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The definition of NP-complete is

A problem is NP-complete if

  1. it belongs to class NP
  2. all the other problems in NP polynomially transform to it

So, if all other problems in NP transform to an NP-complete problem, then does that not also mean that all NP problems are also NP-complete? What is the point of classifying the two if they are the same?

In other words, if we have an NP problem then through (2) this problem can transform into an NP-complete problem. Therefore, the NP problem is now NP-complete, and NP = NP-complete. Both classes are equivalent.

Just trying to clarify this up for myself. Thanks in advance.

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@Matt Thanks for the correction, but still feels off-topic for SO...any other suggestions? –  Keith Layne Sep 9 '11 at 21:33
Old comment was removed because it's incorrect - here's an interesting list of problems in NP \ (P $U$ NP-C), though. cstheory.stackexchange.com/questions/79/… –  seagaia Sep 11 '11 at 0:33
I think this comment I said is wrong. Is the following a correct understanding? : Problems in NP \ (P U NP-C) = NP-I can reduce to NP-C problems (so if an NP-C problem can be solved efficiently, then we can transform the NP-I problem into the NP-C problem, and solve that efficiently, map the solution back. –  seagaia Sep 28 '11 at 17:43

2 Answers 2

up vote 3 down vote accepted

Not necessarily. It can happen that NP is a known upper-bound (ie. we know how to solve it in non-deterministic polynomial time) but not a known lower-bound (a more efficient algorithm may or may not exist).

An example of such a problem is graph isomorphism.

Your sentence "if we have an NP problem then [...] this problem can transform into an NP-complete problem" is incorrect for the simple following reason: any problem in P is also in NP, yet no problem in P is NP-complete (unless P=NP, of course).

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If P is in NP, and all NP problems transform to NP-complete problems, therefore P must also transform to NP-complete. –  entitledX Sep 10 '11 at 4:01

Are all NP problems also NP-complete?

Only if P = NP.

enter image description here

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Out of curiosity, where does this picture come from? –  Philippe Sep 9 '11 at 21:24
Wikipedia, as per the (I guess not-terribly-obvious) link in my answer: en.wikipedia.org/wiki/NP-complete –  Matt Ball Sep 9 '11 at 21:25

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