NP is as easy as detecting unique solutions

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Abstract

For every known NP-complete problem, the number of solutions of its instances varies over a large range, from zero to exponentially many. It is therefore natural to ask if the inherent intractability of NP-complete problem is caused by this wide variation. We give a negative answer to this question using the notion of randomized polynomial time reducibility. We show that the problems of distinguishing between instances of SAT having zero or one solution, or of finding solutions to instances of SAT having a unique solution, are as hard as SAT, under randomized reductions. Several corollaries about the difficulty of specific problems follow. For example, computing the parity of the number of solutions of a SAT formula is shown to be NP-hard, and deciding if a SAT formula has a unique solution is shown to be Dp-hard, under randomized reduction. Central to the study of cryptography is the question as to whether there exist NP-problems whose instances have solutions that are unique but are hard to find. Our result can be interpreted as strengthening the belief that such problems exist.

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Supported by National Science Foundation under Grant MCS-83-02385.

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Supported by the National Science Foundation under Grants MCS-81-21431, BCR-85-03611 and an IBM Faculty Development Award. Present affiliation: AT&T Bell Laboratories, Murray Hill, NJ 07974, U.S.A.