Quantum Solution for Configuration Selection and Prioritization

The analyses of highly configurable systems, as applied in software or automotive domains, yield hard problems due to the exponentially increasing number of possible product configurations. Current research identified that such combinatorial optimization problems, e.g. configuration selection and prioritization, are ideal targets for expected exponential quantum speedups. However, empirical evidence about the applicability of quantum computing to these problems is still missing. In this paper, we investigate how the constraint satisfaction and optimization problems of configuration selection and prioritization can be addressed using quantum computing. We propose a method to transform the configuration selection and prioritization problems encoded in attributed feature models into a quantum mechanical formulation suitable for optimization problems. We provide a Python library to automatically perform this transformation and apply the Quantum Approximate Optimization Algorithm (QAOA), such that configuration selection and prioritization are solved with quantum computers. Our approach is evaluated regarding feasibility, solution quality, and scalability. ... mehrWe show that QAOA obtains good results regarding configuration selection, but for configuration prioritization, the approach needs further improvement.