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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

移位QR算則在三對角矩陣上之收斂 / Convergence of the Shifted QR Algorithm on Tridiagonal Matrices

蔡淑芬, Tsai ,Shu-Fen Unknown Date (has links)
在計算矩陣的特徵值(eigenvalues)中,QR演算法是一種常見的技巧. 尤其如果使用適當的移位,將可以較快得到特徵值. 在本文中提出一種新的移位策略, 我們證明這各方法是可行的,而且可適用於任何矩陣. 換句說, 本篇論文主旨即是提出有關新的移位QR演算法的收斂. / The QR algorithm is a popular method for computing all the eigenvalues of a dense matrix. If we use a proper shift, we can accelerate convergence of the iterative process. Hence, we design a new shift strategy which includes an eigenvalue of the trailing principal 3-by-3 submatrix of the tridiagonal matrix. We prove the global convergence of the new strategy. In other words, the purpose of this thesis is to propose a theory of the convergence of a new shifted QR algorithm.
2

Algorithm design for structured matrix computations

Huang, Yuguang January 1999 (has links)
No description available.
3

GMRES ON A TRIDIAGONAL TOEPLITZ LINEAR SYSTEM

Zhang, Wei 01 January 2007 (has links)
The Generalized Minimal Residual method (GMRES) is often used to solve a nonsymmetric linear system Ax = b. But its convergence analysis is a rather difficult task in general. A commonly used approach is to diagonalize A = XΛX-1 and then separate the study of GMRES convergence behavior into optimizing the condition number of X and a polynomial minimization problem over As spectrum. This artificial separation could greatly overestimate GMRES residuals and likely yields error bounds that are too far from the actual ones. On the other hand, considering the effects of both As spectrum and the conditioning of X at the same time poses a difficult challenge, perhaps impossible to deal with in general but only possible for certain particular linear systems. This thesis will do so for a (nonsymmetric) tridiagonal Toeplitz system. Sharp error bounds on and sometimes exact expressions for residuals are obtained. These expressions and/or bounds are in terms of the three parameters that define A and Chebyshev polynomials of the first kind or the second kind.
4

Algoritmo paralelo para determinação de autovalores de matrizes hermitianas

Miranda, Wilson Domingos Sidinei Alves 05 August 2015 (has links)
Dissertação (mestrado)–Universidade de Brasília, Universidade UnB de Planaltina, Programa de Pós-Graduação em Ciência de Materiais, 2015. / Submitted by Raquel Viana (raquelviana@bce.unb.br) on 2016-06-01T21:17:59Z No. of bitstreams: 1 2015_WilsonDomingosSidineiAlvesMiranda.pdf: 850688 bytes, checksum: ebf1c7ea3222d989fe0dd442d10edd33 (MD5) / Approved for entry into archive by Raquel Viana(raquelviana@bce.unb.br) on 2016-06-01T21:18:27Z (GMT) No. of bitstreams: 1 2015_WilsonDomingosSidineiAlvesMiranda.pdf: 850688 bytes, checksum: ebf1c7ea3222d989fe0dd442d10edd33 (MD5) / Made available in DSpace on 2016-06-01T21:18:28Z (GMT). No. of bitstreams: 1 2015_WilsonDomingosSidineiAlvesMiranda.pdf: 850688 bytes, checksum: ebf1c7ea3222d989fe0dd442d10edd33 (MD5) / Um dos principais problemas da álgebra linear computacional é o problema de autovalor, Au = lu, onde A é usualmente uma matriz de ordem grande. A maneira mais efetiva de resolver tal problema consiste em reduzir a matriz A para a forma tridiagonal e usar o método da bissecção ou algoritmo QR para encontrar alguns ou todos os autovalores. Este trabalho apresenta uma implementação em paralelo utilizando uma combinação dos métodos da bissecção, secante e Newton-Raphson para a solução de problemas de autovalores de matrizes hermitianas. A implementação é voltada para unidades de processamentos gráficos (GPUs) visando a utilização em computadores que possuam placas gráficas com arquitetura CUDA. Para comprovar a eficiência e aplicabilidade da implementação, comparamos o tempo gasto entre os algoritmos usando a GPU, a CPU e as rotinas DSTEBZ e DSTEVR da biblioteca LAPACK. O problema foi dividido em três fases, tridiagonalização, isolamento e extração, as duas últimas calculadas na GPU. A tridiagonalização via DSYTRD da LAPACK, calculada em CPU, mostrou-se mais eficiente do que a realizada em CUDA via DSYRDB. O uso do método zeroinNR na fase de extração em CUDA foi cerca de duas vezes mais rápido que o método da bissecção em CUDA. Então o método híbrido é o mais eficiente para o nosso caso. _______________________________________________________________________________________________ ABSTRACT / One of the main problems in computational linear algebra is the eigenvalue problem Au = lu, where A is usually a matrix of big order. The most effective way to solve this problem is to reduce the matrix A to tridiagonal form and use the method of bisection or QR algorithm to find some or all of the eigenvalues. This work presents a parallel implementation using a combination of methods bisection, secant and Newton-Raphson for solving the eigenvalues problem for Hermitian matrices. Implementation is focused on graphics processing units (GPUs) aimed at use in computers with graphics cards with CUDA architecture. To prove the efficiency and applicability of the implementation, we compare the time spent between the algorithms using the GPU, the CPU and DSTEBZ and DSTEVR routines from LAPACK library. The problem was divided into three phases, tridiagonalization, isolation and extraction, the last two calculated on the GPU. The tridiagonalization by LAPACK’s DSYTRD, calculated on the CPU, proved more efficient than the DSYRDB in CUDA. The use of the method zeroinNR on the extraction phase in CUDA was about two times faster than the bisection method in CUDA. So the hybrid method is more efficient for our case.
5

[en] RECOVERY OF TRIDIAGONAL MATRICES FROM SPECTRAL DATA / [pt] RECUPERAÇÃO DE MATRIZES TRIDIAGONAIS A PARTIR DE DADOS ESPECTRAIS

ANTONIO MARIA V MAC DOWELL DA COSTA 04 April 2024 (has links)
[pt] A identificação algorítmica de matrizes de Jacobi a partir de variáveis espectrais é um tema tradicional de análise numérica. Uma nova representação, as coordenadas bidiagonais, naturalmente exigiu que fosse considerado um novo algoritmo. O algoritmo é apresentado e confrontado com as técnicas habituais. / [en] Algorithms relating Jacobi matrices and spectral variables are standard objects in numerical analysis. The recent discovery of bidiagonal coordinates led to the search of an appropriate algorithm for these new variables. The new algorithm is presented and compared with previous techniques.
6

Determinação de autovalores e autovetores de matrizes tridiagonais simétricas usando CUDA

Rocha, Lindomar José 04 August 2015 (has links)
Dissertação (mestrado)–Universidade de Brasília, Universidade UnB de Planaltina, Programa de Pós-Graduação em Ciência de Materiais, 2015. / Submitted by Fernanda Percia França (fernandafranca@bce.unb.br) on 2015-12-15T17:59:17Z No. of bitstreams: 1 2015_LindomarJoséRocha.pdf: 1300687 bytes, checksum: f028dc5aba5d9f92f1b2ee949e3e3a3d (MD5) / Approved for entry into archive by Raquel Viana(raquelviana@bce.unb.br) on 2016-02-29T22:14:44Z (GMT) No. of bitstreams: 1 2015_LindomarJoséRocha.pdf: 1300687 bytes, checksum: f028dc5aba5d9f92f1b2ee949e3e3a3d (MD5) / Made available in DSpace on 2016-02-29T22:14:44Z (GMT). No. of bitstreams: 1 2015_LindomarJoséRocha.pdf: 1300687 bytes, checksum: f028dc5aba5d9f92f1b2ee949e3e3a3d (MD5) / Diversos ramos do conhecimento humano fazem uso de autovalores e autovetores, dentre eles têm-se Física, Engenharia, Economia, etc. A determinação desses autovalores e autovetores pode ser feita utilizando diversas rotinas computacionais, porém umas mais rápidas que outras nesse senário de ganho de velocidade aparece a opção de se usar a computação paralela de forma mais especifica a CUDA da Nvidia é uma opção que oferece um ganho de velocidade significativo, nesse modelo as rotinas são executadas na GPU onde se tem diversos núcleos de processamento. Dada a tamanha importância dos autovalores e autovetores o objetivo desse trabalho é determinar rotinas que possam efetuar o cálculos dos mesmos com matrizes tridiagonais simétricas reais de maneira mais rápida e segura, através de computação paralela com uso da CUDA. Objetivo esse alcançado através da combinação de alguns métodos numéricos para a obtenção dos autovalores e um alteração no método da iteração inversa utilizado na determinação dos autovetores. Temos feito uso de rotinas LAPACK para comparar com as nossas rotinas desenvolvidas em CUDA. De acordo com os resultados, a rotina desenvolvida em CUDA tem a vantagem clara de velocidade quer na precisão simples ou dupla, quando comparado com o estado da arte das rotinas de CPU a partir da biblioteca LAPACK. ______________________________________________________________________________________________ ABSTRACT / Severa branches of human knowledge make use of eigenvalues and eigenvectors, among them we have physics, engineering, economics, etc. The determination of these eigenvalues and eigenvectors can be using various computational routines, som faster than others in this speed increase scenario appears the option to use the parallel computing more specifically the Nvidia’s CUDA is an option that provides a gain of significant speed, this model the routines are performed on the GPU which has several processing cores. Given the great importance of the eigenvalues and eigenvectors the objective of this study is to determine routines that can perform the same calculations with real symmetric tridiagonal matrices more quickly and safely, through parallel computing with use of CUDA. Objective that achieved by some combination of numerical methods to obtain the eigenvalues and a change in the method of inverse iteration used to determine of the eigenvectors, which was used LAPACK routines to compare with routine developed in CUDA. According to the results of the routine developed in CUDA has marked superiority with single or double precision, in the question speed regarding the routines of LAPACK.
7

Exact discretizations of two-point boundary value problems

Windisch, G. 30 October 1998 (has links) (PDF)
In the paper we construct exact three-point discretizations of linear and nonlinear two-point boundary value problems with boundary conditions of the first kind. The finite element approach uses basis functions defined by the coefficients of the differential equations. All the discretized boundary value problems are of inverse isotone type and so are its exact discretizations which involve tridiagonal M-matrices in the linear case and M-functions in the nonlinear case.
8

Band structures of topological crystalline insulators / Bandstrukturer för topologiska kristallina isolatorer

Edvardsson, Elisabet January 2018 (has links)
Topological insulators and topological crystalline insulators are materials that have a bulk band structure that is gapped, but that also have toplogically protected non-gapped surface states. This implies that the bulk is insulating, but that the material can conduct electricity on some of its surfaces. The robustness of these surface states is a consequence of time-reversal symmetry, possibly in combination with invariance under other symmetries, like that of the crystal itself. In this thesis we review some of the basic theory for such materials. In particular we discuss how topological invariants can be derived for some specific systems. We then move on to do band structure calculations using the tight-binding method, with the aim to see the topologically protected surface states in a topological crystalline insulator. These calculations require the diagonalization of block tridiagonal matrices. We finish the thesis by studying the properties of such matrices in more detail and derive some results regarding the distribution and convergence of their eigenvalues.
9

Exact discretizations of two-point boundary value problems

Windisch, G. 30 October 1998 (has links)
In the paper we construct exact three-point discretizations of linear and nonlinear two-point boundary value problems with boundary conditions of the first kind. The finite element approach uses basis functions defined by the coefficients of the differential equations. All the discretized boundary value problems are of inverse isotone type and so are its exact discretizations which involve tridiagonal M-matrices in the linear case and M-functions in the nonlinear case.
10

Les relations de q-Dolan-Grady d'ordre supérieur et certains systèmes intégrales quantiques / The higher order q-Dolan-Grady relations and quantum integrable systems

Vu, Thi Thao 24 November 2015 (has links)
Dans cette thèse, la connexion entre certaines structures algébriques récentes (algèbres tridiagonales, algèbre q-Onsager, algèbres q-Onsager généralisées), la théorie des représentations (paire tridiagonale, paire de Leonard, polynômes orthogonaux), certaines des propriétés de ces algèbres et l’analyse de modèles intégrables quantiques sur le réseau (la chaîne de spin XXZ ouverte aux racines de l’unité) est considérée. / In this thesis, the connection between recently introduced algebraic structures (tridiagonal algebra, q-Onsager algebra, generalized q-Onsager algebras), related representation theory (tridiagonal pair, Leonard pair, orthogonal polynomials), some properties of these algebras and the analysis of related quantum integrable models on the lattice (the XXZ open spin chain at roots of unity) is considered.

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