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Hauptverfasser: Mutolo, Vincent, Parekh, Rhea, Rubenstein, Dan
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2509.13993
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author Mutolo, Vincent
Parekh, Rhea
Rubenstein, Dan
author_facet Mutolo, Vincent
Parekh, Rhea
Rubenstein, Dan
contents Proposed Bell pair swapping protocols, an essential component of the Quantum Internet, are planned-path: specific, structured, routing paths are reserved prior to the execution of the swapping process. This makes sense when one assumes the state used in the swapping process is expensive, fragile, and unstable. However, lessons from classical networking have shown that while reservations seem promising in concept, flexible, reservation-light or free approaches often outperform their more restrictive counterparts in well-provisioned networks. In this paper, we propose that a path-oblivious approach is more amenable to supporting swapping as quantum state evolves into a cheaper, more robust form. We formulate the swapping process as a linear program and present and evaluate a fairly naive baseline swapping protocol that tries to balance Bell pairs throughout the network. Preliminary results show that while naive balancing leaves room for improvement, investigating path-oblivious swapping is a promising direction.
format Preprint
id arxiv_https___arxiv_org_abs_2509_13993
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Path-Oblivious Entanglement Swapping for the Quantum Internet
Mutolo, Vincent
Parekh, Rhea
Rubenstein, Dan
Networking and Internet Architecture
Proposed Bell pair swapping protocols, an essential component of the Quantum Internet, are planned-path: specific, structured, routing paths are reserved prior to the execution of the swapping process. This makes sense when one assumes the state used in the swapping process is expensive, fragile, and unstable. However, lessons from classical networking have shown that while reservations seem promising in concept, flexible, reservation-light or free approaches often outperform their more restrictive counterparts in well-provisioned networks. In this paper, we propose that a path-oblivious approach is more amenable to supporting swapping as quantum state evolves into a cheaper, more robust form. We formulate the swapping process as a linear program and present and evaluate a fairly naive baseline swapping protocol that tries to balance Bell pairs throughout the network. Preliminary results show that while naive balancing leaves room for improvement, investigating path-oblivious swapping is a promising direction.
title Path-Oblivious Entanglement Swapping for the Quantum Internet
topic Networking and Internet Architecture
url https://arxiv.org/abs/2509.13993