[1] Preskill J. Quantum computing in the NISQ era and beyond[J]. Quantum, 2, 79(2018).
[2] Shor P W. Polynomial-time algorithms for prime factorization and discrete logarithms on a quantum computer[J]. SIAM Journal on Computing, 26, 1484-1509(1997).
[3] Grover L K. A fast quantum mechanical algorithm for database search[C], 212-219(1996).
[4] Peruzzo A, McClean J, Shadbolt P et al. A variational eigenvalue solver on a photonic quantum processor[J]. Nature Communications, 5, 4213(2014).
[7] Reagor M, Osborn C B, Tezak N et al. Demonstration of universal parametric entangling gates on a multi-qubit lattice[J]. Science Advances, 4, eaao3603(2018).
[8] Ballance C J, Harty T P, Linke N M et al. High-fidelity quantum logic gates using trapped-ion hyperfine qubits[J]. Physical Review Letters, 117, 060504(2016).
[9] Cheng X Y, Guan Z J, Ding W P et al. Linear nearest neighbor quantum circuit synthesis based on valid Boolean matrix[J]. Chinese Journal of Quantum Electronics, 33, 743-750(2016).
[10] Patel K N, Markov I L, Hayes J P. Optimal synthesis of linear reversible circuits[J]. Quantum Information and Computation, 8, 282-294(2008).
[11] Kissinger A, de Griend A M. CNOT circuit extraction for topologically-constrained quantum memories[J]. Quantum Information and Computation, 20, 581-596(2020).
[12] Zhu P C, Cheng X Y, Guan Z J. An exact qubit allocation approach for NISQ architectures[J]. Quantum Information Processing, 19, 391(2020).
[13] Zulehner A, Paler A, Wille R. An efficient methodology for mapping quantum circuits to the IBM QX architectures[J]. IEEE Transactions on Computer - Aided Design of Integrated Circuits and Systems, 38, 1226-1236(2018).
[14] Niu S Y, Suau A, Staffelbach G et al. A hardware-aware heuristic for the qubit mapping problem in the NISQ era[J]. IEEE Transactions on Quantum Engineering, 1, 1-14(2020).
[15] Schaeffer B, Perkowski M. Linear reversible circuit synthesis in the linear nearest-neighbor model[C], 157-160(2012).
