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This is the question I'm trying to solve:

The following divide-and-conquer algorithm is proposed for finding the simultaneous maximum and minimum:

  • If there is one item, it is the maximum and minimum

  • if there are two items, then compare them and in one comparison you can find the maximum and minimum.

  • Otherwise, split the input in two halves, divided as evenly as possibly (if N is odd, one of the two halves will have one more element than the other).

  • Recursively find the maximum and minimum of each half, and then in two additional comparisons produce the maximum and minimum for the entire problem.

(b) Suppose N is of the form 3 + 2k. What is the exact number of comparisons used by this algorithm?

for this point (b), I tried to find a recurrence equation to solve but it didn't work. I've tried

 T(n)= T(n/2+1) + T(n/2) + 3

where three is the minimum cost when I try 3 inputs. any help?

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up vote 3 down vote accepted

Your recurrence equation should not have a term for the special case of n = 3. The algorithm gives you these facts:

  • T(1) = 0
  • T(2) = 1
  • T(n) (n > 2) = T(floor(n/2)) + T(ceil(n/2)) + 2

That should be all you need to work out the answer.

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great! I'll try to solve it. Thanks A lot – Sosy Dec 25 '11 at 9:04

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