The Impact of Communication Locality on Large-scale Multiprocessor Performance
Author(s)
Johnson, Kirk L.
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As multiprocessor sizes scale and computer architects turn to interconnection networks with non-uniform communication latencies, the lure of exploiting communication locality to increase performance becomes inevitable. Models that accurately quantify locality effects provide invaluable insight into the importance of exploiting locality as machine sizes and features change. This paper presents a framework for modeling the impact of communication locality on system performance. The framework provides a means for combining simple models of application, processor, and network behavior to obtain a combined model that accurately reflects feedback effects between processors and networks. We introduce a model that characterizes application behavior with three parameters that capture computation grain, sensitivity to communication latency, and amount of locality present at execution time. The combined model is validated with measurements taken from a detailed simulator for a complete multiprocessor system. Using the combined model, we show that exploiting communication locality provides gains which are at most linear in the factor by which average communication distance is reduced when the number of outstanding communication transactions per processor is bounded. The combined model is also used to obtain rough upper bounds on the performance improvement from exploiting locality to minimize communication distance.
Date issued
1992-06Series/Report no.
MIT-LCS-TM-467