Yi-Cong Zheng
Yi-Cong Zheng
Research Fellow, Tencent quantum lab
Zweryfikowany adres z tencent.com
Cytowane przez
Cytowane przez
Fault-tolerant holonomic quantum computation in surface codes
YC Zheng, TA Brun
Physical Review A 91 (2), 022302, 2015
Non-markovian noise characterization with the transfer tensor method
YQ Chen, KL Ma, YC Zheng, J Allcock, S Zhang, CY Hsieh
Physical Review Applied 13 (3), 034045, 2020
Fault-tolerant scheme of holonomic quantum computation on stabilizer codes with robustness to low-weight thermal noise
YC Zheng, TA Brun
Physical Review A 89 (3), 032317, 2014
Teleportation-based fault-tolerant quantum computation in multi-qubit large block codes
TA Brun, YC Zheng, KC Hsu, J Job, CY Lai
arXiv preprint arXiv:1504.03913, 2015
Geometric manipulation of ensembles of atoms on an atom chip for quantum computation
YC Zheng, TA Brun
Physical Review A 86 (3), 032323, 2012
Fault-tolerant preparation of stabilizer states for quantum Calderbank-Shor-Steane codes by classical error-correcting codes
CY Lai, YC Zheng, TA Brun
Physical Review A 95 (3), 032339, 2017
Efficient preparation of large-block-code ancilla states for fault-tolerant quantum computation
YC Zheng, CY Lai, TA Brun
Physical Review A 97 (3), 032331, 2018
Constant depth fault-tolerant Clifford circuits for multi-qubit large block codes
YC Zheng, CY Lai, TA Brun, LC Kwek
Quantum Science and Technology 5, 045007, 2020
Evaluation of Quantum Control Protocols for Physical Machine Descriptions
D Hocker, H Rabitz, YC Zheng, T Brun, A Shafaei, M Pedram
IARPA QCS Project report, 2012
Shortcuts to adiabaticity for open systems in circuit quantum electrodynamics
Z Yin, C Li, J Allcock, Y Zheng, X Gu, M Dai, S Zhang, S An
Nature Communications 13 (1), 1-7, 2022
Exploiting different levels of parallelism in the quantum control microarchitecture for superconducting qubits
M Zhang, L Xie, Z Zhang, Q Yu, G Xi, H Zhang, F Liu, Y Zheng, Y Zheng, ...
MICRO-54: 54th Annual IEEE/ACM International Symposium on Microarchitecture …, 2021
Survey of control performance in quantum information processing
D Hocker, Y Zheng, R Kosut, T Brun, H Rabitz
Quantum Information Processing 15 (11), 4361-4390, 2016
Suppressing ZZ crosstalk of Quantum computers through pulse and scheduling co-optimization
L Xie, J Zhai, ZX Zhang, J Allcock, S Zhang, YC Zheng
ASPLOS 2022: Proceedings of the 27th ACM International Conference on …, 2022
Digital quantum simulator in the presence of a bath
YC Zheng, HK Ng
Physical Review A 96 (4), 042329, 2017
Spectral-Transfer-Tensor Method for Characterizing Non-Markovian Noise
YQ Chen, YC Zheng, S Zhang, CY Hsieh
Physical Review Applied 17 (6), 064007, 2022
TensorCircuit: a Quantum Software Framework for the NISQ Era
SX Zhang, J Allcock, ZQ Wan, S Liu, J Sun, H Yu, XH Yang, J Qiu, Z Ye, ...
arXiv preprint arXiv:2205.10091, 2022
Quantum chip, quantum processor and quantum computer
H Sainan, Y Zhou, Z Zhang, Y Zheng, W Zhang, Y Chuhong, ...
US Patent App. 17/540,474, 2022
Spectral Transfer Tensor Method for Non-Markovian Noise Characterization
YQ Chen, YC Zheng, S Zhang, CY Hsieh
arXiv preprint arXiv:2012.10094, 2020
Continuous error correction for quantum metrology
S Pang, YC Zheng, T Brun, A Jordan
APS March Meeting Abstracts 2019, P28. 010, 2019
Efficient and Fault-Tolerant Preparation of Large Block Code Ancilla States
T Brun, CY Lai, YC Zheng
APS March Meeting Abstracts 2018, X15. 003, 2018
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