Backend compiler phases for trapped-ion quantum computers

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandBeitrag in Buch/SammelwerkForschungPeer-Review

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OriginalspracheEnglisch
Titel des Sammelwerks2022 IEEE International Conference on Quantum Software (QSW)
Herausgeber/-innenShaukat Ali, Claudio Agostino Ardagna, Johanna Barzen, Hongyi Bian, Carl K. Chang, Rong N. Chang, Ernesto Damiani, Ismael Faro, Sebastian Feld, Frank Leymann, Francisco Jose Martin-Fernandez, Robert Ward, Manuel Wimmer, Fatos Xhafa, Jessie Yu, Jia Zhang
Seiten32-37
Seitenumfang6
ISBN (elektronisch)978-1-6654-8134-2
PublikationsstatusVeröffentlicht - 2022

Abstract

A promising architecture for scaling up quantum computers based on trapped ions are so called Quantum Charged-Coupled Devices (QCCD). These consist of multiple ion traps, each designed for solving specific tasks, that are connected by transport links. In this paper we present the backend compiler phases needed for running quantum circuits on a QCCD architecture, while providing strategies to solve the optimization problems that occur when generating assembly instructions. We implement and test these strategies for the QVLS-QI chip architecture.

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Backend compiler phases for trapped-ion quantum computers. / Schmale, Tobias; Temesi, Bence; Baishya, Alakesh et al.
2022 IEEE International Conference on Quantum Software (QSW). Hrsg. / Shaukat Ali; Claudio Agostino Ardagna; Johanna Barzen; Hongyi Bian; Carl K. Chang; Rong N. Chang; Ernesto Damiani; Ismael Faro; Sebastian Feld; Frank Leymann; Francisco Jose Martin-Fernandez; Robert Ward; Manuel Wimmer; Fatos Xhafa; Jessie Yu; Jia Zhang. 2022. S. 32-37.

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandBeitrag in Buch/SammelwerkForschungPeer-Review

Schmale, T, Temesi, B, Baishya, A, Pulido-Mateo, N, Krinner, L, Dubielzig, T, Ospelkaus, C, Weimer, H & Borcherding, D 2022, Backend compiler phases for trapped-ion quantum computers. in S Ali, CA Ardagna, J Barzen, H Bian, CK Chang, RN Chang, E Damiani, I Faro, S Feld, F Leymann, FJ Martin-Fernandez, R Ward, M Wimmer, F Xhafa, J Yu & J Zhang (Hrsg.), 2022 IEEE International Conference on Quantum Software (QSW). S. 32-37. https://doi.org/10.48550/arXiv.2206.00544, https://doi.org/10.1109/QSW55613.2022.00020
Schmale, T., Temesi, B., Baishya, A., Pulido-Mateo, N., Krinner, L., Dubielzig, T., Ospelkaus, C., Weimer, H., & Borcherding, D. (2022). Backend compiler phases for trapped-ion quantum computers. In S. Ali, C. A. Ardagna, J. Barzen, H. Bian, C. K. Chang, R. N. Chang, E. Damiani, I. Faro, S. Feld, F. Leymann, F. J. Martin-Fernandez, R. Ward, M. Wimmer, F. Xhafa, J. Yu, & J. Zhang (Hrsg.), 2022 IEEE International Conference on Quantum Software (QSW) (S. 32-37) https://doi.org/10.48550/arXiv.2206.00544, https://doi.org/10.1109/QSW55613.2022.00020
Schmale T, Temesi B, Baishya A, Pulido-Mateo N, Krinner L, Dubielzig T et al. Backend compiler phases for trapped-ion quantum computers. in Ali S, Ardagna CA, Barzen J, Bian H, Chang CK, Chang RN, Damiani E, Faro I, Feld S, Leymann F, Martin-Fernandez FJ, Ward R, Wimmer M, Xhafa F, Yu J, Zhang J, Hrsg., 2022 IEEE International Conference on Quantum Software (QSW). 2022. S. 32-37 doi: 10.48550/arXiv.2206.00544, 10.1109/QSW55613.2022.00020
Schmale, Tobias ; Temesi, Bence ; Baishya, Alakesh et al. / Backend compiler phases for trapped-ion quantum computers. 2022 IEEE International Conference on Quantum Software (QSW). Hrsg. / Shaukat Ali ; Claudio Agostino Ardagna ; Johanna Barzen ; Hongyi Bian ; Carl K. Chang ; Rong N. Chang ; Ernesto Damiani ; Ismael Faro ; Sebastian Feld ; Frank Leymann ; Francisco Jose Martin-Fernandez ; Robert Ward ; Manuel Wimmer ; Fatos Xhafa ; Jessie Yu ; Jia Zhang. 2022. S. 32-37
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title = "Backend compiler phases for trapped-ion quantum computers",
abstract = "A promising architecture for scaling up quantum computers based on trapped ions are so called Quantum Charged-Coupled Devices (QCCD). These consist of multiple ion traps, each designed for solving specific tasks, that are connected by transport links. In this paper we present the backend compiler phases needed for running quantum circuits on a QCCD architecture, while providing strategies to solve the optimization problems that occur when generating assembly instructions. We implement and test these strategies for the QVLS-QI chip architecture.",
keywords = "Quantum Computing, Compiler, Trapped-Ions, Optimization",
author = "Tobias Schmale and Bence Temesi and Alakesh Baishya and Nicolas Pulido-Mateo and Ludwig Krinner and Timko Dubielzig and Christian Ospelkaus and Hendrik Weimer and Daniel Borcherding",
note = "Funding Information: ACKNOWLEDGMENT We gratefully thank Ina Schaefer for helpful discussions. This work was funded by the Quantum Valley Lower Saxony (QVLS) through the Volkswagen foundation and the ministry for science and culture of Lower Saxony and by Germany{\textquoteright}s Excellence Strategy – EXC-2123 QuantumFrontiers – 390837967.",
year = "2022",
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editor = "Shaukat Ali and Ardagna, {Claudio Agostino} and Johanna Barzen and Hongyi Bian and Chang, {Carl K.} and Chang, {Rong N.} and Ernesto Damiani and Ismael Faro and Sebastian Feld and Frank Leymann and Martin-Fernandez, {Francisco Jose} and Robert Ward and Manuel Wimmer and Fatos Xhafa and Jessie Yu and Jia Zhang",
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TY - CHAP

T1 - Backend compiler phases for trapped-ion quantum computers

AU - Schmale, Tobias

AU - Temesi, Bence

AU - Baishya, Alakesh

AU - Pulido-Mateo, Nicolas

AU - Krinner, Ludwig

AU - Dubielzig, Timko

AU - Ospelkaus, Christian

AU - Weimer, Hendrik

AU - Borcherding, Daniel

N1 - Funding Information: ACKNOWLEDGMENT We gratefully thank Ina Schaefer for helpful discussions. This work was funded by the Quantum Valley Lower Saxony (QVLS) through the Volkswagen foundation and the ministry for science and culture of Lower Saxony and by Germany’s Excellence Strategy – EXC-2123 QuantumFrontiers – 390837967.

PY - 2022

Y1 - 2022

N2 - A promising architecture for scaling up quantum computers based on trapped ions are so called Quantum Charged-Coupled Devices (QCCD). These consist of multiple ion traps, each designed for solving specific tasks, that are connected by transport links. In this paper we present the backend compiler phases needed for running quantum circuits on a QCCD architecture, while providing strategies to solve the optimization problems that occur when generating assembly instructions. We implement and test these strategies for the QVLS-QI chip architecture.

AB - A promising architecture for scaling up quantum computers based on trapped ions are so called Quantum Charged-Coupled Devices (QCCD). These consist of multiple ion traps, each designed for solving specific tasks, that are connected by transport links. In this paper we present the backend compiler phases needed for running quantum circuits on a QCCD architecture, while providing strategies to solve the optimization problems that occur when generating assembly instructions. We implement and test these strategies for the QVLS-QI chip architecture.

KW - Quantum Computing

KW - Compiler

KW - Trapped-Ions

KW - Optimization

UR - http://www.scopus.com/inward/record.url?scp=85138409024&partnerID=8YFLogxK

U2 - 10.48550/arXiv.2206.00544

DO - 10.48550/arXiv.2206.00544

M3 - Contribution to book/anthology

SN - 978-1-6654-8135-9

SP - 32

EP - 37

BT - 2022 IEEE International Conference on Quantum Software (QSW)

A2 - Ali, Shaukat

A2 - Ardagna, Claudio Agostino

A2 - Barzen, Johanna

A2 - Bian, Hongyi

A2 - Chang, Carl K.

A2 - Chang, Rong N.

A2 - Damiani, Ernesto

A2 - Faro, Ismael

A2 - Feld, Sebastian

A2 - Leymann, Frank

A2 - Martin-Fernandez, Francisco Jose

A2 - Ward, Robert

A2 - Wimmer, Manuel

A2 - Xhafa, Fatos

A2 - Yu, Jessie

A2 - Zhang, Jia

ER -

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