Fast black-box quantum state preparation based on linear combination of unitaries

Shengbin Wang; Zhimin Wang; Guolong Cui; Shangshang Shi; Ruimin Shang; Lixin Fan; Wendong Li; Zhiqiang Wei; Yongjian Gu

Fast black-box quantum state preparation based on linear combination of unitaries

Shengbin Wang, Zhimin Wang, Guolong Cui, Shangshang Shi, Ruimin Shang, Lixin Fan, Wendong Li, Zhiqiang Wei, Yongjian Gu

Published: 01 Jan 2021, Last Modified: 13 Nov 2024Quantum Inf. Process. 2021EveryoneRevisionsBibTeXCC BY-SA 4.0

Abstract: Black-box quantum state preparation is a fundamental primitive in quantum algorithms. Starting from Grover, a series of techniques have been devised to reduce the complexity. In this work, we propose to perform black-box state preparation using the technique of linear combination of unitaries (LCU). We provide two algorithms based on a different structure of LCU. Our algorithms improve upon the existed best results by reducing the required additional qubits and Toffoli gates to 2log(n) and n, respectively, in the bit precision n. We demonstrate the algorithms using the IBM Quantum Experience cloud services. The further reduced complexity of the present algorithms brings the black-box quantum state preparation closer to reality.

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