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Optica Publishing Group
  • Journal of Lightwave Technology
  • Vol. 21,
  • Issue 11,
  • pp. 2871-
  • (2003)

Realizing the Advantages of Optical Reconfigurability and Restoration With Integrated Optical Cross-Connects

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Abstract

Optical layer capacity and unit cost improvements are basic to the rapid growth of Internet protocol (IP) networks. However, the new rapid reconfiguration and restoration capabilities of the optical layer have been sparingly utilized by IP network operators. This paper argues that this is consistent with the economics: restoration based on a"discrete"optical cross-connect (DOXC), i.e., one not integrated into wavelength-division multiplexing (WDM), incurs heavy interface costs. In addition, we argue that there are architectural and control issues that are roadblocks to IP exploitation of rapid optical layer reconfigurability. We then describe an architecture based on optical cross-connects (OXCs) integrated with the WDM (IOXCs), and one instantiation of this architecture using a class of degree-N optical add/drop multiplexers (OADMs), and propose a method to use these to provide efficient shared-capacity path-based restoration after link failures. A series of economic comparisons are made on both a 120-node hypothetical national network and a smaller express backbone network to compare hard-wired, DOXC-based, and IOXC-based optical networks when used to transport OC-192 IP traffic. The conclusion is that the IOXC-based architectures seem to be a promising way to introduce reconfigurability into the optical layer cost-effectively. These architectures also seem to be economically competitive with link restoration done in the IP layer, even if rapid reconfigurability is not an imposed requirement. (It should be noted that other IP layer failure modes are not included in the analysis.) Finally, we describe some of the control and management plane challenges introduced by these architectures. We also identify and describe several applications that leverage optical layer reconfigurability to benefit the IP Layer; however, these require some IP layer changes, which we mention.

© 2003 IEEE

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