How parallelize the solution of sparse matrices using mldivide

6 views (last 30 days)
Emil Partsch
Emil Partsch on 28 Feb 2019
Edited: Emil Partsch on 5 Mar 2019
I am trying to parallelize the solution of
x= A\B (mldivide.
My variables are: x = V(I*J*K), A = A(I*J*K x I*J*K) sparse matrix, vec = u (I,J,K) +V/constant +Bswitch (I*J*K x I*J*K)*V
To do this without parallelization, my code currently does this:
V_stacked = reshape(V,I*J*L,1);
vec = u_stacked + V_stacked/Delta + Bswitch*V_stacked;
V_stacked = A\vec;
To parallelize I have tried
u_stacked = reshape(u,I*J,L);
V_stacked = reshape(V,I*J,L);
BswitchTimesVstacked = Bswitch*reshape(V,I*J*L,1);
BswitchTimesVstacked = reshape(BswitchTimesVstacked,I*J,L);
vec = u_stacked + V_stacked/Delta + BswitchTimesVstacked;
tic
parfor l = 1:L
V_stacked(:,l) = A(:,:,l)\vec(:,l);
end
But as A is still I*J*L times I*J*L, it wont work. I am not sure if 1. what I am doing so far is correct and 2. how to reshape B appropriately.
Mathematical info is here: http://www.princeton.edu/~moll/HACTproject/two_asset_kinked.pdf (section 4)
Any help is highly appreciated :-)
  4 Comments
Show 2 older comments
Matt J
Matt J on 1 Mar 2019
V_stacked(:,l) = A(:,:,l)\vec(:,l);
If A is sparse, how in the above line did you reshape it into a 3D array so as to make it 3D indexable?
Emil Partsch
Emil Partsch on 1 Mar 2019
Edited: Emil Partsch on 1 Mar 2019
I didn't - I made a mistake in the last sentence which I just edited: it should have said "But as A is still I*J*L times I*J*L, it wont work."
The reason I'm doing it as so is that I am trying to replicate how it's done here starting at line 120: https://github.com/ikarib/HANK/blob/master/mycode/HJBUpdate.m

Sign in to comment.

Sign in to answer this question.

Accepted Answer

Matt J
Matt J on 4 Mar 2019
You can make a 3D stack of sparse matrices A(:,:,l) by converting them to ndSparse type. Then, the parfor construct will work. Alternatively, you can make a block diagonal matrix where all the A(:,:,l) form the diagonal blocks. Then you can solve all systems simultaneously, which would take advantage of Matlab's internal parallelization. I don't know which would be faster.
  5 Comments
Show 3 older comments
Matt J
Matt J on 4 Mar 2019
Was it faster when you used parfor? I would not expect so.
Emil Partsch
Emil Partsch on 5 Mar 2019
Edited: Emil Partsch on 5 Mar 2019
It depends on the size of the I, J and K. For the sizes I originally used, it didn't really matter

Sign in to comment.

More Answers (1)

Matt J
Matt J on 28 Feb 2019
Edited: Matt J on 28 Feb 2019
I recommend using
V_stacked = pagefun(@mldivide,gpuArray(A),gpuArray(vec));

Categories

Find more on Creating and Concatenating Matrices in Help Center and File Exchange

Tags

Products


Release

R2018b

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!