Benchmarking near-term devices with quantum error correction

被引:23
|
作者
Wootton, James R. [1 ]
机构
[1] IBM Res Zurich, IBM Quantum, Zurich, Switzerland
来源
QUANTUM SCIENCE AND TECHNOLOGY | 2020年 / 5卷 / 04期
关键词
quantum error correction; benchmarking; repetition code; Qiskit; CODES;
D O I
10.1088/2058-9565/aba038
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
Now that ever more sophisticated devices for quantum computing are being developed, we require ever more sophisticated benchmarks. This includes a need to determine how well these devices support the techniques required for quantum error correction. In this paper we introduce thetopological_codesmodule of Qiskit-Ignis, which is designed to provide the tools necessary to perform such tests. Specifically, we use theRepetitionCodeandGraphDecoderclasses to run tests based on the repetition code and process the results. As an example, data from a 43 qubit code running on IBM'sRochesterdevice is presented.
引用
收藏
页数:21
相关论文
共 50 条
  • [41] Distributed quantum computation for near-term quantum environments
    Gyongyosi, L.
    Imre, S.
    QUANTUM INFORMATION SCIENCE, SENSING, AND COMPUTATION XIII, 2021, 11726
  • [42] Quantum chemistry as a benchmark for near-term quantum computers
    Alexander J. McCaskey
    Zachary P. Parks
    Jacek Jakowski
    Shirley V. Moore
    Titus D. Morris
    Travis S. Humble
    Raphael C. Pooser
    npj Quantum Information, 5
  • [43] Noise-robust exploration of many-body quantum states on near-term quantum devices
    Johannes Borregaard
    Matthias Christandl
    Daniel Stilck França
    npj Quantum Information, 7
  • [44] Towards near-term quantum simulation of materials
    Laura Clinton
    Toby Cubitt
    Brian Flynn
    Filippo Maria Gambetta
    Joel Klassen
    Ashley Montanaro
    Stephen Piddock
    Raul A. Santos
    Evan Sheridan
    Nature Communications, 15
  • [45] Noise-robust exploration of many-body quantum states on near-term quantum devices
    Borregaard, Johannes
    Christandl, Matthias
    Franca, Daniel Stilck
    NPJ QUANTUM INFORMATION, 2021, 7 (01)
  • [46] Towards near-term quantum simulation of materials
    Clinton, Laura
    Cubitt, Toby
    Flynn, Brian
    Gambetta, Filippo Maria
    Klassen, Joel
    Montanaro, Ashley
    Piddock, Stephen
    Santos, Raul A.
    Sheridan, Evan
    NATURE COMMUNICATIONS, 2024, 15 (01)
  • [47] Readout rebalancing for near-term quantum computers
    Hicks, Rebecca
    Bauer, Christian W.
    Nachman, Benjamin
    PHYSICAL REVIEW A, 2021, 103 (02)
  • [48] Faithfully Simulating Near-Term Quantum Repeaters
    Wallnoefer, Julius
    Hahn, Frederik
    Wiesner, Fabian
    Walk, Nathan
    Eisert, Jens
    PRX QUANTUM, 2024, 5 (01):
  • [49] Recycling qubits in near-term quantum computers
    Anikeeva, Galit
    Kim, Isaac H.
    Hayden, Patrick
    PHYSICAL REVIEW A, 2021, 103 (04)
  • [50] Quantum Natural Language Processing on Near-Term Quantum Computers
    Meichanetzidis, K.
    De Felice, G.
    Toumi, A.
    Coecke, B.
    Gogioso, S.
    Chiappori, N.
    ELECTRONIC PROCEEDINGS IN THEORETICAL COMPUTER SCIENCE, 2021, (340): : 213 - 229
12345