S. Shimizu, T. Kihara, Y. Arakawa, N. Yamanaka, K. Shiba
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A prototype of a dynamically reconfigurable processor based off-loading engine for accelerating the shortest path calculation with GNU zebra
A hardware off-loading engine to speed up the shortest path calculation in OSPF (open shortest path first) has been developed. The developed system is co-designed with both hardware and software to optimize an architecture of a router for highly functional traffic engineering (TE). To speed up the shortest path calculation, we employ a dynamically reconfigurable processor, IPFlex DAPDNA-2, as a hardware off-loader, and newly structured a novel high-speed parallel shortest path algorithm, called MPSA (Multi-route Parallel Search Algorithm). The proposed algorithm consists of simple processing, in which multiple paths are simultaneously searched by multiple processor element (PE) of DAPDNA-2. Therefore, it reduces the execution time of shortest path calculation to 2.8% compared with the popular shortest path algorithm, Dijkstrapsilas algorithm. Our prototype works together with a famous software-based router, GNU Zebra, on commodity Linux PC. The proposed architecture and prototype system can be applied to future network sophisticated TE.
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