(beginner here)

I want to know how to find n-th number of the sequence F[n]=F[n-1]+F[n-2].

Input:

```
F[0] = a;
F[1] = b;
a,b < 101
N < 1000000001
M < 8; M=10^M;
```

a and b are starting sequence numbers.

n is the n-th number of the sequence i need to find.

M is modulo, the number gets very large quickly so F[n]=F[n]%10^M, we find the remainder, because only last digits of the n-th number are needed

The recursive approach is too slow:

```
int fib(int n)
{
if (n <= 1)
return n;
return fib(n-1) + fib(n-2);
}
```

The dynamic programming solution which takes O(n) time is also too slow:

```
f[i] = f[i-1] + f[i-2];
```

While there are solutions on how to find n-th number faster if first numbers of the sequence are 0 and 1 (n-th number can be found in O(log n)) by using this formula:

```
If n is even then k = n/2:
F(n) = [2*F(k-1) + F(k)]*F(k)
If n is odd then k = (n + 1)/2
F(n) = F(k)*F(k) + F(k-1)*F(k-1)
```

(link to formula and code implementation with it: https://www.geeksforgeeks.org/program-for-nth-fibonacci-number/)

But this formula does not work if starting numbers are something like 25 and 60. And the recursive approach is too slow.

So I want to know how can I find the n-th number of a sequence faster than O(n). Partial code would be helpful.

Thank you.

`fib()`

is not`O(n)`

... it is much, much, much worse than that. Perhaps a first step would be to actually make it`O(n)`

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