frontal

Do: C = frontal_mtimes(A, b); not: for k=1:size(A,3), C(:,:,k) = A(:,:,k) * b(:,:,k); end
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Updated Sat, 16 Apr 2011 02:45:41 +0000

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These routines assist in the manipulation of matrices with same shape but different content. For example, performing the product A*b is trivial for matrix A and vector b, but what would you do if you had several such products to form? Examples abound: rotations, Jacobians, covariances, etc. Using the frontal routines, you'd collect them all in a three-dimensional matrix or third-order tensor, with each k-th frontal panel of A(:,:,k) and b(:,:,k) storing one such a related matrix and vector. Then calling

C = frontal_mtimes(A, b);

would do the equivalent of

for k=1:size(A,3), C(:,:,k) = A(:,:,k) * b(:,:,k); end

but using internally different algorithms depending on the dimensions of A (including a C-mex option). If you like operator overloading, you can do instead:

A = frontal(A);
b = frontal(b);
C = A*b;

You might want to compile the file frontal_mtimes_helper.c, but it's not required.

After you've unzipped it, test your installation running:

addpath(genpath('c:\work\fx\frontal\'))
test_frontal

(don't do addpath(genpath('c:\work\fx\frontal\frontal\')))

Cite As

Felipe G. Nievinski (2024). frontal (https://www.mathworks.com/matlabcentral/fileexchange/30764-frontal), MATLAB Central File Exchange. Retrieved .

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Created with R2009b
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Version Published Release Notes
1.2.0.0

added acknowledgements; applied more tags.

1.1.0.0

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1.0.0.0