Circuit-based quantum random access memory for classical data with continuous amplitudes
Quantum Physics
2020-11-17 v1 Emerging Technologies
Abstract
Loading data in a quantum device is required in several quantum computing applications. Without an efficient loading procedure, the cost to initialize the algorithms can dominate the overall computational cost. A circuit-based quantum random access memory named FF-QRAM can load M n-bit patterns with computational cost O(CMn) to load continuous data where C depends on the data distribution. In this work, we propose a strategy to load continuous data without post-selection with computational cost O(Mn). The proposed method is based on the probabilistic quantum memory, a strategy to load binary data in quantum devices, and the FF-QRAM using standard quantum gates, and is suitable for noisy intermediate-scale quantum computers.
Keywords
Cite
@article{arxiv.2011.07977,
title = {Circuit-based quantum random access memory for classical data with continuous amplitudes},
author = {Tiago M. L. de Veras and Ismael C. S. de Araujo and Daniel K. Park and Adenilton J. da Silva},
journal= {arXiv preprint arXiv:2011.07977},
year = {2020}
}