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 ABSTRACT
Distributed shared memory (DSM) is the provision in software of a shared memory programming model on a distributed memory machine [6]. We are exploring the use of DSM in a cluster-based computing environment of workstations and servers connected by a local internetwork.We have concentrated so far on using DSM to program compute-intensive tasks on networks of workstations. For these applications, DSM is a superior programming model compared to message passing, because it relieves the programmer from having to worry about data motion. Second, DSM allows applications written for shared memory machines to be ported with relative ease to distributed memory machines. Finally, DSM offers a natural paradigm for integrating both the locally shared memory and the globally distributed memory of anticipated future networks of shared memory multiprocessors. In particular, in such an environment, local interprocess communication is likely to dominate and therefore should be implemented in the most efficient form possible, i.e., by using the (hardware) shared memory available. It then follows that to achieve a single paradigm for both local and remote interprocess communication, DSM is the natural choice.
REFERENCES
Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.
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J. K. Bennett , J. B. Carter , W. Zwaenepoel, Munin: distributed shared memory based on type-specific memory coherence, Proceedings of the second ACM SIGPLAN symposium on Principles & practice of parallel programming, p.168-176, March 14-16, 1990, Seattle, Washington, United States
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John B. Carter , John K. Bennett , Willy Zwaenepoel, Implementation and performance of Munin, Proceedings of the thirteenth ACM symposium on Operating systems principles, p.152-164, October 13-16, 1991, Pacific Grove, California, United States
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Kourosh Gharachorloo , Daniel Lenoski , James Laudon , Phillip Gibbons , Anoop Gupta , John Hennessy, Memory consistency and event ordering in scalable shared-memory multiprocessors, Proceedings of the 17th annual international symposium on Computer Architecture, p.15-26, May 28-31, 1990, Seattle, Washington, United States
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P. Keleher, A. Cox, and W. Zwaenepoel. Lazy consistency for software distributed shared memory. Submitted to the 18th Annual International Symposium on Computer Architecture, November 1991.
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