Title :
High-speed IPv6 router/switch architecture
Author :
Yazaki, T. ; Kanetake, T. ; Akahane, S. ; Sakata, Y. ; Sugai, K. ; Yano, H.
Author_Institution :
Hitachi Ltd., Japan
Abstract :
To construct a high-speed and reliable IPv6 network that supports an information society, a high-speed router and switch architecture and new quality of service (QoS) control mechanisms have been developed. The architecture that adopts distributed hardware engines for IPv4 and IPv6 packets achieves wire-rate forwarding for 10 gigabit Ethernet. The QoS control mechanisms, by controlling hierarchical bandwidths, can guarantee the communications of important data such as mission critical data for each network user, assuring bandwidths for each user. A next generation router (GR4000) and a switch (GS4000) based on this architecture provide 320 Gbps maximum capacity with the QoS control mechanisms as well as flow filtering and flow-statistics collection.
Keywords :
Internet; bandwidth allocation; local area networks; packet switching; quality of service; routing protocols; 320 Gbits; Ethernet; GR4000; GS4000; IPv4 packets; IPv6 packets; IPv6 router; IPv6 switch architecture; QoS control mechanisms; distributed hardware engines; flow filtering; flow-statistics collection; hierarchical bandwidths; high-speed IPv6 network; high-speed router; mission critical data; network user; next generation router; quality of service control mechanisms; reliable IPv6 network; wire-rate forwarding; Bandwidth; Communication switching; Communication system control; Engines; Ethernet networks; Filtering; Hardware; Mission critical systems; Quality of service; Switches;
Conference_Titel :
Applications and the Internet Workshops, 2004. SAINT 2004 Workshops. 2004 International Symposium on
Print_ISBN :
0-7695-2050-2
DOI :
10.1109/SAINTW.2004.1268581
