I am trying to optimize some python code (to speed up some matrix operations), my code is something similar to this one (my real dataset is also similar to 'gps'),

```
import numpy as np
gps = [np.random.rand(50,50) for i in xrange(1000)]
ips = np.zeros( (len(gps),len(gps)), dtype='float32')
for i in xrange(len(gps)):
for j in xrange(0,i+1):
ips[i,j]= f.innerProd(gps[i],gps[j])
ips[j,i]= ips[i,j]
print "Inner product matrix: %3.0f %% done (%d of %d)"% \
(((i+1)**2.)/(len(gps)**2.)*100, i, len(gps))
def innerProd(mat1,mat2):
return float(np.sum(np.dot(np.dot(mat1,mat2),mat1)))
```

What I would like to understand is , why is it that the program begins running fast during the first iterations and then slows down as it iterates further? I know the question might be a bit naive but I really want to have a clearer idea of what is happening before I attempt anything else. I already implemented my function in Fortran (leaving within the Fortran realm any for loops) and used f2py to create a dynamic lib to call the function from python, this would be the new code in python..

```
import numpy as np
import myfortranInnProd as fip
gps = [np.random.rand(50,50) for i in xrange(1000)]
ips = np.zeros( (len(gps),len(gps)), dtype='float32')
ips = fip.innerProd(gps)
```

unfortunately I only found out (surprisingly) that my fortran-python version runs 1.5 ~ 2 times slower than the first version (it is important to mention that I used MATMUL() on the Fortran implementation). I have been googling around for a while and I believe that this "slow down" has something to do with the memory bandwidth, memory allocation or caching, given the large datasets, but I am not very sure about what is really happening behind and how could I improve the performance. I have run the code on both a small intel atom , 2GB ram and a 4 core intel xeon, with 8GB (of course with a correspondingly scaled dataset) and the "slow down" behavior is the same.

I just need to understand why is it that this 'slow down' happens? would it do any good if i implement the function in C ? or try to implement it to run on a GPU ? Any other ideas how to improve it? Thanks in advance

`profile`

and found that most of the time 307 seconds were being spent in`np.dot`

; you can profile any file by doing`python -m profile filename.py`

– Dan D. May 1 '11 at 2:30`(i+1)`

. So it behaves as it should. – J.F. Sebastian May 1 '11 at 4:05