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Main Authors: Bidzhiev, Kemal, Grava, Stefano, Henaff, Pablo le, Mendizabal, Mauro, Merhej, Elie, Quelle, Anton
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.09813
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author Bidzhiev, Kemal
Grava, Stefano
Henaff, Pablo le
Mendizabal, Mauro
Merhej, Elie
Quelle, Anton
author_facet Bidzhiev, Kemal
Grava, Stefano
Henaff, Pablo le
Mendizabal, Mauro
Merhej, Elie
Quelle, Anton
contents Simulating the dynamics of neutral atom arrays is a challenging problem. To address this, we introduce two emulators, emu-sv and emu-mps, as computational backends for Pasqal's pulser package. Emu-sv is designed for high-precision state-vector simulations, giving the possibility to emulate systems of up to $\thicksim 27$ qubits on an A100 40GB GPU, making it perfect for cases where numerically exact results are needed. In contrast, emu-mps uses a Matrix Product State representation and other controlled approximations to efficiently simulate much larger arrays of atoms with manageable errors. We show through benchmark comparisons that both emulators provide significant speed-ups over generic solvers such as QuTiP. In addition, we provide practical guidance on choosing between the two emulators. These quantum software tools are designed to support researchers and developers aiming to simulate quantum systems either as a precursor to full hardware implementation or as a means of benchmarking hardware performance.
format Preprint
id arxiv_https___arxiv_org_abs_2510_09813
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Efficient Emulation of Neutral Atom Quantum Hardware
Bidzhiev, Kemal
Grava, Stefano
Henaff, Pablo le
Mendizabal, Mauro
Merhej, Elie
Quelle, Anton
Quantum Physics
Simulating the dynamics of neutral atom arrays is a challenging problem. To address this, we introduce two emulators, emu-sv and emu-mps, as computational backends for Pasqal's pulser package. Emu-sv is designed for high-precision state-vector simulations, giving the possibility to emulate systems of up to $\thicksim 27$ qubits on an A100 40GB GPU, making it perfect for cases where numerically exact results are needed. In contrast, emu-mps uses a Matrix Product State representation and other controlled approximations to efficiently simulate much larger arrays of atoms with manageable errors. We show through benchmark comparisons that both emulators provide significant speed-ups over generic solvers such as QuTiP. In addition, we provide practical guidance on choosing between the two emulators. These quantum software tools are designed to support researchers and developers aiming to simulate quantum systems either as a precursor to full hardware implementation or as a means of benchmarking hardware performance.
title Efficient Emulation of Neutral Atom Quantum Hardware
topic Quantum Physics
url https://arxiv.org/abs/2510.09813