EQB: Synthesizing Permutative Quantum Gates and Circuits Using Rotation-Based Group Decomposition
Quantum Physics
2024-12-13 v3 Group Theory
Abstract
The decomposition from the group theory-based methods of Sasao and Saraivanov is extended to design binary quantum cascades, using the quantum rotational gates by the X-axis (CNOT and RX), Y-axis (RY), and Z-axis (controlled-Z) of the Bloch sphere. A class of local transformations is also presented to simplify the final canonical cascade circuits. Our proposed methodology is well suited for quantum layouts, as each single-qubit gate has one target qubit and each double-qubit gate has one control qubit and one target qubit, thereby never creating a graph of triangular connectivity.
Cite
@article{arxiv.2410.19229,
title = {EQB: Synthesizing Permutative Quantum Gates and Circuits Using Rotation-Based Group Decomposition},
author = {Ishani Agarwal and Miroslav Saraivanov and Ali Al-Bayaty and Marek Perkowski},
journal= {arXiv preprint arXiv:2410.19229},
year = {2024}
}
Comments
22 pages, 31 figures, 4 tables, Accepted to Journal of Applied Logics - IfCoLog Journal of Logics and their Applications