NP-hard problems are not solvable in BQP

Grover's algorithm is optimal for solving NP-complete problems, but NP-hard problems cannot be efficiently solved in BQP.

Grover's algorithm needs exponential time to solve NP-complete problems on quantum computers. Quantum computers require at least Ω(2^n/2) accesses to the black box for searching. The set DM is not computable for an arbitrary TM M. A quantum computer or OTM with oracle L(M) cannot decide whether 1n ∈ DM faster than with a black box search. For any TM M, the set UM is in NP but not in BQP.

"Experts agree that one cannot solve problems like P vs. NP with simple computability tricks." "We need a novel insight to solve this problem." "A quantum computer has the run time of Ω(2^n/2) to decide whether (1n, 1t) ∈ UM."