DocumentCode :
2852428
Title :
TCP/IP Performance Near I/O Bus Bandwidth on Multi-Core Systems: 10-Gigabit Ethernet vs. Multi-Port Gigabit Ethernet
Author :
Jin, Hyun-Wook ; Yun, Yeon-Ji ; Jang, Hye-Churn
Author_Institution :
Dept. of Comput. Sci. & Eng., Konkuk Univ., Seoul
fYear :
2008
fDate :
8-12 Sept. 2008
Firstpage :
87
Lastpage :
94
Abstract :
With significant advances in network interfaces, I/O bus, and processor architecture of end node, innovative approaches are required to achieve high network bandwidth by fully utilizing available system resources. The issues related can be summarized into two: (i) Utilizing I/O bus bandwidth for high bandwidth network connection and (ii) Utilizing multiple cores for high packet processing throughput. In this paper, we conduct several experiments on a multi-core system with 10 GigE and multi-port 1 GigE network interfaces. We aim to show the impact of system configurations on the network performance and compare the performance of two different network interfaces. The experimental results show that, with the proper interrupt affinity configurations, the multi-port 1 GigE can achieve comparable bandwidth to 10 GigE. The peak bandwidth achieved by the multi-port 1 GigE is 6.7 Gbps, which is more than 80% of the theoretical maximum I/O bus bandwidth on the experimental system. We, however, also show that the multi-port 1 GigE can consume much more processor resource than 10 GigE. More importantly, we reveal that processing the packets on many cores can result in more resource consumption without much benefit. This can be because of locking overhead between softirqs running on different cores and lower cache efficiency. We show that the more tuning on the configuration cannot overcome this side effect.
Keywords :
local area networks; peripheral interfaces; transport protocols; Ethernet; TCP/IP; multi-core systems; near I/O bus bandwidth; packets; Bandwidth; Computer architecture; Computer science; Ethernet networks; Information technology; Network interfaces; Packaging; Parallel processing; TCPIP; Throughput; 10 Gigabit Ethernet; CPU affinity; Gigabit Ethernet; Multi-Core; TCP; multi-port NIC;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Parallel Processing - Workshops, 2008. ICPP-W '08. International Conference on
Conference_Location :
Portland, OR
ISSN :
1530-2016
Print_ISBN :
978-0-7695-3375-9
Electronic_ISBN :
1530-2016
Type :
conf
DOI :
10.1109/ICPP-W.2008.33
Filename :
4626785
Link To Document :
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