Asynchronous Telegate and Teledata Protocols for Distributed Quantum Computing
Abstract
The cost of distributed quantum operations such as the telegate and teledata protocols is high due to latencies from distributing entangled photons and classical information. This paper proposes an extension to the telegate and teledata protocols to allow for asynchronous classical communication which hides the cost of distributed quantum operations. We then discuss the benefits and limitations of these asynchronous protocols and propose a potential way to improve these asynchronous protocols using nonunitary operators. Finally, a quantum network card is described as an example of how asynchronous quantum operations might be used.
Cite
@article{arxiv.2407.14987,
title = {Asynchronous Telegate and Teledata Protocols for Distributed Quantum Computing},
author = {Jacob Peckham and Dwight Makaroff and Steven Rayan},
journal= {arXiv preprint arXiv:2407.14987},
year = {2025}
}
Comments
6 pages; v1 was accepted for publication in the proceedings of "Unlocking Quantum Potentials: Advances in Computing and Communication Technologies", a workshop of the 10th IEEE World Forum on the Internet of Things (IEEE WFIoT2024); v2 includes crucial modifications to, and expansions of, our proposed protocols that result from experiments with quantum computing simulators and hardware