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Faster Born probability estimation via gate merging and frame optimisation

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arxiv 2202.12114 v2 pith:EOZKF2VF submitted 2022-02-24 quant-ph

Faster Born probability estimation via gate merging and frame optimisation

classification quant-ph
keywords circuitframegatemethodsoverheadcircuitsclassicalestimation
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Outcome probability estimation via classical methods is an important task for validating quantum computing devices. Outcome probabilities of any quantum circuit can be estimated using Monte Carlo sampling, where the amount of negativity present in the circuit frame representation quantifies the overhead on the number of samples required to achieve a certain precision. In this paper, we propose two classical sub-routines: circuit gate merging and frame optimisation, which optimise the circuit representation to reduce the sampling overhead. We show that the runtimes of both sub-routines scale polynomially in circuit size and gate depth. Our methods are applicable to general circuits, regardless of generating gate sets, qudit dimensions and the chosen frame representations for the circuit components. We numerically demonstrate that our methods provide improved scaling in the negativity overhead for all tested cases of random circuits with Clifford+$T$ and Haar-random gates, and that the performance of our methods compares favourably with prior quasi-probability simulators as the number of non-Clifford gates increases.

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