Let's first solve for 1 row first and we can extend it to all rows. Let's take a random example:
6 11 5 13
The goal is to make all elements as 1. First we make 5 (smallest element) as 1. For this we need to subtract 4 (i.e subtract 1 four times). The resultant array is:
2 7 1 9
Now we multiply 1 with 2 and subtract all row elements by 1:
1 6 1 8
Next, we multiply 2 1's by 2 and subtract all row elements by 1:
1 5 1 7
Continuing in this manner, we get to
1 1 1 1. Now we subtract 1 to get
0 0 0 0.
Next, we get to other rows and do the same like above. The row we nullified above are all zeroes so multiplication by 2 when manipulating other rows doesn't change the already nullified rows.
The question of finding the minimum number of operations would also depend on the row sequence we select. I think that would be to select a row whose maximum is minimum (among other rows) first. I need to verify this.