Building on top of @Josh Duran nice function/idea, here is the same func that can handle up-to 2-D arrays. Maybe someone can modify this for the ndarrays.

```
def precision_round(numbers, digits = 3):
'''
Parameters:
-----------
numbers : scalar, 1D , or 2D array(-like)
digits: number of digits after decimal point
Returns:
--------
out : same shape as numbers
'''
import numpy as np
numbers = np.asarray(np.atleast_2d(numbers))
out_array = np.zeros(numbers.shape) # the returning array
for dim0 in range(numbers.shape[0]):
powers = [int(F"{number:e}".split('e')[1]) for number in numbers[dim0, :]]
out_array[dim0, :] = [round(number, -(int(power) - digits))
for number, power in zip(numbers[dim0, :], powers)]
# returning the original shape of the `numbers`
if out_array.shape[0] == 1 and out_array.shape[1] == 1:
out_array = out_array[0, 0]
elif out_array.shape[0] == 1:
out_array = out_array[0, :]
return out_array
```