# 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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### 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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### 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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### 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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### 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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### 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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94 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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358 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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278 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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218 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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138 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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272 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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### 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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### Tensor factorization for dynamic graphs

I have two matrices of normalized read counts for control and treatment in a time series day1 to day26. I want to calculate a tensor to decompose which parts of the lead-responses are specific to
a ...

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### 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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### 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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### 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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### 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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101 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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108 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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### 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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422 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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### 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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196 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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915 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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### 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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174 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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### 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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132 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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162 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 ...

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### How to output 2 or more arrays in a fortran's function?

I am writing a program which computes the LU decomposition of a matrix, with partial pivoting, and I would like the function to output several (2 or 3) matrices without running the program several ...

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### How to impose sparseness constraints in Sklearn NMF library's cd solver?

Recently, I found out that the Sklearn NMF library deprecated its pg solver and now uses its cd solver.
With the cd solver, I don't think I can apply sparseness constraints. Or maybe the L1 rate ...

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### Most efficient method for computing Singular Value Decomposition for an upper triangular matrix?

There are several methods available for computing SVD of a general matrix. I am interested to know about the best approach which could be used for computing SVD of an upper triangular matrix. Please ...

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### My example shows SVD is less numerically stable than QR decomposition

I asked this question in Math Stackexchange, but it seems it didn't get enough attention there so I am asking it here. https://math.stackexchange.com/questions/1729946/why-do-we-say-svd-can-handle-...

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206 views

### MvNormal Error with Symmetric & Positive Semi-Definite Matrix

The summary of my problem is that I am trying to replicate the Matlab function:
mvnrnd(mu', sigma, 200)
into Julia using:
rand( MvNormal(mu, sigma), 200)'
and the result is a 200 x 7 matrix, ...

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292 views

### Writing an R function that outputs maximum likelihood estimates?

How would I write an R function that takes a response vec y and covariate matrix X and outputs a vector of maximum likelihood estimates of coefficients β where μ = Xβ And E[Y] = μ, where Y is an ...

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142 views

### 2D image decomposition

I have a matrix and I want to decompose it into different matrices with low to high frequency limit. As I have noticed, it can be done using wavelet transform. I found something like the figure below ...

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### NMF Sparse Matrix Analysis (using SKlearn)

Just looking for some brief advice to put me back on the right track. I have been working on a solution to a problem where I have a very sparse input matrix (~25% of information filled, rest is 0's) ...

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214 views

### How to exactly compute rank of binary matrix in Eigen?

I have a matrix of 0's and 1's, and wish to compute its rank. One approach is to compute an approximate decomposition and return a count of the number of pivots that exceed some small threshold.
...

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364 views

### Using fewer loops for LU decomposition

There are several ways in Matlab to calculate "LU decomposition". Here is one:
function [L,A]=LU_factor(A,n)
L=eye(n);
for k=1:n
if (A(k,k) == 0) Error('Pivoting is needed!'); end
L(k+1:...

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### How Matlab equality approximation works?

In the following code, I followed a procedure to create a random positive definite matrix P.
At first, I created a singular value decomposition [U,S,V] of a random array A and I am trying to verify ...

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### How to reuse decomposed LU matrix to solve Ax = b in JBLAS

I have started working with JBLAS, but I am facing an issue,
doubleMatrix x = Solve.solve(A,b);
This gives the results just fine. But if i wish to do a recalculation to find Ax = b1, then it will go ...

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132 views

### R function for Matrix Multiplication and Addition

After performing SVD on a matrix, I would like to create a function (I'm not good with functions in R yet) that creates a reduced matrix per my specified n-value.
For instance, here is the R code for ...

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### cholesky decomposition in python

I'm trying to use cholesky decomposition in python, with numpy (np) and scikits (sci) libraries. Assume that D is sparse (using csc_matrix). The results of the following two lines are different
L1 = ...

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### one of Eigenvalues of covariance matrix is negative in R

I have a data set x. And I use cov(x) to calculate the covariance of x. I want to calculate the inverse square root of cov(x). But I get negative eigenvalue of cov(x).
Here is my code
S11=cov(x)
S=...

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### Reorder eigenvalues in Schur factorization in Eigen library

I am using Eigen library with Eclipse C++. I wonder if there is a method or a function that I can use to reorder the Schur factorization X = UTU' produced by the RealSchur function and return the ...

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### MATLAB LU Decomposition Partial pivoting

I'm trying to work with my lu decomposition largely based on LU decomposition with partial pivoting Matlab
function [L,U,P] = lup(A)
n = length(A);
L = eye(n);
U = zeros(n);
P = eye(n);
for k=1:n-1
%...

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835 views

### the use of combining max, xrange and lambda function in python

I have found a code that pivotize a square matrix for LU decomposition, but I can't understand some of them.
def pivotize(m):
"""Creates the pivoting matrix for m."""
n = len(m)
ID = [[...

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331 views

### LU Decomposition

i did an exercise with LU decomposition in Matlab, my professor highlighted some problems, but i don't understand what i should correct.
This is for the lower triangular matrix:
function b = triI(A,...