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I am currently trying to implement a product of Matrices in CUDA : The first Matrix is a 3D matrix (N,M,Z) and the second one is a 2D Matrix (M, L ). I cannot see what is wrong in my code for this multiplication. Could someone help me on this issue? Thank you

Here is my Kernel:

__global__ void matrixMul(float * A, float * B, float * C,int N, int M, int Z, int L) {
int idx = blockIdx.x*blockDim.x + threadIdx.x;
int idy = blockIdx.y*blockDim.y + threadIdx.y;

for(int z=0; z<width; z++){
    C[idx*width+idy] +=  A[idy + idx*width ]*B[idx*width+idy+z*width*height];

share|improve this question
What exactly is your problem? And wouldn't it be better, to name the kernel matrixMult instead of matrixAdd? – Stefan Apr 23 '13 at 10:02
You are trying to calculate a hypermatrix product? or something else? – talonmies Apr 23 '13 at 10:06
Hello, My isssue is the fastest way to get my results. I am trying to run a concurrent computation of this product. I have some doubt regarding my indexing. I think that C(i,j,t) = sum i=1 to n ( a (r + it)*B(i,t)... The previous indexation has given some strange results.. – ALFRAM Apr 23 '13 at 10:11
You should read about usage of shared memory and working with thread blocks of special sizes (warps) to optimize your code. – Stefan Apr 23 '13 at 10:42

The problem I see is row/column numbering.

z should be in both A and B matrix indexes. The rule of multiplying matrices states:

(AB)ij = sum(k) Aik * Bkj

so I assume for your example would be someting like

(AB)ij = sum(k,e) Aik * Bkje

share|improve this answer
I have changed my indexes in the following way. I know both are correct since I am able to get back the original matrices but once the product is performed, the result is totally wrong. for(int z=0; z<width; z++) C[idxwidth+idy] = A[idy + idxwidth]*B[idy*l + idx]; – ALFRAM Apr 23 '13 at 12:39

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