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Quantum Tunneling: From Theory to Error-Mitigated Quantum Simulation (2404.07034v1)

Published 10 Apr 2024 in quant-ph and cs.ET

Abstract: Ever since the discussions about a possible quantum computer arised, quantum simulations have been at the forefront of possible utilities and the task of quantum simulations is one that promises quantum advantage. In recent years, simulations of large molecules through VQE or dynamics of many-body spin Hamiltonians may be possible, and even able to achieve useful results with the use of error mitigation techniques. Simulating smaller models is also important, and currently, in the NISQ (Noisy intermediate-scale quantum) era, it is easier and less prone to errors. This current study encompasses the theoretical background and the hardware aware circuit implementation of a quantum tunneling simulation. Specifically, this study presents the theoretical background needed for such implementation and highlights the main steps of development. Building on classic approaches of quantum tunneling simulations, this study improves the result of such simulations by employing error mitigation techniques (ZNE and REM) and uses them in conjunction with multiprogramming of the quantum chip for solving the hardware under-utilization problem that arises in such contexts. Moreover, we highlight the need for hardware-aware circuit implementations and discuss these considerations in detail to give an end-to-end workflow overview of quantum simulations.

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References (44)
  1. Mohamed Abouelela. Quantum simulation of the schrodinger equation using ibm’s quantum computers. Bachelor’s thesis is physics, 2020.
  2. Configurable readout error mitigation in quantum workflows. Electronics, 11(19), 2022.
  3. Quantum simulation of the single-particle schrödinger equation. American Journal of Physics, 76(7):657–662, jul 2008.
  4. Quantum error mitigation. Reviews of Modern Physics, 95(4), December 2023.
  5. Goals and opportunities in quantum simulation. Nature Physics, 8:264 – 266, 2012.
  6. Practical quantum advantage in quantum simulation. Nature, 607:667 – 676, 2022.
  7. A case for multi-programming quantum computers. In Proceedings of the 52nd Annual IEEE/ACM International Symposium on Microarchitecture, MICRO ’52, page 291–303, New York, NY, USA, 2019. Association for Computing Machinery.
  8. Stability of the trotter–suzuki decomposition. Journal of Physics A: Mathematical and Theoretical, 47(26):265206, June 2014.
  9. Practical quantum error mitigation for near-future applications. Physical Review X, 8(3), July 2018.
  10. Richard P. Feynman. Simulating physics with computers. International Journal of Theoretical Physics, 21(6–7):467–488, Jun 1982.
  11. Efficient and robust estimation of many-qubit hamiltonians, 2022.
  12. Benchmarking noise extrapolation with the openpulse control framework. Phys. Rev. A, 101:042308, Apr 2020.
  13. Digital zero noise extrapolation for quantum error mitigation. In 2020 IEEE International Conference on Quantum Computing and Engineering (QCE). IEEE, October 2020.
  14. Analogue quantum simulation with fixed-frequency transmon qubits. Quantum, 8:1263, February 2024.
  15. Introduction to Quantum Mechanics. Cambridge University Press, 3 edition, 2018.
  16. Finding Exponential Product Formulas of Higher Orders, page 37–68. Springer Berlin Heidelberg, November 2005.
  17. Experimental demonstration of quantum tunneling in ibm quantum computer, 2021.
  18. Adaptive quantum error mitigation using pulse-based inverse evolutions. npj Quantum Information, 9, 11 2023.
  19. Superconducting quantum computing: a review. Science China Information Sciences, 63(8), July 2020.
  20. Quantum simulation of discretized harmonic oscillator on ibm quantum computer. 07 2019.
  21. Quantum simulation of negative hydrogen ion using variational quantum eigensolver on ibm quantum computer, 2019.
  22. Accuracy and resource estimations for quantum chemistry on a near-term quantum computer. Journal of Chemical Theory and Computation, 15(9):4764–4780, August 2019.
  23. Mitiq: A software package for error mitigation on noisy quantum computers. Quantum, 6:774, August 2022.
  24. Quantum algorithm for solving open-system dynamics on quantum computers using noise. Physical Review A, 108(6), December 2023.
  25. Efficient variational quantum simulator incorporating active error minimization. Phys. Rev. X, 7:021050, Jun 2017.
  26. Machine learning for practical quantum error mitigation, 2023.
  27. Enabling efficient real-time calibration on cloud quantum machines. IEEE Transactions on Quantum Engineering, 4:1–17, 2023.
  28. Seth Lloyd. Universal quantum simulators. Science, 273:1073 – 1078, 1996.
  29. Quantum computation with quantum dots. Phys. Rev. A, 57:120–126, Jan 1998.
  30. Best practices for quantum error mitigation with digital zero-noise extrapolation, 2023.
  31. Quantum chemistry as a benchmark for near-term quantum computers. npj Quantum Information, 5(1), Nov 2019.
  32. Software mitigation of crosstalk on noisy intermediate-scale quantum computers. In Proceedings of the Twenty-Fifth International Conference on Architectural Support for Programming Languages and Operating Systems, ASPLOS ’20. ACM, March 2020.
  33. Quantum Computation and Quantum Information: 10th Anniversary Edition. Cambridge University Press, 2011.
  34. Enabling multi-programming mechanism for quantum computing in the nisq era. Quantum, 7:925, February 2023.
  35. Simultaneous execution of quantum circuits on current and near-future nisq systems. IEEE Transactions on Quantum Engineering, 3:1–10, 2022.
  36. John Preskill. Quantum computing in the nisq era and beyond. Quantum, 2:79, August 2018.
  37. Afonso Rodrigues. Validation of quantum simulations: Assessing efficiency and reliability in experimental implementations. PhD thesis, Universidade do Minho, 2018.
  38. Implementation of a quantum algorithm to estimate the energy of a particle in a finite square well potential on IBM quantum computer. The European Physical Journal Plus, 136(7), jul 2021.
  39. Andrew T. Sornborger. Quantum simulation of tunneling in small systems. Scientific Reports, 2(1), aug 2012.
  40. Quantum computers as universal quantum simulators: State-of-the-art and perspectives. Advanced Quantum Technologies, 3(3), dec 2019.
  41. Error mitigation for short-depth quantum circuits. Physical Review Letters, 119(18), November 2017.
  42. J. Tersoff and D. R. Hamann. Theory of the scanning tunneling microscope. Phys. Rev. B, 31:805–813, Jan 1985.
  43. Efficient quantum readout-error mitigation for sparse measurement outcomes of near-term quantum devices. Physical Review A, 106(1), July 2022.
  44. Localization and spectral structure in two-dimensional quasicrystal potentials, 2024.

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