Page-wise Diagonalization?

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Ty Clements
Ty Clements el 28 de Jun. de 2023
Respondida: Matt J el 3 de Jul. de 2023
Does anyone know a fast way to do a page-wise diagonalization? I have an array A of size [n,1,m] and want an array B of size [n,n,m] where the diagonals of B are the orignal vectors of A. I know I can call diag(A(:,1,i)) in a loop but that is time inefficent, and I can't use pagefun because the school I get my liscense from blocks it for some reason. Any good ideas on how to do this?

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DGM
DGM el 29 de Jun. de 2023
Ran in:
This isn't much, but it's one idea. The meager speed advantage falls off for small inputs. diag() is pretty fast to begin with, but I'm not the clever one around here,
n = 1000;
m = 1000;
A = (1:n).' + 10*permute(0:m-1,[1 3 2]); % test array
% using diag() in a loop
tic
B0 = zeros(n,n,m);
for k = 1:m
B0(:,:,k) = diag(A(:,1,k));
end
toc
Elapsed time is 3.228410 seconds.
% doing a thing with linear indexing
tic
idx = (1:n+1:n^2).' + n^2.*(0:m-1);
B = zeros(n,n,m);
B(idx) = A;
toc
Elapsed time is 1.190878 seconds.
isequal(B,B0)
ans = logical
1
  1 comentario
Ty Clements
Ty Clements el 3 de Jul. de 2023
Thank you. This works the best because I didn't say it, but the nondiagonal elements of B couldn't be changed, as I was using their columns in the compuation and already set. I was just trying to minimize the time as far as I could for the function for an optimization algorithm's fitness funtion.

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Más respuestas (2)

Ram Sreekar
Ram Sreekar el 29 de Jun. de 2023
Hi Ty Clements,
As per my understanding, you want to perform page-wise diagonalization of a matrix ‘A’ of dimension [n, 1, m] such that the resulting matrix ‘B’ (say) is of dimension [n, n, m] where every B(:, :, i) is a diagonal matrix such that the diagonal elements are vectors A(:, :, i) for all i=1 to m.
You can refer to the example code given below.
% Example input array A of size [n,1,m]
A = rand(3, 1, 2);
% Get the size of A
[n, ~, m] = size(A);
% Create a 3D identity matrix of size [n, n, m]
I = repmat(eye(n), 1, 1, m);
% Perform element-wise multiplication between A and I using bsxfun
B = bsxfun(@times, A, I);
% Reshape B to size [n, n, m]
B = reshape(B, n, n, m);
Here, the ‘repmat’ function is used to create a matrix I of dimension [n, n, m] where every I(:, :, i) for i=1 to m is an Identity matrix.
The ‘bsxfun’ function is used to perform element-wise multiplication of A and I.
You can refer to links given below for detailed explanation of both the functions ‘repmat’ and ‘bsxfun’.
Repeat copies of array - MATLAB repmat - MathWorks India
Apply element-wise operation to two arrays with implicit expansion enabled - MATLAB bsxfun - MathWorks India
Hope this helps you resolve your query.
  1 comentario
DGM
DGM el 29 de Jun. de 2023
Ran in:
If you're using bsxfun(), there's no need to use repmat; also, there's no need to reshape the result.
n = 1000;
m = 100;
A = randi(9,n,1,m);
tic
% original method
B0 = zeros(n,n,m);
for k = 1:m
B0(:,:,k) = diag(A(:,1,k));
end
toc
Elapsed time is 0.328146 seconds.
tic
% Create a 3D identity matrix of size [n, n, m]
I = repmat(eye(n), 1, 1, m);
% Perform element-wise multiplication between A and I using bsxfun
B1 = bsxfun(@times, A, I);
% Reshape B to size [n, n, m]
B1 = reshape(B1, n, n, m);
toc
Elapsed time is 0.342850 seconds.
tic
% cuts the time in half
B2 = bsxfun(@times, A, eye(n));
toc
Elapsed time is 0.143244 seconds.
tic
% implicit array expansion works without bsxfun() since R2016b
B3 = A.*eye(n);
toc
Elapsed time is 0.156168 seconds.
isequal(B1,B0)
ans = logical
1
isequal(B2,B0)
ans = logical
1
isequal(B3,B0)
ans = logical
1

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Matt J
Matt J el 3 de Jul. de 2023
Ran in:
A=rand(4,1,3); pagetranspose(A)
ans =
ans(:,:,1) = 0.0282 0.8509 0.5499 0.7632 ans(:,:,2) = 0.3504 0.5504 0.0568 0.5077 ans(:,:,3) = 0.1700 0.2185 0.4936 0.1387
[n,~,p]=size(A);
B=zeros(n^2,p);
B(1:n+1:end,:)=reshape(A,n,p);
B=reshape(B,n,n,p)
B =
B(:,:,1) = 0.0282 0 0 0 0 0.8509 0 0 0 0 0.5499 0 0 0 0 0.7632 B(:,:,2) = 0.3504 0 0 0 0 0.5504 0 0 0 0 0.0568 0 0 0 0 0.5077 B(:,:,3) = 0.1700 0 0 0 0 0.2185 0 0 0 0 0.4936 0 0 0 0 0.1387

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