npj Quantum Information (Sep 2024)

MadQCI: a heterogeneous and scalable SDN-QKD network deployed in production facilities

  • V. Martin,
  • J. P. Brito,
  • L. Ortíz,
  • R. B. Méndez,
  • J. S. Buruaga,
  • R. J. Vicente,
  • A. Sebastián-Lombraña,
  • D. Rincón,
  • F. Pérez,
  • C. Sánchez,
  • M. Peev,
  • H. H. Brunner,
  • F. Fung,
  • A. Poppe,
  • F. Fröwis,
  • A. J. Shields,
  • R. I. Woodward,
  • H. Griesser,
  • S. Roehrich,
  • F. de la Iglesia,
  • C. Abellán,
  • M. Hentschel,
  • J. M. Rivas-Moscoso,
  • A. Pastor-Perales,
  • J. Folgueira,
  • D. López

DOI
https://doi.org/10.1038/s41534-024-00873-2
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 11

Abstract

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Abstract Current quantum key distribution (QKD) networks focus almost exclusively on transporting secret keys at the highest possible rate. Consequently, they are built as mostly fixed, ad hoc, logically, and physically isolated infrastructures designed to avoid any penalty to the quantum channel. This architecture is neither scalable nor cost-effective and future, real-world deployments will differ considerably. The structure of the MadQCI QKD network presented here is based on disaggregated components and modern paradigms especially designed for flexibility, upgradability, and facilitating the integration of QKD in the security and telecommunications-networks ecosystem. These underlying ideas have been tested by deploying many QKD systems from several manufacturers in a real-world, multi-tenant telecommunications network, installed in production facilities and sharing the infrastructure with commercial traffic. Different technologies have been used in different links to address the variety of situations and needs that arise in real networks, exploring a wide range of possibilities. Finally, a set of realistic use cases has been implemented to demonstrate the validity and performance of the network. The testing took place during a period close to three years, where most of the nodes were continuously active.