A distributed control architecture of high-speed networks

A control architecture for a high-speed packet-switched network is described. The architecture was designed and implemented as part of the PARIS (subsequently plaNET and BBNS) networking project at IBM. This high bandwidth network for integrated communication (data, voice, video) is currently operat...

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Bibliographic Details
Published in:IEEE transactions on communications 1995-05, Vol.43 (5), p.1950-1960
Main Authors: Cidon, I., Gopal, I., Kaplan, M.A., Kutten, S.
Format: Article
Language:English
Subjects:
Applied sciences
Bandwidth
Communication system control
Computer architecture
Distributed control
Exact sciences and technology
Hardware
High-speed networks
Laboratories
Operation, maintenance, reliability of teleprocessing networks
Planets
Prototypes
Telecommunications
Telecommunications and information theory
Teleprocessing networks. Isdn
Testing
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Summary:A control architecture for a high-speed packet-switched network is described. The architecture was designed and implemented as part of the PARIS (subsequently plaNET and BBNS) networking project at IBM. This high bandwidth network for integrated communication (data, voice, video) is currently operational as a laboratory prototype. It will also be deployed within the AURORA Testbed that is part of the NSF/DARPA gigabit networking program. The high bandwidth dictates the need for specialized hardware to support faster packet handling for both point-to-point and multicast connections. A faster and more efficient network control is also required in order to support the increased number of connections and their changing requirements with time. The new network control architecture presented exploits specialized hardware, thereby enabling tasks to be performed faster and with less computation overhead. In particular, since control information can be distributed quickly using hardware packet handling mechanisms, decisions can be made based upon more complete and accurate information. In some respects, this has the effect of having the benefits of centralized control (e.g., easier bandwidth resource allocation to connections), while retaining the fault tolerance and scalability of a distributed architecture.< >
ISSN:0090-6778
1558-0857
DOI:10.1109/26.387408