Quantum Rounding
We introduce new rounding methods to improve the accuracy of finite precision quantum arithmetic. These quantum rounding methods are applicable when multiple samples are being taken from a quantum program. We show how to use multiple samples to stochastically suppress arithmetic error from rounding....
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| Sprache: | eng |
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| Zusammenfassung: | We introduce new rounding methods to improve the accuracy of finite precision
quantum arithmetic. These quantum rounding methods are applicable when multiple
samples are being taken from a quantum program. We show how to use multiple
samples to stochastically suppress arithmetic error from rounding. We benchmark
these methods on the multiplication of fixed-point numbers stored in quantum
registers. We show that the gate counts and depths for multiplying to a target
accuracy can be reduced by approximately 2-3X over state of the art methods
while using roughly the same number of qubits. |
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| DOI: | 10.48550/arxiv.2108.05949 |