A configurable transmitter architecture & organization for XG-PON OLT/ONU/ONT network elements

2015 IEEE International Conference on Electronics, Circuits, and Systems (ICECS) Pub Date : 2015-12-01 DOI:10.1109/ICECS.2015.7440406

Georgios Menoutis, Andreas Foteas, N. Liakopoulos, G. Georgis, D. Reisis, G. Synnefakis

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引用次数: 1

Abstract

The XG-PON standard for Passive Optical Networks (PONs) imposed high performance requirements for network equipment. Especially, the 10G transmitter designs of the office equipment (OLT), the terminals and the network units (ONTs and ONUs) become quite demanding because of the real-time requirements for preparing a frame. The current paper introduces a three layer architecture, scalable with respect to the bandwidth and suitable to realize the transmitter of the XG-PON OLT/ONT/ONU elements. The architecture's upper layer decides what data packets will be transmitted. The second layer's microsequencer commands the lowest layer's modules, which produce and locally store all the data packets to be transmitted. The three layer approach allows the architecture to be configured and organized as either an OLT transmitter or an ONU/ONT transmitter; and to be scalable and perform the functions of the OLT at 10 Gbps and those of an ONU/ONT at 2.5 Gbps. The implementation of a XG-PON ONU transmitter on Xilinx Virtex7 verifies the approach.

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用于XG-PON OLT/ONU/ONT网元的可配置发射机架构和组织

无源光网络(pon)的XG-PON标准对网络设备提出了很高的性能要求。特别是办公设备(OLT)、终端和网络单元(ont和onu)的10G发射机设计，由于准备帧的实时性要求很高。本文介绍了一种适合实现XG-PON的OLT/ONT/ONU单元发射机的三层架构，该架构在带宽方面具有可扩展性。体系结构的上层决定传输哪些数据包。第二层的微音序器命令底层的模块，这些模块产生并本地存储所有要传输的数据包。三层方法允许将架构配置和组织为OLT发射机或ONU/ONT发射机;并可扩展，以10gbps的速度执行OLT的功能，以2.5 Gbps的速度执行ONU/ONT的功能。Xilinx Virtex7上XG-PON ONU发射机的实现验证了该方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE International Conference on Electronics, Circuits, and Systems (ICECS)

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