I wrote the following code in python to solve problem 15 from Project Euler:

```
grid_size = 2
def get_paths(node):
global paths
if node[0] >= grid_size and node[1] >= grid_size:
paths += 1
return
else:
if node[0]<grid_size+1 and node[1] < grid_size+1:
get_paths((node[0]+1,node[1]))
get_paths((node[0],node[1]+1))
return paths
def euler():
print get_paths((0,0))
paths = 0
if __name__ == '__main__':
euler()
```

Although it runs quite well for a 2 X 2 grid, it's been running for hours for a 20 X 20 grid. How can I optimise the code so that it can run on larger grids? Is it a kind of breadth first search problem? (It seems so to me.)

How can I measure the complexity of my solution in its current form?