论文信息 - The quantum adiabatic optimization algorithm and local minima

The quantum adiabatic optimization algorithm and local minima

The quantum adiabatic optimization algorithm uses the adiabatic theorem from quantum physics to minimize a function by interpolation between two Hamiltonians. The quantum wave function can sometimes tunnel through significant obstacles. However it can also sometimes get stuck in local minima, even for fairly simple problems. An initial Hamiltonian which insufficiently mixes computational basis states is analogous to a poorly mixing Markov transition rule. We study a physical system -- the Ising quantum chain with alternating sector interaction defects, but constant transverse field -- which is equivalent to applying the quantum adiabatic algorithm to a particular SAT problem. We prove that for a constant range of values for the transverse field, the spectral gap is exponentially small in the sector length. Indeed, we prove that there are exponentially many eigenvalues all exponentially close to the ground state energy. Applying the adiabatic theorem therefore takes exponential time, even for this simple problem.

Ben Reichardt | B. Reichardt

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