Embedding rings and meshes in partitioned optical passive stars networks

Embedding rings and meshes in partitioned optical passive stars networks

We consider the problem of embedding ring and torus communication structures onto the all-optical Partitioned Optical Passive Stars (POPS) topology. We show that the natural embedding, which maps the nodes in the ring or torus directly onto the POPS, does not result in an optimal embedding, and thus...

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Bibliographic Details
Published in:Proceedings of Second International Workshop on Massively Parallel Processing Using Optical Interconnections pp. 220 - 227
Main Authors: Gravenstreter, G., Melhem, R.G.
Format: Conference Proceeding
Language:English
Published: IEEE 1995
Subjects:
Computer science
Intelligent networks
Multiprocessor interconnection networks
Network topology
Optical fiber networks
Optical receivers
Optical sensors
Optical transmitters
Protocols
Wavelength division multiplexing
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Summary:We consider the problem of embedding ring and torus communication structures onto the all-optical Partitioned Optical Passive Stars (POPS) topology. We show that the natural embedding, which maps the nodes in the ring or torus directly onto the POPS, does not result in an optimal embedding, and thus does not efficiently utilize the communication capabilities of the POPS. For the ring structure, we present an alternating-pair embedding technique which distributes the communication load uniformly in the POPS. We then apply a slightly modified version of the alternating-pair technique to the embedding of tori onto POPS networks. We prove that both embeddings are optimal, in the sense that they minimize the time required to deliver the messages from each node to its neighbors.
ISBN:0818671017
9780818671012
DOI:10.1109/MPPOI.1995.528647