Noise-Induced Sampling of Alternative Hamiltonian Paths in Quantum Adiabatic Search
Quantum Physics
2009-07-04 v2
Abstract
We numerically simulate the effects of noise-induced sampling of alternative Hamiltonian paths on the ability of quantum adiabatic search (QuAdS) to solve randomly generated instances of the NP-Complete problem N-bit Exact Cover 3. The noise-averaged median runtime is determined as the noise-power and number of bits N are varied, and power-law and exponential fits are made to the data. Noise is seen to slowdown QuAdS, though a downward shift in the scaling exponent is found for N > 12 over a range of noise-power values. We discuss whether this shift might be connected to arguments in the literature that suggest that altering the Hamiltonian path might benefit QuAdS performance.
Cite
@article{arxiv.0707.2420,
title = {Noise-Induced Sampling of Alternative Hamiltonian Paths in Quantum Adiabatic Search},
author = {Frank Gaitan},
journal= {arXiv preprint arXiv:0707.2420},
year = {2009}
}
Comments
16 pages; 5 figures; 4 tables; to appear in Complexity