Questions tagged [matrix-decomposition]

In the mathematical discipline of linear algebra, a matrix decomposition or matrix factorization is a factorization of a matrix into a product of matrices.

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Hessenberg matrix decomposition on an image

Hessenberg matrix decomposition can decomposition an image into 3 matrix assume A is the image A=PHP^-1 P is an orthogonal matrix, H is an upper hessenberg matrix Can anyone tell me, what kind of ...
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Manually calculating Pseudo inverse from SVD in R looks wrong?

A<-matrix(c(4,5,5,6,4,3,6,11,31),nrow=3,ncol=3) B B<-cov(A) [,1] [,2] [,3] [1,] 0.3333333 -0.8333333 5.0 [2,] -0.8333333 2.3333333 -17.5 [3,] 5.0000000 -17.5000000 ...
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58 views

Calculating determinants via Cholesky decomposition in PyTorch

I've been trying to calculate the determinant of a 2x2 matrix via Cholesky decomposition in PyTorch and it won't give the same number as Numpy and I'm not sure why. From my understanding, you can ...
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Choleky decomposition using cholmod package

I am trying to use the cholesky decomposition to invert a sparse matrix and I found this great package to help me on my problem. My issue is that I keep getting CholmodNotPositiveDefiniteError ...
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How to compute variance decomposition proportions of correlation matrix in python?

I'm looking to identify collinear variables in my input matrix X. I'm able to get some metrics like VIF scores, condition number, condition indices, but unable to get variance decomposition ...
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LU Decomp in a For loop

I am trying to write a code that decomposes matrix A to solve for vector b for 50 timesteps I am given the b0 vector and am supposed to go from there till I reach the vector b50. Each iteration should ...
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37 views

Scikit-learn NMF return NAN values

I am working with a 6650254x5650 sparse matrix which values are in numpy.float64 format. I am using the NMF implemetnation from scikit-learn as following from sklearn.decomposition import NMF model ...
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Is there a square-root unscented kalman filter function in R?

I have been trying to simulate a quadratic yield curve model and estimate the state variable using a UKF, but after some iterations (usually two) the covariance matrix is not positiv definite anymore, ...
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82 views

Stable Translation from essential decomposition

When implementing monocular SLAM or Structure from Motion using single camera, translation can be estimated up to unknown scale. It is proven that without any other external information, this scale ...
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67 views

Counting the number of negative eigenvalues of a real symmetric matrix

I would like to count the number of negative eigenvalues of a real symmetric matrix $A$. My matrix $A$ is the negative discrete Laplacian + a diagonal matrix in 2 or 3 D (discretization of the ...
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198 views

Complete pivoting (PQLU decomposition) of matrix in python

I am trying to find the rank of matrix using the LU decomposition. as the matrix is not full rank the partial and no pivoting will not work. following is the function created for complete pivoting: ...
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LR decomposition without column pivot search

I want to write LR function in Python but run into some problems import numpy as np def lr(A,b): nrow,ncol = A.shape if nrow != ncol: print('Has to be a square matrix!') else: ...
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94 views

Eigen LLT (Cholesky) fails, while SVD works

I'm trying to reproduce some numpy code on Gaussian Processes (from here) using Eigen. Basically, I need to sample from a multivariate normal distribution: samples = np.random.multivariate_normal(mu....
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Square root of a positive semidefinite matrix in DolphinDB

I have got a positive semidefinite matrix in DolphinDB: A = rand(1.0, 50)$5:10 A = A.dot(A.transpose()) And I need to get its square root, which can be calculated by orthogonal decomposition. In ...
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How to evaluate an image decomposition?

I'm studying an image decomposition and trying an image matrix M decompose a low-rank matrix L and the other matrix E. I'm using Principal Component Pursuit, but I don't know how to evaluate L and E. ...
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Reversing the QR reparamaterization in mgcv

I am working with cubic cyclic splines in the mgcv package. I understand that the model matrix for mgcv includes the intercept and has been reparamaterized using QR decomposition + eigen value ...
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1answer
142 views

Cholesky optimization for Pentadiagonial matrix in python

So I'm working at this pentadiagonial matrix A, size n : (Also here general information for pentadiagonial matrices : https://en.wikipedia.org/wiki/Pentadiagonal_matrix ) I'm using Cholesky ...
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cholesky decomposition floating point error

Implementing the Choleky decomposition in Python without the use of numpy.linalg.* (yes this is an assignment) I encountered a Problem regarding the use of floating point numbers. My Algorithm works ...
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1answer
86 views

Rfast hd.eigen() returns NAs but base eigen() does not

I am having problems with hd.eigen in Rfast. It gives extremely close results to eigen with most data, but sometimes hd.eign returns an empty $vector, NAs, or other undesirable results. For example: ...
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83 views

python Implementation of Proximal alternating linearized minimization algorithm

The updates of the gradients are somehow wrong. I have implemented the below given algorithm. I have done something wrong ''' Implementation of PALM- proximal alternating linearisation method ''' ...
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How to update the results from a solve function to the original L and U matrices?

I can find each equation to solve but I cannot seem to update each computation's result in the original matrix. I tried to itemset in the matrix, replacing the u variables with actual result from ...
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25 views

Gcc gives [1] 504 …what is this?

I compiled a c recipe and have no idea if I got ir right. It did compile. I matched a matrix to the specified format and ran: ./croutLU matrix1 & tee > b The response the first time seemed ...
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196 views

How to obtain correct L and U matrices from LU decomposition of a sparse matrix A, without using scipy.sparse.linalg.splu()?

I have noticed that scipy.sparse.linalg.splu() does not allow me to decompose a sparse matrix A into the correct L and U matrix that I can call separately. The command ''merely'' allows me to ...
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197 views

How come that scipy.linalg.lu() does not return the same L matrix as scipy.sparse.linalg.splu()?

I have the following piece of code where I compute the L matrix of a given square matrix using the command scipy.linalg.lu() and then I do the same thing again except then applied to the sparse form ...
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554 views

Why does scipy.linalg.lu() return the wrong decomposition matrices of square matrix B in this code?

I have the following code of which the outcome is very confusing: import numpy as np import scipy.linalg B = np.array([[2,-1,-2],[-4,6,3],[-4,-2,8]]) P,L,U = scipy.linalg.lu(B) print(L) Which ...
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360 views

Dulmage-Mendelsohn matrix decomposition in Python

Matlab has a function called dmperm that computes the so-called Dulmage–Mendelsohn decomposition of a n x n matrix. From wikipedia, the Dulmage–Mendelsohn is a partition of the vertices of a ...
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2k views

Are eigenvectors returned by R function eigen() wrong?

#eigen values and vectors a <- matrix(c(2, -1, -1, 2), 2) eigen(a) I am trying to find eigenvalues and eigenvectors in R. Function eigen works for eigenvalues but there are errors in eigenvectors ...
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1k views

How to decompose affine matrix?

I have a series of points in two 3D systems. With them, I use np.linalg.lstsq to calculate the affine transformation matrix (4x4) between both. However, due to my project, I have to "disable" the ...
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950 views

SciPy generalized eigenvalues: eig and eigh yield different results [duplicate]

Using scipy, I want to compute a generalized eigenvalue problem (see this link). In my case, matrix A is symmetric and real, albeit not positive definite (it doesnt need to be afaik). Matrix B is ...
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459 views

X_transformed_fit_ attribute error: AttributeError: 'KernelPCA' object has no attribute 'X_transformed_fit_'

I am trying to obtain which features in my dataset affects the principal components, and trying to observe how my data fitted in my Kernel PCA algorithm. I tried to use X_transformed_fit_ attribute ...
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3k views

Eigendecomposition makes me wonder in numpy

I test the theorem that A = Q * Lambda * Q_inverse where Q the Matrix with the Eigenvectors and Lambda the Diagonal matrix having the Eigenvalues in the Diagonal. My code is the following: import ...
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66 views

NURBS: Where can I find these two Linear Algebra utility functions?

I am working through The NURBS Book by Piegl and Tiller. For the global interpolation algorithm, they require you to provide two utility routines for solving a system of linear equations: ...
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1answer
201 views

Solving for Lx=b and Px=b when A=LLt

I am decomposing a sparse SPD matrix A using Eigen. It will either be a LLt or a LDLt deomposition (Cholesky), so we can assume the matrix will be decomposed as A = P-1 LDLt P where P is a permutation ...
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1answer
123 views

EigenvalueDecomposition returns wrong eigenvectors

I'm using the apache.commons.math3 library to calculate eigenvectors of a 3x3 matrix, but the EigenDecomposition methods for calculating eigenvectors return wrong results: here's my code: double[][] ...
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366 views

Why does LU decomposition using Parallel.For not work?

I am trying to solve LU decomposition with the Doolittle Algorithm – according to this document. Without parallelization, code works fine. However, I would like to make this code run in parallel - ...
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631 views

Calculating Eigenvalue and Eigenvector for 3x3 matrix with Accord.NET

I wanted to get the eigenvectors and eigenvalues out of a 3x3 matrix. I've already tried to use the EigenvalueDecomposition from Accord. The problem(?) I have with the resulting eigenvectors is that ...
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222 views

How to do LDL decomposition when all I have is an LU solver that always applies pivoting?

I'm hoping I'm just missing a simple trick of matrix arithmetic, but the issue I'm having is that all I have access to is an LU solver (Matlab LU* or SuperLU) and I need an LDL decomposition of a ...
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152 views

What do the values of latent feature models for user and item matrix in collabarative filter represent?

When decomposing a rating matrix for recommender system, the rating matrix can be written as P* t(Q), which P represents user factor matrix and Q represents item factor matrix. The dimension of Q can ...
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350 views

Recompose Results of OpenCV RQDecomp3x3

After running RQDecomp3x3 in OpenCV, you get: mtxR – Output 3x3 upper-triangular matrix. mtxQ – Output 3x3 orthogonal matrix. Qx – Optional output 3x3 rotation matrix around x-axis. Qy – Optional ...
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843 views

Correct use of pivot in Cholesky decomposition of positive semi-definite matrix

I don't understand how to use the chol function in R to factor a positive semi-definite matrix. (Or I do, and there's a bug.) The documentation states: If pivot = TRUE, then the Choleski ...
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871 views

Cholesky decomposition failure for my correlation matrix

I am trying to use chol() to find the Cholesky decomposition of the correlation matrix below. Is there a maximum size I can use that function on? I am asking because I get the following: d <-...
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1answer
365 views

Verilog synthesis implementing cholesky decomposition

I am implementing Cholesky decomposition in verilog, following python code below def cholesky(A): n = len(A) L = [[0.0] * n for i in xrange(n)] for i in xrange(n): for j in ...
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1k views

Inconsistent results between LU decomposition in R and Python

I have the following matrix A in R: # [,1] [,2] [,3] [,4] # [1,] -1.1527778 0.4444444 0.375 0.3333333 # [2,] 0.5555556 -1.4888889 0.600 0.3333333 # [3,] 0.6250000 0....
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170 views

Turning matrix diagonals to columns

I am looking for a matrix operation of the form: B = M*A*N where A is some general square matrix and M and N are the matrices I want to find. Such that the columns of B are the diagonals of A. The ...
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551 views

How does LU decomposition with partial pivoting work?

I am using the method in which initially the elements on the main diagonal of L are set to ones (think that is Doolittle’s method, but not sure because I have seen it named differently). I know there ...
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Eigen3 Sparse Solver noncopyable

iam working on a numerical code and want to evaluate how Sparse and Dense Matrix-LU decomposition (and later others as well) differ for the usecase of the code. Eigens Dense Decomposition Objects can ...
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2k views

chol() function in R keeps returning Upper Triangular (I need Lower Triangular)

I am trying to get the Lower Triangular Cholesky Decomposition of the following matrix in R using the chol() function. However, it keeps returning the Upper Triangular Decomposition and I can't seem ...
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Suitesparse equivalent for MATLAB A/b of complex semi-symmetric matrix

I am currently using MATLAB to do matrix division of very large, very sparse, complex matrices that are symmetric in structure, but asymmetric in value (i.e. A(1,2)=3+4i and A(2,1)=3-4i). I am now ...
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2answers
193 views

Applying a matrix decomposition for classification using a saved W matrix

I'm performing an NMF decomposition on a tf-idf input in order to perform topic analysis. def decomp(tfidfm, topic_count): model = decomposition.NMF(init="nndsvd", n_components=topic_count, ...
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282 views

What is the difference between computeScalingRotation and computeRotationScaling

In the documentation of Eigen's Transform class, there are two member functions with almost identical signatures: void computeRotationScaling(RotationMatrixType*, ScalingMatrixType*) const void ...