English

A Quantum Internet Architecture

Quantum Physics 2023-09-06 v1 Networking and Internet Architecture

Abstract

Entangled quantum communication is advancing rapidly, with laboratory and metropolitan testbeds under development, but to date there is no unifying Quantum Internet architecture. We propose a Quantum Internet architecture centered around the Quantum Recursive Network Architecture (QRNA), using RuleSet-based connections established using a two-pass connection setup. Scalability and internetworking (for both technological and administrative boundaries) are achieved using recursion in naming and connection control. In the near term, this architecture will support end-to-end, two-party entanglement on minimal hardware, and it will extend smoothly to multi-party entanglement and the use of quantum error correction on advanced hardware in the future. For a network internal gateway protocol, we recommend (but do not require) qDijkstra with seconds per Bell pair as link cost for routing; the external gateway protocol is designed to build recursively. The strength of our architecture is shown by assessing extensibility and demonstrating how robust protocol operation can be confirmed using the RuleSet paradigm.

Keywords

Cite

@article{arxiv.2112.07092,
  title  = {A Quantum Internet Architecture},
  author = {Rodney Van Meter and Ryosuke Satoh and Naphan Benchasattabuse and Takaaki Matsuo and Michal Hajdušek and Takahiko Satoh and Shota Nagayama and Shigeya Suzuki},
  journal= {arXiv preprint arXiv:2112.07092},
  year   = {2023}
}

Comments

17 pages, 7 numbered figures

R2 v1 2026-06-24T08:16:03.371Z