Abstract
OTIS (Optical Transpose Interconnection System) optoelectronic architecture is an attractive high-speed interconnection network. As a continuation for the research work performed on OTIS, this paper investigates broadcast and global combine communication operations on the promising all-port wormhole-routed OTIS-Mesh using the Extended Dominating Node (EDN) approach, referred to as EDN-OTIS-Mesh. The performance of broadcast and global combine operations is evaluated, both analytically and by simulation, in terms of the number of communication steps, latency, and latency improvement. A comparative study is conducted among three interconnection networks' architectures: the single-port wormhole-routed OTIS-Mesh, all-port wormhole-routed OTIS-Mesh, and all-port wormhole-routed EDN-OTIS-Mesh. The obtained analytical and simulation results show that the broadcast and global combine operations on all-port EDN-OTIS-Mesh significantly outperform the single-port and all-port OTIS-Mesh.
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