Abstract
LSQR and its mathematically equivalent CGLS have been popularly used over the decades for large-scale linear discrete ill-posed problems, where the iteration number k plays the role of the regularization parameter. It has been long known that if the Ritz values in LSQR converge to the large singular values of A in natural order, that is, they interlace the first k + 1 large singular values of A, until the semi-convergence of LSQR occurs then LSQR must have the same the regularization ability as the truncated singular value decomposition (TSVD) method and can compute a 2-norm filtering best possible regularized solution. However, hitherto there has been no definitive rigorous result on the approximation behavior of the Ritz values in the context of ill-posed problems. In this paper, for severely, moderately and mildly ill-posed problems, we give accurate solutions of the two closely related fundamental and highly challenging problems on the regularization of LSQR: (i) how accurate are the low rank approximations generated by Golub–Kahan bidiagonalization? (ii) Whether or not the Ritz values involved in LSQR approximate the large singular values of A in natural order? We also show how to reliably judge the accuracy of low rank approximations cheaply. Numerical experiments confirm our results.
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