English

Hypergraph Simplification: Linking the Path-sum Approach to the ZH-calculus

Quantum Physics 2021-09-07 v2

Abstract

The ZH-calculus is a complete graphical calculus for linear maps between qubits that admits a straightforward encoding of hypergraph states and circuits arising from the Toffoli+Hadamard gate set. In this paper, we establish a correspondence between the ZH-calculus and the path-sum formalism, a technique recently introduced by Amy to verify quantum circuits. In particular, we find a bijection between certain canonical forms of ZH-diagrams and path-sum expressions. We then introduce and prove several new simplification rules for the ZH-calculus, which are in direct correspondence to the simplification rules of the path-sum formalism. The relatively opaque path-sum rules are shown to arise naturally from two powerful families of rewrite rules in the ZH-calculus. The first is the extension of the familiar graph-theoretic simplifications based on local complementation and pivoting to their hypergraph-theoretic analogues: hyper-local complementation and hyper-pivoting. The second is the graphical Fourier transform introduced by Kuijpers et al., which enables effective simplification of ZH-diagrams encoding multi-linear phase polynomials with arbitrary real coefficients.

Cite

@article{arxiv.2003.13564,
  title  = {Hypergraph Simplification: Linking the Path-sum Approach to the ZH-calculus},
  author = {Louis Lemonnier and John van de Wetering and Aleks Kissinger},
  journal= {arXiv preprint arXiv:2003.13564},
  year   = {2021}
}

Comments

In Proceedings QPL 2020, arXiv:2109.01534

R2 v1 2026-06-23T14:32:12.896Z