2000 | ||
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10 | EE | Linda Kaufman: An observation on bisection software for the symmetric tridiagonal eigenvalue problem. ACM Trans. Math. Softw. 26(4): 520-526 (2000) |
9 | EE | Linda Kaufman: Band reduction algorithms revisited. ACM Trans. Math. Softw. 26(4): 551-567 (2000) |
1996 | ||
8 | EE | Harris Drucker, Christopher J. C. Burges, Linda Kaufman, Alex J. Smola, Vladimir Vapnik: Support Vector Regression Machines. NIPS 1996: 155-161 |
1995 | ||
7 | Linda Kaufman: Computing the MDMT Decomposition. ACM Trans. Math. Softw. 21(4): 476-489 (1995) | |
1994 | ||
6 | Linda Kaufman: A Parallel QR Algorithm for the Symmetric Tridiagonal Eigenvalue Problem. J. Parallel Distrib. Comput. 23(3): 429-434 (1994) | |
1990 | ||
5 | EE | Linda Kaufman, Daniel D. Warner: Algorithm 658: a program for solving separable elliptic equations. ACM Trans. Math. Softw. 16(4): 325-351 (1990) |
1979 | ||
4 | EE | Linda Kaufman: Application of Dense Householder Transformation to a Sparse Matrix. ACM Trans. Math. Softw. 5(4): 442-450 (1979) |
1977 | ||
3 | EE | Linda Kaufman: Some Thoughts on the QZ Algorithm for Solving the Generalized Eigenvalue Problem. ACM Trans. Math. Softw. 3(1): 65-75 (1977) |
1976 | ||
2 | EE | Linda Kaufman: Remark on "Algorithm 496: The LZ Algorithm to Solve the Generalized Eigenvalue Problem for Complex Matrices [F2]". ACM Trans. Math. Softw. 2(4): 396 (1976) |
1975 | ||
1 | EE | Linda Kaufman: Algorithm 496: The LZ Algorithm to Solve the Generalized Eigenvalue Problem for Complex Matrices [F2]. ACM Trans. Math. Softw. 1(3): 271-281 (1975) |
1 | Christopher J. C. Burges (Chris Burges) | [8] |
2 | Harris Drucker | [8] |
3 | Alexander J. Smola (Alex J. Smola) | [8] |
4 | Vladimir Vapnik | [8] |
5 | Daniel D. Warner | [5] |