Awesome Hardware
Hardware is one of the most active areas in Awesome Quantum Computing — 4,384 papers in this collection, evaluated on datasets like MNIST, Fashion-MNIST, LiH. A strong starting point is "Charge Insensitive Qubit Design Derived From The Cooper Pair Box".
Datasets & benchmarks
Key papers
- Charge Insensitive Qubit Design Derived From The Cooper Pair Box (2007)Jens Koch, Terri M. Yu, Jay Gambetta, et al.25.95
- Barren Plateaus In Quantum Neural Network Training Landscapes (2018)Jarrod R. McClean, Sergio Boixo, Vadim N. Smelyanskiy, et al.24.40
- Coupling Superconducting Qubits Via A Cavity Bus (2007)J. Majer, J. M. Chow, J. M. Gambetta, et al.23.11
- Coherent Quantum Dynamics Of A Superconducting Flux Qubit (2003)I. Chiorescu, Y. Nakamura, C. J. P. M. Harmans, et al.22.67
- Heralded Entanglement Between Solid-state Qubits Separated By 3 Meters (2012)H. Bernien, B. Hensen, W. Pfaff, et al.22.51
- Parameterized Quantum Circuits As Machine Learning Models (2019)Marcello Benedetti, Erika Lloyd, Stefan Sack, et al.22.40
- Observation Of High Coherence In Josephson Junction Qubits Measured In A Three-dimensional Circuit QED Architecture (2011)Hanhee Paik, D. I. Schuster, Lev S. Bishop, et al.22.24
- Evaluating Analytic Gradients On Quantum Hardware (2018)Maria Schuld, Ville Bergholm, Christian Gogolin, et al.21.96
- An Addressable Quantum Dot Qubit With Fault-tolerant Control Fidelity (2014)M. Veldhorst, J. C. C. Hwang, C. H. Yang, et al.21.94
- A Two Qubit Logic Gate In Silicon (2014)M. Veldhorst, C. H. Yang, J. C. C. Hwang, et al.21.79
- Simple Pulses For Elimination Of Leakage In Weakly Nonlinear Qubits (2009)F. Motzoi, J. M. Gambetta, P. Rebentrost, et al.21.17
- Coherent Dynamics Of A Flux Qubit Coupled To A Harmonic Oscillator (2004)I. Chiorescu, P. Bertet, K. Semba, et al.21.15
- Josephson-junction Qubits With Controlled Couplings (1998)Yuriy Makhlin, Gerd Schoen, Alexander Shnirman20.90
- Large Scale Modular Quantum Computer Architecture With Atomic Memory And Photonic Interconnects (2012)C. Monroe, R. Raussendorf, A. Ruthven, et al.20.73
- Dynamically Protected Cat-qubits: A New Paradigm For Universal Quantum Computation (2013)Mazyar Mirrahimi, Zaki Leghtas, Victor V. Albert, et al.20.69
- Demonstration Of Conditional Gate Operation Using Superconducting Charge Qubits (2003)T. Yamamoto, Yu. A. Pashkin, O. Astafiev, et al.20.63
- A CMOS Silicon Spin Qubit (2016)R. Maurand, X. Jehl, D. Kotekar Patil, et al.20.40
- Preparation And Measurement Of Three-qubit Entanglement In A Superconducting Circuit (2010)L. Dicarlo, M. D. Reed, L. Sun, et al.20.23
- Demonstration Of Entanglement Of Electrostatically Coupled Singlet-triplet Qubits (2012)Michael D. Shulman, Oliver E. Dial, Shannon P. Harvey, et al.20.22
- Defining And Detecting Quantum Speedup (2014)Troels F. Rønnow, Zhihui Wang, Joshua Job, et al.20.16
- Approaching Unit Visibility For Control Of A Superconducting Qubit With Dispersive Readout (2005)A. Wallraff, D. I. Schuster, A. Blais, et al.20.16
- Superconducting Qubit In Waveguide Cavity With Coherence Time Approaching 0.1ms (2012)Chad Rigetti, Stefano Poletto, Jay M. Gambetta, et al.20.13
- 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
- The Kerr-cat Qubit: Stabilization, Readout, And Gates (2019)Alexander Grimm, Nicholas E. Frattini, Shruti Puri, et al.19.61
- Digitized Adiabatic Quantum Computing With A Superconducting Circuit (2015)R. Barends, A. Shabani, L. Lamata, et al.19.52
- Realization Of A Scalable Shor Algorithm (2015)Thomas Monz, Daniel Nigg, Esteban A. Martinez, et al.19.45
- A Four-qubit Germanium Quantum Processor (2020)N. W. Hendrickx, W. I. L. Lawrie, M. Russ, et al.19.38
- Traffic Flow Optimization Using A Quantum Annealer (2017)Florian Neukart, Gabriele Compostella, Christian Seidel, et al.19.38
- 10-qubit Entanglement And Parallel Logic Operations With A Superconducting Circuit (2017)Chao Song, Kai Xu, Wuxin Liu, et al.19.38
- Qubit-adapt-vqe: An Adaptive Algorithm For Constructing Hardware-efficient Ansatze On A Quantum Processor (2019)Ho Lun Tang, V. O. Shkolnikov, George S. Barron, et al.19.37
- Generation Of Three-qubit Entangled States Using Superconducting Phase Qubits (2010)M. Neeley, R. C. Bialczak, M. Lenander, et al.19.36
- 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
- Universal Control Of A Six-qubit Quantum Processor In Silicon (2022)Stephan G. J. Philips, Mateusz T. Mądzik, Sergey V. Amitonov, et al.19.15
- Implementation Of A Toffoli Gate With Superconducting Circuits (2011)Arkady Fedorov, Lars Steffen, Matthias Baur, et al.19.07
- A Tunable Coupling Scheme For Implementing High-fidelity Two-qubit Gates (2018)Fei Yan, Philip Krantz, Youngkyu Sung, et al.19.01
- Minor-embedding In Adiabatic Quantum Computation: I. The Parameter Setting Problem (2008)Vicky Choi18.91
- Realizing Rapid, High-fidelity, Single-shot Dispersive Readout Of Superconducting Qubits (2017)T. Walter, P. Kurpiers, S. Gasparinetti, et al.18.81
- Qubits Made By Advanced Semiconductor Manufacturing (2021)A. M. J. Zwerver, T. Krähenmann, T. F. Watson, et al.18.71
- A Compact Ion-trap Quantum Computing Demonstrator (2021)Ivan Pogorelov, Thomas Feldker, Christian D. Marciniak, et al.18.64
- A Universal Qudit Quantum Processor With Trapped Ions (2021)Martin Ringbauer, Michael Meth, Lukas Postler, et al.18.51
- Magnetic Qubits As Hardware For Quantum Computers (2000)J. Tejada, E. M. Chudnovsky, E. del Barco, et al.18.42
- High Fidelity Spin Entanglement Using Optimal Control (2013)Florian Dolde, Ville Bergholm, Ya Wang, et al.18.39
- Majorana Box Qubits (2016)Stephan Plugge, Asbjørn Rasmussen, Reinhold Egger, et al.18.29
- Single Ion-qubit Exceeding One Hour Coherence Time (2020)Pengfei Wang, Chun-Yang Luan, Mu Qiao, et al.18.26
- Rydberg Mediated Entanglement In A Two-dimensional Neutral Atom Qubit Array (2019)T. M. Graham, M. Kwon, B. Grinkemeyer, et al.18.20
- Hardware-efficient Autonomous Quantum Error Correction (2012)Zaki Leghtas, Gerhard Kirchmair, Brian Vlastakis, et al.18.14
- Linear Optics C-phase Gate Made Simple (2005)Nikolai Kiesel, Christian Schmid, Ulrich Weber, et al.18.12
- Engineered Platforms For Topological Superconductivity And Majorana Zero Modes (2021)Karsten Flensberg, Felix von Oppen, Ady Stern18.10
- Fast Two-qubit Logic With Holes In Germanium (2019)N. W. Hendrickx, D. P. Franke, A. Sammak, et al.18.09
- A Race Track Trapped-ion Quantum Processor (2023)S. A. Moses, C. H. Baldwin, M. S. Allman, et al.18.09
- What Is The Computational Value Of Finite Range Tunneling? (2015)Vasil S. Denchev, Sergio Boixo, Sergei V. Isakov, et al.18.06
- Scalable Gate Architecture For Densely Packed Semiconductor Spin Qubits (2016)D. M. Zajac, T. M. Hazard, X. Mi, et al.18.04
- Cryogenic Control Architecture For Large-scale Quantum Computing (2014)J. M. Hornibrook, J. I. Colless, I. D. Conway Lamb, et al.18.00
- Fast Reset And Suppressing Spontaneous Emission Of A Superconducting Qubit (2010)M. D. Reed, B. R. Johnson, A. A. Houck, et al.17.98
- Fast And Robust Two-qubit Gates For Scalable Ion Trap Quantum Computing (2003)J. J. Garcia-Ripoll, P. Zoller, J. I. Cirac17.80
- Controllable Valley Splitting In Silicon Quantum Devices (2006)Srijit Goswami, K. A. Slinker, Mark Friesen, et al.17.76
- Detecting Bit-flip Errors In A Logical Qubit Using Stabilizer Measurements (2014)D. Ristè, S. Poletto, M. -Z. Huang, et al.17.73
- Realization Of High-fidelity CZ And Zz-free Iswap Gates With A Tunable Coupler (2020)Youngkyu Sung, Leon Ding, Jochen Braumüller, et al.17.73
- Decoherence Suppression By Uncollapsing (2009)Alexander N. Korotkov, Kyle Keane17.66