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I'm stuck with this homework I got from my Algorithms course:

Write a recursive function with a runtime of Theta(n^4 logn).

I thought something like this, but I'm very unsure about my approach.

function(int n)
   for-loop (1..n^4)
     //do something

   return function(n/2);
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3 Answers 3

You should be unsure, your function has some problems:

  1. It doesn't has initial values, and runs forever.
  2. If you set initial value for your function it will be as:

    T(n) = T(n/2) + O(n^4)

and by master theorem this is Θ(n^4).

Hint: You should increase coefficient of T(n/2), but how much? find it yourself. For this increasing you can call it x times.

By Master theorem log n happens when we have a recursion like this:

T(n) = a T(n/b) + na/b

In your case you have a/b = 4, so you can fix b = 2 and a = 8 to achieve this.

T(n) = 8T(n/2) + n4

and for arriving to this, you can call T(n/2) for 8 times.

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Hint: n4 could be four nested loops from 1 to n. Logarithmic run-time factor is usually obtained by halving problem size recursively until reaching 1. Your proposal kind of works, but is quite blunt and you could even do

func(int n)
  for i = 1 to n^4 log n

but I don't believe this is something that's being looked for.

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His algorithm is not n^4 log n –  Saeed Amiri May 7 '12 at 10:39
true, it also never terminates –  Antti Huima May 7 '12 at 12:59

Your approach is sane, and your insecurity is normal. You should now prove that your algorithm is Theta(n^4 log n). Apply your normal algorithmic analysis techniques to show that function executes do something n^4 log_2 n times.

Hint: Count how many times function is called recursively and how often the loop runs in each call. You'll see that there is still a small bug in your function; the n for the n^4 factor is reduced in each recursive call.

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His algorithm is totally wrong. See my answer. –  Saeed Amiri May 7 '12 at 10:36
his algorithm is not totally wrong, even your answer seems to indicate that he is close. Stop spamming –  UmNyobe May 7 '12 at 11:42
@UmNyobe, Seems you are spam generator, If you think OPs algorithm is not wrong write your own answer and describe how it's correct. –  Saeed Amiri May 7 '12 at 12:20

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