i am creating a simple matrix multiplication procedure, operating on the Intel Xeon Phi architecture.The procedure looks like this (parameters are A, B, C), and the timing doesn't include initialization:
//start timing
for(int i = 0; i < size; i++){
for(int k = 0; k < size; k++) {
register TYPE aik = A[i][k];
for(int j = 0; j < size; j++) {
C[i][j] += aik * B[k][j];
}
}
}
//end timing
I am using restrict, aligned data and so on. However, if the matrices are allocated using dynamic memory (posix_memalign), the computation incurs in a severe slow down, i.e. for TYPE=float and 512x512 matrices takes ~0.55s in the dynamic case while in the other case ~0.25. On a different architecture (Intel Xeon E5), there is also a slow down, but it is barely noticeable (about 0.002 s).
Any help is apreciated!
register
storage specifier have been deprecated.register
was deprecated. In general it won't fit in the caches (i.e. 32K l1, 512k L2), however what seems very strange is the huge difference in behavior between the two different matrix storages. @IraBaxter, thanks, but i need to code it myself in sequential, since it's just a "sketch" to evaluate performances of to-be-implemented parallel solutions.