Title :
Design and implementation of multi-FPGA high-speed access to RAID
Author :
Yue Zheng ; Junjie Zhang ; Ke Yan ; Yufei Song ; Jiaqi Li
Author_Institution :
Key Lab. of Specialty Fibre Opt. & Opt. Access Networks, Univ. of Shanghai, Shanghai, China
Abstract :
With the rapid growth of data for storage in redundant arrays of inexpensive disks (RAID), high-speed and efficient access to RAID has become a hotspot of research. FPGAs have already been successfully employed to increase data transmission speed over network. However, most of former researches were concentrated on single-FPGA platforms and in Gigabit Ethernet environment. In this paper, design and implementation of the Customized Multi-port Transport Protocol (CMTP) protocol is based on reliable IP protocol to access to RAID with 10G Ethernet by using multi-FPGA. Simulation results show that data transfer speed can reach 9.57Gb/s between FPGA and RAID server. Due to the software processing delay of CMTP Protocol running under the RAID server and the raid reading speed (600-800MB/s), file data transmission rate during actual system can achieve 3Gbps for each FPGA.
Keywords :
RAID; data communication; field programmable gate arrays; local area networks; storage management; transport protocols; CMTP protocol; Customized Multiport Transport Protocol; Gigabit Ethernet environment; IP protocol; RAID reading speed; RAID server; data storage; data transfer speed; data transmission speed; file data transmission rate; multiFPGA high-speed access; redundant arrays of inexpensive disks; software processing delay; 10G communication; CMTP; Cloud Storage; FPGA; RAID;
Conference_Titel :
Smart and Sustainable City 2013 (ICSSC 2013), IET International Conference on
Conference_Location :
Shanghai
Electronic_ISBN :
978-1-84919-707-6
DOI :
10.1049/cp.2013.1988
