Introduction to parallel algorithms and architectures: array, trees, hypercubes
Introduction to parallel algorithms and architectures: array, trees, hypercubes
Introduction to parallel computing: design and analysis of algorithms
Introduction to parallel computing: design and analysis of algorithms
IEEE Transactions on Parallel and Distributed Systems
The cube-connected cycles: a versatile network for parallel computation
Communications of the ACM
Interconnection Networks: An Engineering Approach
Interconnection Networks: An Engineering Approach
IEEE Transactions on Parallel and Distributed Systems
MPPOI '96 Proceedings of the 3rd Conference on Massively Parallel Processing Using Optical Interconnections
Sparse WDM Optical Interconnects under Wavelength-Based Model
IPDPS '03 Proceedings of the 17th International Symposium on Parallel and Distributed Processing
TCN: Scalable Hierarchical Hypercubes
ICPADS '02 Proceedings of the 9th International Conference on Parallel and Distributed Systems
Designing WDM Optical Interconnects with Full Connectivity by Using Limited Wavelength Conversion
IEEE Transactions on Computers
Cost-Effective Designs of WDM Optical Interconnects
IEEE Transactions on Parallel and Distributed Systems
Communication Structures for Large Networks of Microcomputers
IEEE Transactions on Computers
Generalized Hypercube and Hyperbus Structures for a Computer Network
IEEE Transactions on Computers
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An optical interconnection architecture is proposed, which is based on optical ring and torus. The proposed optical interconnection network combines advantages of both ring and torus, e.g., simple node interface, constant node degree, better support for local communication and remote communication, wide bisection and good scalability etc. This architecture could be used to connect thousands of processing elements in massively parallel computer systems while maintaining a low latency and high bandwidth. The comparison with other popular networks is made, and the result shows that RTOIN (Ring based Torus Optical Interconnection Network) has pretty good node degree, network diameter, the number of links, bisection width and average message distance. Also, the result shows its excellent scalability, so it will probably be widely used in the area of parallel computing in future.