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Paper detail

Benchmarking quantum annealers using symmetries in embedded subgraphs

We investigate an efficient, generic method for evaluating the performance of quantum annealing devices that does not require the prior knowledge of the true ground state of the benchmark problem. This approach exploits symmetry properties inherent to the ground states of a composite Hamiltonian comprising the benchmark problem Hamiltonian and its symmetric counterpart. Using this method, we compare the performance of two generations of D-Wave machines. Although we do not observe a noticeable difference in the probability of finding solutions with the required symmetry, our results suggest that the current generation of D-Wave machines notably outperforms its predecessor in finding states closer to those with the required symmetry.

preprint2022arXivOpen access
Dilina PereraBhavika BhalgamiyaM. A. Novotny
quant-ph
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Dilina PereraBhavika BhalgamiyaM. A. Novotny

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