Title :
IP multicast support in MPLS
Author :
Acharya, Arup ; Griffoul, Frédéric ; Ansari, Furquan
Author_Institution :
C&C Res. Lab., NEC USA, USA
Abstract :
Multicast support in an MPLS (multiprotocol label switching) network has yet to be defined. An MPLS network consists of label switching devices such as ATM. This document discusses both dense-mode and sparse-mode IP multicast within the context of an MPLS network. Unlike unicast routing, dense-mode multicast routing trees are established in a data-driven manner and it is not possible to topologically aggregate such trees, which are rooted at different sources. In sparse-mode multicast, source-specific trees may coexist with a core/shared tree, and it is not possible to assign a common label to traffic from different sources on a branch of the shared tree. This leads us to suggest a per-source traffic-driven label allocation scheme for supporting all three types of multicast (dense mode, shared tree, source tree) routing trees in an MPLS network
Keywords :
Internet; asynchronous transfer mode; multicast communication; protocols; telecommunication network routing; telecommunication traffic; tree data structures; ATM; IP multicast support; MPLS network; common label; core/shared tree; dense-mode IP multicast; dense-mode multicast routing trees; label switching devices; multiprotocol label switching; per-source traffic-driven label allocation scheme; routing tree; source-specific trees; sparse-mode IP multicast; Aggregates; Asynchronous transfer mode; Hardware; Multiprotocol label switching; National electric code; Packet switching; Routing; Switches; Unicast; Virtual colonoscopy;
Conference_Titel :
ATM Workshop, 1999. IEEE Proceedings
Conference_Location :
Kochi
Print_ISBN :
4-88552-164-5
DOI :
10.1109/ATM.1999.786859
