Scalable optical hypercube-based interconnection network for massively parallel computing.

@article{Louri1994ScalableOH,
  title={Scalable optical hypercube-based interconnection network for massively parallel computing.},
  author={Ahmed Louri and Hongki Sung},
  journal={Applied optics},
  year={1994},
  volume={33 32},
  pages={
          7588-98
        }
}
Two important parameters of a network for massively parallel computers are scalability and modularity. Scalability has two aspects: size and time (or generation). Size scalability refers to the property that the size of the network can be increased with nominal effect on the existing configuration. Also, the increase in size is expected to result in a linear increase in performance. Time scalability implies that the communication capabilities of a network should be large enough to support the… 
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A Hypercube-based Scalable Interconnection Network for Massively Parallel Computing
TLDR
A detailed analysis shows that the DLH network is a better interconnection network in the properties of topology and the performance of communication.
Scalable Optical Interconnection Networks for Large-Scale Parallel Computers
A new scalable interconnection topology called the Spanning Multichannel Linked Hypercube (SMLH) is proposed along with an optical implementation methodology that combines both the advantages of free
Double-Loop Hypercube: A New Scalable Interconnection Network for Massively Parallel Computing
  • Liu Youyao, H. Jungang
  • Computer Science
    2008 ISECS International Colloquium on Computing, Communication, Control, and Management
  • 2008
TLDR
A detailed analysis shows that the DLH network is a better interconnection network in the properties of topology and the performance of communication.
Incrementally scalable optical interconnection network with a constant degree and constant diameter for parallel computing.
A new scalable interconnection topology called the spanning-bus connected hypercube (SBCH) that is suitable for massively parallel systems is proposed. The SBCH uses the hypercube topology as a basic
A Spanning Multichannel Linked Hypercube: A Gradually Scalable Optical Interconnection Network for Massively Parallel Computing
A new, scalable interconnection topology called the Spanning Multichannel Linked Hypercube (SMLH) is proposed. This proposed network is very suitable to massively parallel systems and is highly
STH: a Highly Scalable and Economical Topology for Massively Parallel Systems
TLDR
A new processor interconnection topology called STH (Scalable Twisted Hypercube) is introduced to counter the poor scalability of twisted hypercube and is more suitable for Massively Parallel Systems.
The Design of a Scalable Optical Interconnection Network for Multiprocessors and Multicomputers
A prototype of a novel topology for scalable optical interconnection networks called Optical Multi-Mesh Hypercube, OMMH, is experimentally demonstrated up to 150Mb=s data rate (2 7 1 NRZ pseudo
A Spanning Bus Connected Hypercube : A Gradually Scalable Interconnection Network for Massively Parallel Computing 1
TLDR
It is shown that the SBCH network provides better mean internode distance, average tra c density, packet delay, and cost than many similar networks, including the binary hypercube, the SBH, the Optical Multi-Mesh Hypercube etc.
A spanning bus connected hypercube: a new scalable optical interconnection network for multiprocessors and massively parallel systems
A new scalable interconnection topology suitable for massively parallel systems called the spanning bus connected hypercube (SBCH) is proposed. The SBCH uses the hypercube topology as a basic
A Comparatively Analysis and Performance of Logical Topologies of Embedded Hypercube (LTOEH) Interconnection Network
TLDR
It has been proved with the computational results of entire system that the embedded hypercube interconnection networks build is highly scale up in terms of communication and the complete design analysis and comparison of network is given using different network parameters optimal of torus architecture rather than mesh architecture.
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TLDR
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