Awesome NISQ
NISQ is one of the most active areas in Awesome Quantum Computing — 3,437 papers in this collection, evaluated on datasets like MNIST, Max-Cut, H-2. A strong starting point is "Quantum Computing In The NISQ Era And Beyond".
Datasets & benchmarks
Key papers
- Quantum Computing In The NISQ Era And Beyond (2018)John Preskill28.82
- Noisy Intermediate-scale Quantum (NISQ) Algorithms (2021)Kishor Bharti, Alba Cervera-Lierta, Thi Ha Kyaw, et al.23.69
- Superconducting Qubits: Current State Of Play (2019)Morten Kjaergaard, Mollie E. Schwartz, Jochen Braumüller, et al.23.52
- Quantumnas: Noise-adaptive Search For Robust Quantum Circuits (2021)Hanrui Wang, Yongshan Ding, Jiaqi Gu, et al.22.85
- Simple Pulses For Elimination Of Leakage In Weakly Nonlinear Qubits (2009)F. Motzoi, J. M. Gambetta, P. Rebentrost, et al.21.17
- Josephson-junction Qubits With Controlled Couplings (1998)Yuriy Makhlin, Gerd Schoen, Alexander Shnirman20.90
- Noise-induced Barren Plateaus In Variational Quantum Algorithms (2020)Samson Wang, Enrico Fontana, M. Cerezo, et al.20.76
- Probing Entanglement Entropy Via Randomized Measurements (2018)Tiff Brydges, Andreas Elben, Petar Jurcevic, et al.20.51
- Hybrid Quantum-classical Algorithms And Quantum Error Mitigation (2020)Suguru Endo, Zhenyu Cai, Simon C. Benjamin, et al.20.26
- Tackling The Qubit Mapping Problem For Nisq-era Quantum Devices (2018)Gushu Li, Yufei Ding, Yuan Xie19.80
- Quantum Process Tomography Of A Controlled-not Gate (2004)J. L. O'Brien, G. J. Pryde, A. Gilchrist, et al.19.65
- 10-qubit Entanglement And Parallel Logic Operations With A Superconducting Circuit (2017)Chao Song, Kai Xu, Wuxin Liu, et al.19.38
- A Simple All-microwave Entangling Gate For Fixed-frequency Superconducting Qubits (2011)Jerry M. Chow, A. D. Corcoles, Jay M. Gambetta, et al.19.35
- Characterizing Quantum Gates Via Randomized Benchmarking (2011)Easwar Magesan, Jay M. Gambetta, Joseph Emerson19.31
- Qubits Made By Advanced Semiconductor Manufacturing (2021)A. M. J. Zwerver, T. Krähenmann, T. F. Watson, et al.18.71
- IBM Q Experience As A Versatile Experimental Testbed For Simulating Open Quantum Systems (2019)Guillermo García-Pérez, Matteo A. C. Rossi, Sabrina Maniscalco18.57
- Realization Of An Error-correcting Surface Code With Superconducting Qubits (2021)Youwei Zhao, Yangsen Ye, He-Liang Huang, et al.18.38
- Rydberg Mediated Entanglement In A Two-dimensional Neutral Atom Qubit Array (2019)T. M. Graham, M. Kwon, B. Grinkemeyer, et al.18.20
- Efficient Symmetry-preserving State Preparation Circuits For The Variational Quantum Eigensolver Algorithm (2019)Bryan T. Gard, Linghua Zhu, George S. Barron, et al.17.73
- Randomized Benchmarking Of Single Qubit Gates In A 2D Array Of Neutral Atom Qubits (2015)T. Xia, M. Lichtman, K. Maller, et al.17.60
- A Quantum-logic Gate Between Distant Quantum-network Modules (2021)Severin Daiss, Stefan Langenfeld, Stephan Welte, et al.17.07
- Using Sideband Transitions For Two-qubit Operations In Superconducting Circuits (2008)P. J. Leek, S. Filipp, P. Maurer, et al.16.97
- The Bitter Truth About Quantum Algorithms In The NISQ Era (2020)Frank Leymann, Johanna Barzen16.97
- Learning-based Quantum Error Mitigation (2020)Armands Strikis, Dayue Qin, Yanzhu Chen, et al.16.97
- Skyrmion Qubits: A New Class Of Quantum Logic Elements Based On Nanoscale Magnetization (2021)Christina Psaroudaki, Christos Panagopoulos16.95
- Synthesis Of Quantum Circuits For Linear Nearest Neighbor Architectures (2011)Mehdi Saeedi, Robert Wille, Rolf Drechsler16.71
- Genuine 12-qubit Entanglement On A Superconducting Quantum Processor (2018)Ming Gong, Ming-Cheng Chen, Yarui Zheng, et al.16.59
- Measurement-induced Entanglement And Teleportation On A Noisy Quantum Processor (2023)Jesse C. Hoke, Matteo Ippoliti, Eliott Rosenberg, et al.16.39
- Cutqc: Using Small Quantum Computers For Large Quantum Circuit Evaluations (2020)Wei Tang, Teague Tomesh, Martin Suchara, et al.16.32
- Exponential Error Suppression For Near-term Quantum Devices (2020)Bálint Koczor15.90
- Differentiable Quantum Architecture Search (2020)Shi-Xin Zhang, Chang-Yu Hsieh, Shengyu Zhang, et al.15.80
- Erasure Conversion In A High-fidelity Rydberg Quantum Simulator (2023)Pascal Scholl, Adam L. Shaw, Richard Bing-Shiun Tsai, et al.15.67
- Stabilizing Entanglement Via Symmetry-selective Bath Engineering In Superconducting Qubits (2015)M. E. Schwartz, L. Martin, E. Flurin, et al.15.54
- Quantum Error Mitigation As A Universal Error-minimization Technique: Applications From NISQ To FTQC Eras (2020)Yasunari Suzuki, Suguru Endo, Keisuke Fujii, et al.15.51
- Qutrit Randomized Benchmarking (2020)A. Morvan, V. V. Ramasesh, M. S. Blok, et al.15.48
- Hybrid Quantum-classical Algorithms In The Noisy Intermediate-scale Quantum Era And Beyond (2022)Adam Callison, Nicholas Chancellor15.46
- Compiler Design For Distributed Quantum Computing (2020)Davide Ferrari, Angela Sara Cacciapuoti, Michele Amoretti, et al.15.46
- Unfolding Quantum Computer Readout Noise (2019)Benjamin Nachman, Miroslav Urbanek, Wibe A. de Jong, et al.15.37
- Suppression Of Crosstalk In Superconducting Qubits Using Dynamical Decoupling (2021)Vinay Tripathi, Huo Chen, Mostafa Khezri, et al.15.37
- Modelling And Simulating The Noisy Behaviour Of Near-term Quantum Computers (2021)Konstantinos Georgopoulos, Clive Emary, Paolo Zuliani15.31
- Randomized Compiling For Scalable Quantum Computing On A Noisy Superconducting Quantum Processor (2020)Akel Hashim, Ravi K. Naik, Alexis Morvan, et al.15.19
- High Fidelity Two-qubit Gates On Fluxoniums Using A Tunable Coupler (2022)Ilya N. Moskalenko, Ilya A. Simakov, Nikolay N. Abramov, et al.15.19
- Tunable Coupler For Realizing A Controlled-phase Gate With Dynamically Decoupled Regime In A Superconducting Circuit (2019)X. Li, T. Cai, H. Yan, et al.15.06
- Quantifying Magic For Multi-qubit Operations (2019)James R. Seddon, Earl T. Campbell15.06
- Tunable Coupling Scheme For Flux Qubits At The Optimal Point (2005)Antti O. Niskanen, Yasunobu Nakamura, Jaw-Shen Tsai15.03
- Protocol For Universal Gates In Optimally Biased Superconducting Qubits (2004)Chad Rigetti, Michel Devoret15.03
- Quantum Circuit Optimizations For NISQ Architectures (2019)Beatrice Nash, Vlad Gheorghiu, Michele Mosca15.00
- Microwave-activated Conditional-phase Gate For Superconducting Qubits (2013)Jerry M. Chow, Jay M. Gambetta, Andrew W. Cross, et al.14.87
- A Comparison Of Various Classical Optimizers For A Variational Quantum Linear Solver (2021)Aidan Pellow-Jarman, Ilya Sinayskiy, Anban Pillay, et al.14.80
- Software Tools For Quantum Control: Improving Quantum Computer Performance Through Noise And Error Suppression (2020)Harrison Ball, Michael J. Biercuk, Andre Carvalho, et al.14.76
- Quantum Process Tomography Of Two-qubit Controlled-z And Controlled-not Gates Using Superconducting Phase Qubits (2010)T. Yamamoto, M. Neeley, E. Lucero, et al.14.76
- Optimization Of Quantum Circuit Mapping Using Gate Transformation And Commutation (2019)Toshinari Itoko, Rudy Raymond, Takashi Imamichi, et al.14.69
- High-fidelity Three-qubit Itoffoli Gate For Fixed-frequency Superconducting Qubits (2021)Yosep Kim, Alexis Morvan, Long B. Nguyen, et al.14.69
- Mitigating Realistic Noise In Practical Noisy Intermediate-scale Quantum Devices (2020)Jinzhao Sun, Xiao Yuan, Takahiro Tsunoda, et al.14.69
- Many-body Hilbert Space Scarring On A Superconducting Processor (2022)Pengfei Zhang, Hang Dong, Yu Gao, et al.14.69
- Efficient Classical Simulation Of Noisy Random Quantum Circuits In One Dimension (2020)Kyungjoo Noh, Liang Jiang, Bill Fefferman14.66
- Experimental High-dimensional Greenberger-horne-zeilinger Entanglement With Superconducting Transmon Qutrits (2021)Alba Cervera-Lierta, Mario Krenn, Alán Aspuru-Guzik, et al.14.62
- Entanglement Of Trapped-ion Clock States (2005)P. C. Haljan, P. J. Lee, K. -A. Brickman, et al.14.58
- Entanglement Generation In Superconducting Qubits Using Holonomic Operations (2018)Daniel J. Egger, Marc Ganzhorn, Gian Salis, et al.14.47
- Near-term Quantum Computing Techniques: Variational Quantum Algorithms, Error Mitigation, Circuit Compilation, Benchmarking And Classical Simulation (2022)He-Liang Huang, Xiao-Yue Xu, Chu Guo, et al.14.47