Title :
Sharing Bandwidth by Allocating Switch Buffer in Data Center Networks
Author :
Jiao Zhang ; Fengyuan Ren ; Xin Yue ; Ran Shu ; Chuang Lin
Author_Institution :
Dept. of Comput. Sci. & Technol., Tsinghua Univ., Beijing, China
Abstract :
In today´s data centers, the round trip propagation delay is quite small. Therefore, switch buffer sizes are much larger than the Bandwidth Delay Product (BDP). Based on this observation, in this paper we introduce a new transport protocol which provides bandwidth Sharing by Allocating switch Buffer (SAB) for data centers. SAB sets the congestion windows for flows based on the buffer size of the switches along the path. On one hand, as long as the total buffer allocated to all the flows is larger than the BDP, the network bandwidth can be fully utilized. On the other hand, since SAB only allocates the buffer space to flows, the totally injected traffic will not exceed the network capacity. Thus, SAB rarely loses packets. SAB also reduces flow completion time by allowing flows to reach their fair share of bandwidth quickly. The results of a series of experiments and simulations demonstrate that SAB has the features of fast convergence and rare packet loss. It reduces the latency of short flows and solves theTCP Incast and TCP Outcast problems.
Keywords :
bandwidth allocation; computer centres; telecommunication congestion control; telecommunication switching; telecommunication traffic; transport protocols; bandwidth allocation; bandwidth delay product; congestion windows; data center networks; fast convergence; flow completion time; network bandwidth; network capacity; rare packet loss; round trip propagation delay; sharing by allocating switch buffer; transport protocol; Bandwidth; Delays; Estimation error; Packet loss; Propagation delay; Switches; Data Center Networks; Fast Convergence; Rare Loss; Transport Protocol;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
DOI :
10.1109/JSAC.2014.140105
