The Qupit Stabiliser ZX-travaganza: Simplified Axioms, Normal Forms and Graph-Theoretic Simplification

Boldizsár Poór; Titouan Carette; Robert I. Booth; John van de Wetering; Lia Yeh

doi:10.4204/EPTCS.384.13

The Qupit Stabiliser ZX-travaganza: Simplified Axioms, Normal Forms and Graph-Theoretic Simplification

Boldizsár Poór
, Titouan Carette
, Robert I. Booth
, John van de Wetering
, Lia Yeh

University of Oxford
University of Edinburgh
University of Amsterdam

Research output: Chapter in Book/Report/Conference proceeding › Conference paper › Research › peer-review

7 Citations (Scopus)

Abstract

We present a smorgasbord of results on the stabiliser ZX-calculus for odd prime-dimensional qudits (i.e. qupits). We derive a simplified rule set that closely resembles the original rules of qubit ZX-calculus. Using these rules, we demonstrate analogues of the spider-removing local complementation and pivoting rules. This allows for efficient reduction of diagrams to the affine with phases normal form. We also demonstrate a reduction to a unique form, providing an alternative and simpler proof of completeness. Furthermore, we introduce a different reduction to the graph state with local Cliffords normal form, which leads to a novel layered decomposition for qupit Clifford unitaries. Additionally, we propose a new approach to handle scalars formally, closely reflecting their practical usage. Finally, we have implemented many of these findings in DiZX, a new open-source Python library for qudit ZX-diagrammatic reasoning.

Original language	English
Title of host publication	Electronic Proceedings in Theoretical Computer Science Eptcs
Pages	220-264
Number of pages	45
Volume	384
DOIs	https://doi.org/10.4204/EPTCS.384.13
Publication status	Published - 30 Aug 2023

Publication series

Name	Electronic Proceedings in Theoretical Computer Science, EPTCS
Publisher	Open Publishing Association
ISSN (Print)	2075-2180

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10.4204/EPTCS.384.13

Cite this

Poór, B., Carette, T., Booth, R. I., van de Wetering, J., & Yeh, L. (2023). The Qupit Stabiliser ZX-travaganza: Simplified Axioms, Normal Forms and Graph-Theoretic Simplification. In Electronic Proceedings in Theoretical Computer Science Eptcs (Vol. 384, pp. 220-264). (Electronic Proceedings in Theoretical Computer Science, EPTCS). https://doi.org/10.4204/EPTCS.384.13

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title = "The Qupit Stabiliser ZX-travaganza: Simplified Axioms, Normal Forms and Graph-Theoretic Simplification",

abstract = "We present a smorgasbord of results on the stabiliser ZX-calculus for odd prime-dimensional qudits (i.e. qupits). We derive a simplified rule set that closely resembles the original rules of qubit ZX-calculus. Using these rules, we demonstrate analogues of the spider-removing local complementation and pivoting rules. This allows for efficient reduction of diagrams to the affine with phases normal form. We also demonstrate a reduction to a unique form, providing an alternative and simpler proof of completeness. Furthermore, we introduce a different reduction to the graph state with local Cliffords normal form, which leads to a novel layered decomposition for qupit Clifford unitaries. Additionally, we propose a new approach to handle scalars formally, closely reflecting their practical usage. Finally, we have implemented many of these findings in DiZX, a new open-source Python library for qudit ZX-diagrammatic reasoning.",

author = "Boldizs{\'a}r Po{\'o}r and Titouan Carette and Booth, \{Robert I.\} and \{van de Wetering\}, John and Lia Yeh",

note = "Publisher Copyright: {\textcopyright} Po{\'o}r et al. This work is licensed under the Creative Commons Attribution License.",

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doi = "10.4204/EPTCS.384.13",

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The Qupit Stabiliser ZX-travaganza: Simplified Axioms, Normal Forms and Graph-Theoretic Simplification. / Poór, Boldizsár; Carette, Titouan; Booth, Robert I. et al.
Electronic Proceedings in Theoretical Computer Science Eptcs. Vol. 384 2023. p. 220-264 (Electronic Proceedings in Theoretical Computer Science, EPTCS).

Research output: Chapter in Book/Report/Conference proceeding › Conference paper › Research › peer-review

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T1 - The Qupit Stabiliser ZX-travaganza: Simplified Axioms, Normal Forms and Graph-Theoretic Simplification

AU - Poór, Boldizsár

AU - Carette, Titouan

AU - Booth, Robert I.

AU - van de Wetering, John

AU - Yeh, Lia

PY - 2023/8/30

Y1 - 2023/8/30

N2 - We present a smorgasbord of results on the stabiliser ZX-calculus for odd prime-dimensional qudits (i.e. qupits). We derive a simplified rule set that closely resembles the original rules of qubit ZX-calculus. Using these rules, we demonstrate analogues of the spider-removing local complementation and pivoting rules. This allows for efficient reduction of diagrams to the affine with phases normal form. We also demonstrate a reduction to a unique form, providing an alternative and simpler proof of completeness. Furthermore, we introduce a different reduction to the graph state with local Cliffords normal form, which leads to a novel layered decomposition for qupit Clifford unitaries. Additionally, we propose a new approach to handle scalars formally, closely reflecting their practical usage. Finally, we have implemented many of these findings in DiZX, a new open-source Python library for qudit ZX-diagrammatic reasoning.

AB - We present a smorgasbord of results on the stabiliser ZX-calculus for odd prime-dimensional qudits (i.e. qupits). We derive a simplified rule set that closely resembles the original rules of qubit ZX-calculus. Using these rules, we demonstrate analogues of the spider-removing local complementation and pivoting rules. This allows for efficient reduction of diagrams to the affine with phases normal form. We also demonstrate a reduction to a unique form, providing an alternative and simpler proof of completeness. Furthermore, we introduce a different reduction to the graph state with local Cliffords normal form, which leads to a novel layered decomposition for qupit Clifford unitaries. Additionally, we propose a new approach to handle scalars formally, closely reflecting their practical usage. Finally, we have implemented many of these findings in DiZX, a new open-source Python library for qudit ZX-diagrammatic reasoning.

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M3 - Conference paper

VL - 384

T3 - Electronic Proceedings in Theoretical Computer Science, EPTCS

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EP - 264

BT - Electronic Proceedings in Theoretical Computer Science Eptcs

ER -

The Qupit Stabiliser ZX-travaganza: Simplified Axioms, Normal Forms and Graph-Theoretic Simplification

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