The `.T`

accesses the attribute `T`

of the object, which happens to be a NumPy array. The `T`

attribute is the transpose of the array, see the documentation.

Apparently you are creating random coordinates in the plane. The output of `multivariate_normal()`

might look like this:

```
>>> np.random.multivariate_normal([0, 0], [[1, 0], [0, 1]], 5)
array([[ 0.59589335, 0.97741328],
[-0.58597307, 0.56733234],
[-0.69164572, 0.17840394],
[-0.24992978, -2.57494471],
[ 0.38896689, 0.82221377]])
```

The transpose of this matrix is:

```
array([[ 0.59589335, -0.58597307, -0.69164572, -0.24992978, 0.38896689],
[ 0.97741328, 0.56733234, 0.17840394, -2.57494471, 0.82221377]])
```

which can be conveniently separated in `x`

and `y`

parts by sequence unpacking.

`.T`

reversesthe order of the axes, instead of switching the last two. This means if your array`x`

is 3-D,`x.T`

is the same as`x.transpose((2, 1, 0))`

. If you want to switch the last two axes, in this case, you would do`x.transpose((0, 2, 1))`

.