Vec-trick implementation (multiple times)

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Dear all,
the question is related to Tensorproduct. Since the question was not answered as intended, i want to revisit the question.
Introduction:
Suppose you have a matrix vector multiplication, where a matrix C with size (np x mq) is constructed by a Kronecker product of matrices A with size (n x m) and B with size (p x q). The vector is denoted v with size (mp x 1) or its vectorized version X with size (m x p).
In two dimensions this operation can be performed with O(npq+qnm) operations instead of O(mqnp) operations, see Wikipedia.
Expensive variant (in case of flops):
Cheap variant (in case of flops):
Main question:
I want to perform many of these operations at ones, e.g. 2500000. Example: n=m=p=q=7 with A=size(7x7), B=size(7x7), v=size(49x2500000).
In Tensorproduct i have implemented a MeX-C version of the cheap variant which is quite slower than a Matlab version of the expensive variant provided by Bruno Luong.
Is it possible to implement the cheap version in Matlab without looping?
  5 Comments
Bruno Luong
Bruno Luong on 23 Aug 2021
Because smaller flops doesn't mean necessary faster. Memory access, cache, thread management are as well important, and which is fatest method probably depends on n=m=p=q.
ConvexHull
ConvexHull on 23 Aug 2021
Edited: ConvexHull on 23 Aug 2021
Yeah that's definitly the case here.
The main problem is that, if you want to perform the Vec-trick multiple times in a vectorized fashion you have to reorder the datastructure. After applying AX you cannot perform a Matrix-Matrix multiplication directly with B.
Stupid Memory access O.o!

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Accepted Answer

ConvexHull
ConvexHull on 24 Aug 2021
Edited: ConvexHull on 25 Aug 2021
Here is a pure intrinsic Matlab version without loops, however with two transpose operations and quite slow.
n=7;m=7;p=7;q=7;
A = rand(n,m);
B = rand(p,q);
v = rand(m*p,500000,5);
n = 5;
C = kron(B,A);
tic
for i=1:n
v1 = reshape(C*reshape(v,49,[]),size(v));
end
toc % Elapsed time is 0.456353 seconds
tic
for i=1:n
v2 = reshape(reshape(B*reshape((A*reshape(v,7,[])).',7,[]),7*2500000,[]).',7,[]);
end
toc % Elapsed time is 3.879752 seconds
max(abs(v1(:)-v2(:)))
% 1.4211e-14
  22 Comments
Stefano Cipolla
Stefano Cipolla on 14 Sep 2023
Edited: Stefano Cipolla on 14 Sep 2023
Hi there! May I ask if you are aware of implementation of functions similar to "pagemtimes" but able to work with at least one sparse input? Alternatively do you see any easy workaround? More precisely I need someting like
pagemtimes(A, V)
where A is a nxnxn sparse real tensor and V is a real dense nxn matrix...
Bruno Luong
Bruno Luong on 14 Sep 2023
Edited: Bruno Luong on 14 Sep 2023
@Stefano Cipolla "sparse real tensor"
I'm not aware this native MATLAB class.
But you can put the A as diagonal block of n^2 x n^2 sparse matrix
SA = [A(:,:,1) 0 0 ... 0
0 A(:,:,2) 0 ... 0
...
9=0 0 ... A(:,:,n)]
Do the same expansion for V (with the same block) then solve it

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