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Sorry for stupid question. I cannot jog my memory and googling did not help me answer this question.

So basically given a graph G(V,E), I know that O(|V|^2) or O(|E|^2 + |V|^2) is considered to be polynomial complexity, so is O(|E|*|V|) polynomial as well? If not, what kind of complexity is it? I believe it's not pseudo-polynomial either.

Another question is: is O(m*n) considered polynomial as well, given m and n are the sizes of two INDEPENDENT inputs to a problem? I just want to clarify the concept of polynomial time in here and want to know if O(m*n) has a different name for its type of complexity.

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up vote 7 down vote accepted

it is polynomial O(|V|^3) since the number of edges is bounded O(|V|^2)

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Oh yeah. Boo me :), how can I not see that? The another question is: is O(m*n) polynomial as well, given m and n are the sizes of two inputs to a problem? I just want to clarify the concept of polynomial time in here. – Simo Oct 31 '13 at 19:30
    
@Simo, i don't understand your follow up question. if you need examples of pseudo-polynomial for a contrast, look here: stackoverflow.com/questions/4538581/… – Tom Swifty Oct 31 '13 at 19:40
    
the difference is that pseudo-polynomial complexity in this case depends on the capacity (ie, right hand size) and this value could be deceivingly large. – Tom Swifty Oct 31 '13 at 19:41
    
I was trying to clarify if O(nm) is still considered polynomial or not, when n and m are independent of each other. For example, if some test has a question like that and asks me to choose if a problem can be solved in polynomial time? And I need to answer yes or no, and I know the complexity is O(nm), where n and m are independent, not like in the case where |E| is bounded by |V|^2. Haha, sorry for the long comment – Simo Oct 31 '13 at 19:56
    
Note that a simple graph has O(|V|^2) edges. A general graph does not have any bound on the number of edges, and it can have 2^|V| edges. – amit Nov 1 '13 at 0:46

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