Title :
Contention-free communication scheduling on 2D meshes
Author :
Eberhart, Andreas ; Li, Jingke
Author_Institution :
Dept. of Comput. Sci., Portland State Univ., OR, USA
Abstract :
Spontaneous, unorchestrated communications on message-passing multicomputers can cause collision, buffer overflow, and even deadlock, resulting in high communication overhead and reduced overall performance. We present scheduling algorithms for frequently-used communication patterns, such as shifting, transposition, and rotation, on mesh networks. The schedules generated by the algorithms are contention-free and are optimal with respect to the number of message-passing steps. The scheduling algorithms incur little runtime overhead, since they do not require global information exchange. Simulation results confirm that the scheduling algorithms are effective in reducing communication cost
Keywords :
concurrency control; message passing; multiprocessor interconnection networks; performance evaluation; processor scheduling; scheduling; 2D meshes; buffer overflow; collision; communication overhead; communication scheduling; contention-free; deadlock; mesh networks; message-passing multicomputers; message-passing steps; rotation; scheduling; shifting; transposition; Bandwidth; Buffer overflow; Computer science; Mesh networks; Optimal scheduling; Parallel processing; Processor scheduling; Routing; Scheduling algorithm; System recovery;
Conference_Titel :
Parallel Processing, 1996. Vol.3. Software., Proceedings of the 1996 International Conference on
Conference_Location :
Ithaca, NY
Print_ISBN :
0-8186-7623-X
DOI :
10.1109/ICPP.1996.537142
