DocumentCode
3237699
Title
The Failure of TCP in High-Performance Computational Grids
Author
Feng, W. ; Tinnakornsrisuphap, P.
Author_Institution
Los Alamos National Laboratory; Ohio State University
fYear
2000
fDate
04-10 Nov. 2000
Firstpage
37
Lastpage
37
Abstract
Distributed computational grids depend on TCP to ensure reliable end-to-end communication between nodes across the wide-area network (WAN). Unfortunately, TCP performance can be abysmal even when buffers on the end hosts are manually optimized. Recent studies blame the self-similar nature of aggregate network traffic for TCP’s poor performance because such traffic is not readily amenable to statistical multiplexing in the Internet, and hence computational grids. In this paper, we identify a source of self-similarity previously ignored, a source that is readily controllable - TCP. Via an experimental study, we examine the effects of the TCP stack on network traffic using different implementations of TCP. We show that even when aggregate application traffic ought to smooth out as more applications’ traffic are multiplexed, TCP induces burstiness into the aggregate traffic load, thus adversely impacting network performance. Furthermore, our results indicate that TCP performance will worsen as WAN speeds continue to increase.
Keywords
TCP; computational grid; distributed computing; network traffic characterization; self-similarity; Aggregates; Communication system traffic control; Computer networks; Distributed computing; Grid computing; IP networks; Laboratories; Reliability engineering; Telecommunication traffic; Wide area networks; TCP; computational grid; distributed computing; network traffic characterization; self-similarity;
fLanguage
English
Publisher
ieee
Conference_Titel
Supercomputing, ACM/IEEE 2000 Conference
ISSN
1063-9535
Print_ISBN
0-7803-9802-5
Type
conf
DOI
10.1109/SC.2000.10039
Filename
1592750
Link To Document