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SimuQ: A Framework for Programming Quantum Hamiltonian Simulation with Analog Compilation

Yuxiang Peng, Jacob Young, Pengyu Liu, Xiaodi Wu

2024Proceedings of the ACM on Programming Languages13 citationsDOIOpen Access PDF

Abstract

Quantum Hamiltonian simulation, which simulates the evolution of quantum systems and probes quantum phenomena, is one of the most promising applications of quantum computing. Recent experimental results suggest that Hamiltonian-oriented analog quantum simulation would be advantageous over circuit-oriented digital quantum simulation in the Noisy Intermediate-Scale Quantum (NISQ) machine era. However, programming analog quantum simulators is much more challenging due to the lack of a unified interface between hardware and software. In this paper, we design and implement SimuQ, the first framework for quantum Hamiltonian simulation that supports Hamiltonian programming and pulse-level compilation to heterogeneous analog quantum simulators. Specifically, in SimuQ, front-end users specify the target quantum system with Hamiltonian Modeling Language, and the Hamiltonian-level programmability of analog quantum simulators is specified through a new abstraction called the abstract analog instruction set (AAIS) and programmed in AAIS Specification Language by hardware providers. Through a solver-based compilation, SimuQ generates executable pulse schedules for real devices to simulate the evolution of desired quantum systems, which is demonstrated on superconducting (IBM), neutral-atom (QuEra), and trapped-ion (IonQ) quantum devices. Moreover, we demonstrate the advantages of exposing the Hamiltonian-level programmability of devices with native operations or interaction-based gates and establish a small benchmark of quantum simulation to evaluate SimuQ’s compiler with the above analog quantum simulators.

Topics & Concepts

Quantum simulatorComputer scienceQuantum computerQuantumHamiltonian (control theory)Quantum algorithmExecutableSolverComputational scienceQuantum circuitCompilerQuantum networkTheoretical computer sciencePhysicsQuantum mechanicsProgramming languageMathematicsMathematical optimizationQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyAdvancements in Semiconductor Devices and Circuit Design