You need to modify `np.linalg.det`

to get the speed. The idea is that `det()`

is a Python function, it does a lot of check first, and call the fortran routine, and does some array calculate to get the result.

Here is the code from numpy:

```
def slogdet(a):
a = asarray(a)
_assertRank2(a)
_assertSquareness(a)
t, result_t = _commonType(a)
a = _fastCopyAndTranspose(t, a)
a = _to_native_byte_order(a)
n = a.shape[0]
if isComplexType(t):
lapack_routine = lapack_lite.zgetrf
else:
lapack_routine = lapack_lite.dgetrf
pivots = zeros((n,), fortran_int)
results = lapack_routine(n, n, a, n, pivots, 0)
info = results['info']
if (info < 0):
raise TypeError, "Illegal input to Fortran routine"
elif (info > 0):
return (t(0.0), _realType(t)(-Inf))
sign = 1. - 2. * (add.reduce(pivots != arange(1, n + 1)) % 2)
d = diagonal(a)
absd = absolute(d)
sign *= multiply.reduce(d / absd)
log(absd, absd)
logdet = add.reduce(absd, axis=-1)
return sign, logdet
def det(a):
sign, logdet = slogdet(a)
return sign * exp(logdet)
```

To speedup this function, you can omit the check (it becomes your Responsibility to keep the input right), and collect the fortran results in an array, and do the final calculations for all the small arrays without for loop.

Here is my result:

```
import numpy as np
from numpy.core import intc
from numpy.linalg import lapack_lite
N = 1000
M = np.random.rand(N*10*10).reshape(N, 10, 10)
def dets(a):
length = a.shape[0]
dm = np.zeros(length)
for i in xrange(length):
dm[i] = np.linalg.det(M[i])
return dm
def dets_fast(a):
m = a.shape[0]
n = a.shape[1]
lapack_routine = lapack_lite.dgetrf
pivots = np.zeros((m, n), intc)
flags = np.arange(1, n + 1).reshape(1, -1)
for i in xrange(m):
tmp = a[i]
lapack_routine(n, n, tmp, n, pivots[i], 0)
sign = 1. - 2. * (np.add.reduce(pivots != flags, axis=1) % 2)
idx = np.arange(n)
d = a[:, idx, idx]
absd = np.absolute(d)
sign *= np.multiply.reduce(d / absd, axis=1)
np.log(absd, absd)
logdet = np.add.reduce(absd, axis=-1)
return sign * np.exp(logdet)
print np.allclose(dets(M), dets_fast(M.copy()))
```

and the speed is:

```
timeit dets(M)
10 loops, best of 3: 159 ms per loop
timeit dets_fast(M)
100 loops, best of 3: 10.7 ms per loop
```

So, by doing this, you can speedup by 15 times. That is a good result without any compiled code.

**note: I omit the error check for the fortran routine.**