Optoelectronic Node for Novel WDM/TDM Optical Interconnection Network

新型WDM/TDM光互连网络光电节点

• 批准号: 9800401
• 负责人: Keren Bergman
• 金额: $ 24.45万
• 依托单位: Princeton University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 1998
• 资助国家: 美国
• 起止时间: 1998-06-01 至 2002-05-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=9800401&HistoricalAwards=false
• 关键词: Optoelectronic; Node; Novel; WDM; TDM

Proposal Number: ECS-9800401 Principal Investigator: Keren Bergman Title: Optoelectronic node for novel WDM/TDM optical interconnection network Abstract This proposal was an attempt to effectively utilize the immense bandwidth of optical fiber interconnects and minimize the high cost of E/O and O/E conversion by design a network for optical implementation that employs multiple node levels with a routing topology that has minimum logic at the node. The network based on the Data Vortex architecture has the property that all self-routing decisions of the data packets are based on a single logic operation (AND) at each node. The PI claims that it can scale to interconnect an ultra-high performance computing system in a massively parallel form while maintaining low access latencies. The proposed work is to construct such network node in a testbed environment using high speed WDM/TDM payload and lower speed header. The data remain all optical throughout the network, only being converted to electronic format via fast PIN diodes at the receiver end.

提案编号：ECS-9800401 主要研究者：Keren Bergman 关键词：新型WDM/TDM光互连网络;光电节点; 摘要 该建议是一种尝试，以有效地利用光纤互连的巨大带宽，并通过设计一个网络的光学实现，采用多个节点级的路由拓扑，在节点上具有最小的逻辑，最大限度地减少E/O和O/E转换的高成本。 基于Data Vortex架构的网络具有这样的特性，即数据包的所有自路由决策都基于每个节点处的单个逻辑操作（AND）。PI声称它可以扩展到以大规模并行形式互连超高性能计算系统，同时保持低访问延迟。建议的工作是构建这样的网络节点在一个试验台环境中使用高速WDM/TDM有效载荷和较低的速度头。数据在整个网络中保持全光学，仅通过接收器端的快速PIN二极管转换为电子格式。