Relational Proofs for Quantum Programs

Gilles Barthe; Justin Hsu; Mingsheng Ying; Nengkun Yu; Li Zhou

doi:10.1145/3371089

Relational Proofs for Quantum Programs

Logic in Computer Science 2019-12-12 v2 Quantum Physics

Authors: Gilles Barthe , Justin Hsu , Mingsheng Ying , Nengkun Yu , Li Zhou

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Abstract

Relational verification of quantum programs has many potential applications in quantum and post-quantum security and other domains. We propose a relational program logic for quantum programs. The interpretation of our logic is based on a quantum analogue of probabilistic couplings. We use our logic to verify non-trivial relational properties of quantum programs, including uniformity for samples generated by the quantum Bernoulli factory, reliability of quantum teleportation against noise (bit and phase flip), security of quantum one-time pad and equivalence of quantum walks.

Keywords

quantum computing logic programming formal verification

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@article{arxiv.1901.05184,
  title  = {Relational Proofs for Quantum Programs},
  author = {Gilles Barthe and Justin Hsu and Mingsheng Ying and Nengkun Yu and Li Zhou},
  journal= {arXiv preprint arXiv:1901.05184},
  year   = {2019}
}

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34 pages, LaTeX; v2: extend version of conference paper

Relational Proofs for Quantum Programs

Abstract

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