Asynchronous Routing for Multipartite Entanglement in Quantum Networks

Chenliang Tian; Zebo Yang; Raj Jain; Ramana Kompella; Reza Nejabati; Eneet Kaur; Aiman Erbad; Mounir Hamdi; Mohamed Abdallah

doi:10.1109/CCWC67433.2026.11393739

Asynchronous Routing for Multipartite Entanglement in Quantum Networks

Chenliang Tian
, Zebo Yang
, Raj Jain
, Ramana Kompella
, Reza Nejabati
, Eneet Kaur
, Aiman Erbad
, Mounir Hamdi
, Mohamed Abdallah

Washington University St. Louis
Department of Computer Engineering, Florida Atlantic University
Cisco Systems
Qatar University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In quantum networks, one way to communicate is to distribute entanglements through swapping at intermediate nodes. Most existing work primarily aims to create efficient two-party end-to-end entanglement over long distances. However, some scenarios also require remote multipartite entanglement for applications such as quantum secret sharing and multi-party computation. Our previous study improved end-to-end entanglement rates using an asynchronous, tree-based routing scheme that relies solely on local knowledge of entanglement links, conserving unused entanglement and avoiding synchronous operations. This article extends this approach to multipartite entanglements, particularly the three-party Greenberger-Horne-Zeilinger (GHZ) states. It shows that our asynchronous protocol outperforms traditional synchronous methods in entanglement rates, especially as coherence times increase. This approach can also be extended to four-party and larger multipartite GHZ states, highlighting the effectiveness and adaptability of asynchronous routing for multipartite scenarios across various network topologies.

Original language	English
Title of host publication	2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026
Editors	Rajashree Paul
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	533-541
Number of pages	9
ISBN (Electronic)	9798331593971
DOIs	https://doi.org/10.1109/CCWC67433.2026.11393739
Publication status	Published - 2026
Event	16th IEEE Annual Computing and Communication Workshop and Conference, CCWC 2026 - Las Vegas, United States Duration: 5 Jan 2026 → 7 Jan 2026

Publication series

Name	2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026

Conference

Conference	16th IEEE Annual Computing and Communication Workshop and Conference, CCWC 2026
Country/Territory	United States
City	Las Vegas
Period	5/01/26 → 7/01/26

Keywords

Entanglement Distribution
Multipartite Entanglement
Quantum Internet
Quantum Network
Quantum Repeater
Quantum Routing

Access to Document

10.1109/CCWC67433.2026.11393739

Cite this

Tian, C., Yang, Z., Jain, R., Kompella, R., Nejabati, R., Kaur, E., Erbad, A., Hamdi, M., & Abdallah, M. (2026). Asynchronous Routing for Multipartite Entanglement in Quantum Networks. In R. Paul (Ed.), 2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026 (pp. 533-541). (2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CCWC67433.2026.11393739

Tian, Chenliang ; Yang, Zebo ; Jain, Raj et al. / Asynchronous Routing for Multipartite Entanglement in Quantum Networks. 2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026. editor / Rajashree Paul. Institute of Electrical and Electronics Engineers Inc., 2026. pp. 533-541 (2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026).

@inproceedings{9c162bc9d99f46199c7c0fbdc6e81ede,

title = "Asynchronous Routing for Multipartite Entanglement in Quantum Networks",

abstract = "In quantum networks, one way to communicate is to distribute entanglements through swapping at intermediate nodes. Most existing work primarily aims to create efficient two-party end-to-end entanglement over long distances. However, some scenarios also require remote multipartite entanglement for applications such as quantum secret sharing and multi-party computation. Our previous study improved end-to-end entanglement rates using an asynchronous, tree-based routing scheme that relies solely on local knowledge of entanglement links, conserving unused entanglement and avoiding synchronous operations. This article extends this approach to multipartite entanglements, particularly the three-party Greenberger-Horne-Zeilinger (GHZ) states. It shows that our asynchronous protocol outperforms traditional synchronous methods in entanglement rates, especially as coherence times increase. This approach can also be extended to four-party and larger multipartite GHZ states, highlighting the effectiveness and adaptability of asynchronous routing for multipartite scenarios across various network topologies.",

keywords = "Entanglement Distribution, Multipartite Entanglement, Quantum Internet, Quantum Network, Quantum Repeater, Quantum Routing",

author = "Chenliang Tian and Zebo Yang and Raj Jain and Ramana Kompella and Reza Nejabati and Eneet Kaur and Aiman Erbad and Mounir Hamdi and Mohamed Abdallah",

note = "Publisher Copyright: {\textcopyright} 2026 IEEE.; 16th IEEE Annual Computing and Communication Workshop and Conference, CCWC 2026 ; Conference date: 05-01-2026 Through 07-01-2026",

year = "2026",

doi = "10.1109/CCWC67433.2026.11393739",

language = "English",

series = "2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "533--541",

editor = "Rajashree Paul",

booktitle = "2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026",

address = "United States",

}

Tian, C, Yang, Z, Jain, R, Kompella, R, Nejabati, R, Kaur, E, Erbad, A, Hamdi, M & Abdallah, M 2026, Asynchronous Routing for Multipartite Entanglement in Quantum Networks. in R Paul (ed.), 2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026. 2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026, Institute of Electrical and Electronics Engineers Inc., pp. 533-541, 16th IEEE Annual Computing and Communication Workshop and Conference, CCWC 2026, Las Vegas, United States, 5/01/26. https://doi.org/10.1109/CCWC67433.2026.11393739

Asynchronous Routing for Multipartite Entanglement in Quantum Networks. / Tian, Chenliang; Yang, Zebo; Jain, Raj et al.
2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026. ed. / Rajashree Paul. Institute of Electrical and Electronics Engineers Inc., 2026. p. 533-541 (2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

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AU - Tian, Chenliang

AU - Yang, Zebo

AU - Jain, Raj

AU - Kompella, Ramana

AU - Nejabati, Reza

AU - Kaur, Eneet

AU - Erbad, Aiman

AU - Hamdi, Mounir

AU - Abdallah, Mohamed

PY - 2026

Y1 - 2026

N2 - In quantum networks, one way to communicate is to distribute entanglements through swapping at intermediate nodes. Most existing work primarily aims to create efficient two-party end-to-end entanglement over long distances. However, some scenarios also require remote multipartite entanglement for applications such as quantum secret sharing and multi-party computation. Our previous study improved end-to-end entanglement rates using an asynchronous, tree-based routing scheme that relies solely on local knowledge of entanglement links, conserving unused entanglement and avoiding synchronous operations. This article extends this approach to multipartite entanglements, particularly the three-party Greenberger-Horne-Zeilinger (GHZ) states. It shows that our asynchronous protocol outperforms traditional synchronous methods in entanglement rates, especially as coherence times increase. This approach can also be extended to four-party and larger multipartite GHZ states, highlighting the effectiveness and adaptability of asynchronous routing for multipartite scenarios across various network topologies.

AB - In quantum networks, one way to communicate is to distribute entanglements through swapping at intermediate nodes. Most existing work primarily aims to create efficient two-party end-to-end entanglement over long distances. However, some scenarios also require remote multipartite entanglement for applications such as quantum secret sharing and multi-party computation. Our previous study improved end-to-end entanglement rates using an asynchronous, tree-based routing scheme that relies solely on local knowledge of entanglement links, conserving unused entanglement and avoiding synchronous operations. This article extends this approach to multipartite entanglements, particularly the three-party Greenberger-Horne-Zeilinger (GHZ) states. It shows that our asynchronous protocol outperforms traditional synchronous methods in entanglement rates, especially as coherence times increase. This approach can also be extended to four-party and larger multipartite GHZ states, highlighting the effectiveness and adaptability of asynchronous routing for multipartite scenarios across various network topologies.

KW - Entanglement Distribution

KW - Multipartite Entanglement

KW - Quantum Internet

KW - Quantum Network

KW - Quantum Repeater

KW - Quantum Routing

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DO - 10.1109/CCWC67433.2026.11393739

M3 - Conference contribution

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SP - 533

EP - 541

BT - 2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026

A2 - Paul, Rajashree

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 16th IEEE Annual Computing and Communication Workshop and Conference, CCWC 2026

Y2 - 5 January 2026 through 7 January 2026

ER -

Tian C, Yang Z, Jain R, Kompella R, Nejabati R, Kaur E et al. Asynchronous Routing for Multipartite Entanglement in Quantum Networks. In Paul R, editor, 2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026. Institute of Electrical and Electronics Engineers Inc. 2026. p. 533-541. (2026 IEEE 16th Annual Computing and Communication Workshop and Conference, CCWC 2026). doi: 10.1109/CCWC67433.2026.11393739

Asynchronous Routing for Multipartite Entanglement in Quantum Networks

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