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ZTE Communications ›› 2009, Vol. 7 ›› Issue (4): 54-57.

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100G Ethernet Technology and Applications

Zhang Yuanwang   

  1. ZTE Corporation , Shenzhen 518057 , P . R . China
  • 出版日期:2009-12-25 发布日期:2020-03-03
  • 作者简介:Zhang Yuanwang graduated from Southeast University. He is engaged in Carrier Ethernet (CE) switch system design at ZTE Corporation. His research interest is 100G Ehternet. He has participated in the draft of IEEE802.3ba as a representative of ZTE. He has published five papers.

100G Ethernet Technology and Applications

Zhang Yuanwang   

  1. ZTE Corporation , Shenzhen 518057 , P . R . China
  • Online:2009-12-25 Published:2020-03-03
  • About author:Zhang Yuanwang graduated from Southeast University. He is engaged in Carrier Ethernet (CE) switch system design at ZTE Corporation. His research interest is 100G Ehternet. He has participated in the draft of IEEE802.3ba as a representative of ZTE. He has published five papers.

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摘要: The increasing requirements for bandwidth drive the 100G Ethernet into use as quickly as possible. The major technologies supporting 100G Ethernet interface include the physical layer channel convergence technology, multi-fiber channel and Wavelength Division Multiplexing (WDM ) technology. The key technology for high-speed optical devices at the interface requires a breakthrough. The demands driven by the increase of interface rate require better packet processing and storage, system switching, and backplane technology. In addition, in the network, the transport problem of the new interface should be solved, including defining transport standards and pushing the development of key transport technologies. As far as the cost and requirements are concerned, the commercial application of 100G Ethernet is viable in Metropolitan Area Networks (MANs ).

Abstract: The increasing requirements for bandwidth drive the 100G Ethernet into use as quickly as possible. The major technologies supporting 100G Ethernet interface include the physical layer channel convergence technology, multi-fiber channel and Wavelength Division Multiplexing (WDM ) technology. The key technology for high-speed optical devices at the interface requires a breakthrough. The demands driven by the increase of interface rate require better packet processing and storage, system switching, and backplane technology. In addition, in the network, the transport problem of the new interface should be solved, including defining transport standards and pushing the development of key transport technologies. As far as the cost and requirements are concerned, the commercial application of 100G Ethernet is viable in Metropolitan Area Networks (MANs ).