Cache coherence in a multiport memory environment

Cache coherence in a multiport memory environment

The effects of various cache coherence strategies are analyzed for a multiported shared memory multiprocessor. Analytical models for concurrent read exclusive write access (CREW) and concurrent read concurrent write access (CRCW) are developed including shared-not-cacheable, snooping bus, snooping b...

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Bibliographic Details
Published in:Proceedings of the First International Conference on Massively Parallel Computing Systems (MPCS) The Challenges of General-Purpose and Special-Purpose Computing pp. 632 - 642
Main Authors: Crawford, S.E., DeMara, R.F.
Format: Conference Proceeding
Language:English
Published: IEEE Comput. Soc. Press 1994
Subjects:
Access protocols
Analytical models
Bandwidth
Coherence
Computer architecture
Electrical capacitance tomography
Hardware
Multiprocessing systems
Random access memory
Read-write memory
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Summary:The effects of various cache coherence strategies are analyzed for a multiported shared memory multiprocessor. Analytical models for concurrent read exclusive write access (CREW) and concurrent read concurrent write access (CRCW) are developed including shared-not-cacheable, snooping bus, snooping bus with cache-to-cache transfers, and directory protocols. The performance of each protocol is shown as the hit rate, main memory-to-cache memory cycle time ratio, fraction of shared data, read percentage, and number of partitions are varied. Overall, results indicate that a snooping bus with cache-to-cache transfer scheme provides consistently fast access times over a wide range of execution parameters. However, nearly equivalent performance can be obtained with simpler directory based schemes. The implications of these results on increasing port complexity and memory usage are discussed.< >
ISBN:9780818663222
0818663227
DOI:10.1109/MPCS.1994.367024