I came across the following Dynamic Programming problem.

You have a grid of integers (so including negative numbers). Find the rectangle that has the largest sum of numbers.

Any idea how to do it for a whole matrix?

I solved it for a single array, so I pretty much followed what longest increasing subsequnce does, but only for contiguous numbers.

```
def array_largest_block(sequence)
len = sequence.size
parents = [nil]*len
my_largest = sequence
largest = sequence.max
for index in (1...len)
if my_largest[index] < my_largest[index] + my_largest[index - 1]
my_largest[index] = my_largest[index] + my_largest[index - 1]
parents[index] = index - 1
largest = [largest, my_largest[index]].max
end
end
end_index_of_largest_block = my_largest.find_index(largest)
i = end_index_of_largest_block
res = []
res << sequence[i]
while !parents[i].nil?
i = parents[i]
res << sequence[i]
end
return {l_sum: largest, start: i, end: end_index_of_largest_block}
end
```

So My thinking is,

- find the sum of each square in the matrix (just 1x1 squares)
- save the max for a possible answer
- Run the same thing starting from smallest possible rectangle and calculate all of them until you find the max. Which is the DB part.

Any ideas? Or if you guys don't knwo the exact solution, which DP type algorithm should i look at?