非线性光电引擎驱动单片集成光子计算

IF 23.4 Q1 OPTICS

Light-Science & Applications Pub Date : 2025-09-04 DOI:10.1038/s41377-025-01970-3

Sha Zhu, Ning Hua Zhu

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引用次数: 0

摘要

人工智能（AI）快速增长的计算需求和复杂的优化任务正日益紧张传统的电子架构，推动寻找新的，节能的处理范式。光子计算利用光的独特特性来进行计算，已经成为一种引人注目的替代方案。这一观点强调了一个关键的进步：基于集成光电探测器和微环调制器（PD + MRM）的多功能非线性光电引擎。该引擎实现了非线性激活和信号中继等关键功能，形成了单片光子处理器的核心构建块。它在集成用于优化的光学Ising机器和光递归神经网络（rnn）用于人工智能方面的应用最近得到了研究。PD + MRM单元固有的紧凑性、效率和片上可重构非线性解决了历史上的光子计算挑战，标志着向更通用和可扩展的单片光子处理器的转变。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Nonlinear optoelectronic engine drives monolithic integrated photonic computing

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Nonlinear optoelectronic engine drives monolithic integrated photonic computing

The rapidly growing computational demands of artificial intelligence (AI) and complex optimization tasks are increasingly straining conventional electronic architectures, driving the search for novel, energy-efficient processing paradigms. Photonic computing, which harnesses the unique properties of light to perform computation, has emerged as a compelling alternative. This perspective highlights a key advancement: a versatile nonlinear optoelectronic engine based on integrated photodetectors and micro-ring modulators (PD + MRM). This engine enables crucial functionalities like nonlinear activation and signal relay, forming a core building block for monolithic photonic processors. Its application in integrating optical Ising machines for optimization and optical recurrent neural networks (RNNs) for AI has been examined recently. The PD + MRM unit’s inherent compactness, efficiency, and on-chip reconfigurable nonlinearity address historical photonic computing challenges, signaling a shift towards more versatile and scalable monolithic photonic processors.

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来源期刊

Light-Science & Applications 数理科学, 物理学I, 光学, 凝聚态物性 II ：电子结构、电学、磁学和光学性质, 无机非金属材料, 无机非金属类光电信息与功能材料, 工程与材料, 信息科学, 光学和光电子学, 光学和光电子材料, 非线性光学与量子光学

自引率

0.00%

发文量

803

审稿时长

2.1 months