Q-Pilot: Field Programmable Qubit Array Compilation with Flying Ancillas

Author(s)

Wang, Hanrui; Tan, Daniel Bochen; Liu, Pengyu; Liu, Yilian; Gu, Jiaqi; Cong, Jason; Han, Song; ... Show more Show less

Abstract

Neutral atom arrays, particularly the reconfigurable field programmable qubit arrays (FPQA) with atom movement, show strong promise for quantum computing. FPQA has a dynamic qubit connectivity, facilitating cost-effective execution of long-range gates, but it also poses new challenges in the compilation. Inspired by the FPGA compilation strategy, we develop a router, Q-Pilot, that leverages flying ancillas to implement 2-Q gates between data qubits mapped to fixed atoms. Equipped with domain-specific routing techniques, Q-Pilot achieves 1.4×, 27.7×, and 6.7× reductions in circuit depth for 100-qubit random, quantum simulation, and QAOA circuits, respectively, compared to alternative fixed atom array architectures.

Date issued

2024-06-23

URI

https://hdl.handle.net/1721.1/157759

Department

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science

Publisher

ACM|61st ACM/IEEE Design Automation Conference

Citation

Wang, Hanrui, Tan, Daniel Bochen, Liu, Pengyu, Liu, Yilian, Gu, Jiaqi et al. 2024. "Q-Pilot: Field Programmable Qubit Array Compilation with Flying Ancillas."

Version: Final published version

ISBN

979-8-4007-0601-1