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Auteurs principaux: Yehia, Raja, Piétri, Yoann, Pascual-García, Carlos, Lefebvre, Pascal, Centrone, Federico
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2410.10661
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author Yehia, Raja
Piétri, Yoann
Pascual-García, Carlos
Lefebvre, Pascal
Centrone, Federico
author_facet Yehia, Raja
Piétri, Yoann
Pascual-García, Carlos
Lefebvre, Pascal
Centrone, Federico
contents With the rapid development and early industrialization of quantum technologies, it is of great interest to analyze their overall energy consumption before planning for their wide-scale deployments. The evaluation of the total energy requirements of quantum networks is a challenging task: different networks require very disparate techniques to create, distribute, manipulate, detect, and process quantum signals. This paper aims to lay the foundations of a framework to model the energy requirements of different quantum technologies and protocols applied to near-term quantum networks. Different figures of merit are discussed and a benchmark on the energy consumption of bipartite and multipartite network protocols is presented. An open-source software to estimate the energy consumption of photonic setups is also provided.
format Preprint
id arxiv_https___arxiv_org_abs_2410_10661
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Energetic Analysis of Emerging Quantum Communication Protocols
Yehia, Raja
Piétri, Yoann
Pascual-García, Carlos
Lefebvre, Pascal
Centrone, Federico
Quantum Physics
With the rapid development and early industrialization of quantum technologies, it is of great interest to analyze their overall energy consumption before planning for their wide-scale deployments. The evaluation of the total energy requirements of quantum networks is a challenging task: different networks require very disparate techniques to create, distribute, manipulate, detect, and process quantum signals. This paper aims to lay the foundations of a framework to model the energy requirements of different quantum technologies and protocols applied to near-term quantum networks. Different figures of merit are discussed and a benchmark on the energy consumption of bipartite and multipartite network protocols is presented. An open-source software to estimate the energy consumption of photonic setups is also provided.
title Energetic Analysis of Emerging Quantum Communication Protocols
topic Quantum Physics
url https://arxiv.org/abs/2410.10661