An Evaluation of Multiprocessor Cache Coherence Based on Virtual Memory Support

Report ID: TR-401-92

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Author: Li, Kai / Petersen, Karin

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Date: 1992-12-00

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Pages: 15

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Download Formats: |Postscript|

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Abstract:

This paper presents an evaluation of the impact of several architectural parameters on the performance of Virtual Memory (VM) based cache coherence schemes for shared-memory multiprocessors. The VM-based c ache coherence schemes use the traditional VM translation hardware on each processor to detect memory access attempts that might leave caches incoherent, and maintain coherence through VM-level system software. The implementation of this class of coherence schemes is flexible and economical: It allows differe nt consistency models, requires no special hardware for multiprocessor cache coherence, and supports arbitrary interconnection networks. We used trace-driven simulations to evaluate the effect of different architectural parameters on the performance of the VM-based schemes. These parameters include VM page sizes, write-back and write-through caches, memory access latencies, bus and crossbar interconnections, and different cache sizes. Our results show that for appropriate parameters VM-based cache coherence is an economical and practical approach for building shared-memory multiprocessors.