“…Several electronic skew compensation methods, which work on 10-Gb/s/ch parallel transmission, have been reported [2][3]. In [2], dynamic skew compensation of 88 ns (i.e., 880 bits) was implemented to support 40-km transmission of 100-Gb/s Ethernet.…”
Section: Introductionmentioning
confidence: 99%
“…In [2], dynamic skew compensation of 88 ns (i.e., 880 bits) was implemented to support 40-km transmission of 100-Gb/s Ethernet. In [3], static skew compensation of 175 ms was used for TERABit-LAN application with less than 1 ms of accuracy.…”
This paper proposes a dynamic skew compensation mechanism for multi-wavelength parallel transmission by using 40-Gb/s/ch OTN physical-layer multiframe architecture. The feasibility is verified by FPGA simulation.
“…Several electronic skew compensation methods, which work on 10-Gb/s/ch parallel transmission, have been reported [2][3]. In [2], dynamic skew compensation of 88 ns (i.e., 880 bits) was implemented to support 40-km transmission of 100-Gb/s Ethernet.…”
Section: Introductionmentioning
confidence: 99%
“…In [2], dynamic skew compensation of 88 ns (i.e., 880 bits) was implemented to support 40-km transmission of 100-Gb/s Ethernet. In [3], static skew compensation of 175 ms was used for TERABit-LAN application with less than 1 ms of accuracy.…”
This paper proposes a dynamic skew compensation mechanism for multi-wavelength parallel transmission by using 40-Gb/s/ch OTN physical-layer multiframe architecture. The feasibility is verified by FPGA simulation.
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