(2+ε)-Sat Is NP-hard

We prove the following hardness result for a natural promise variant of the classical CNFsatisfiability problem: Given a CNF-formula where each clause has width w and the guarantee that there exists an assignment satisfying at least g = d2 e − 1 literals in each clause, it is NP-hard to find a satisfying assignment to the formula (that sets at least one literal to true in each clause). On the other hand, when g = d2 e, it is easy to find a satisfying assignment via simple generalizations of the algorithms for 2-SAT. Viewing 2-SAT ∈ P as easiness of SAT when 1-in-2 literals are true in every clause, and NPhardness of 3-SAT as intractability of SAT when 1-in-3 literals are true, our result shows, for any fixed ε > 0, the hardness of finding a satisfying assignment to instances of “(2 + ε)-SAT” where the density of satisfied literals in each clause is promised to exceed 1 2+ε . We also strengthen the results to prove that given a (2k+ 1)-uniform hypergraph that can be 2-colored such that each edge has perfect balance (at most k+1 vertices of either color), it is NP-hard to find a 2-coloring that avoids a monochromatic edge. In other words, a set system with discrepancy 1 is hard to distinguish from a set system with worst possible discrepancy. Finally, we prove a general result showing intractability of promise CSPs based on the paucity of certain “weak polymorphisms.” The core of the above hardness results is the claim that the only weak polymorphisms in these particular cases are juntas depending on few variables.