Abstract

In our previous work [Chan, ldquoOptical flow switching,rdquo in BROADNETS 2006, pp. 1-8; Weichenberg, ldquoCost-efficient optical network architectures,rdquo in ECOC 2006, pp. 1-2; Weichenberg, ldquoOn the throughput-cost tradeoff of multi-tiered optical network architectures,rdquo GLOBECOM '06, pp. 1-6], we presented optical flow switching (OFS) as a key enabler of scalable future optical networks. We now address the design and analysis of OFS networks in a more comprehensive fashion. The contributions of this work, in particular, are in providing partial answers to the questions of how OFS networks can be implemented, how well they perform, and how their economics compare with those of other architectures. With respect to implementation, we present a sensible scheduling algorithm for inter-metropolitan-area-network (inter-MAN) OFS communication. Our performance study builds upon our work in IEEE J. Sel. Areas Commun., vol. 25, no. 6, pp. 84-101, 2007 and Weichenberg, ldquoPerformance analysis of optical flow switching,rdquo presented at the IEEE International Conference on Communications, Dresden, Germany, June 14-18, 2009, and includes a comparative capacity analysis for the wide area, as well as an analytical approximation of the throughput-delay trade-off offered by OFS for inter-MAN communication. Last, with regard to the economics of OFS, we extend our previous work from ECOC 2006 and GLOBECOM '06 in carrying out an optimized throughput-cost comparison of OFS with other prominent candidate architectures. Our conclusions indicate that OFS offers a significant advantage over other architectures in economic scalability. In particular, for sufficiently heavy traffic, OFS handles large transactions at far lower cost than other optical network architectures. In light of the increasing importance of large transactions to communication networks, we conclude that OFS may be crucial to the future viability of optical networking.

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