English

On Abstract Machine Semantics for Proto-Quipper-M

Programming Languages 2021-05-11 v1 Logic in Computer Science Quantum Physics

Abstract

Quipper is a domain-specific programming language for the description of quantum circuits. Because it is implemented as an embedded language in Haskell, Quipper is a very practical functional language. However, for the same reason, it lacks a formal semantics and it is limited by Haskell's type system. In particular, because Haskell lacks linear types, it is easy to write Quipper programs that violate the non-cloning property of quantum states. In order to formalize relevant fragments of Quipper in a type-safe way, the Proto-Quipper family of research languages has been introduced over the last years. In this paper we first review Proto-Quipper-M, an instance of the Proto-Quipper family based on a categorical model for quantum circuits, which features a linear type system that guarantees that the non-cloning property holds at compile time. We then derive a tentative small-step operational semantics from the big-step semantics of Proto-Quipper-M and we prove that the two are equivalent. After proving subject reduction and progress results for the tentative semantics, we build upon it to obtain a truly small-step semantics in the style of an abstract machine, which we eventually prove to be equivalent to the original semantics.

Cite

@article{arxiv.2105.03522,
  title  = {On Abstract Machine Semantics for Proto-Quipper-M},
  author = {Andrea Colledan},
  journal= {arXiv preprint arXiv:2105.03522},
  year   = {2021}
}

Comments

72 pages (34 without appendix), 5 figures

R2 v1 2026-06-24T01:53:33.881Z