Understanding TCP cubic performance in the cloud: A mean-field approach

Author

Belhareth, Sonia ; Sassatelli, Lucile ; Collange, Denis ; Lopez-Pacheco, Dino ; Urvoy-Keller, Guillaume

Author_Institution

Orange Labs., Sophia Antipolis, France

fYear

2013

fDate

11-13 Nov. 2013

Firstpage

190

Lastpage

194

Abstract

Cloud networking typically leads to scenarii where a large number of TCP connections share a common bottleneck link. In this paper, we focus on the case of TCP Cubic, which is the default TCP version in the Linux kernel. TCP Cubic is designed to better utilize high bandwidth-delay product path in an IP network. To do so, Cubic modifies the linear window growth function of legacy TCP standards, e.g., New Reno, to be a cubic function. Our objective in this work is to assess the performance of TCP Cubic in a cloud setting with a large number of long-lived TCP flows.We rely on a mean-field approach leading to a fluid model to analyze the performance of Cubic. After a careful validation of the model through comparisons with ns-2, we evaluate the efficiency and fairness of Cubic as compared to that of New Reno for a set of typical cloud networking scenarii.

Keywords

Linux; cloud computing; transport protocols; IP network; Linux kernel; TCP connections; TCP cubic performance; TCP flows; TCP version; bandwidth delay product path; cloud networking; cubic function; fluid model; legacy TCP standards; linear window growth function; mean field; Analytical models; Bandwidth; Equations; Mathematical model; Optical fiber subscriber loops; Servers; Synchronization;

fLanguage

English

Publisher

ieee

Conference_Titel

Cloud Networking (CloudNet), 2013 IEEE 2nd International Conference on

Conference_Location

San Francisco, CA

Type

conf

DOI

10.1109/CloudNet.2013.6710576

Filename

6710576