3d Matrix - Extract Subarray and Multiply by Conjugate Transpose without Forloops

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Science Machine el 6 de Sept. de 2022

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https://es.mathworks.com/matlabcentral/answers/1797040-3d-matrix-extract-subarray-and-multiply-by-conjugate-transpose-without-forloops

Editada: Science Machine el 8 de Sept. de 2022

I have a 3d matrix A(i,j,k) of size [1:100,1:10000,1:989]. On the kth index I want to extract the 989 elements into a vector u and form the product u*ctranspose(u), for each of the

indices.

Using a double for loop, which is not something one should do in Matlab,

% this is an evil double for loop - I want to avoid doing this.
for ii=1:100
    for jj=1:10000
        u=squeeze(A(ii,jj,:));
        % somehow compute and store uu in a vectorized way, but how?
        uu=u*ctranspose(u); % note that uu is a 989x989 matrix, not a vector.
    end %ii
end %jj

This would be really slow. Is there a vectorized way to the above, so I am not doing a double for loop?

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Matt J el 8 de Sept. de 2022

Probably, but you haven't explained what t and r are.

Science Machine el 8 de Sept. de 2022

Editada: Science Machine el 8 de Sept. de 2022

t and ras parameters are the ii and jj indices from above u of size 1:100 and 1:10000, and the vector $$ has parameters jj also.

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Matt J el 7 de Sept. de 2022

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https://es.mathworks.com/matlabcentral/answers/1797040-3d-matrix-extract-subarray-and-multiply-by-conjugate-transpose-without-forloops#answer_1045435

Editada: Matt J el 7 de Sept. de 2022

Abrir en MATLAB Online

[m,n,p]=size(A);
Ar=reshape(A,[],p).';
UU = reshape(Ar,p,1,[]).*conj(reshape(Ar,1,p,[]));
UU=reshape(UU,p,p,m,n); %obtain the (i,j)-th outer product as UU(:,:,i,j)