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Is P the same as P-Complete in Complexity Theory? I need to know whether the two classes are identical. Because I have a Karp reduction between any two but can't find it on the internet.

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closed as off topic by Tomasz Nurkiewicz, Wooble, Vadiklk, CharlesB, ceejayoz Dec 19 '11 at 2:08

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up vote 2 down vote accepted

Any problem in P can be polynomial-time reduced (both many-one and Turing) to almost any other problem in P.

The sole reason to say "almost" is because there is one problem (and its complement) which no other problems can be many-one reduced to (although they can be Turing reduced to): the problem that accepts everything (and the one that rejects everything).

Source: Wikipedia

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Typically, when talking about P-completeness, a weaker form of reduction than polynomial time reducibility is used for the reason you listed. Usually, something like logspace or AC^0 reducibility is used. –  Aubrey da Cunha Dec 19 '11 at 19:31

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