Future Generation Communication and Networking (2007)
Jeju Island, Korea
Dec. 6, 2007 to Dec. 8, 2007
DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/FGCN.2007.148
Fibre Channel (FC) is a high performance, low- latency data transfer technology that dominates today's high-end Storage Area Networks (SAN) market. This paper presents the design and implementation of Fibre Channel FC-1 and part of FC-2 layer for multi- gigabit Fibre Channel applications such as point-to- point and fabric interconnect. For efficient implementation, we have used the protocol-optimized hardware modules, such as on-the-fly CRC checking, frame length verification modules for frame receiving, CRC calculation and EOF generation modules for frame transmitting, to reduce the network latency. We also present an efficient method for buffer-to-buffer credit recovery, the basic idea of our method is to recover lost credits within the local as well as the remote port and avoid blocking of transmitters in long term. In the experiment, we build a 2G FC SCSI initiator using this logic core. The experimental results show that the initiator can reach a maximum throughput of 189.52MB/s for reading a RAMDisk target on the remote computer equipped with a QLA2310 FC HBA.
W. Tong, J. Liu, Y. Zhang and D. Feng, "Implementation of FC-1 and FC-2 Layer for Multi-Gigabit Fibre Channel Transport," 2007 International Conference on Future Generation Communication and Networking(FGCN), Jeju, 2007, pp. 203-207.