Stathis Zachos scite author profile

Abstract. We investigate the complexity of counting problems that belong to the complexity class #P and have an easy decision version. These problems constitute the class #PE which has some well-known representatives such as #Perfect Matchings, #DNF-Sat, and NonNegative Permanent. An important property of these problems is that they are all #P-complete, in the Cook sense, while they cannot be #P-complete in the Karp sense unless P = NP.We study these problems in respect to the complexity class TotP, which contains functions that count the number of all paths of a PNTM. We first compare TotP to #P and #PE and show that FP ⊆ TotP ⊆ #PE ⊆ #P and that the inclusions are proper unless P = NP.We then show that several natural #PE problems -including the ones mentioned above -belong to TotP. Moreover, we prove that TotP is exactly the Karp closure of self-reducible functions of #PE. Therefore, all these problems share a remarkable structural property: for each of them there exists a polynomial-time nondeterministic Turing machine which has as many computation paths as the output value.

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Two remarks on the power of counting

Papadimitriou¹,

Zachos²

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Probabilistic quantifiers vs. distrustful adversaries

Zachos

Fürer

1987

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Stathis Zachos

Does co-NP have short interactive proofs?

The Complexity of Counting Functions with Easy Decision Version

Two remarks on the power of counting

Probabilistic quantifiers vs. distrustful adversaries

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