Hamiltonian cycle within extended OTIS-cube topology
ACELAE'11 Proceedings of the 10th WSEAS international conference on communications, electrical & computer engineering, and 9th WSEAS international conference on Applied electromagnetics, wireless and optical communications
The Optical Chained-Cubic Tree interconnection network: Topological structure and properties
Computers and Electrical Engineering
Topological properties of the Extended OTIS-n-Cube interconnection network
The Journal of Supercomputing
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OTIS-based architectures appear to have the potential to be an interesting option for future generations of multiprocessing systems. In this paper, we propose a new adaptive unicast routing algorithm and four software-based (unicast-based) broadcast algorithms for the wormhole switched OTIS hypercube. We then present an empirical performance evaluation of these algorithms in OTIS-hypercube for different topologies, message length and traffic loads.