Quantum mixing of Markov chains for special distributions. (English) Zbl 1452.82040
Summary: The preparation of the stationary distribution of irreducible, time-reversible Markov chains (MCs) is a fundamental building block in many heuristic approaches to algorithmically hard problems. It has been conjectured that quantum analogs of classical mixing processes may offer a generic quadratic speed-up in realizing such stationary distributions. Such a speed-up would also imply a speed-up of a broad family of heuristic algorithms. However, a true quadratic speed up has thus far only been demonstrated for special classes of MCs. These results often presuppose a regular structure of the underlying graph of the MC, and also a regularity in the transition probabilities. In this work, we demonstrate a true quadratic speed-up for a class of MCs where the restriction is only on the form of the stationary distribution, rather than directly on the MC structure itself. In particular, we show efficient mixing can be achieved when it is known beforehand that the distribution is monotonically decreasing relative to a known order on the state space. Following this, we show that our approach extends to a wider class of distributions, where only a fraction of the shape of the distribution is known to be monotonic. Our approach is built on the Szegedy-type quantization of transition operators.
MSC:
| 82M31 | Monte Carlo methods applied to problems in statistical mechanics |
| 65C05 | Monte Carlo methods |
| 62F15 | Bayesian inference |
| 81S22 | Open systems, reduced dynamics, master equations, decoherence |
References:
| [1] | Newman M E J and Barkema G T 1999 Monte Carlo Methods in Statistical Physics (Oxford, UK: Oxford University Press) · Zbl 1012.82019 |
| [2] | Chen F, Lovász L and Pak I 1999 Lifting Markov Chains to speed up mixing Proc. 31st Annual ACM Symp. on Theory of Computing pp 275-81 · Zbl 1345.60075 |
| [3] | Somma R D, Boixo S, Barnum H and Knill E 2008 Quantum simulations of classical annealing processes Phys. Rev. Lett.101 130504 · doi:10.1103/PhysRevLett.101.130504 |
| [4] | Wocjan P and Abeyesinghe A 2008 Speedup via quantum sampling Phys. Rev. A 78 042336 · doi:10.1103/PhysRevA.78.042336 |
| [5] | Richter P C 2007 Quantum speedup of classical mixing processes Phys. Rev. A 76 042306 · doi:10.1103/PhysRevA.76.042306 |
| [6] | Richter P C 2007 Almost uniform sampling via quantum walks New J. Phys.9 73 · doi:10.1088/1367-2630/9/3/072 |
| [7] | Childs A 2004 Quantum information processing in continuous time PhD Thesis Massachusetts Institute of Technology |
| [8] | Szegedy M 2004 Quantum speed-up of markov chain based algorithms Proc. 45th Annual IEEE Symp. on Foundations of Computer Science 32-41 pp · doi:10.1109/FOCS.2004.53 |
| [9] | Magniez F, Nayak A, Roland J and Santha M 2011 Search via quantum walk SIAM J. Comput.40 142-64 · Zbl 1223.05289 · doi:10.1137/090745854 |
| [10] | Krovi H, Magniez F, Ozols M and Roland J 2015 Quantum walks can find a marked element on any graph Algorithmica 1-57 · Zbl 1336.68083 · doi:10.1007/s00453-015-9979-8 |
| [11] | Magniez F, Santha M and Szegedy M 2005 Quantum algorithms for the triangle problem Proc. 16th Annual ACM-SIAM Symp. on Discrete Algorithms SODA ’05 (Philadelphia: SIAM) pp 1109-17 · Zbl 1297.68078 |
| [12] | Reitzner D, Nagaj D and Bužek V 2011 Quantum Walks Acta Phys. Slovaca61 603-725 · doi:10.2478/v10155-011-0006-6 |
| [13] | Aldous D 1982 Some inequalities for reversible Markov chains J. London Math. Soc.25 564-7 · Zbl 0489.60077 · doi:10.1112/jlms/s2-25.3.564 |
| [14] | Levin D A, Peres Y and Wilmer E L 2006 Markov Chains and Mixing Times (Providence, RI: American Mathematical Society) |
| [15] | Norris J R 1998 Markov Chains (Cambridge: Cambridge University Press) · Zbl 0938.60058 |
| [16] | Brassard G, Høyer P, Mosca M and Tapp A 2002 Quantum amplitude amplification and estimation Quantum Computation and Quantum Information vol 305 ed S J Lomonaco Jr pp 53-73 · Zbl 1063.81024 · doi:10.1090/conm/305/05215 |
| [17] | Paparo G D, Dunjko V, Makmal A, Matrin-Delgado M A and Briegel H J 2014 Quantum speedup for active learning agents Phys. Rev. X 4 031002 · doi:10.1103/PhysRevX.4.031002 |
| [18] | Dunjko V and Briegel H J 2015 Quantum mixing for slowly evolving sequences of Markov chains arXiv: 1503.01334 |
| [19] | Chefles A and Barnett S 1998 A Optimum unambiguous discrimination between linearly independent symmetric states Phys. Lett. A 250 223-9 · doi:10.1016/S0375-9601(98)00827-5 |
| [20] | Aldous D, László L and Winkler P 1995 Mixing times for uniformly ergodic Markov chains Stoch. Process. Appl.2 165-85 · Zbl 0941.60080 |
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