration channel-interleaving
上海交通大学 区域光纤通信网与新型光纤通信系统国家重点实验室 智能微波光波融合创新中心, 上海 200240
智能光子处理系统(IPS)融合了人工智能(AI)技术和光子技术, 旨在实现智能、高速、大带宽、高性能的信号处理。IPS主要包括人工智能赋能的多功能光子处理系统、光子辅助的人工智能信号处理系统和基于神经拟态的光子处理系统。文章首先简要介绍了IPS的概念内涵, 然后重点介绍作者所在课题组在人工智能赋能的多功能光子处理系统方面的研究进展, 再进一步探讨人工智能赋能研究从不可解释逐渐走向可解释的发展趋势和必要性, 接着介绍该课题组已开展的具有一定可解释性的人工智能赋能的光子处理系统研究, 最后对全文进行总结。
智能光子处理系统 人工智能 深度学习 赋能 可解释 intelligent photonic processing system artificial intelligence deep learning powered explainable
Author Affiliations
Abstract
State Key Laboratory of Advanced Optical Communication Systems and Networks, Intelligent Microwave Lightwave Integration Innovation Center (imLic), Department of Electronic Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
We demonstrate a chip-scale scheme of Brillouin instantaneous frequency measurement (IFM) in a CMOS-compatible doped silica waveguide chip. In the chip-scale Brillouin IFM scheme, the frequency-to-power mapping process is achieved by one-shot detection without additional time averaging and implemented by lock-in amplification, which successfully detects the Brillouin gain of the doped silica waveguide chip in the time domain. A Costas frequency modulated signal ranging from 8 GHz to 9 GHz is experimentally measured, and the frequency measurement errors are maintained within 58 MHz.
instantaneous frequency measurement stimulated Brillouin scattering lock-in amplification waveguide chip Chinese Optics Letters
2021, 19(11): 113902
红外与激光工程
2021, 50(7): 20211048
红外与激光工程
2021, 50(7): 20211043
Author Affiliations
Abstract
State Key Laboratory of Advanced Optical Communication Systems and Networks, Intelligent Microwave Lightwave Integration Innovation Center (iMLic), Department of Electronic Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
A microwave-chip-based coherent multi-frequency RF driver is developed for a channel-interleaved photonic analog-to-digital converter (PADC) system, which comprises a multi-class optical demultiplexer and supports a sampling speed of 40 GSa/s. The generated signals from the RF driver are adjustable in both amplitude and phase. We analyze the relationship between the characteristics of the generated RF driver signals and the demultiplexing performance in theory based on the optical signal-to-distortion ratio (OSDR). It is the most effective parameter to evaluate the performance of the demultiplexer in a PADC system without an electronic analog-to-digital converter. By precisely adjusting the amplitude and phase of signals, the OSDR is optimized. The results verify the compatibility between the RF driver and the PADC system.
photonic analog-to-digital converter multi-frequency RF driver optical signal-to-distortion ratio Chinese Optics Letters
2021, 19(8): 083901
Author Affiliations
Abstract
State Key Laboratory of Advanced Optical Communication Systems and Networks, Intelligent Microwave Lightwave Integration Innovation Center (iMLic), Department of Electronic Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
We propose an optical tensor core (OTC) architecture for neural network training. The key computational components of the OTC are the arrayed optical dot-product units (DPUs). The homodyne-detection-based DPUs can conduct the essential computational work of neural network training, i.e., matrix-matrix multiplication. Dual-layer waveguide topology is adopted to feed data into these DPUs with ultra-low insertion loss and cross talk. Therefore, the OTC architecture allows a large-scale dot-product array and can be integrated into a photonic chip. The feasibility of the OTC and its effectiveness on neural network training are verified with numerical simulations.
optical tensor core neural network training matrix multiplication homodyne detection dual-layer waveguides Chinese Optics Letters
2021, 19(8): 082501
上海交通大学 电子信息与电气工程学院,上海 200240
采用光纤结构产生线性调频信号的稳定性容易受实验器材和环境因素的影响,导致产生信号的幅相特性发生变化,进而影响到光子时间拉伸相干雷达系统的探测性能。主要分析了实验器材和环境因素对线性调频信号探测性能的影响,包括光纤耦合器分光比、滤波器中心波长偏移及干涉臂的延时扰动等因素。通过仿真不同条件下产生信号脉冲压缩后的峰值功率和距离分辨率,与理想情况下的脉冲压缩结果进行对比,得到各因素的影响情况及保证探测性能的参数范围,可以为光子时间拉伸相干雷达的设计与实现提供参考。
雷达 线性调频信号 分光比 中心波长偏移 延时扰动 radar linear frequency modulated signal splitting ratio center wavelength shift delay perturbation
上海交通大学智能微波光波融合创新中心(iMLic)区域光纤通信网与新型光通信系统国家重点实验室, 上海 200240
类脑光子信息处理技术受高速低功耗的大脑信息处理原理的启发,与传统光子信息处理技术相比,可大幅提升处理的速率和能效,且在感知和识别等方面具有重要的应用价值。提出了一种基于分布式反馈(DFB)激光器的类脑光子信息处理方案,可对高速运动方向进行选择和识别。分析了电流偏置参数对DFB激光器光脉冲响应宽度的影响,验证了所采用的DFB激光器光脉冲宽度与高速运动方向识别之间的依存关系,并架构了基于DFB激光器的高速运动方向选择模块。对该模块进行实验测试,在正确识别前提下,分析了链路权值参数和电流偏置组合对模块适用速度范围的影响,结果表明,在马赫量级速度范围内,该模块对一维方向实现了有效识别。
光电子学 类脑光子 高速运动方向识别 分布式反馈激光器 光学学报
2020, 40(23): 2325001
上海交通大学 电子信息与电气工程学院, 上海 200240
针对布里渊模拟信号处理系统小型化的需求, 提出一种基于掺杂氧化硅波导的受激布里渊散射瞬时频率测量(SBS-IFM)方案。这种方案在链路中添加锁相放大器与滤波器, 有效滤除了反射光, 放大并观测到了掺杂氧化硅波导中的布里渊增益信号。通过相对移动泵浦光和探测光的调制频率, 实现了基于掺杂氧化硅波导的SBS-IFM, 其IFM范围约15 GHz,精度达60 MHz。
微波光子 瞬时频率测量 布里渊增益 氧化硅波导 模拟信号处理 microwave photons instantaneous frequency measurement Brillouin gain silica waveguide analog signal processing
