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There are a lot of questions about big O notation, but I didn't found clear answer for this question.

We write that:
O(5n) = O(n)
O(3n^2 + n + 2) = O(n^2)

Can we write that:
O(2^(2n)) = O(2^n)?

The same for logarithmic complexity: O(n log(4n)) = O(n log(n))?

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Give this chapter a read cs.berkeley.edu/~vazirani/algorithms/chap0.pdf. –  parapura rajkumar Aug 7 '11 at 15:42
O(2^(2n)) = O(2^2 + 2^n) = O(4 + 2^n) = Constant + O(2^n) = O(2^n) –  blejzz Aug 7 '11 at 15:48
@jernej 2^2n is not 2^2 + 2^n. It's 2^n * 2^n –  cnicutar Aug 7 '11 at 15:55
typo, but result is the same. –  blejzz Aug 7 '11 at 15:58
@jerney The result is not the same. See my answer. –  John Kugelman Aug 7 '11 at 16:07

1 Answer 1

up vote 11 down vote accepted

The only constants you can remove are additive and multiplicative ones. Meaning O(f(n)) = O(f(n) + C) = O(C × f(n)).

22n = (2n)2. This 2 constant cannot be ignored as it is an exponent. Just as O(n) and O(n2) are different complexity classes, so are O(2n) and O(22n).

On the other hand, yes, O(n log 4n) = O(n log n). We can use a logarithmic identity to turn the 4 into an multiplicative constant: O(n log 4n) = O(n (log n + log 4)) = O(n log n + (log 4) n) = O(n log n + n) = O(n log n).

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