Multicast Algorithms in Wormhole-Routed Star Graph Interconnection Networks
| Autor: | Wang, Nen-Chung, 王能中 |
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| Rok vydání: | 1998 |
| Druh dokumentu: | 學位論文 ; thesis |
| Popis: | 86 Parallel processing technique has become important because it supports high-performance computation. So, massively parallel processing computers connected by a variety of interconnection networks are increasingly demanded for high-performance computation-based applications. Multicast, an important communication mechanism, is frequently used in many applications of parallel computing. The star graph interconnection network, when compared with the hypercube network, which has superior features including low degree and small diameter, has been recognized to be an attractive alternative to the popular hypercube network. In this thesis, we first derive a node labeling formula based on a hamiltonian path and then propose four efficient multicast routing schemes in wormhole-routed star networks with multidestination capability. All of the four proposed schemes are path-based and deadlock-free. The first scheme, dual-path routing, includes two independent paths (toward high label nodes and low label nodes). To this approach, the next traversed node is the one with nearest label to that of the next unvisited target node of all its neighboring nodes. The second one, shortcut-node-based dual-path routing, is similar to dual-path scheme except that the routing tries to find a shortcut node to route the message as soon as possible to reduce the length of transmission path. The third one, multipath routing, is a multiple dual-path routing strategy that includes source-to-relay and relay-to-destination phases. The last scheme, proximity grouping routing, is also a multiple dual-path routing strategy except that in the partitioning step of source and destination nodes the relation of spatial locality of nodes is also taken into account to reduce the length of transmission paths. The proximity grouping routing includes source-to-leader and leader-to-destination phases. Finally, the experimental results are given to show that the performance based on unicast- based and traditional hamiltonian-path routing schemes can be improved significantly by our four proposed routing schemes. |
| Databáze: | Networked Digital Library of Theses & Dissertations |
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