# How to calculate the time of recursive computation of n-th Fibonacci number?

What is the way to know how much time is needed for computation n-th Fibonacci number on current machine? For instance, on current machine the 30-th element is calculated in 67ms, and 40th in 554 ms. How to calculate the time for 99th element?

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

UPDATE

Fibonacci Nth vs ms (the time current pc took to calculate n-th fibonacci element, time in ms) http://pastebin.com/PGnd54Hq

Matlab: Code http://pastebin.com/L9CH53Pf

How to find out the time for N-th element?

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What do you mean by "current machine"? The question is kind of unclear. Also, any kind of estimation will depend on what kind of algorithm it is. Is it tail recursive? Is it pushing a stack frame every call? What are you getting at with this question? –  Tyler Durden Oct 11 '12 at 20:08
My machine- current PC the recursive algorithm is running on. Probably another possible solution is to find out how many steps needed (totally) and multiply this by the time of one step. But how can I calculate the time necessary for one step? –  RCola Oct 11 '12 at 20:42

I would measure the time for a range of values and make table:

``````n | time
``````

and then use `matlab` to fit to an exponential function.

keep in you mind that big-O notation is asymptotic and holds for a big number of elements.

you should try to write a c code for it. using inline function of the Fibonacci routine, and get the time in using ctime and store the values in two arraies. and after that analyzing the results using `matlab` or `python.

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It's easy to prove that the number of recursive calls to the function also follows a Fibonacci sequence. Like, if `F0=0` and `F1=1` are your base cases then `F2` requires 2 calls to the function and `F3` will need 3 and so on.

This justifies using an exponential function to fit your times as @0x90 suggested.

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Apparently you are running an implementation of naive algorithm for computing Fibonacci sequence. This algorithm has an exponential complexity: Computational complexity of Fibonacci Sequence (~`θ(1.6``n``)`). So running time of your program on your computer will be approximately `k*1.6``n`. Knowing the result of the function (your program's running time) for one `n` you should be able to calculate the constant `k` and thus calculate approximate time for different `n`.

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Cannot understand why this formula does not show real time algorithm needed. In question's example, th time to compute 40th element is 554ms and 30th -67ms. Using this formula k= (67/(1.6^30)) and T[40]=( (67/(1.6^30)) *1.6^(40)) but it is not correct. wolframalpha.com/input/?i=%28%2867%2F%281.6%5E30%29%29*1.6%5E%2840%29‌​%29 –  RCola Oct 11 '12 at 21:08

From the code listed each call makes 2 calls. So a simple answer to this question is that the number of calls doubles for each n, so the number of calls is 2^(n-1). For example, if you are calculating fib( 10 ), then the number of calls would be 2^9 = 512. So, if it took 1 second to make one, it would take 512 seconds to make all the calls for fib( 10 ).

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