Publication | Open Access
Exponential complexity of an adiabatic algorithm for an NP-complete problem
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Citations
12
References
2006
Year
Numerical AnalysisMathematical ProgrammingInitial HamiltonianComputational Complexity TheoryEngineeringQuantum Adiabatic AlgorithmComputational ComplexityQuantum ComputingQuantum Optimization AlgorithmQuantum SimulationP Versus Np ProblemDiscrete MathematicsQuantum EntanglementCombinatorial OptimizationApproximation TheoryQuantum SciencePhysicsSubspace ComplementaryQuantum AlgorithmExponential AlgorithmNatural SciencesTime ComplexityQuantum DevicesQuantum SystemComputational ProblemExponential Complexity
We prove an analytical expression for the size of the gap between the ground and the first excited state of quantum adiabatic algorithm for the 3-satisfiability, where the initial Hamiltonian is a projector on the subspace complementary to the ground state. For large problem sizes the gap decreases exponentially and as a consequence the required running time is also exponential.
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