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I got asked an interview question that wanted me to discern the Big-O notation of several logarithmic functions. The functions were as follows:

f(x) = log5(x)

f(x) = log(x5)

f(x) = log(6*log x)

f(x) = log(log x)

I was told that the Big-O for the first and second are not equivalent and the third and fourth are not equivalent after mistakenly guessing the opposite. Can anyone explain why they are not equivalent and what their Big-O are then?

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Just to clarify: the four are log<sup>5</sup>x, log(x<sup>5</sup>), log(6 log x), log log x? (using <sup> tags quite intentionally) –  nneonneo Sep 12 '12 at 3:53
Sorry typo in question, they all depend on x, has been fixed. <sup> has been added for clarity. Sorry all for the confusion. –  user1246462 Sep 12 '12 at 3:54
Indeed, big-O notation comes in handy for approximation bounds in analysis, in which you usually deal in continuous variables. –  nneonneo Sep 12 '12 at 4:03

4 Answers 4

up vote 3 down vote accepted
  1. log5 x is the same as writing log log log log log x, which is a very slow-growing function of x.
  2. This is equivalent to 5 log x (rewriting exponentiation inside the log as multiplication outside), which is equivalent to log x.
  3. This is equivalent to log 6 + log log x, which is equivalent to log log x.
  4. This is just log log x.

So you have O(log log log log log x), O(log x), O(log log x) and O(log log x), three distinct Big-O classes.

If your interviewer said 3 and 4 were different, either he was mistaken or you've misremembered the question (happens all the time).

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2. should be 5*log x, not log 5 + log x (although in this case they have the same order). –  Yuushi Sep 12 '12 at 4:01
Yes, you are right. I misread...thought it was log(5x) for some reason. –  nneonneo Sep 12 '12 at 4:02
And log<sup>5</sup>x is not equivalent to (logx)<sup>5</sup> correct? –  user1246462 Sep 12 '12 at 4:04
Yes, that's right. log^5 is 5 iterated applications of log; log(x)^5 is log(x) to the fifth power. They are of different orders. –  nneonneo Sep 12 '12 at 4:05
I find this way of interpreting log^5(x) most unusual. Although in algebra, notations like f^5(x) for 5 nested applications of f to x are used, I don't think this is usually done in the context of computer science. I'd take it to mean (log x)^5. –  jogojapan Sep 12 '12 at 4:14

This is a matter of math:

  1. f(x) = log5(x)
  2. f(x) = log(x5) = 5 * log x
  3. f(x) = log(6*log x) = log 6 + log(log x)
  4. f(x) = log(log x)

So the Big O is

  1. O(log5(x))
  2. O(log x)
  3. O(log (log x))
  4. O(log (log x))

So (1) and (2) aren't equivalent, but (3) and (4) are (though they're different from both (1) and (2))

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f(x) = log^5(n)
f(x) = log(n^5) -> 5 log(n)
O(5 log(n)) < O(log(n)^5)

f(x) = log(6*log n) -> log(6)+log(log(n))
f(x) = log(log n) 
log(log n) < log(6) + log(log(n)) 

, although log(6) is a constant so they have same O

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I'll assume you mean f(n), not f(x). For 1 and 2, log^5(n) is equivalent to O(log log log log log(n)), while log(n^5) = 5 log(n) = O(log n).

For 3 and 4, I disagree. log(6*log n) = log(6) + log(log n) = O(log log n), which is the same as 4 - O(log log n).

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Oh good, we got the same answers. –  nneonneo Sep 12 '12 at 4:00

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