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REFERENCES

1 
Bhatt A. P., 2019, Quantum Cryptography for Internet of Things Securitya, Vol. 17, No. 3, pp. 8DOI
2 
Taylor R. D., Jul 2020, Quantum Artificial Intelligence: A “precautionary” U.S. approach?, Telecommuni-cations Policy, Vol. 44, No. 6, pp. 101909DOI
3 
McClean J. R., et al. , Sep 2020, Discontinuous Galerkin discretization for quantum simulation of chemistry, New J. Phys., Vol. 22, No. 9, pp. 093015URL
4 
Mohseni M., Read P., Neven H., accessed Feb 20, 2021, Commercialize early quantum technologies, pp. 5Google Search
5 
Gomes L., Apr. 2018, Quantum computing: Both here and not here, IEEE Spectr., Vol. 55, No. 4, pp. 42-47DOI
6 
accessed Feb. 19, 2021, ‘CES 2018: Intel’s 49-Qubit Chip Shoots for Quantum Supremacy - IEEE Spectrum’Google Search
7 
Sete E. A., Zeng W. J., Rigetti C. T., A functional architecture for scalable quantum computing, in 2016 IEEE International Conference on Rebooting Computing (ICRC), San Diego, CA, USA, Oct. 2016, pp. 1-6DOI
8 
accessed Feb. 19, 2021, ‘IonQ plans to launch a rack-mounted quantum computer for data centers in 2023', TechCrunchGoogle Search
9 
Murgia M., accessed Feb. 19, 2021, British quantum computing experts leave for Silicon Valley, Jun. 23, 2019Google Search
10 
Courtland R., Jun 2017, Google aims for quantum computing supremacy [News], IEEE Spectr., Vol. 54, No. 6, pp. 9-10DOI
11 
A. ChoSep. 15, 2020, and 5:45 Pm , accessed Feb. 20, 2021, IBM promises 1000-qubit quantum computer—a milestone—by 2023, Science | AAAS, Sep. 15, 2020Google Search
12 
Wootters W. K., Zurek W. H., Oct. 1982, A single quantum cannot be cloned, Nature, Vol. 299, No. 5886, pp. 802-803DOI
13 
Siraichi M. Y., dos Santos V. F., Collange S., Pereira F. M. Q., Feb. 2018, Qubit allocation, in Proceedings of the 2018 International Symposium on Code Generation and Optimization, Vienna Austria, pp. 113-125DOI
14 
Zulehner A., Paler A., Wille R., Mar. 2018, Efficient mapping of quantum circuits to the IBM QX architectures, in 2018 Design, Automation & Test in Europe Conference & Exhibition (DATE), Dresden, Germany, pp. 1135-1138Google Search
15 
Li G., Ding Y., Xie Y., 2019, Tackling the Qubit Mapping Problem for NISQ-Era Quantum Devices, pp. 14Google Search
16 
Niu S., Suau A., Staffelbach G., Todri-Sanial A., 2020, A Hardware-Aware Heuristic for the Qubit Mapping Problem in the NISQ Era, IEEE Trans. Quantum Eng., Vol. 1, pp. 1-14DOI
17 
Zhu P., Cheng X., Guan Z., Nov. 2020, An exact qubit allocation approach for NISQ architectures, Quantum Inf Process, Vol. 19, No. 11, pp. 391-DOI
18 
Siraichi M. Y., dos Santos V. F., Collange C., Pereira F. M. Q., Oct. 2019, Qubit allocation as a combination of subgraph isomorphism and token swapping, Proc. ACM Program. Lang., Vol. 3, No. oopsla, pp. 1-29DOI
19 
Ash-Saki A., Alam M., Ghosh S., Jun. 2019, QURE: Qubit Re-allocation in Noisy Intermediate-Scale Quantum Computers, in Proceedings of the 56th Annual Design Automation Conference 2019, Las Vegas NV USA, pp. 1-6DOI
20 
Barenco A., et al. , Nov. 1995, Elementary gates for quantum computation, Phys. Rev. A, Vol. 52, No. 5, pp. 3457-3467DOI
21 
Gyongyosi L., Imre S., Dec. 2020, Circuit Depth Reduction for Gate-Model Quantum Computers, Sci Rep, Vol. 10, No. 1, pp. 11229DOI
22 
Preskill J., Aug. 2018, Quantum Computing in the NISQ era and beyond, Quantum, Vol. 2, pp. 79DOI
23 
Van Meter R., Ladd T. D., Fowler A. G., Yamamoto Y., Feb. 2010, Distributed Quantum Computation Architecture Using Semiconductor Nanophotonics, Int. J. Quantum Inform., Vol. 08, No. 01n02, pp. 295-323DOI
24 
McGeoch C. C., Harris R., Reinhardt S. P., Bunyk P. I., Jun. 2019, Practical Annealing-Based Quantum Computing, Computer, Vol. 52, No. 6, pp. 38-46DOI
25 
accessed Feb. 02, 2021, The World’s Highest Performing Quantum Computer is HereGoogle Search
26 
Miltzow T., Narins L., Okamoto Y., Rote G., Thomas A., Uno T., Aug. 2016, Approximation and Hardness for Token SwappingDOI
27 
Zhu P., Guan Z., Cheng X., Dec 2020, A Dynamic Look-Ahead Heuristic for the Qubit Mapping Problem of NISQ Computers, IEEE Trans. Integr. Circuits Syst., Vol. 39, No. 12, pp. 4721-4735DOI