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any problem in NP can be solved in deterministically exponential time, or we can say that any language in NP can be decided by an algorithm running in time 2^O(n^k) i.e., NP ⊆ EXP

informally speaking, we just try each one of the possible solutions and then decide it

However, there is a simple example that I can not figure out what's wrong with the idea i made

Here it is..

The Traveling Salesman problem : given a undirected graph G=(V,E) V=|n|

This is a well-known NP-complete problem, therefore, indeed belongs to NP

And I try to analyse the running this:

I simply list out all the possible solutions, and there are (n-1)! possible tours in total

Then I check each one of them, it takes O(n) for each possible tour

The total running time will be O(n!)

It doesn't look like can be bounded above by 2^O(n^k), i.e., exponential time

where is the pitfall of this analysis?

or in the other word, how can we explain traveling salesman problem indeed can be decided by an algorithm running in time 2^O(n^k)

share|improve this question
1 million dollars right there – JoeC Nov 19 '13 at 14:56
up vote 2 down vote accepted

Note that

n! ≤ nn = (2log n)n = 2n log n ≤ 2n2

So n! = 2O(n2), so n! ∈ EXP.

Hope this helps!

share|improve this answer
Oh man thanks again, I always love your succinct explanation!! – Romantic Amaj Nov 20 '13 at 8:01

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