TFNP

In computational complexity theory, the complexity class TFNP is a subclass of FNP where a solution is guaranteed to exist. It stands for "Total Function Nondeterministic Polynomial."

A binary relation P(x,y) is in TFNP if and only if there is a deterministic polynomial time algorithm that can determine whether P(x,y) holds given both x and y, and for every x, there exists a y such that P(x,y) holds.

The job of a TFNP algorithm is to establish, given an x give one possible value for a y such that P(x,y) holds.

FP is a subclass of TFNP. TFNP also contains subclasses PLS, PPA, PPAD, and PPP.

TFNP coincides with F(NP $\cap$ coNP).^[1] TFNP = FP would imply P = NP $\cap$ coNP, and therefore that factoring and simplex pivoting are in P.

In contrast to FNP, there is no known recursive enumeration of machines for problems in TFNP. It seems that such classes, and therefore TFNP, do not have complete problems.

References

↑ Megiddo and Papadimitriou (1989)

Megiddo and Papadimitriou. A Note on Total Functions, Existence Theorems and Computational Complexity (1989).

This article is issued from Wikipedia - version of the 10/8/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.