I am using NumPy to handle some large data matrices (of around ~50GB in size). The machine where I am running this code has 128GB of RAM so doing simple linear operations of this magnitude shouldn't be a problem memory-wise.

However, I am witnessing a huge memory growth (to more than 100GB) when computing the following code in Python:

```
import numpy as np
# memory allocations (everything works fine)
a = np.zeros((1192953, 192, 32), dtype='f8')
b = np.zeros((1192953, 192), dtype='f8')
c = np.zeros((192, 32), dtype='f8')
a[:] = b[:, :, np.newaxis] - c[np.newaxis, :, :] # memory explodes here
```

Please note that initial memory allocations are done without any problems. However, when I try to perform the subtract operation with broadcasting, the memory grows to more than 100GB. I always thought that broadcasting would avoid making extra memory allocations but now I am not sure if this is always the case.

As such, can someone give some details on why this memory growth is happening, and how the following code could be rewritten using more memory efficient constructs?

I am running the code in Python 2.7 within IPython Notebook.

`c`

iscreatedwith shape (1, 192, 32), so why do you index it as`c[np.newaxis, :, :]`

? That creates a view with shape (1, 1, 192, 32).