Research Article
Transmissions and Network Management of Multiple 100 GB/s Based on Stacking Technology
@INPROCEEDINGS{10.1007/978-3-319-78139-6_11, author={Xin Huang and Kaixiong Zhou and Chaoxiang Shi and Jianxin Chang and Meng Gao}, title={Transmissions and Network Management of Multiple 100 GB/s Based on Stacking Technology}, proceedings={Communications and Networking. 12th International Conference, ChinaCom 2017, Xi’an, China, October 10-12, 2017, Proceedings, Part II}, proceedings_a={CHINACOM}, year={2018}, month={4}, keywords={100G Multiple 100G Stacking Capacity expansion Network element management}, doi={10.1007/978-3-319-78139-6_11} }- Xin Huang
Kaixiong Zhou
Chaoxiang Shi
Jianxin Chang
Meng Gao
Year: 2018
Transmissions and Network Management of Multiple 100 GB/s Based on Stacking Technology
CHINACOM
Springer
DOI: 10.1007/978-3-319-78139-6_11
Abstract
We have previously proposed and implemented a small form factor and low cost 100G optical transmission system using inverse-multiplexing technology and MLD (Multiplex-Lane Distribution) mechanism [1]. Based on this 100G system, we will further implement a transmission and network management system for multiple 100G application via stacking technology. This technology can incrementally realize the standard 100G OTN or 100G Ethernet capacity expansion with a centralized network element management at one node. The stacking system contains both network management port stacking and optical wavelength stacking. Our test results show that we can stack at least four devices with stable performance, which means a maximum transmission capacity of 400G, but with one IP address or one NE (network element) network management. This technology has a significant advantage comparing with a large rack equipment in term of device cost and flexible 100G bandwidth addition, as well as simple management function.
