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How can I find the complexity of this recursion?

T(n) = 2 T(n1/2) + O(lg n)

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closed as not a real question by PengOne, Ricky Bobby, cHao, Bill the Lizard Mar 31 '12 at 19:04

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Do you mean T(n)= 2 T(n^(1/2)) + O (lgn) ? –  Franck Dernoncourt Mar 22 '12 at 16:56
is this homework? –  Woot4Moo Mar 22 '12 at 16:58
You might need to use something like the Akra Bazzi thm: en.wikipedia.org/wiki/Akra-Bazzi_theorem –  Ricky Bobby Mar 22 '12 at 17:11

2 Answers 2

(from http://stackoverflow.com/a/3956416/395857)

T(n) = 2 T(n^(1/2)) + O(lg n)

Let m = log2 n;

=> T(2m) = 2T( 2m / 2 ) + O(m)

Now renaming K(m) = T(2m) => K(m) = 2K(m/2) + O(m)

Then use the Master theorem for K. To conclude, O(T) ~ O(lg K).

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Shouldn't it be "K(m) = 2K(m/2) + O(m)" (not "O(lg m)") in the penultimate line? –  Ted Hopp Mar 22 '12 at 17:44
Oops sorry, fixed! Thanks :) –  Franck Dernoncourt Mar 22 '12 at 17:55

There is a classical method to resolve these recurrence relations where the value for the nth term depends on the pth exponentially\quadratically smaller than n(here p = n^(1/2) = exp(1/2*log(n))).

Change the variable n to exp(k) and define a function F such that

  F(k) = T(exp(k))

The first step give you

  T(exp(k)) = 2 T(exp(k/2))  + O(k)

The second step give you

   F(k) = 2F(k/2) + O(k)

Which is well know to be (for this proof search yourself) O(klog(k)). Now just n = exp(k) => k = log(n) and you finally obtain

 T(n) = O(log(n) * log(log(n)))
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(Same reply as mine with a different log base. But it's always nice to change the base from time to time :) ) –  Franck Dernoncourt Mar 22 '12 at 17:58
I did not copy your reply if you want to know... and your conclusion is erroneous –  UmNyobe Mar 22 '12 at 18:02
The point of my previous comment was for the readers to understand the two answers are basically the same. I mainly used another SO answer from another thread, so no worries about "copy" ;) Why is my conclusion erroneous? –  Franck Dernoncourt Mar 22 '12 at 18:07

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