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Autori principali: Seitz, Dominik, Heim, Niklas, Moutinho, João P., Guichard, Roland, Abramavicius, Vytautas, Wennersteen, Aleksander, Both, Gert-Jan, Quelle, Anton, de Groot, Caroline, Velikova, Gergana V., Elfving, Vincent E., Dagrada, Mario
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2401.09915
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author Seitz, Dominik
Heim, Niklas
Moutinho, João P.
Guichard, Roland
Abramavicius, Vytautas
Wennersteen, Aleksander
Both, Gert-Jan
Quelle, Anton
de Groot, Caroline
Velikova, Gergana V.
Elfving, Vincent E.
Dagrada, Mario
author_facet Seitz, Dominik
Heim, Niklas
Moutinho, João P.
Guichard, Roland
Abramavicius, Vytautas
Wennersteen, Aleksander
Both, Gert-Jan
Quelle, Anton
de Groot, Caroline
Velikova, Gergana V.
Elfving, Vincent E.
Dagrada, Mario
contents Digital-analog quantum computing (DAQC) is an alternative paradigm for universal quantum computation combining digital single-qubit gates with global analog operations acting on a register of interacting qubits. Currently, no available open-source software is tailored to express, differentiate, and execute programs within the DAQC paradigm. In this work, we address this shortfall by presenting Qadence, a high-level programming interface for building complex digital-analog quantum programs developed at Pasqal. Thanks to its flexible interface, native differentiability, and focus on real-device execution, Qadence aims at advancing research on variational quantum algorithms built for native DAQC platforms such as Rydberg atom arrays.
format Preprint
id arxiv_https___arxiv_org_abs_2401_09915
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Qadence: a differentiable interface for digital-analog programs
Seitz, Dominik
Heim, Niklas
Moutinho, João P.
Guichard, Roland
Abramavicius, Vytautas
Wennersteen, Aleksander
Both, Gert-Jan
Quelle, Anton
de Groot, Caroline
Velikova, Gergana V.
Elfving, Vincent E.
Dagrada, Mario
Quantum Physics
Machine Learning
Programming Languages
Software Engineering
Digital-analog quantum computing (DAQC) is an alternative paradigm for universal quantum computation combining digital single-qubit gates with global analog operations acting on a register of interacting qubits. Currently, no available open-source software is tailored to express, differentiate, and execute programs within the DAQC paradigm. In this work, we address this shortfall by presenting Qadence, a high-level programming interface for building complex digital-analog quantum programs developed at Pasqal. Thanks to its flexible interface, native differentiability, and focus on real-device execution, Qadence aims at advancing research on variational quantum algorithms built for native DAQC platforms such as Rydberg atom arrays.
title Qadence: a differentiable interface for digital-analog programs
topic Quantum Physics
Machine Learning
Programming Languages
Software Engineering
url https://arxiv.org/abs/2401.09915