• Linear Network Coding Reduces...

Treffer: Linear Network Coding Reduces Buffering in High-Speed Ethernet Parallel Transmission Systems

Title:
Linear Network Coding Reduces Buffering in High-Speed Ethernet Parallel Transmission Systems
Authors:
XIAOMIN CHEN, ENGELMANN, Anna, JUKAN, Admela, MEDARD, Muriel
Source:
IEEE communications letters. 18(4):636-639
Publisher Information:
New York, NY: Institute of Electrical and Electronics Engineers, 2014.
Publication Year:
2014
Physical Description:
print, 4 ref
Original Material:
INIST-CNRS
Subject Terms:
Telecommunications, Télécommunications, Sciences exactes et technologie, Exact sciences and technology, Sciences appliquees, Applied sciences, Telecommunications et theorie de l'information, Telecommunications and information theory, Théorie de l'information, du signal et des communications, Information, signal and communications theory, Théorie du signal et des communications, Signal and communications theory, Codage, codes, Coding, codes, Multiplexage, Multiplexing, Télécommunications, Telecommunications, Systèmes, réseaux et services de télécommunications, Systems, networks and services of telecommunications, Transmission et modulation (techniques et équipements), Transmission and modulation (techniques and equipments), Réseaux téléinformatiques. Rnis, Teleprocessing networks. Isdn, Types de réseaux et services en france et à l'étranger, Networks and services in france and abroad, Réseaux locaux d'entreprise et industriel, Business and industry local networks, Codage linéaire, Linear coding, Codificación lineal, Commutation paquet, Packet switching, Conmutación por paquete, Décodage, Decoding, Desciframiento, Ethernet, Implémentation, Implementation, Implementación, Interface réseau, Network interfaces, Miniaturisation, Miniaturization, Miniaturización, Multiplexage, Multiplexing, Multiplaje, Norme IEEE, IEEE standards, Optimisation, Optimization, Optimización, Routage, Routing, Enrutamiento, Système parallèle, Parallel system, Sistema paralelo, Système tampon, Buffer system, Sistema amortiguador, Temps retard, Delay time, Tiempo retardo, Transmission haut débit, High rate transmission, Transmisión alta caudal, Codage de réseau, Network coding, Multipath routing, buffering, differential delay, high-speed Ethernet, linear network coding
Document Type:
Fachzeitschrift Article
File Description:
text
Language:
English
Author Affiliations:
Technische Universität Carolo-Wilhelmina zu Braunschweig, Germany
ISSN:
1089-7798
Access URL:
http://pascal-francis.inist.fr/vibad/index.php?action=search&terms=28495979
Rights:
Copyright 2015 INIST-CNRS
CC BY 4.0
Sauf mention contraire ci-dessus, le contenu de cette notice bibliographique peut être utilisé dans le cadre d’une licence CC BY 4.0 Inist-CNRS / Unless otherwise stated above, the content of this bibliographic record may be used under a CC BY 4.0 licence by Inist-CNRS / A menos que se haya señalado antes, el contenido de este registro bibliográfico puede ser utilizado al amparo de una licencia CC BY 4.0 Inist-CNRS
Notes:
Telecommunications and information theory
Accession Number:
edscal.28495979
Database:
PASCAL Archive

Weitere Informationen

Parallel transmission is a known technique of transmitting flows over multiple paths from a source towards the same destination. In high-speed Ethernet standards, for instance, large bandwidth flows are inverse-multiplexed into multiple lower-speed flows and transmitted in parallel. However, when flows traverse different paths, attention needs to be paid to the resulting differential delay, which requires computationally expensive path optimizations and large buffering at the receiver. In this paper, we show analytically that linear network coding can significantly reduce the buffering in high-speed Ethernet systems at a price of en/decoding overhead, while relaxing the requirements on path optimality. We implement the proposed decoding buffer model according to the IEEE 802.3ba standard, and show that linear network coding reduces the buffer size up to 40% as compared to systems without coding. With linear network coding, input interfaces of the destination node can deploy relatively smaller buffers, which is critical for wider practical deployment of high-speed Ethernet systems at 100 Gbps and beyond.