Instruction set design issues relating to a static dataflow computer

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Instruction set design issues relating to a static dataflow computer

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International Symposium on Computer Architecture archive
Proceedings of the 9th annual symposium on Computer Architecture table of contents

Austin, Texas, United States

Pages: 101 - 111

Year of Publication: 1982

Also published in ...

Author

F. J. Burkowski

Department of Computer Science, University of Manitoba, Winnipeg, Manitoba, Canada

Sponsors

IEEE-CS : Computer Society
SIGARCH: ACM Special Interest Group on Computer Architecture

Publisher

IEEE Computer Society Press Los Alamitos, CA, USA

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Downloads (6 Weeks): 4, Downloads (12 Months): 19, Citation Count: 1

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ABSTRACT

In an effort to minimize traffic in the distribution network of a static dataflow machine the design of the system includes alternate data paths so that data movement may take place over “shorter” paths when it is permissible to do so. The main emphasis of this approach is to allow rapid transfer of data in sequential code segments residing in single memory blocks. This decreases crowding in the more expensive distribution network utilized by data that fans out to two or more blocks as required when more concurrent activity is to be initiated during the execution of the program. The objective of data movement minimization has also influenced the design of the instruction set. In this case, composite, that is, “multi-actor” instructions have been proposed as an effective strategy. This has been done without compromizing the utility of the instructions or overly increasing the time and space requirements of their execution. In the paper, these principles are illustrated by defining controlled instructions that are especially useful in the management of loops.

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.

	1	Arvind, Kathail, V. and Pinagali, K., "A Dataflow Architecture with Tagged Tokens," MIT/LCS/TM-174, MIT Laboratory for Computer Science, Sept. 1980.
	2	Arvind, Gostelow, K. P. and Plouffe, W., "An Asynchronous Programming Language and Computing Machine," Tech. rep.#114A, Dept. of Information and Computer Science, Univ. of California, Irvine, Dec. 1978.
	3	F. J. Burkowski, A multi-user data flow architecture, Proceedings of the 8th annual symposium on Computer Architecture, p.327-340, May 12-14, 1981, Minneapolis, Minnesota, United States
	4	Davis, A., "A Dataflow Evaluation System Based on the Concept of Recursive Locality," Proceedings of the ACM 1979 National Computer Conference, June 1979, pp. 1079-1086.
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	6	Jack B. Dennis , G. Andrew Boughton , Clement K.C. Leung, Building blocks for data flow prototypes, Proceedings of the 7th annual symposium on Computer Architecture, p.1-8, May 06-08, 1980, La Baule, United States [doi>10.1145/800053.801902]
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	8	J. B. Dennis, First version of a data flow procedure language, Programming Symposium, Proceedings Colloque sur la Programmation, p.362-376, April 09-11, 1974
	9	Watson, I. and Gurd, J., "A Prototype Dataflow Computer With Token Labelling," Proceedings of the ACM 1979 National Computer Conference, June 1979, pp. 623-628.