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Are there problems in P that have a proven asymptotic lower bound of O(n^2) or higher? (n is the number of bits a problem instance can be represented by). This is not a homework question, just curiosity.

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Not really a programming question... –  Floris Jun 22 '13 at 19:11
    
In P? What's P? And yes, there are, for example bubble sort is O(n ^ 2). –  user529758 Jun 22 '13 at 19:12
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@H2CO3 (1) P as in "P=NP?" I suppose. (2) Please don't confuse problems and algorithms. –  delnan Jun 22 '13 at 19:14
    
@H2CO3- The question asks whether there are problems that require quadratic time to solve, rather than whether there are algorithms that require quadratic time to finish. It's much harder to show that a problem can't be solved in subquadratic time. –  templatetypedef Jun 22 '13 at 19:29
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@G.Bach Exactly, they are closely related but not the same thing. As templatetypedef explained above, the complexity of a problem is not necessary the complexity of one particular algorithm that solves that problem. –  delnan Jun 22 '13 at 21:27

2 Answers 2

up vote 6 down vote accepted

Yes, the time hierarchy theorem implies the existence of such problems. They're arguably not natural because they involve diagonalizing over all O(n^2)-time algorithms.

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3SUM comes to mind. There's a quadratic lower bound known for a certain linear decision-tree model due to Jeff Erickson. (There are some barely-subquadratic algorithms for 3SUM in the literature for various models of computation. But I haven't looked at them and I don't know how they work.)

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