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Circuit-bonding-based products can be used to support networked data transport applications as well as point-to-point services As service providers deploy high volumes of point-to-point systems, this creates a need for larger, more highly integrated devices with additional functionality These devices aggregate multiple circuit-bonded transport links and incorporate a packet-based switch fabric instead of the TDM-based fabric typically used today The circuit-bonding platform thus supports flexible provisioning, circuit switching, and network protection features that go beyond just handling pointto-point links
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Current applications using circuit-bonding technology are very much limited to the access network The process of aggregating the capacity of many channels together to achieve a single big pipe has been defined in a generic manner This allows for the level of aggregation to change depending on the rates of the individual signals involved and the desired rate of the big pipe This flexibility will allow the big pipe architecture to remain simple over time even as more and more capacity is created The deployment of higher-speed transmission channels, higher-wavelength-count WDM systems or higherspeed ports on packet-processing devices does not change the fundamental process As opposed to bandwidth management approaches that are focused on wavelengths, the big pipe architecture allows all of the independent technologies to be developed and deployed separately Therefore, carriers are not forced to change several aspects of their network to capitalize on developments in any particular area Protection mechanisms for the big pipe solution are also fundamentally different from those considered by proponents of wavelength-switching solutions In a wavelength-based
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solution, the only issue to consider in the event of failure is the restoration of the lost wavelength Solutions ranging from path-level protection to mesh-based span protection have been proposed With the big pipe concept, the capacity of several transmission channels is combined to form a single large payload In this scenario, many options exist for implementing protection If a single transmission channel fails, for example, the failure may not affect the transmission of data if extra capacity exists in the big pipe Alternatively, it may be desirable for the failure to result in a switch to a protection subchannel to replace the failed channel The protection mechanisms are very similar to those of previous solutions that deal with aggregated signals
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Current IP routers can process 10Gb/s of packets Each time port speeds have been increased in the short history of these devices, network builders have immediately adopted the faster technology The benefits of high-speed ports are significant for data networks Several factors drive data network builders to implement higher-speed ports The first is that the alternative, deploying several parallel links, leads to management and scalability issues Each link in the data network is monitored and maintained by a linklayer protocol such as OSPF The status of each link in the network must be monitored, maintained, and distributed to many of the elements in the network As the number of links increase, even with parallel ports, the task of maintaining the link state tables is increased Another simplifying factor is that very large LSPs can be created in the superchannel and more effectively packed with data Additionally, the large LSPs reduce network complexity since fewer are created Instead of creating many LSPs on many physical connections, each large LSP in the superchannel contains a tremendous payload Another benefit of the superchannel in data networking is the creation of a new level of multiplexing The high-speed ports allow for the aggregation of packets from many low-speed ports from various routers Creating this layer eliminates the wasteful interconnections that exist between routers in current networks From a data-networking perspective, there are no benefits only drawbacks to maintaining many parallel links between network locations Each physical link must be managed independently A more scalable solution is to deploy high-speed interfaces The big pipe concept supports this philosophy by transporting the high-speed superchannel signals generated at the routers
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