AUTHOR=Bian Zhengbing , Chudak Fabian , Israel Robert Brian , Lackey Brad , Macready William G. , Roy Aidan TITLE=Mapping Constrained Optimization Problems to Quantum Annealing with Application to Fault Diagnosis JOURNAL=Frontiers in ICT VOLUME=3 YEAR=2016 URL=https://www.frontiersin.org/journals/ict/articles/10.3389/fict.2016.00014 DOI=10.3389/fict.2016.00014 ISSN=2297-198X ABSTRACT=
Current quantum annealing (QA) hardware suffers from practical limitations such as finite temperature, sparse connectivity, small qubit numbers, and control error. We propose new algorithms for mapping Boolean constraint satisfaction problems (CSPs) onto QA hardware mitigating these limitations. In particular, we develop a new embedding algorithm for mapping a CSP onto a hardware Ising model with a fixed sparse set of interactions and propose two new decomposition algorithms for solving problems too large to map directly into hardware. The mapping technique is locally structured, as hardware compatible Ising models are generated for each problem constraint, and variables appearing in different constraints are chained together using ferromagnetic couplings. By contrast, global embedding techniques generate a hardware-independent Ising model for all the constraints, and then use a minor-embedding algorithm to generate a hardware compatible Ising model. We give an example of a class of CSPs for which the scaling performance of the D-Wave hardware using the local mapping technique is significantly better than global embedding. We validate the approach by applying D-Wave’s QA hardware to circuit-based fault diagnosis. For circuits that embed directly, we find that the hardware is typically able to find