The mapping of quantum circuits to qubits represented by ion states in a storage ring quantum computer is examined. Serial, parallel and hybrid architectures for mapping such qubits onto a storage ring quantum computer are presented. Parallelism is an important part of the SRQC architecture in terms of multiple ions, windows and lasers. A "predecessor problem" that arises in such architectures is identified and a solution is proposed. Representative numerical sizing and timing calculations are presented. The entire methodology is very general and extends to several implementation options. Open problems are identified.
@article{arxiv.2108.02661,
title = {Mapping Quantum Circuits to Ions in Storage Ring Quantum Computer Architectures},
author = {Thomas Robertazzi and Kevin Brown},
journal= {arXiv preprint arXiv:2108.02661},
year = {2022}
}