List of quantum processors

This list contains quantum processors, also known as quantum processing units (QPUs). Please note that some devices listed below have only been announced at press conferences so far, with no actual demonstrations or scientific publications characterizing the performance.

Circuit-based quantum processors

These QPUs are based on the quantum circuit and quantum logic gate-based model of computing.

Manufacturer	Name/Codename/Designation	Architecture	Layout	Socket	Fidelity	Qubits	Release date
Google	N/A	Superconducting	N/A	N/A	99.5%[1]	20 qb	2017
Google	N/A	Superconducting	7×7 lattice	N/A	99.7%[1]	49 qb[2]	Q4 2017 (planned)
Google	Bristlecone	Superconducting	6×12 lattice	N/A	99% (readout) 99.9% (1 qubit) 99.4% (2 qubits)	72 qb[3][4]	5 March 2018
Google	Sycamore	Nonlinear superconducting resonator	N/A	N/A	N/A	54 transmon qb 53 qb effective	2019
USTC	Jiuzhang	Photonics	N/A	N/A	N/A	76 qb[5][6]	2020
Xanadu	X8 [7]	Photonics	N/A	N/A	N/A	8 qb	2020
Xanadu	X12	Photonics	N/A	N/A	N/A	12 qb	2020[7]
Xanadu	X24	Photonics	N/A	N/A	N/A	24 qb	2020[7]
IBM	IBM Q 5 Tenerife	Superconducting	bow tie	N/A	99.897% (average gate) 98.64% (readout)	5 qb	2016[1]
IBM	IBM Q 5 Yorktown	Superconducting	bow tie	N/A	99.545% (average gate) 94.2% (readout)	5 qb
IBM	IBM Q 14 Melbourne	Superconducting	N/A	N/A	99.735% (average gate) 97.13% (readout)	14 qb
IBM	IBM Q 16 Rüschlikon	Superconducting	2×8 lattice	N/A	99.779% (average gate) 94.24% (readout)	16 qb[8]	17 May 2017 (Retired: 26 September 2018)[9]
IBM	IBM Q 17	Superconducting	N/A	N/A	N/A	17 qb[8]	17 May 2017
IBM	IBM Q 20 Tokyo	Superconducting	5x4 lattice	N/A	99.812% (average gate) 93.21% (readout)	20 qb[10]	10 November 2017
IBM	IBM Q 20 Austin	Superconducting	5x4 lattice	N/A	N/A	20 qb	(Retired: 4 July 2018)[9]
IBM	IBM Q 50 prototype	Superconducting	N/A	N/A	N/A	50 qb[10]
IBM	IBM Q 53	Superconducting	N/A	N/A	N/A	53 qb	October 2019
Intel	17-Qubit Superconducting Test Chip	Superconducting	N/A	40-pin cross gap	N/A	17 qb[11][12]	10 October 2017
Intel	Tangle Lake	Superconducting	N/A	108-pin cross gap	N/A	49 qb[13]	9 January 2018
Rigetti	8Q Agave	Superconducting	N/A	N/A	N/A	8 qb	4 June 2018[14]
Rigetti	16Q Aspen-1	Superconducting	N/A	N/A	N/A	16 qb	30 November 2018[14]
Rigetti	19Q Acorn	Superconducting	N/A	N/A	N/A	19 qb[15]	17 December 2017
IBM	IBM Armonk[16]	Superconducting	Single Qubit	N/A	N/A	1 qb	16 October 2019
IBM	IBM Ourense[16]	Superconducting	T	N/A	N/A	5 qb	3 July 2019
IBM	IBM Vigo[16]	Superconducting	T	N/A	N/A	5 qb	3 July 2019
IBM	IBM London[16]	Superconducting	T	N/A	N/A	5 qb	13 September 2019
IBM	IBM Burlington[16]	Superconducting	T	N/A	N/A	5 qb	13 September 2019
IBM	IBM Essex[16]	Superconducting	T	N/A	N/A	5 qb	13 September 2019

Annealing quantum processors

These QPUs are based on quantum annealing.

Manufacturer	Name/Codename/Designation	Architecture	Layout	Socket	Fidelity	Qubits	Release date
D-Wave	D-Wave One (Ranier)	Superconducting	C4 = Chimera(4,4,4)[17] = 4×4 K4,4	N/A	N/A	128 qb	11 May 2011
D-Wave	D-Wave Two	Superconducting	C8 = Chimera(8,8,4)[17] = 8×8 K4,4	N/A	N/A	512 qb	2013
D-Wave	D-Wave 2X	Superconducting	C12 = Chimera(12,12,4)[17][18] = 12×12 K4,4	N/A	N/A	1152 qb	2015
D-Wave	D-Wave 2000Q	Superconducting	C16 = Chimera(16,16,4)[17] = 16×16 K4,4	N/A	N/A	2048 qb	2017
D-Wave	D-Wave Advantage	Superconducting	Pegasus P16[19][20]	N/A	N/A	5000 qb	2020

See also

• Quantum programming
• Timeline of quantum computing

References

1. Lant, Karla (2017-06-23). "Google is Closer Than Ever to a Quantum Computer Breakthrough". Futurism. Retrieved 2017-10-18.
2. Simonite, Tom (2017-04-21). "Google's New Chip Is a Stepping Stone to Quantum Computing Supremacy". MIT Technology Review. Retrieved 2017-10-18.
3. "A Preview of Bristlecone, Google's New Quantum Processor", Research (World wide web log), Google, March 2018.
4. Greene, Tristan (2018-03-06). "Google reclaims quantum computer crown with 72 qubit processor". The Next Web. Retrieved 2018-06-27.
5. Ball, Philip (2020-12-03). "Physicists in China challenge Google's 'quantum advantage'". Nature. 588 (7838): 380–380. doi:10.1038/d41586-020-03434-7.
6. December 2020, Rafi Letzter-Staff Writer 07. "China claims fastest quantum computer in the world". livescience.com. Retrieved 2020-12-19.
7. "A new kind of quantum". spie.org. Retrieved 2021-01-09.
8. "IBM Builds Its Most Powerful Universal Quantum Computing Processors". IBM. 2017-05-17. Retrieved 2017-10-18.
9. "Quantum devices & simulators". IBM Q. 2018-06-05. Retrieved 2019-03-29.
10. "IBM Announces Advances to IBM Quantum Systems & Ecosystem". 10 November 2017. Retrieved 10 November 2017.
11. "Intel Delivers 17-Qubit Superconducting Chip with Advanced Packaging to QuTech". 2017-10-10. Retrieved 2017-10-18.
12. Novet, Jordan (2017-10-10). "Intel shows off its latest chip for quantum computing as it looks past Moore's Law". CNBC. Retrieved 2017-10-18.
13. "CES 2018: Intel's 49-Qubit Chip Shoots for Quantum Supremacy". 2018-01-09. Retrieved 2018-01-14.
14. "QPU". Rigetti Computing. Retrieved 2019-03-24.
15. "Unsupervised Machine Learning on Rigetti 19Q with Forest 1.2". 2017-12-18. Retrieved 2018-03-21.
16. "IBM Q Experience". IBM Q Experience. Retrieved 2020-01-04.
17. Misha Denil and Nando de Freitas, Toward the Implementation of a Quantum RBM. In NIPS Deep Learning and Unsupervised Feature Learning Workshop, 2011
18. https://www.researchgate.net/publication/332478892_Embedding_Equality_Constraints_of_Optimization_Problems_into_a_Quantum_Annealer
19. Whittaker, Jed (2018-09-25). "System Roadmap" (PDF). D-Wave Systems. Retrieved 2020-02-17.
20. Kelly Boothby, Paul Bunyk, Jack Raymond, and Aidan Roy, Next-Generation Topology of D-Wave Quantum Processors