Exact solution of general integer systems of linear equations

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Exact solution of general integer systems of linear equations

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ACM Transactions on Mathematical Software (TOMS) archive
Volume 12 , Issue 1 (March 1986) table of contents
The MIT Press scientific computation series

Pages: 51 - 61

Year of Publication: 1986

ISSN:0098-3500

Author

Jörn Springer

Martin-Luther-Univ. Halle-Wittenberg, Halle, E. Germany

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): 6, Downloads (12 Months): 75, Citation Count: 3

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ABSTRACT

Methods are known for the exact computation of the solution of integer systems of linear equations AX = B with a nonsingular coefficient matrix A by congruence techniques. These methods are now generalized for systems with an arbitrary integer coefficient matrix A. To make congruence techniques applicable, a common denominator of all elements of the solution X = A+B must be computed. This is achieved by defining the natural denominator CODE of A+ and describing it by some formulas. Methods for the exact computation of additional results (consistency, null space, solution of at most R nonzero elements), a recursive test to save computing time, and a comparison with some results from the literature are presented.

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	BAREISS, E.H. Computational solutions of matrix problems over an integral domain. J. Inst. Math. Appl. 10 (1972), 68-104.
	2	BOROSH, I., AND FRAENKEL, A.S. Exact solutions of linear equations with rational coefficients by congruence techniques. Math. Comp. 20 (1966), 107-112.
	3	Stanley Cabay, Exact solution of linear equations, Proceedings of the second ACM symposium on Symbolic and algebraic manipulation, p.392-398, March 23-25, 1971, Los Angeles, California, United States [doi>10.1145/800204.806310]
	4	S. Cabay , T. P. L. Lam, Congruence Techniques for the Exact Solution of Integer Systems of Linear Equations, ACM Transactions on Mathematical Software (TOMS), v.3 n.4, p.386-397, Dec. 1977 [doi>10.1145/355759.355765]
	5	S. Cabay , T. P. L. Lam, Algorithm 522: ESOLVE, Congruence Techniques for the Exact Solution of Integer Systems of Linear Equations [F4], ACM Transactions on Mathematical Software (TOMS), v.3 n.4, p.404-410, Dec. 1977 [doi>10.1145/355759.355767]
	6	DECELL, H.P. An application of the Cayley-Hamilton theorem to generalized matrix inversion. SIAM Rev. 7 (1965), 526-528.
	7	FRAENKEL, A. S., AND LOEWENTHAL, D. Exact solutions of linear equations with rational coefficients. J. Res. Nat. Bur. Stand. 75B (1971), 67-75.
	8	HOWELL, J. A., AND GREGORY, R.T. An algorithm for solving linear algebraic equations using residue arithmetic, I-II. BIT 9 (1969), 200-224, 324-337.
	9	HOWELL, J. A., AND GREGORY, R. T. Solving linear equations using residue arithmetic-- Algorithm II. Bit 10 (1970), 23-37.
	10	Jo Ann Howell, Algorithm 406: exact solution of linear equations using residue arithmetic [F4], Communications of the ACM, v.14 n.3, p.180-184, March 1971 [doi>10.1145/362566.362572]
	11	NEWMAN, M. Solving equations exactly. J. Res. Nat. Bur. Stand. Sect. B, 17 (1967), 171-179.
	12	RAO, T. M., SUBRAMANIAN, K., AND KRISHNAMURTHY, E.V. Residue arithmetic algorithms for exact computation of g-inverses of matrices. SIAM J. Numer. Anal. 13 (1976), 155-171.
	13	SPRINGER, J. Exakte Rechnung durch Residuenarithmetik und einige MLglichkeiten ihrer Anwendung. Diss. A, Martin-Luther-Universit~it Halle-Wittenberg, Sektion Mathematik, Halle.
	14	SPRINGER, J. Die exakte Berechnung der Moore-Penrose-Iversen einer Matrix dutch Residuenarithmetik. ZAMM 63 (March 1983), 203-210.
	15	STALLINGS, W. T., AND BOULLION, T.L. Computation of pseudo-inverse matrices using residue arithmetic. SIAM Rev. 14 (1972), 152-163.
	16	ZIELKE, G. Die AuflLsung beliebiger linearer algebraischer Gleichungssysteme dutch Blockzerlegung. Beitr. Numer. Math. 8 (1980), 181-199.

CITED BY 3

	Jörn Springer, Algorithm 641: Exact Solution of General Systems of Linear Equations, ACM Transactions on Mathematical Software (TOMS), v.12 n.2, p.149, June 1986
	Peter Alfeld , David J. Eyre, Algorithm 701: Goliath—a software system for the exact analysis of rectangular rank-deficient sparse rational linear systems, ACM Transactions on Mathematical Software (TOMS), v.17 n.4, p.519-532, Dec. 1991
	Peter Alfeld , David J. Eyre, The exact analysis of sparse rectangular linear systems, ACM Transactions on Mathematical Software (TOMS), v.17 n.4, p.502-518, Dec. 1991

INDEX TERMS

Classification:
F. Theory of Computation
F.2 ANALYSIS OF ALGORITHMS AND PROBLEM COMPLEXITY
F.2.1 Numerical Algorithms and Problems
Subjects: Computations in finite fields

G. Mathematics of Computing
G.1 NUMERICAL ANALYSIS
G.1.2 Approximation
Subjects: Least squares approximation
G.1.3 Numerical Linear Algebra
Subjects: Linear systems (direct and iterative methods)

General Terms:
Algorithms, Theory

REVIEW

"Andy Roy Magid : Reviewer"

Let AX = B be a system of linear equations with M by N coefficient matrix A and right-hand side vector B. Both A and B are assumed to have integer entries. The generali more...

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