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What Ultimately Limits Capacity and Connectivity in Optical Interconnects ?

机译：什么最终限制了光互连的容量和连接性？

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We revisit some fundamental laws of physics governing light propagation in linear media in order to have a better understanding of the roles of optics for parallel interconnections of digital processors. The degree of freedom obtainable using optical techniques can be derived from the domains of space, spatial frequency, time, and temporal frequency. We pinpoint various fundamental barriers and practical limits of optics for handling point-to-point communications. Possible schemes of using optical techniques to maximize the information transmission capacity while minimizing the channel complexity are also discussed.

机译：我们重新审视了控制光在线性介质中传播的物理学基本定律，以便更好地理解光学在数字处理器的并行互连中的作用。使用光学技术可获得的自由度可以从空间，空间频率，时间和时间频率的域中得出。我们指出了处理点对点通信的各种基本障碍和光学的实际限制。还讨论了使用光学技术最大化信息传输容量同时最小化信道复杂度的可能方案。

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《Massively parallel processing using optical interconnections 》|1995年|203-212|共10页
会议地点 San Antonio TX(US)
作者
Yao Li;
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作者单位

Physical Sciences Division, NEC Research Institute 4 Independence Way, Princeton, NJ 08540;

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会议组织
原文格式 PDF
正文语种 eng
中图分类信息处理（信息加工） ;
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1. Optical Domain Service Interconnect (ODSI): defining mechanisms for enabling on-demand high-speed capacity from the optical domain [J] . Copley A. IEEE Communications Magazine . 2000 ,第10期

机译：光域服务互连（ODSI）：定义用于从光域启用按需高速容量的机制
2. Spatial division multiplexing for high capacity optical interconnects in modular data centers [J] . Matteo Fiorani, Massimo Tornatore, Jiajia Chen, Optical Communications and Networking, IEEE/OSA Journal of . 2017 ,第2期

机译：空分复用用于模块化数据中心中的大容量光互连
3. Beyond interconnects, optical computing could have significant potential in extremely large-capacity channels, such as those found in routing, switching and security applications. [J] . Ravi Athale, Demetri Psaltis Optics & photonics news . 2016 ,第6期

机译：除互连之外，光学计算在超大容量通道中（例如在路由，交换和安全应用程序中发现的通道）可能具有巨大潜力。
4. What ultimately limits capacity and connectivity in optical interconnects? [C] . Yao Li . 1995

机译：最终限制光互连的容量和连接性的因素是什么？
5. Silicon Photonics for High Capacity Optical Interconnects [D] . Wu, Xinru. 2018

机译：适用于大容量光学互连的硅光子学
6. The Limits of the Optical Capacity of the Microscope [O] . Lester Curtis 1877

机译：显微镜的光学容量极限
7. Limit to the bit-rate capacity of electrical interconnects from the aspect ratio of the system architecture [O] . Miller, D.A.B., Ozaktas, H., M. 1997

机译：从系统架构的长宽比限制电气互连的比特率容量
8. Novel WDM Device and System Research for Ultra High Capacity Optical Interconnects [R] . Chang-Hasnain, C. J. , Willner, A. E. 2000

机译：超高容量光互连的新型WDm器件及系统研究

What Ultimately Limits Capacity and Connectivity in Optical Interconnects ?

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