R. Barends, Digitized adiabatic quantum computing with a superconducting circuit, Nature, vol.534, p.222, 2016.

P. Schindler, D. Nigg, T. Monz, J. T. Barreiro, E. Martinez et al., A quantum information processor with trapped ions, New J. Phys, vol.15, p.123012, 2013.

J. Kelly, State preservation by repetitive error detection in a superconducting quantum circuit, Nature, vol.519, p.66, 2015.

A. D. Córcoles, E. Magesan, J. Srikanth, A. W. Srinivasan, M. Cross et al., Demonstration of a quantum error detection code using a square lattice of four superconducting qubits, Nat. Commun, vol.6, p.6979, 2015.

D. Ristè, S. Poletto, M. Huang, A. Bruno, V. Vesterinen et al., Detecting bit-flip errors in a logical qubit using stabilizer measurements, Nat. Commun, vol.6, p.6983, 2015.

D. J. Reilly, Engineering the quantum-classical interface of solid-state qubits, npj Quantum Inf, vol.1, p.15011, 2015.

L. R. Schreiber and H. Bluhm, Quantum computation: Silicon comes back, Nat. Nanotechnol, vol.9, p.966, 2014.

M. Veldhorst, J. C. Hwang, C. H. Yang, A. W. Leenstra, B. De-ronde et al., An addressable quantum dot qubit with fault-tolerant control-fidelity, Nat. Nanotechnol, vol.9, p.981, 2014.

M. Veldhorst, C. H. Yang, J. C. Hwang, W. Huang, J. P. Dehollain et al., A two qubit logic gate in silicon, Nature, vol.526, p.410, 2015.

K. Eng, T. D. Ladd, A. Smith, M. G. Borselli, A. A. Kiselev et al., Isotopically enhanced triplequantum-dot qubit, Sci. Adv, vol.1, p.1500214, 2015.

E. Kawakami, P. Scarlino, D. R. Ward, F. R. Braakman, D. E. Savage et al.,

M. A. Coppersmith, L. M. Eriksson, and . Vandersypen, Electrical control of a long-lived spin qubit in a Si=SiGe quantum dot, Nat. Nanotechnol, vol.9, p.666, 2014.

T. Juha, J. P. Muhonen, A. Dehollain, F. E. Laucht, R. Hudson et al.,

D. N. Itoh, J. C. Jamieson, A. S. Mccallum, A. Dzurak, and . Morello, Storing quantum information for 30 seconds in a nanoelectronic device, Nat. Nanotechnol, vol.9, p.986, 2014.

M. Urdampilleta, A. Chatterjee, C. Cheuk, T. Lo, J. Kobayashi et al., Charge Dynamics and Spin Blockade in a Hybrid Double Quantum Dot in Silicon, Phys. Rev. X, vol.5, p.31024, 2015.

D. M. Zajac, T. M. Hazard, X. Mi, E. Nielsen, and J. R. Petta, Scalable Gate Architecture for a One-Dimensional Array of Semiconductor Spin Qubits, Phys. Rev. Applied, vol.6, p.54013, 2016.

X. Mi, J. V. Cady, D. M. Zajac, P. W. Deelman, and J. R. Petta, Strong coupling of a single electron in silicon to a microwave photon, Science, vol.355, p.156, 2017.

R. Maurand, X. Jehl, D. Kotekar-patil, A. Corna, H. Bohuslavskyi et al., A CMOS silicon spin qubit, Nat. Commun, vol.7, p.13575, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02005935

B. Weber, Y. H. Matthias-tan, S. Mahapatra, T. F. Watson, H. Ryu et al., Spin blockade and exchange in Coulomb-confined silicon double quantum dots, Nat. Nanotechnol, vol.9, p.430, 2014.

M. G. House, T. Kobayashi, B. Weber, S. J. Hile, T. F. Watson et al., Radio frequency measurements of tunnel couplings and singlet-triplet spin states in Si:P quantum dots, Nat. Commun, vol.6, p.8848, 2015.

Z. Shi, C. B. Simmons, J. R. Prance, J. K. Gamble, T. Seng-koh et al., Fast Hybrid Silicon Double-Quantum-Dot Qubit, Phys. Rev. Lett, vol.108, p.140503, 2012.

P. Harvey-collard, R. M. Jock, N. T. Jacobson, A. D. Baczewski, A. M. Mounce et al.,

J. R. Manginell, M. Wendt, T. Rudolph, M. P. Pluym, M. Lilly et al.,

. Carroll, Proceedings of the 2017 IEEE International Electron Devices Meeting (IEDM), pp.36-41, 2017.

T. F. Watson, S. G. Philips, E. Kawakami, D. R. Ward, P. Scarlino et al., A programmable two-qubit quantum processor in silicon, Nature, vol.555, p.633, 2018.

D. M. Zajac, A. J. Sigillito, M. Russ, F. Borjans, J. M. Taylor et al., Resonantly driven CNOT gate for electron spins, Science, vol.5965, p.5965, 2017.

L. M. Vandersypen, H. Bluhm, J. S. Clarke, A. S. Dzurak, R. Ishihara et al.,

M. Schreiber and . Veldhorst, Interfacing spin qubits in quantum dots and donorshot, dense, and coherent, npj Quantum Inf, vol.3, p.34, 2017.

M. Veldhorst, H. G. Eenink, C. H. Yang, and A. S. Dzurak, Silicon CMOS architecture for a spin-based quantum computer, Nat. Commun, vol.8, p.1766, 2017.

C. D. Hill, E. Peretz, S. J. Hile, M. G. House, M. Fuechsle et al.,

L. C. Simmons and . Hollenberg, A surface code quantum computer in silicon, Sci. Adv, vol.1, p.1500707, 2015.

N. H. Joe-o'gorman, P. Nickerson, . Ross, J. L. John, S. C. Morton et al., A silicon-based surface code quantum computer, npj Quantum Inf, vol.2, p.15019, 2016.

G. Tosi, A. Fahd, V. Mohiyaddin, S. Schmitt, R. Tenberg et al., Silicon quantum processor with robust long-distance qubit couplings, Nat. Commun, vol.8, p.450, 2017.

G. Pica, B. W. Lovett, R. N. Bhatt, T. Schenkel, and S. A. Lyon, Surface code architecture for donors and dots in silicon with imprecise and nonuniform qubit couplings, Phys. Rev. B, vol.93, p.35306, 2016.

J. M. Hornibrook, J. I. Colless, I. D. Conway-lamb, S. J. Pauka, H. Lu et al., Cryogenic Control Architecture for Large-Scale Quantum Computing, Phys. Rev. Applied, vol.3, p.24010, 2015.

P. Clapera, X. Jehl, A. Corna, S. J. Ray, M. Sanquer et al., Design and cryogenic operation of a hybrid quantum, CMOS circuit
URL : https://hal.archives-ouvertes.fr/hal-01588270

R. J. Brent-keeth, B. Baker, F. Johnson, and . Lin, DRAM Circuit Design: Fundamental and High-Speed Topics, p.440, 2007.

A. G. Fowler, M. Mariantoni, J. M. Martinis, and A. N. Cleland, Surface codes: Towards practical large-scale quantum computation, Phys. Rev. A, vol.86, p.32324, 2012.

H. Al-taie, L. W. Smith, B. Xu, P. See, J. P. Griffiths et al., Cryogenic on-chip multiplexer for the study of quantum transport in 256 split-gate devices, Appl. Phys. Lett, vol.102, p.243102, 2013.

R. K. Puddy, L. W. Smith, H. Al-taie, C. H. Chong, I. Farrer et al., Multiplexed charge-locking device for large arrays of quantum devices, Appl. Phys. Lett, vol.107, p.143501, 2015.

D. R. Ward, D. E. Savage, M. G. Lagally, S. N. Coppersmith, and M. A. Eriksson, Integration of on-chip field-effect transistor switches with dopantless Si=SiGe quantum dots for high-throughput testing, Appl. Phys. Lett, vol.102, p.213107, 2013.

J. M. Elzerman, R. Hanson, L. H. Willems-van-beveren, B. Witkamp, L. M. Vandersypen et al., Single-shot read-out of an individual electron spin in a quantum dot, Nature, vol.430, p.431, 2004.

D. J. Reilly, C. M. Marcus, M. P. Hanson, and A. C. Gossard, Fast single-charge sensing with a rf quantum point contact, Appl. Phys. Lett, vol.91, p.162101, 2007.

C. Barthel, M. Kjaergaard, J. Medford, M. Stopa, C. M. Marcus et al., Fast sensing of double-dot charge arrangement and spin state with a radiofrequency sensor quantum dot, Phys. Rev. B, vol.81, p.161308, 2010.

J. I. Colless, A. C. Mahoney, J. M. Hornibrook, A. C. Doherty, H. Lu et al., Dispersive Readout of a Few-Electron Double Quantum Dot with Fast rf Gate Sensors, Phys. Rev. Lett, vol.110, p.46805, 2013.

A. C. Betz, R. Wacquez, M. Vinet, X. Jehl, A. L. Saraiva et al., Dispersively detected Pauli spin-blockade in a silicon nanowire field-effect transistor, Nano Lett, vol.15, p.4622, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01587150

M. , F. Gonzalez-zalba, S. N. Shevchenko, J. R. Sylvain-barraud, A. J. Johansson et al., Gate-sensing coherent charge oscillations in a silicon field-effect transistor, Nano Lett, vol.16, p.1614, 2016.

M. F. Gonzalez-zalba, S. Barraud, A. J. Ferguson, and A. C. Betz, Probing the limits of gate-based charge sensing, Nat. Commun, vol.6, p.6084, 2015.

A. Aassime, G. Johansson, G. Wendin, R. J. Schoelkopf, and P. Delsing, Radio-Frequency Single-Electron Transistor as Readout Device for Qubits: Charge Sensitivity and Backaction, Phys. Rev. Lett, vol.86, p.3376, 2001.

J. D. Mason, L. Gaudreau, S. A. Studenikin, A. Kam, B. Djurkovic et al., A high speed radio-frequency quantum point contact charge detector for time resolved readout applications of spin qubits, Physica (Amsterdam), vol.42, p.813, 2010.

J. M. Hornibrook, J. I. Colless, A. C. Mahoney, X. G. Croot, S. Blanvillain et al., Frequency multiplexing for readout of spin qubits, Appl. Phys. Lett, vol.104, p.103108, 2014.

A. Wallraff, D. I. Schuster, A. Blais, L. Frunzio, J. Majer et al., Approaching Unit Visibility for Control of a Superconducting Qubit with Dispersive Readout, Phys. Rev. Lett, vol.95, p.60501, 2005.

X. Mi, M. Benito, S. Putz, D. M. Zajac, J. M. Taylor et al., A coherent spinphoton interface in silicon, Nature, vol.555, p.599, 2018.

A. Stockklauser, P. Scarlino, J. V. Koski, S. Gasparinetti, C. K. Andersen et al., Strong Coupling Cavity QED with Gate-Defined Double Quantum Dots Enabled by a High Impedance Resonator, Phys. Rev. X, vol.7, p.11030, 2017.

N. Samkharadze, G. Zheng, N. Kalhor, D. Brousse, A. Sammak et al., Strong spin-photon coupling in silicon, Science, vol.359, p.1123, 2018.

P. Scarlino, D. J. Van-woerkom, A. Stockklauser, J. V. Koski, M. C. Collodo et al., Allmicrowave control and dispersive readout of gate-defined quantum dot qubits in circuit quantum electrodynamics

. Benoit-voisin, H. Viet, J. Nguyen, X. Renard, S. Jehl et al., Few-electron edge-state quantum dots in a silicon nanowire field-effect transistor, Nano Lett, vol.14, p.2094, 2014.

A. C. Betz, S. Barraud, Q. Wilmart, B. Plaçais, X. Jehl et al., High-frequency characterization of thermionic charge transport in silicon-oninsulator nanowire transistors, Appl. Phys. Lett, vol.104, p.43106, 2014.

S. J. Chorley, J. Wabnig, Z. V. Penfold-fitch, K. D. Petersson, J. Frake et al., Measuring the Complex Admittance of a Carbon Nanotube Double Quantum Dot, Phys. Rev. Lett, vol.108, p.36802, 2012.

W. David-tawei, Modern DRAM memory systems: Performance analysis and a high performance, powerconstrained dram scheduling algorithm, 2005.

J. Burghartz, D. Edelstein, M. Soytter, H. Ainspan, and K. Jenkins, Proceedings of the 1998 IEEE International Solid-State Circuits Conference (ISSCC), vol.33, p.246, 1998.

R. C. Ashoori, H. L. Stormer, J. S. Weiner, L. N. Pfeiffer, K. W. Baldwin et al., N-Electron Ground State Energies of a Quantum Dot in Magnetic Field, Phys. Rev. Lett, vol.71, p.613, 1993.