I have an upper-triangular subarray of dimension 4. It is initialized as

```
N, Q = (99, 23)
bivariate = np.zeros((N,N,Q,Q))
```

and then populated by something like

```
for i in range(N):
for j in range(i+1,N):
bivariate[i,j] = num
```

I want the upper-triangular elements to be normalized (Q,Q) matrices. I am currently doing this by just doing a

```
bivariate /= bivariate.sum(axis=3).sum(axis=2)[:,:,np.newaxis,np.newaxis]
```

but I get Runtime Warnings due to the empty arrays of the lower-triangular portion being normalized. Is there a better way to do this other than the following?

```
for i in range(N):
for j in range(i+1,N):
bivariate[i,j] /= bivariate[i,j].sum()
```

Thanks.