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I know how to solve the recurrence relations using Master Method. Also I'm aware of how to solve the recurrences below:

T(n) = sqrt(n)*T(sqrt(n)) + n

T(n) = 2*T(sqrt(n)) + lg(n)

In the above two recurrences there is same amount of work at each level of the recursion tree. And there are a total of log log n levels in the recursion tree.

I'm having trouble in solving this one: T(n) = 4*T(sqrt(n)) + n

EDIT: Here n is a power of 2

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I think this belongs on the theoretical CS stack exchange site –  beta0x64 Nov 19 '12 at 16:55
In any case, you simply keep "unraveling" the recurrence relation by substituting the original equation back in for T() and distributing. You do this until you observe a pattern, and then you define that pattern usually in terms of "k." –  beta0x64 Nov 19 '12 at 16:56
I have got the pattern but i could not solve it...!! –  Abhinav Gupta Nov 19 '12 at 17:12
I proceeded the same way as suggested by you. –  Abhinav Gupta Nov 19 '12 at 17:13

2 Answers 2

Suppose that n = 2^k. We have T(2^k) = 4*T(2^(k/2)) + 2^k. Let S(k) = T(2^k). We have S(k) = 4S(k/2) + 2^k. By using Mater Theorem, we get S(k) = O(2^k). Since S(k) = O(2^k) and S(k) = T(2^k), T(2^k) = O(2^k) which implies T(n) = O(n).

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+1, yep thats correct. –  dreamcrash Nov 21 '12 at 16:27

I'm having trouble in solving this one: T(n) = 4*T(sqrt(n)) + n

EDIT: Here n is a power of 2

This edit is important. So lets say that the recurrence stops at 2.

So the question now is how deep the recursion tree is. Well, that is the number of times that you can take the square root of n before n gets sufficiently small (say, less than 2). If we write

n = 2lg n

then on each recursive call n will have its square root taken. This is equivalent to halving the above exponent, so after k iterations we have that

n1/(2k) = 2lg n/(2k)

We want to stop when this is less than 2, giving

2lg n/(2k) = 2

lg n/(2k) = 1

lg n = 2k

lg lg n = k

So after lg lg n iterations of square rooting the recursion stops. (source)

For each recursion we will have 4 new branches, the total of branches is 4 ^ (depth of the tree) therefore 4^(lg lg n).


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Why each level recursion does O(n) work? Consider the second level. Since there are 4 branches and each branch is T(sqrt(n)), the work should be 4 sqrt(n) in the second level. –  Yu-Han Lyu Nov 20 '12 at 22:55
T(n) = 4*T(sqrt(n)) + n. You also, have a 'n' besides the sqrt(n) –  dreamcrash Nov 21 '12 at 0:02
Each level has a different value for n though, at the second level you no longer have a +n, but a +sqrt(n). –  fgb Nov 21 '12 at 0:30
@fgb You right, I just corrected. –  dreamcrash Nov 21 '12 at 16:25

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