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I'm looking at some algorithms, and I'm trying to ascertain how multiple recursive steps are treated when forming the equation.

So exhibit A: Exhibit A

It is obvious to me that the recurrence equation here is: T(n) = c + 2T(n/2) which which in big O notation simplifies to O(n)

However here,Exhibit B we have something similar going on as well and I get the recurrence equation T(n) = n + 2T(n/2) since we have two recursive calls not unlike the first one, which in big O notation simplifies to O(n), however that is not the case here. Any input as to how to get the correct recurrence equation in this second one over here?

Any input as to how to go about solving this would be brilliant.

share|improve this question
It's late and I'm probably reading it wrong, but did you accidentally post the same code snippet twice? – Stuart Golodetz Dec 21 '12 at 3:35
Both of the functions you have posted are the same, was that your intention? – Will C. Dec 21 '12 at 3:36
No but you guys are right! I'm sorry about that I just fixed it. Didn't notice that myself. – Louis93 Dec 21 '12 at 3:41
up vote 2 down vote accepted

You might be interested in the Master Theorem:

The recurrence equation T(n) = n + 2T(n/2) is Theta(n log n), which can be derived using the theorem. To do it manually, you can also assume n = 2^k and do:

T(n) = 2T(n/2) + n
     = 2(2T(n/4) + n/2) + n
     = (2^2)T(n/(2^2)) + 2n
     = (2^2)(2T(n/(2^3)) + n/(2^2)) + 2n
     = (2^3)T(n/(2^3)) + 3n
     = ...
     = (2^k)T(n/(2^k)) + kn
     = nT(1) + n log2 n
     = Theta(n log n)
share|improve this answer
Stuart do you mind taking a look at the question again? I've updated it with the fixed image link – Louis93 Dec 21 '12 at 4:04

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