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Accuracy and speed-up of parallel trace-driven architectural simulation

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5 Author(s)
Nguyen, A.-T. ; IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA ; Bose, P. ; Ekanadham, K. ; Nanda, A.
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Trace-driven simulation continues to be one of the main evaluation methods in the design of high performance processor-memory sub-systems. In this paper, we examine the varying speed-up opportunities available by processing a given trace in parallel on an IBM SP-2 machine. We also develop a simple, yet effective method of correcting for cold-start cache miss errors, by the use of overlapped trace chunks. We then report selected experimental results to validate our expectations. We show that it is possible to achieve near-perfect speedup without loss of accuracy. Next, in order to achieve further reduction in simulation cost, we combine uniform sampling methods with parallel trace processing with a slight loss of accuracy for finite-cache timer runs. We then show that by using warm-start sequences from preceding trace chunks, it is possible to reduce the errors back to acceptable bounds

Published in:

Parallel Processing Symposium, 1997. Proceedings., 11th International

Date of Conference:

1-5 Apr 1997