Title :
Bandwidth-efficient resilience in metro networks - a fast network-processor-based RPR implementation
Author :
Kirstädter, Andreas ; Hof, Axel ; Meyer, Walter ; Wolf, Erwin
Author_Institution :
Siemens AG, Corporate Technol., Munchen, Germany
Abstract :
Resilience is becoming a key design issue for future packet networks. The IEEE 802.17 resilient packet ring protocol has been developed. to provide the necessary cost and bandwidth efficient restoration mechanisms for traffic aggregation networks in the metropolitan area. In this paper we describe our network processor based implementation for RPR together with a bandwidth-efficient protection steering mechanism we selected. Measurement results from system integration test and a field trial prove excellent reconfiguration times well within 50 milliseconds for this solution based on reconfigurable hardware.
Keywords :
IEEE standards; LAN interconnection; bandwidth allocation; computer network reliability; metropolitan area networks; packet switching; protocols; telecommunication traffic; IEEE 802.17; RPR implementation; bandwidth efficient restoration; bandwidth-efficient resilience; future packet networks; high-speed LAN; metropolitan area networks; network processor; network protection; reconfigurable hardware; resilient packet ring protocol; steering mechanism; traffic aggregation networks; Communications technology; Hardware; Intelligent networks; Media Access Protocol; Metropolitan area networks; Protection; Resilience; Synchronous digital hierarchy; Urban areas; Wrapping;
Conference_Titel :
High Performance Switching and Routing, 2004. HPSR. 2004 Workshop on
Print_ISBN :
0-7803-8375-3
DOI :
10.1109/HPSR.2004.1303509
