# Tagged Questions

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### 3-sigma Ellipse, why axis length scales with square root of eigenvalues of covariance-matrix

This is my first post on math.stackexchange and i am not a mathematician, but i took some undergrad math courses and some grad mathematical modelling courses, so i come with a basic understanding of ...
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### Complexity of the power method

I'd like to find out what the complexity of the power method is depending on the size of the matrix $A \in \mathbb{R}^{n\times n}$ given that the algorithm runs until a certain stop criterion. I.e. ...
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### Power iteration

If $A$ is a matrix you can calculate its largest eigenvalue $\lambda_1$. What are the exact conditions under which the power iteration converges? Power iteration Especially, I often see that we ...
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### Influence of preconditioning on degenerate eigenvectors

I'm using a hierarchical decomposition of a sparse matrix $A$ as suggested here. I find that the method essentially finds eigenvectors using the QR algorithm. $A$ has some eigenvalues with ...
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### Efficient method for determining to the most positive eigenvalue of a matrix

I am trying to implement an algorithm that requires knowing the largest $\textbf{positive}$ eigenvalue of a $\textbf{real symmetric, non-sparse}$ matrix and the corresponding eigenvector. The actual ...
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### Fast algorithm for approximating Eigenvalue distribution of large sparse matrix

I am interested in the eigenvalue distribution of a huge $2^{16}$x$2^{16}$ Hermitian sparse matrix with spectrum contained in $[-1,1]$. That is I don't need to know all eigenvalues exactly, but rather ...
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### Proof that eigenvector corresponding to simple eigenvalue is continuous

Let $\lambda$ be a simple eigenvalue of $A \in L(C^n)$ and let $x$ be the corresponding eigenvector. Then for $E \in L(C^n)$, $A+E$ has an eigenvalue $\lambda(E)$ and an eigenvector $x(E)$ such that ...
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### Least squares problem with orthonormality constraints

Given $y_1,\ldots,y_n\in \mathbb{R}$,$w\in \mathbb{R}^d$, and $x_1,\ldots x_n\in \mathbb{R}^D$, how do we solve the following optimization problem \begin{align} \min_A \sum_{i=1}^n (y_i-w^TA^Tx_i)^2\\ ...
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### Francis Algorithm (Implicit QR Algorithm)

In Numerical Analysis, we are touching upon QR and Francis Algorithm. I understand that for Francis's Algorithm, we reduce the matrix to its upper Hessenberg form using Householder transform. What I ...
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### Eigenvalue of (1-0) matrix

Assume I have 2 matrices, each of size nxn with only 1 and 0 as entries in both. (n>10) The first matrix (call it A) has each row summing up to 2 (ie: on each row, it has two "1" and n-2 "0"). It is ...
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### Standard symmetric tridiagonal matrix Eigenvalue decomposition algorithm?

Hi I am trying to generate an arbitrary Gauss quadrature rule by using the Golub-Welsh algorithm (here). I need to code this on C++ for my personal project. This algorithm involves the eigenvalue ...
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### About matrix products $A^{T}A$ and $AA^{T}$

I'm investigating the relationship between 2-norms and eigenvalues of $A^{T}A$ and $AA^{T}$, in order to better understand the SVD decomposition. How can I prove that $A^{T}A$ and $AA^{T}$ are ...
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### Power iteration sign of eigenvalue?

I need to write a program which computes all eigenvalues and corresponding eigenvectors. I'd like to use power iterations method (I know that it's not good but it's really necessary). my algorithm ...
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### what is the meaning/characteristics of the component-wise product of right and left eigenvectors.

I have a generic, but seemingly simple question : what is the meaning/characteristics of the component-wise product of right and left eigenvectors (for the same eigenvalue of course) ? let's call ...
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### Completeness of eigenvectors of Hermitian Matrix.

How do you show that eigenvectors of a Hermitian matrix form a complete set of basis?
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### How to find 2x2 matrix with non zero elements and repeated eigenvalues?

I need to find a 2x2 matrix with non zero elements that has eigenvalue = 1 repeated (double). How can i do that? Thanks!
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### Can you compute rank r factorization of a n*n matrix in time O(n^2 r)?

I am wondering if you can compute the SVD/eigenvectors of a rank r matrix of size n*n in time O(n^2 r)? My understanding is that standard eigenvector computations involve bringing matrix into ...
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### is 'chasing the bulge' in the implicit QR algorithm exactly the same as reducing a general matrix to hessenberg form?

When performing the implicit QR algorithm, there's a part where you 'chase the bulge' down the diagonal. While it may not necessarily be numerically or computation-time equivalent, is that ...
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### Generalized minimal residuals: eigenvalues and sets of functions

Can someone help me on this exercise (2 parts)? Thanks! Suppose that $S \subseteq \mathbb{C}$ is a set whose convex hull contains $0$ in it's interior (so $S$ is contained in no half-plane ...
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### On eigenvalues, hermitian matrices and SVD

Are my ideas on the following "true or false"-statements correct? If $A$ is hermitian and $\lambda$ is an eigenvalue of $A$, then $|\lambda|$ is a singular value of $A$. My answer would be ...
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### Library for Jacobi eigenvalue algorithm [closed]

I am looking for a C or C++ or fortran library that implements the Jacobi eigenvalue algorithm: http://en.wikipedia.org/wiki/Jacobi_eigenvalue_algorithm do you know if it is available?
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### Numerical Linear Algebra - Finding the eigenvector associated with a known eigenvalue

I have written a linear solver employing Householder reflections/transformations in ANSI C which solves Ax=b given A and b. I want to use it to find the eigenvector associated with an eigenvalue, like ...
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### Eigenvectors of a matrix reduced to tridiagonal

I am implementing an algorithm to calculate eigenvalues and eigenvectors of a symmetric matrix in a GPU. In order to calculate the eigenvalues I first reduced the matrix to the tridiagonal form using ...