# How to factor a matrix to a product of kernel matrices?

Problem statement:

Say we have a set of kernel square matrices = {K1, K2, .., Kn}. Given a matrix A find the product involving the least amount of matrix multiplications which gives: A = Ki * Kj * ... * Kz

Example:

``````Say we have these two matrices in the set of Kernel matrices:
K1 = (1 2)    K2 = (5 6)
(3 4)         (7 8)

Then we have a solution for A=K1*K2=(19 22) and also for B=K1*K1*K2=(105 122)
(43 50)                         (229 266)
``````

Is there any existing C or C++ library which I can use to find the solution? If not, is there any known algorithm/heuristics?

P.S. this is not a homework question or a theoretical question or some other trolly thing. This is a real problem I need to solve for a side project I am working on at my day job.

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What is the typical number and dimensions of the kernel matrices? Is there a upper limit on the number of times a certain kernel can appear in the product? Is a brute-force attitude feasible? – Itamar Katz May 29 '12 at 7:54
Are you trying to work out the set of K matrices required to make a given A matrix? – Skizz May 29 '12 at 8:04
@ItamarKatz Upper limit is 16x16. There is no limit on the number of appearances, but let's say that the Basis usually give a good coverage, so I would not expect many occurances. Brute-force? Only if there is no faster algorithm – zr. May 29 '12 at 8:09
@Skizz Sorry I don't understand – zr. May 29 '12 at 8:09
@Skizz - he is trying to find the decomposition with the least number of matrix multiplications. All kernels are known. – Itamar Katz May 29 '12 at 8:17

You might look at the trace and determinant of the matrix. Since trace and determinant of a product can be computed more efficiently than a full multiplication, they may help you rule out combinations efficiently.

http://en.wikipedia.org/wiki/Trace_(linear_algebra)#Trace_of_a_product http://en.wikipedia.org/wiki/Determinant#Multiplicativity_and_matrix_groups

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I think what you want is a tool to do matrix operations. Eigen may be suit for you. http://eigen.tuxfamily.org/index.php?title=Main_Page

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It seems to support only some special cases, but not what I need: eigen.tuxfamily.org/dox-devel/… – zr. Jun 2 '12 at 12:45