Research on quantum compilation of neutral atom quantum computing platform

TL;DR

This paper reviews quantum compilation methods and introduces a new algorithm tailored for neutral atom quantum computing platforms, enabling efficient decomposition of unitary operations into platform-compatible quantum circuits.

Contribution

It proposes a novel quantum compilation algorithm specifically designed for neutral atom quantum computing, improving the process of translating high-level algorithms into executable circuits.

Findings

The proposed algorithm effectively decomposes any unitary operation into neutral atom-compatible gates.

The generated circuits can be directly implemented on neutral atom quantum hardware.

The method enhances the maturity of quantum compilation for neutral atom platforms.

Abstract

Quantum compilation is the process of decomposing high-level quantum algorithms or arbitrary unitary operations into quantum circuits composed of a specific set of quantum gates. Neutral atom quantum computing platform is a quantum computing implementation method with high controllability and scalability, but its quantum compilation method is not mature. We systematically review the quantum compilation methods based on matrix decomposition, and propose a compilation algorithm suitable for neutral atom quantum computing, which can effectively decompose any unitary operation into a series of quantum gates suitable for the neutral atom platform, and ensure that the generated quantum circuits can run directly on the platform.