The Wisconsin Wind Tunnel: Virtual Prototyping of Parallel Computers

Abstract

We have developed a new technique for evaluating cache coherent, shared-memory computers. The Wisconsin Wind Tunnel (WWT) runs a parallel shared-memory program on a parallel computer (CM-5) and uses execution-driven, distributed, discrete-event simulation to accurately calculate program execution time. WWT is a virtual prototype that exploits similarities between the system under design (the target) and an existing evaluation platform (the host). The host directly executes all target program instructions and memory references that hit in the target cache. WWT's shared memory uses the CM-5 memory's error-correcting code (ECC) as valid bits for a fine-grained extension of shared virtual memory. Only memory references that miss in the target cache trap to WWT, which simulates a cache-coherence protocol. WWT correctly interleaves target machine events and calculates target program execution time. WWT runs on parallel computers with greater speed and memory capacity than uniprocessors. WWT's simulation time decreases as target system size increases for fixed-size problems and holds roughly constant as the target system and problem scale.

DOI: 10.1145/166955.166979

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@inproceedings{Reinhardt1993TheWW, title={The Wisconsin Wind Tunnel: Virtual Prototyping of Parallel Computers}, author={Steven K. Reinhardt and Mark D. Hill and James R. Larus and Alvin R. Lebeck and James C. Lewis and David A. Wood}, booktitle={SIGMETRICS}, year={1993} }