3 years ago

Speeding-up the decision making of a learning agent using an ion trap quantum processor.

Hans J. Briegel, Sabine Wölk, Christof Wunderlich, Nicolai Friis, Theeraphot Sriarunothai, Gouri Shankar Giri, Vedran Dunjko

We report a proof-of-principle experimental demonstration of the quantum speed-up for learning agents utilizing a small-scale quantum information processor based on radiofrequency-driven trapped ions. The decision-making process of a quantum learning agent within the projective simulation paradigm for machine learning is implemented in a system of two qubits. The latter are realized using hyperfine states of two frequency-addressed atomic ions exposed to a static magnetic field gradient. We show that the deliberation time of this quantum learning agent is quadratically improved with respect to comparable classical learning agents. The performance of this quantum-enhanced learning agent highlights the potential of scalable quantum processors taking advantage of machine learning.

Publisher URL: http://arxiv.org/abs/1709.01366

DOI: arXiv:1709.01366v2

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