vectorize lsqnonneg?

Question

David Provencher 2011-11-23

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Hi,

I'm currently working with sequences of images and I'm interested in the temporal dynamics of individual pixels. Typically I have a series of approx. 50 images with 250 000 pixels of interest and I want to fit them to 5-10 time-activity curves of reference. I need to do a non-negative fitting because negative coefficients are physically nonsensical in my problem.

At the moment, I'm basically doing this

nPixels = 250 000;
nRefTACs = 5;
nImages = 50;
% imTS := image time series data [nImages x nPixels]
% refTACs := reference time-activity curves [nImages x nRefTACs]
% nnCoeff := fitting coefficients [nRefTACs x nPixels]
nnCoeff = zeros(nRefTACs, nPixels);
for k = 1:nPixels  
  nnCoeff(:,k) = lsqnonneg(refTACs, imTS(:,k));
end

I'm wondering if there would be a way to speed this up by vectorization or by using another optimization function. I've been browsing the optimization toolbox documentation for some time, but I'm not very familiar with optimization in general.

Any help would be appreciated.

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Answer 1

Matthias Klemm 2011-12-9

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lsqnoneg is written in Matlab code. You can open it with the editor and vectorize it yourself to gain some speed. You can't avoid the loops in there I guess. Still you should get some improvement out of it. The only show stopper is mldivide (\) as it is not vectorized. In your case it should work as you already can use mldivide to compute a (not ideal) solution for your problem (because your problem is not overdetermined I think).

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David Provencher 2011-12-13

For some reason, I did not think about doing this, thanks for the suggestion. I managed to cut down computation time by four for my specific problem, so I guess that's something.

About mldivide, it is vectorized, but since the variables in the positive space (P) change from one data vector to the next, there needs to be a loop. In my case, I ended up looping over the unique columns of P (the nth column is the equivalent of P in the original code for the nth data vector) and solving for all variables at once which have identical combination of models (column of P) on a given iteration. However, I'm guessing the efficiency of this can vary on the number of models and data vectors.

Silas Leavesley 2012-12-1

Hi David,

Would you mind posting your modified lsqnonneg, or at least the modified portion of it? I am currently using lsqnonneg for spectral image analysis and would like to see if this would speed things up. Thanks.

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Answer 2

Sean de Wolski 2011-11-23

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https://ww2.mathworks.cn/matlabcentral/answers/22069-vectorize-lsqnonneg#answer_29074

preallocate nnCoeff so that it doesn't change size on each iteration.

nnCoeff = zeros(nRedTACs,nPixels);
for k ...
  nnCoeff(:,k) = lsqnonneg(refTACs, imTS);
end

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Steve Grikschat 2011-12-13

Can you expand this into one large problem? That may or may not make things slower, but it could be worth a try. Additionally, if you have Parallel Computing Toolbox, you could solve these problems in parallel easily.

The reason that (\) is faster than lsqnonneg is that lsqnonneg has to solve a series of linear systems using (\) in order to satisfy the non-negativity constraint.

FYI: I assume that you are actually changing the RHS (imTS) in the loop as well. Your code snippet doesn't show that.

David Provencher 2011-12-14

I'm not sure I understand what you mean by expanding it into one large problem. I would think it means to solve everything at once, as in

Coeff = refTACs \ imTS;

but that is what I was trying to do, except with lsqnonneg instead of mldivide (\).

What I ended up doing was to vectorize all I could inside lsqnonneg and solve as many variables as I could with each call of (\). In short, each call of (\) in lsqnonneg fits the data to a subset of the models, so when I vectorized the code, I solve for all data vectors that call for the same subset of models at once. So basically, now it looks like this :

nnCoeff = lsqnonnegvect(refTACs, imTS);

instead of

for k = 1:nPixels

nnCoeff(:,k) = lsqnonneg(refTACs, imTS(:,k));

end

Also, you are right about imTS, only one pixel at a time is used. Thanks for pointing it out, I just updated it

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