In this paper, we present and evaluate the design and
implementation of two distributed, fault-tolerant services that provide
the directory and topology information required to encode randomized
source routes with in-packet Bloom filters. By deploying an army of Rack
Managers acting as OpenFlow controllers, the proposed architecture
promises scalability, performance and fault-tolerance. We show that
packet forwarding itself may become a cloud internal service implemented
by leveraging cloud application best practices such as distributed
key-value storage systems. Moreover, we contribute to demystifying the
argument that the centralized controller model of OpenFlow networks is
prone to a single point of failure and show that direct network
controllers can be physically distributed, yielding thereby a sweet
intermediate approach to networking between fully distributed and
centralized.
%0 Conference Paper
%1 macapuna0.0controle
%A Macapuna, Carlos
%A Rothenberg, Christian Esteve
%A Magalhães, Mauricio
%B WCGA 2010
%D 2010
%K center data openflow
%T Controle distribuído em Redes de Data Center baseado em
Gerenciadores de Rack e Serviços de Diretório/Topologia
%U http://XXXXX/68114.pdf
%X In this paper, we present and evaluate the design and
implementation of two distributed, fault-tolerant services that provide
the directory and topology information required to encode randomized
source routes with in-packet Bloom filters. By deploying an army of Rack
Managers acting as OpenFlow controllers, the proposed architecture
promises scalability, performance and fault-tolerance. We show that
packet forwarding itself may become a cloud internal service implemented
by leveraging cloud application best practices such as distributed
key-value storage systems. Moreover, we contribute to demystifying the
argument that the centralized controller model of OpenFlow networks is
prone to a single point of failure and show that direct network
controllers can be physically distributed, yielding thereby a sweet
intermediate approach to networking between fully distributed and
centralized.
@inproceedings{macapuna0.0controle,
abstract = {In this paper, we present and evaluate the design and
implementation of two distributed, fault-tolerant services that provide
the directory and topology information required to encode randomized
source routes with in-packet Bloom filters. By deploying an army of Rack
Managers acting as OpenFlow controllers, the proposed architecture
promises scalability, performance and fault-tolerance. We show that
packet forwarding itself may become a cloud internal service implemented
by leveraging cloud application best practices such as distributed
key-value storage systems. Moreover, we contribute to demystifying the
argument that the centralized controller model of OpenFlow networks is
prone to a single point of failure and show that direct network
controllers can be physically distributed, yielding thereby a sweet
intermediate approach to networking between fully distributed and
centralized.},
added-at = {2010-06-27T16:32:09.000+0200},
author = {Macapuna, Carlos and Rothenberg, Christian Esteve and Magalhães, Mauricio},
biburl = {https://www.bibsonomy.org/bibtex/264908a01c56b4ef6ce194e1f23b9e713/chesteve},
booktitle = {WCGA 2010},
days = {-},
interhash = {5365353d50c0c8e23df1ead51cd2dbcc},
intrahash = {64908a01c56b4ef6ce194e1f23b9e713},
keywords = {center data openflow},
timestamp = {2010-06-27T16:32:09.000+0200},
title = {Controle distribuído em Redes de Data Center baseado em
Gerenciadores de Rack e Serviços de Diretório/Topologia},
url = {http://XXXXX/68114.pdf},
year = 2010
}