A single-stage optical load-balanced switch for data centers.

Load balancing is an attractive technique to achieve maximum throughput and optimal resource utilization in large-scale switching systems. However current electronic load-balanced switches suffer from severe problems in implementation cost, power consumption and scaling. To overcome these problems, in this paper we propose a single-stage optical load-balanced switch architecture based on an arrayed waveguide grating router (AWGR) in conjunction with fast tunable lasers. By reuse of the fast tunable lasers, the switch achieves both functions of load balancing and switching through the AWGR. With this architecture, proof-of-concept experiments have been conducted to investigate the feasibility of the optical load-balanced switch and to examine its physical performance. Compared to three-stage load-balanced switches, the reported switch needs only half of optical devices such as tunable lasers and AWGRs, which can provide a cost-effective solution for future data centers.

[1]  Hung-Hsiang Jonathan Chao,et al.  Centralized contention resolution schemes for a large-capacity optical ATM switch , 1998, 1998 IEEE ATM Workshop Proceedings. 'Meeting the Challenges of Deploying the Global Broadband Network Infrastructure' (Cat. No.98EX164).

[2]  Jean C. Walrand,et al.  Achieving 100% throughput in an input-queued switch , 1996, Proceedings of IEEE INFOCOM '96. Conference on Computer Communications.

[3]  Hong Liu,et al.  Fiber optic communication technologies: What's needed for datacenter network operations , 2010, IEEE Communications Magazine.

[4]  Dawei Wang,et al.  High-speed optical switch fabrics with large port count. , 2009, Optics express.

[5]  David T. Neilson,et al.  IRIS optical packet router [Invited] , 2006 .

[6]  Dawei Wang,et al.  A 448 × 448 optical cross-connect for high-performance computers and multi-terabit/s routers , 2010, 2010 Conference on Optical Fiber Communication (OFC/NFOEC), collocated National Fiber Optic Engineers Conference.

[7]  L. L. Buhl,et al.  A Load-Balanced Optical Packet Router Interconnected With a 10-GbEthernet Electronic Router , 2011, IEEE Photonics Technology Letters.

[8]  Nick McKeown,et al.  Scaling internet routers using optics , 2003, SIGCOMM '03.

[9]  Albert G. Greenberg,et al.  Towards a next generation data center architecture: scalability and commoditization , 2008, PRESTO '08.

[10]  Kent Jordan,et al.  A cost-effective scheme of high-radix optical burst switch based on fast tunable lasers and cyclic AWG , 2012, OFC/NFOEC.