Note that, as perimosocordiae shows, as of NumPy version 1.9, `np.linalg.norm(x, axis=1)`

is the fastest way to compute the L2-norm.

If you are computing an L2-norm, you could compute it directly (using the `axis=-1`

argument to sum along rows):

```
np.sum(np.abs(x)**2,axis=-1)**(1./2)
```

Lp-norms can be computed similarly of course.

It is considerably faster than `np.apply_along_axis`

, though perhaps not as convenient:

```
In [48]: %timeit np.apply_along_axis(np.linalg.norm, 1, x)
1000 loops, best of 3: 208 us per loop
In [49]: %timeit np.sum(np.abs(x)**2,axis=-1)**(1./2)
100000 loops, best of 3: 18.3 us per loop
```

Other `ord`

forms of `norm`

can be computed directly too (with similar speedups):

```
In [55]: %timeit np.apply_along_axis(lambda row:np.linalg.norm(row,ord=1), 1, x)
1000 loops, best of 3: 203 us per loop
In [54]: %timeit np.sum(abs(x), axis=-1)
100000 loops, best of 3: 10.9 us per loop
```