2010
DOI: 10.1137/090755412
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On the Convergence of Rational Ritz Values

Abstract: Abstract. Ruhe's rational Krylov method is a popular tool for approximating eigenvalues of a given matrix, though its convergence behavior is far from being fully understood. Under fairly general assumptions we characterize in an asymptotic sense which eigenvalues of a Hermitian matrix are approximated by rational Ritz values and how fast this approximation takes place. Our main tool is a constrained extremal problem from logarithmic potential theory, where an additional external field is required for taking i… Show more

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Cited by 17 publications
(8 citation statements)
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“…When the matrix is not unitary, then the underlying theory is for polynomials and ORFs that are orthogonal with respect to a measure supported on the real line or a real interval and convergence has been studied based on the asymptotic behaviour of the ORFs and the approximation error (see for example [5,13]). For the unitary case such a theory is much less developed.…”
Section: Relation With Direct and Inverse Eigenvalue Problemsmentioning
confidence: 99%
“…When the matrix is not unitary, then the underlying theory is for polynomials and ORFs that are orthogonal with respect to a measure supported on the real line or a real interval and convergence has been studied based on the asymptotic behaviour of the ORFs and the approximation error (see for example [5,13]). For the unitary case such a theory is much less developed.…”
Section: Relation With Direct and Inverse Eigenvalue Problemsmentioning
confidence: 99%
“…In view of the behavior of our adaptive rational Arnoldi method for the above symmetric matrices, we believe that the convergence can be asymptotically (that is, for a sequence of symmetric matrices growing larger in size and having a joint limit eigenvalue distribution) compared to min-max rational functions with poles on Γ and zeros on Σ being constrained Leja points in the sense of [11]. The constraint for the zeros is given by the interlacing property of Ritz values associated with symmetric matrices (see, e.g., [7]). …”
Section: 1mentioning
confidence: 99%
“…In fact, our new method typically even outperforms such methods due to the spectral adaption of the poles during the iteration. A rigorous convergence analysis, perhaps involving tools from potential theory as in [7,6], for explaining spectral adaption of this rational Arnoldi variant applied with a symmetric matrix, may be an interesting research problem.…”
Section: Comparison With Fixed Pole Sequencesmentioning
confidence: 99%
“…An arbitrary unitary matrix U can be factored in sequences of rotations as the left matrix in Scheme (7), in fact one just computes the Q R-factorization and R becomes the identity matrix. 1 Applying successive shift-through operations can change the ∧-form on the left in a ∨-form on the right.…”
Section: Lemma 11 (Shift-through Operation Of Length ) Suppose We Havmentioning
confidence: 99%
“…, v). In [1,7,15,16] the convergence of (rational) Ritz-values to eigenvalues is studied and it is proven that under mild conditions on, e.g., the starting vector, the Ritz-values approximate those eigenvalues well-separated from the rest of the spectrum first. In some circumstances these are not the eigenvalues one wants to find first, as a result shift and invert techniques are used resulting in rational Ritz-values.…”
Section: Part Of the Matrix In The Desired Structurementioning
confidence: 99%