I'm trying to run over the parameters space of a 6 parameter function to study its numerical behavior before trying to do anything complex with it, so I'm searching for an efficient way to do this.

My function takes float values given in a 6-dim numpy array as input. What I tried to do initially was this:

First, I created a function that takes 2 arrays and generate an array with all combinations of values from the two arrays:

```
from numpy import *
def comb(a,b):
c = []
for i in a:
for j in b:
c.append(r_[i,j])
return c
```

Then, I used `reduce()`

to apply that to m copies of the same array:

```
def combs(a,m):
return reduce(comb,[a]*m)
```

Finally, I evaluate my function like this:

```
values = combs(np.arange(0,1,0.1),6)
for val in values:
print F(val)
```

This works but it's *way* too slow. I know the space of parameters is huge, but this shouldn't be so slow. I have only sampled 10^{6} (a million) points in this example and it took more than 15 seconds just to create the array `values`

.

Do you know any more efficient way of doing this with numpy?

I can modify the way the function `F`

takes it's arguments if it's necessary.