Abstract: Embodiments of the present invention provide an optical network and switch architecture that provides non-blocking routing from an ingress router to an egress router in the network on a port-to-port basis. The present invention provides routing for fixed and variable length optical data packets of varying types (including Internet Protocol (IP), data, voice, TDM, ATM, voice over data, etc.) at speeds from sub-Terabit per second (Tbps), to significantly in excess of Petabit per second (Pbps). The present invention includes the functionality of both large IP routers and optical cross-connects combined with a unique, non-blocking optical switching and routing techniques to obtain benefits in speed and interconnected capacity in a data transport network. The present invention can utilize a TWDM wave slot transport scheme in conjunction with a just-in-time scheduling pattern and a unique optical switch configuration that provides for non-blocking transport of data from ingress to egress.
Type:
Application
Filed:
September 15, 2008
Publication date:
March 19, 2009
Applicant:
Yotta Networks, Inc.
Inventors:
Larry L. Miles, Lakshman S. Tamil, Scott A. Rothrock, Noland J. Posey, JR., Gregory H. Aicklen
Abstract: A system and method for providing non-blocking routing of optical data through a telecommunications router that allows full utilization of available capacity. The router includes a number of data links that carry optical data packets to and from an optical router. The optical router includes a number of ingress edge units coupled to an optical switch core coupled further to a number of egress edge units. The ingress edge units receive the optical data packets from the data links and aggregate the optical data packets into “super packets” where each super packet is to be routed to a particular destination egress edge unit. The super packets are sent from the ingress edge units to an optical switch fabric within the optical switch core that routes each super packet through the optical switch fabric to the super packet's particular destination egress edge unit in a non-blocking manner (i.e., without contention or data loss through the optical switch fabric).
Type:
Grant
Filed:
October 27, 2000
Date of Patent:
December 16, 2003
Assignee:
Yotta Networks, Inc.
Inventors:
Larry L. Miles, Lakshman S. Tamil, Scott A. Rothrock, Nolan J. Posey, Jr., Gregory H. Aicklen