DocumentCode
2661249
Title
Improving TCP throughput over lossy links using protocol-level speculations
Author
Bai, Haowei ; Lilja, David ; Atiquzzaman, Mohammed
Author_Institution
Honeywell Labs, Minneapolis, MN, USA
Volume
2
fYear
2005
fDate
13-16 June 2005
Firstpage
1557
Abstract
The degradation of transport control protocol (TCP) throughput in networks with lossy links is mainly due to the coexistence of two types of losses, congestion losses and link corruption losses. This is very similar to processor performance degradation due to control hazards in CPU design. First, two types of loss events in networks with lossy links can be considered as two possibilities of a branching result (correct speculation vs. incorrect speculation) in a CPU. Secondly, both the problems result in performance degradations in their application environments, i.e., penalties (in clock cycles) in a processor, and throughput degradation (in bit per second) in TCP networks. This has motivated us to apply speculative techniques (e.g., speculating on the outcome of branch predictions), used to overcome control dependencies in a processor, to TCP algorithm design when lossy links are involved in TCP connections. The objective of this paper is to propose a protocol-level speculation based TCP modification to improve its throughput performance over lossy links. Simulation results show that our proposed algorithm significantly improves TCP throughput in a network with satellite links.
Keywords
radio links; transport protocols; CPU design; TCP throughput; link corruption losses; processor performance degradation; protocol-level speculation; protocol-level speculations; transport control protocol; with satellite links; Clocks; Computer architecture; Degradation; Hazards; Performance loss; Process design; Throughput; Timing; Transport protocols; Wireless networks; Congestion control; Internet; Speculative execution; Transport control protocol (TCP); Wireless networks;
fLanguage
English
Publisher
ieee
Conference_Titel
Wireless Networks, Communications and Mobile Computing, 2005 International Conference on
Print_ISBN
0-7803-9305-8
Type
conf
DOI
10.1109/WIRLES.2005.1549645
Filename
1549645
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