Author_Institution :
Sch. of Inf. Technol. & Eng. (SITE), Univ. of Ottawa, Ottawa, ON
Abstract :
We propose a novel Internet Exchange (IX) architecture, namely OSN-IX, which adopts an overlaid-star network (OSN) as an IX. OSN can be considered as a "distributed" switch, which combines the advantages of the network and switch. Compared to other IX architectures, e.g., LAN-based IX, MPLS IX, Photonic IX, etc., OSN-IX has good properties of scalability, resilience, and widely distributed access points. Particularly, for the first time, OSN-IX introduces traffic engineering (TE) into the IX world. Based on the TE framework we developed for OSN-IX, OSN-IX can provide optimized dynamic inter-ISP (Internet Service Provider) routing while requiring no change, hardware or software, on existing traditional IP/MPLS routers. We have shown by simulation that our TE framework outperforms several existing inter-AS TE schemes.
Keywords :
Internet; local area networks; multiprotocol label switching; telecommunication network routing; Internet eXchange architecture; Internet service provider routing; LAN-based IX; MPLS IX; OSN-IX; distributed access points; inter-ISP; overlaid-star networks; photonic IX; IP networks; Multiprotocol label switching; Resilience; Routing; Scalability; Switches; Telecommunication traffic; Tellurium; Traffic control; Web and internet services;
