If I understand correctly, what you want to do is divide by the maximum value in each column. You can do this easily using broadcasting.

Starting with your example array:

```
import numpy as np
x = np.array([[1000, 10, 0.5],
[ 765, 5, 0.35],
[ 800, 7, 0.09]])
x_normed = x / x.max(axis=0)
print(x_normed)
# [[ 1. 1. 1. ]
# [ 0.765 0.5 0.7 ]
# [ 0.8 0.7 0.18 ]]
```

`x.max(0)`

takes the maximum over the 0th dimension (i.e. rows). This gives you a vector of size `(ncols,)`

containing the maximum value in each column. You can then divide `x`

by this vector in order to normalize your values such that the maximum value in each column will be scaled to 1.

If `x`

contains negative values you would need to subtract the minimum first:

```
x_normed = (x - x.min(0)) / x.ptp(0)
```

Here, `x.ptp(0)`

returns the "peak-to-peak" (i.e. the range, max - min) along axis 0. This normalization also guarantees that the minimum value in each column will be 0.

`set`

is a particular object in Python, and you can't have a set of numpy arrays. Python doesn't have a matrix, but numpy does, and that`matrix`

type isn't the same as a numpy`array/ndarray`

(which is itself different from Python's`array`

type, which is not the same as a`list`

). And none of these are pandas`DataFrame`

s..