Patrick Raad scite author profile

International audienceCloud applications heavily rely on the network communication infrastructure, whose stability and latency directly affect the quality of experience. As mobile devices need to rapidly retrieve data from the cloud, it becomes an extremely important goal to deliver the lowest possible access latency at the best reliability. In this paper, we specify a cloud access overlay protocol architecture to improve the cloud access performance in distributed data-center (DC) cloud fabrics. We explore how linking virtual machine (VM) mobility and routing to user mobility can compensate performance decrease due to increased user-cloud network distance, by building an online cloud scheduling solution to optimally switch VM routing locators and to relocate VMs across DC sites, as a function of user-DC overlay network states. We evaluate our solution: 1) on a real distributed DC testbed spanning all of France, showing that we can grant a very high transfer time gain and 2) by emulating the situation of Internet service providers (ISPs) and over-the-top (OTT) cloud providers, exploiting thousands of real France-wide user displacement traces, finding a median throughput gain from 30% for OTT scenarii to 40% for ISP scenarii, the large majority of this gain being granted by adaptive VM mobility

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PACAO: A protocol architecture for cloud access optimization in distributed data center fabrics

Raad¹,

Secci²,

Phung³

et al. 2015

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An open control-plane implementation for LISP networks

Phung¹,

Seed

Pujolle

et al. 2012

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Patrick Raad

Achieving Sub-Second Downtimes in Large-Scale Virtual Machine Migrations with LISP

Cross-layer cooperation to boost multipath TCP performance in cloud networks

Linking Virtual Machine Mobility to User Mobility

PACAO: A protocol architecture for cloud access optimization in distributed data center fabrics

An open control-plane implementation for LISP networks

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