this solution prove you can not read your matrix less than O(N^2) but if your mean of this questions is you want to calculate your result in a search: I think it is not relation between do it or said that i need to solve this question in better order than O(2*(n^2)).

you need to Know about every cell in your array.assume you have a graph that every vertex is pointing to a cell in your matrix.for find about value of a cell you should search in your graph.you can do it with DFS in minimal order.

The time and space analysis of DFS differs according to its
application area. In theoretical computer science, DFS is typically
used to traverse an entire graph, and takes time O(|E|), linear in the
size of the graph. In these applications it also uses space O(|V|) in
the worst case to store the stack of vertices on the current search
path as well as the set of already-visited vertices. Thus, in this
setting, the time and space bounds are the same as for breadth-first
search and the choice of which of these two algorithms to use depends
less on their complexity and more on the different properties of the
vertex orderings the two algorithms produce.

and you have N^2 vertex in your graph--array At least (O(V+E) >= O(V)). so you can not do it in better than O(n^2) with use every data-structure.(because calculate this order is not related to edge-structure).

```
maxcol=0;
for(int i=0;i<n;i++)
{
sumcol=0;
for(int j=0;j<n;j++)
{
if (a[i][j]==1)
{
sumcol=sumcal+1;
}
}
if (sumcol>maxcol)
{
maxcol=sumcol;
}
}
```

repeat this for rows.this is very easy solution but this code have a minimum space.and you can not improve it with algorithm idea.you should attention to means of algorithm complexity.you can solve it with one search but you just increase complexity of your code.