Quantum Assisted Simulator

Kishor Bharti, T. Haug
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引用次数: 43

Abstract

Quantum simulation offers a possibility to explore the exponentially large configuration space of quantum mechanical systems and thus help us study poorly understood topics such as high-temperature superconductivity and drug design. Here, we provide a novel hybrid quantum-classical algorithm for simulating the dynamics of quantum systems. Without loss of generality, the Hamiltonian is assumed to be a linear combination of unitaries and the Ansatz wavefunction is taken as a linear combination of quantum states. The quantum states are fixed, and the combination parameters are variationally adjusted. Unlike existing variational quantum simulation algorithms, our algorithm does not require any classical-quantum feedback loop and by construction bypasses the barren plateau problem. Moreover, our algorithm does not require any complicated measurements, such as the Hadamard test. The entire framework is compatible with existing experimental capabilities and thus can be implemented immediately. We also provide an extension of our algorithm to imaginary time evolution.
量子辅助模拟器
量子模拟提供了一种探索量子力学系统的指数级大构型空间的可能性,从而帮助我们研究诸如高温超导和药物设计等鲜为人知的主题。在这里,我们提供了一种新的量子-经典混合算法来模拟量子系统的动力学。在不失一般性的前提下,将哈密顿量假定为酉元的线性组合,将安萨茨波函数假定为量子态的线性组合。量子态是固定的,组合参数是可变调整的。与现有的变分量子模拟算法不同,我们的算法不需要任何经典量子反馈回路,并且通过构造绕过了贫瘠高原问题。此外,我们的算法不需要任何复杂的测量,如Hadamard测试。整个框架与现有的实验能力兼容,因此可以立即实施。我们也提供了我们的算法扩展到虚时间演化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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