BEAUMONT, Olivier; BONICHON, Nicolas; EYRAUD-DUBOIS, Lionel; UZNANSKI, P.

Métadonnées

Licence d’utilisation du document

BEAUMONT, Olivier
Algorithmics for computationally intensive applications over wide scale distributed platforms [CEPAGE]
Laboratoire Bordelais de Recherche en Informatique [LaBRI]

BONICHON, Nicolas
Algorithmics for computationally intensive applications over wide scale distributed platforms [CEPAGE]
Laboratoire Bordelais de Recherche en Informatique [LaBRI]

EYRAUD-DUBOIS, Lionel
Algorithmics for computationally intensive applications over wide scale distributed platforms [CEPAGE]
Laboratoire Bordelais de Recherche en Informatique [LaBRI]

Langue

Communication dans un congrès

Ce document a été publié dans

ICPADS 2011 - 17th Internation Conference on Parallel and Distributed Systems, 2011-12, Taïnan. 2011-12, vol. Proceeding of ICPADS 2011, p. 173-180

Résumé en anglais

We consider the classical problem of broadcasting a large message at an optimal rate in a large scale distributed network. The main novelty of our approach is that we consider that the set of participating nodes can be split into two parts: "green" nodes that stay in the open-Internet and "red" nodes that lie behind firewalls or NATs. Two red nodes cannot communicate directly, but rather need to use a green node as a gateway for transmitting a message. In this context, we are interested in both maximizing the throughput (\ie the rate at which nodes receive the message) and minimizing the degree at the participating nodes, \ie the number of TCP connections they must handle simultaneously. We both consider cyclic and acyclic solutions for the flow graph. In the cyclic case, our main contributions are a closed form formula for the optimal cyclic throughput and the proof that the optimal solution may require arbitrarily large degrees. In the acyclic case, we prove that it is possible to achieve the optimal throughput with low degree. Then, we prove a worst case ratio between the optimal acyclic and cyclic throughput and show through simulations that this ratio is on average very close to 1, which makes acyclic solutions efficient both in terms of the throughput and the number of connections.< Réduire

Mots clés en anglais

Broadcast

Scheduling

Resource Augmentation

firewall

Approximation Algorithms

Communication modeling

URI

https://oskar-bordeaux.fr/handle/20.500.12278/198056

Project ANR

Simulation extrêmement extensible avec SimGrid - ANR-08-SEGI-0022

Origine

Importé de hal

Unités de recherche

Laboratoire Bordelais de Recherche en Informatique (LaBRI) - UMR 5800