A is a numpy array of shape
(m, n + 1) and you also have arrays
s2 of shape
(n,) holding the mean and variance of each column except the first one, you can do your normalization as follows:
A[:, 1:] = (A[:, 1:] - mu) / s2
To undestand wat goes on, you need to understand how broadcasting works. Since
A[:, 1:] has shape
(m, n) and
(n,), these last two have 1s prepended to their shape to match the dimensions of the first, so they are treated as
(1, n) arrays, and during the arithmetic operations the value in their first and only row is broadcasted to all rows.
If you are not already doing so, your meand and variance arrays can be calculated efficiently as
mu = (A[:, 1:].mean(axis=0)
s2 = A[:, 1:].var(axis=0)
For the variance you may want to use
np.std squared to take advantage of the
ddof argument, see the docs.
On a separate note, normalization is normally done dividing by the standard deviation, not the variance.