AbstractAn effective algorithm of [M. Morf, Ph.D. Thesis, Department of Electrical Engineering, Stanford University, Stanford, CA, 1974; in: Proceedings of the IEEE International Conference on ASSP, IEEE Computer Society Press, Silver Spring, MD, 1980, pp. 954–959; R.R. Bitmead and B.D.O. Anderson, Linear Algebra Appl. 34 (1980) 103–116] computes the solution x→=T−1b→ to a strongly nonsingular Toeplitz or Toeplitz-like linear system Tx→=b→, a short displacement generator for the inverse T−1 of T, and det T. We extend this algorithm to the similar computations with n×n Cauchy and Cauchy-like matrices. Recursive triangular factorization of such a matrix can be computed by our algorithm at the cost of executing O(nr2log3n) arithmetic operation...
In this paper, we present several high performance variants of the classical Schur algorithm to fact...
AbstractWe present general recurrences for the Padé table that allow us to skip ill- conditioned Pad...
AbstractIn this paper, we present several high performance variants of the classical Schur algorithm...
AbstractAn effective algorithm of [M. Morf, Ph.D. Thesis, Department of Electrical Engineering, Stan...
AbstractUsing the displacement approach and transformation of vectors, the complexity ofsolving stro...
s. We avoid singularity in this algorithm and run it in an arbitrary field by using randomization. W...
Abstract. The papers [MRT05], [CGS07], [XXG12], and [XXCBa] have combined the advanced FMM technique...
The papers [MRT05], [CGS07], [XXG12], and [XXCB14] combine the techniques of the Fast Multipole Meth...
Abstract. We propose a superfast solver for Toeplitz linear systems based on rank structured matrix ...
Matrices with the structures of Toeplitz, Hankel, Vandermonde and Cauchy types are om-nipresent in m...
In this paper a new O(N log3 N ) solver for N × N Toeplitz-like systems, based on a divide and c...
In this paper a new N log^3N solver for N x N Toeplitz-like systems, based on a divide and conquer ...
Fast algorithms to factor Toeplitz matrices have existed since the beginning of this century. The tw...
Bibliography: pages [68]-69.We describe a method for solving a linear system of equations Mx = y, wh...
We describe a fast solver for linear systems with reconstructible Cauchy-like structure, which requi...
In this paper, we present several high performance variants of the classical Schur algorithm to fact...
AbstractWe present general recurrences for the Padé table that allow us to skip ill- conditioned Pad...
AbstractIn this paper, we present several high performance variants of the classical Schur algorithm...
AbstractAn effective algorithm of [M. Morf, Ph.D. Thesis, Department of Electrical Engineering, Stan...
AbstractUsing the displacement approach and transformation of vectors, the complexity ofsolving stro...
s. We avoid singularity in this algorithm and run it in an arbitrary field by using randomization. W...
Abstract. The papers [MRT05], [CGS07], [XXG12], and [XXCBa] have combined the advanced FMM technique...
The papers [MRT05], [CGS07], [XXG12], and [XXCB14] combine the techniques of the Fast Multipole Meth...
Abstract. We propose a superfast solver for Toeplitz linear systems based on rank structured matrix ...
Matrices with the structures of Toeplitz, Hankel, Vandermonde and Cauchy types are om-nipresent in m...
In this paper a new O(N log3 N ) solver for N × N Toeplitz-like systems, based on a divide and c...
In this paper a new N log^3N solver for N x N Toeplitz-like systems, based on a divide and conquer ...
Fast algorithms to factor Toeplitz matrices have existed since the beginning of this century. The tw...
Bibliography: pages [68]-69.We describe a method for solving a linear system of equations Mx = y, wh...
We describe a fast solver for linear systems with reconstructible Cauchy-like structure, which requi...
In this paper, we present several high performance variants of the classical Schur algorithm to fact...
AbstractWe present general recurrences for the Padé table that allow us to skip ill- conditioned Pad...
AbstractIn this paper, we present several high performance variants of the classical Schur algorithm...