Litcius/Paper detail

The potential of quantum annealing for rapid solution structure identification

Yuchen Pang, Carleton Coffrin, Andrey Y. Lokhov, Marc Vuffray

2020Constraints16 citationsDOIOpen Access PDF

Abstract

Abstract The recent emergence of novel computational devices, such as quantum computers, coherent Ising machines, and digital annealers presents new opportunities for hardware-accelerated hybrid optimization algorithms. Unfortunately, demonstrations of unquestionable performance gains leveraging novel hardware platforms have faced significant obstacles. One key challenge is understanding the algorithmic properties that distinguish such devices from established optimization approaches. Through the careful design of contrived optimization tasks, this work provides new insights into the computation properties of quantum annealing and suggests that this model has the potential to quickly identify the structure of high-quality solutions. A meticulous comparison to a variety of algorithms spanning both complete and local search suggests that quantum annealing’s performance on the proposed optimization tasks is distinct. This result provides new insights into the time scales and types of optimization problems where quantum annealing has the potential to provide notable performance gains over established optimization algorithms and suggests the development of hybrid algorithms that combine the best features of quantum annealing and state-of-the-art classical approaches.

Topics & Concepts

Quantum annealingComputer scienceSimulated annealingQuantum computerQuantumOptimization problemComputationQuadratic unconstrained binary optimizationComputer engineeringMathematical optimizationTheoretical computer scienceAlgorithmMathematicsQuantum mechanicsPhysicsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyNeural Networks and Reservoir Computing