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What is the answer? And how to solve this recurrence?

It doesn't seem like Master Method will help, as this is not in the form of T(n) = aT(n/b) + f(n). And I got stuck for quite a while.

Thank you!

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..... what have you tried so far? ....... –  KevinDTimm Mar 28 '11 at 16:12
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@KevinDTimm According to Master Method, I guess the answer should be in the form of n^c. But it turns out a quite weird answer solving the equation n^c = (n/2)^c + (n/4)^c. And I haven't seem any book suggesting using such a method to solve problems like this, thus not believing this could possibly be a correct solution. –  Haozhun Mar 28 '11 at 16:15

1 Answer 1

up vote 4 down vote accepted

Akra Bazzi is a much more powerful method than Master method.

Since the 'non-recursive' term is O(1), it amounts to solving the equation

1/2^p + 1/4^p = 1

And the answer you get will be T(n) = Theta(n^p)

I believe solving the above (quadratic in 1/2^p) gives us p = log_2 phi where phi is the golden ratio.

Computing that gives us T(n) = Theta(n^0.694...)

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