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Multicast

From Wikipedia, the free encyclopedia

Routing Schemes

  • multicast

Multicast is the delivery of information to a group of destinations simultaneously using the most efficient strategy to deliver the messages over each link of the network only once, creating copies only when the links to the destinations split.

The word "Multicast" is typically used to refer to IP Multicast, the implementation of the multicast concept on the IP routing level, where routers create optimal distribution paths for datagrams sent to a multicast destination address spanning tree in realtime. But there are also other implementations of the multicast distribution strategy listed below.

[edit] Multicast technologies on the Internet

IP Multicast is a technique for many-to-many communication over an IP infrastructure. It scales to a larger receiver population by not requiring prior knowledge of who or how many receivers there are. Multicast utilizes network infrastructure efficiently by requiring the source to send a packet only once, even if it needs to be delivered to a large number of receivers. The nodes in the network take care of replicating the packet to reach multiple receivers only where necessary.

Key concepts in IP Multicast include an IP Multicast group address, a multicast distribution tree and receiver driven tree creation.

An IP Multicast group address is used by sources and the receivers to send and receive content. Sources use the group address as the IP destination address in their data packets. Receivers use this group address to inform the network that they are interested in receiving packets sent to that group. For example, if some content is associated with group 239.1.1.1, the source will send data packets destined to 239.1.1.1. Receivers for that content will inform the network that they are interested in receiving data packets sent to the group 239.1.1.1. The receiver "joins" 239.1.1.1. The protocol used by receivers to join a group is called the Internet Group Management Protocol or IGMP.

Once the receivers joins a particular IP Multicast group, a multicast distribution tree is constructed for that group. The protocol most widely used for this is Protocol Independent Multicast or PIM. It sets up multicast distribution trees such that data packets from senders to a multicast group reach all receivers which have "joined" the group. E.g. all data packets sent to the group 239.1.1.1 are received by receivers who joined 239.1.1.1. There are many different flavors of PIM, Sparse Mode (SM), Dense Mode (DM), Source Specific Mode (SSM) and Bidirectional Mode (Bidir). Of these PIM-SM is the most widely deployed as of 2006, SSM and Bidir are simpler and more scalable variations developed more recently and gaining in popularity.

IP Multicast does not require a source sending to a given group to know about the receivers of the group. The multicast tree construction is initiated by network nodes which are close to the receivers or is receiver driven. This allows it to scale to a large receiver population.

While IP Multicast uses a designated multicast address, the Explicit Multi-Unicast (XCAST) uses the unicast addresses of all the destinations, instead. Since the IP packet size is limited in general, XCAST cannot be used for multicast groups of large number of destinations.

The XCAST model generally assumes that the stations participating in the communication are known ahead of time, so that distribution trees can be generated and resources allocated by network elements in advance of actual data traffic. By contrast, the IP Multicast model has been described by Internet architect Dave Clark as "You put packets in at one end, and the network conspires to deliver them to anyone who asks."

The IP Multicast model requires a great deal more state inside the network than the IP unicast model of best-effort delivery does, and this has been the cause of some criticism. Also, no mechanism has yet been demonstrated, that would allow the IP Multicast model to scale to millions of senders and millions of multicast groups and, thus, it is not yet possible to make fully-general multicast applications practical in the commercial Internet.

As of 2006, most efforts at scaling multicast up to large networks have concentrated on the simpler case of single-source multicast, which seems to be more computationally tractable.

For both these reasons, and also reasons of economics, IP Multicast is not in general use in the commercial Internet. Other multicast technologies not based on IP Multicast are more widely used. These include Internet Relay Chat (IRC) and PSYC, which are more pragmatic and scale better for large numbers of small groups. IRC implements a spanning tree across its overlay network whereas PSYC uses custom multicast strategies per conference. Also some Peer-to-peer technologies employ the multicast concept when distributing content to multiple recipients.

IP Multicast is however, widely deployed in Enterprises, Commercial Stock Exchanges and Multimedia content delivery networks, where it is used for efficiently utilizing the networks resources for one to many or many to many communication. For example, a common Enterprise use of IP Multicast is for IP TV applications like distance learning or televising company meetings. In stock exchanges it is used for distributing stock trading data. In content delivery networks it is used to provide commercial television to a set of subscribers over IP infrastructure.


Multicast (top) compared with unicast broadcasting (bottom). Orange circles represent endpoints, and green circles represent routing points.
Multicast (top) compared with unicast broadcasting (bottom). Orange circles represent endpoints, and green circles represent routing points.

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