A numerical code generation facility for REDUCE

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A numerical code generation facility for REDUCE

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Symposium on Symbolic and Algebraic Manipulation archive
Proceedings of the fifth ACM symposium on Symbolic and algebraic computation table of contents

Waterloo, Ontario, Canada

Pages: 94 - 99

Year of Publication: 1986

ISBN:0-89791-199-7

Author

Barbara L. Gates

The Rand Corporation, Santa Monica, CA

Sponsor

SIGSAM: ACM Special Interest Group on Symbolic and Algebraic Manipulation

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 2, Downloads (12 Months): 6, Citation Count: 11

Additional Information:

abstract references cited by index terms collaborative colleagues peer to peer

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ABSTRACT

Many scientific problems require mathematical modeling and symbolic derivation to produce formulas which are evaluated numerically. Computer algebra systems can be used effectively in the symbolic derivation phase and subsequently to generate numerical code. This paper describes the design of the GENTRAN code generation facility for REDUCE.

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	American National Standards institute. "American National Standard Programming Language FORTRAN", ANS X3.9, New York. 1978.
	2	Cook, G. O., Jr. "Development of a Magnetohydrodynamic Code for A_xisymmetric, High-beta Plasmas with Complex Magnetic Fields", Lawrence Livermore National Laboratory Report No. UCRL-53324, 1982.
	3	John K. Foderaro , Richard J. Fateman, Characterization of VAX Macsyma, Proceedings of the fourth ACM symposium on Symbolic and algebraic computation, p.14-19, August 05-07, 1981, Snowbird, Utah, United States [doi>10.1145/800206.806364]
	4	Foderaro, J. K. and K. L. Sklowcr. The Franz LISP Manual, University of California, Berkeley. September 1981.
	5	Barbara L. Gates, Gentran: an automatic code generation facility for REDUCE, ACM SIGSAM Bulletin, v.19 n.3, p.24-42, August 1985 [doi>10.1145/1089411.1089415]
	6	Gates, B. L. and P. S. Wang. "A LISP-Based RATFOR Code Generator", Proceedings of the 1984 MACSYMA User's Conference, V. E. Golden (ed.), General Electric, Schenectady, New York. July 23-25, 1984.
	7	Heam, A. C. (ed.) REDUCE User's Manual, Version 3.2, The Rand Corporation, Santa Monica, California. April 1985.
	8	Ben J. A. Hulshof , J. A. van Hulzen, Automatic Error Cumulation Control, Proceedings of the International Symposium on Symbolic and Algebraic Computation, p.260-271, July 09-11, 1984
	9	Kernighan, B.W. "RATFOR -- A Preprocessor for a' Rational Fortran", UNIX Programmer's Manual, Volume 2B, Seventh Edition. Bell Telephone Laboratories, Inc., Murray Hill, New Jersey. January 1979.
	10	B. W. Kernighan , D. M. Ritchie, The C programming language, Prentice-Hall, Inc., Upper Saddle River, NJ, 1978
	11	Douglas H. Lanam, An algebraic front-end for the production and use of numeric programs, Proceedings of the fourth ACM symposium on Symbolic and algebraic computation, p.223-227, August 05-07, 1981, Snowbird, Utah, United States [doi>10.1145/800206.806400]
	12	Lanam, D. H. "A Package for Generating and Executing Fortran Programs with Macsyma", Master's Thesis, University of California, Berkeley. May 1982.
	13	The MATHLAB Group. MACSYMA Reference Manual, Version Ten. Laboratory for Computer Science, M.I.T., Cambridge, Massachusetts. December 1983.
	14	Richard Pavelle , Paul S Wang, MACSYMA from F to G, Journal of Symbolic Computation, v.1 n.1, p.69-100, March 1985 [doi>10.1016/S0747-7171(85)80030-4]
	15	Pitman, K. M. "A FORTRAN -> LISP Translator", Proceedings of the 1979 MACSYMA User's Conference, V. E. Lewis (ed.), Washington D.C. June 20-22, 1979.
	16	The Utah Symbolic Computation Group. The Portable Standard LISP User's Manual, Version 3.2. Department of Computer Science, University of Utah. April 1984.
	17	J. A. van Hulzen, Code optimization of multivariate polynominal schemes: A pragmatic approach, Proceedings of the European Computer Algebra Conference on Computer Algebra, p.286-300, March 28-30, 1983
	18	van Hulzen, J. A. "Code Optimization by Symbolic Processing", NGI-$10N Symposium Proceedings, Amsterdam, The Netherlands. April 16-17, 1984.
	19	van Hulzen, J. A. "Program Generation Aspects of the Symbolic- Numeric Interface", Memorandum INF-85-25, Department of Computer Science, Twente University of Technology, Enschede, The Netherlands. (Invited Lecture, Conference on "Computer Algebra and its Applications in Theoretical Physics", Dubna, U.S.S.R.) September 1985.
	20	Wang, P. S. "MACSYMA-Aided Finite Element Analysis", Proceedings of the 1984 MACSYMA User's Conference, V. E. Golden (ed.) General Electric, Schenectady, New York. July 23-25, 1984.
	21	Paul S. Wang , T. Y. P. Chang , J. A. van Hulzen, Code Generation and Optimization for Finite Element Analysis, Proceedings of the International Symposium on Symbolic and Algebraic Computation, p.237-247, July 09-11, 1984
	22	Michael Clarence Wirth, On the automation of computational physics, 1980

CITED BY 11

	W. N. Borst , V. V. Goldman , J. A. van Hulzen, GENTRAN 90: a REDUCE package for the generation of Fortran 90 code, Proceedings of the international symposium on Symbolic and algebraic computation, p.45-51, July 20-22, 1994, Oxford, United Kingdom
	Sanjiva Weerawarana , Paul S. Wang, A portable code generator for CRAY FORTRAN, ACM Transactions on Mathematical Software (TOMS), v.18 n.3, p.241-255, Sept. 1992
	S. Weerawarana , P. S. Wang, GENCRAY: a portable code generator for cray fortran, Proceedings of the ACM-SIGSAM 1989 international symposium on Symbolic and algebraic computation, p.186-191, July 17-19, 1989, Portland, Oregon, United States
	Richard Liska , Michail Yu. Shashkov, Algorithms for difference schemes construction on non-orthogonal logically rectangular meshes, Proceedings of the 1991 international symposium on Symbolic and algebraic computation, p.419-426, July 15-17, 1991, Bonn, West Germany
	Michael B. Monagan , Gladys Monagan, A toolbox for program manipulation and efficient code generation with an application to a problem in computer vision, Proceedings of the 1997 international symposium on Symbolic and algebraic computation, p.257-264, July 21-23, 1997, Kihei, Maui, Hawaii, United States
	B. W. Char, Automatic reasoning about numerical stability of rational expressions, Proceedings of the ACM-SIGSAM 1989 international symposium on Symbolic and algebraic computation, p.234-241, July 17-19, 1989, Portland, Oregon, United States
	Bruce W. Char , Mark F. Russo, Automatic identification of time scales in enzyme kinetics models, Proceedings of the international symposium on Symbolic and algebraic computation, p.74-83, July 20-22, 1994, Oxford, United Kingdom
	V. G. Ganzha , E. V. Vorozhtsov , J. A. van Hulzen, A new symbolic-numeric approach to stability analysis of difference schemes, Papers from the international symposium on Symbolic and algebraic computation, p.9-15, July 27-29, 1992, Berkeley, California, United States
	K. A. Broughan , G. Keady , T. D. Robb , M. G. Richardson , M. C. Dewar, Some symbolic computing links to the NAG numeric library, ACM SIGSAM Bulletin, v.25 n.3, p.28-37, July 1991
	J. R. Banerjee , A. J. Sobey , H. Su , J. P. Fitch, Use of computer algebra in Hamiltonian calculations, Advances in Engineering Software, v.39 n.6, p.521-525, June, 2008
	Johannes Grabmeier , Erich Kaltofen , Volker Weispfenning, Cited References, Computer algebra handbook, Springer-Verlag New York, Inc., New York, NY, 2003

INDEX TERMS

Primary Classification:
I. Computing Methodologies
I.1 SYMBOLIC AND ALGEBRAIC MANIPULATION
I.1.3 Languages and Systems

Nouns: REDUCE

Additional Classification:
D. Software
D.3 PROGRAMMING LANGUAGES
D.3.4 Processors
Subjects: Code generation

General Terms:
Design, Languages, Theory

Collaborative Colleagues:

Barbara L. Gates: colleagues

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