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Voice-Enabling the Data Network

The CPS layer enables the multiplexing of variable length voice packets of end users onto a single ATM virtual channel that is an AAL2 channel. Although AAL2 with its three-byte packet header introduces some inefficiency for small packets, the improvement that is reached by having no padding more than

offsets this minor inefficiency. Each of the CPS fields and the Start field are described here:

Start field Enables efficient packing of the voice packets over a single ATM virtual circuit. The Offset field is a six-bit pointer within the Start field that points to the position of the first CPS packet that follows the OSF.A sequence number protects the order of the Offset field. If a Start field parity error exists, all the CPS packets that are associated with the Start field are discarded.

CID (Channel ID Identifies the end user, which is referred to as the SSCS entity in the International Telecommunication Union (ITU) AAL2 specifications. The CID allocates the value 1 to exchange layer management peer-to-peer procedures, such as set-up negotiations. CID enables the multiplexing of up to 248 user channels, whereas some CID values are reserved for other uses, such as peer-to-peer layer management.

For example, if 8 E1s terminated on an MGX, 240 CID values would be used.

The CID is an important concept in AAL2.CIDs provide a binding between an endpoint and an AAL2 connection. This is the mechanism that binds the TDM traffic to the ATM traffic.

For example, if a service provider needs to provision 100 DS0s between two sites for one of its enterprise customers, 100 CIDs are created across the ATM network. Furthermore, a unique coder-decoder (codec) type is assigned to each individual DS0 because the codec type is assigned to each CID through an AAL2. For example, individual customers in a multi-tenant building can each support multiple compression schemes over a single T1 access link.

Each CID is configured and includes the following parameters: codec type, profile type, voice activity detection (VAD), DTFM Tones, and packet period for G.729.For example, to transmit DTMF tones transparently across the ATM PVC, DTMF must be enabled in the CID.

An AAL2 profile is a mechanism that the MGX 8850 uses to assign the compression and encoding scheme of the AAL2 trunking service. A profile is defined by a profile type, which is either an ITU standard, or a custom type and a number. These profiles need to match on both ends of the network for the two end devices, such as PBXs, to interoperate. A profile is configured for each CID. For example, if the profile type is ITU and the profile number is 1,you must use G.711.In other words, the profile type and the profile number identify the compression type.

CID enables the use of subcell multiplexing, which provides many of the benefits of AAL2.

If you use G.711, subcell multiplexing does not provide any value because G.711 already uses an 80-byte packet. The real advantage of subcell multiplexing is the G.729 encoding scheme. If you use G.729 with a packetization period of 30 milliseconds, three 10-byte packets of payload from one DS0 are packed into one ATM cell. Therefore, the efficiency of packing the voice sample into the ATM cell is increased threefold, and instead of 34 bytes of padding, only 14 bytes exist in the ATM cell. Assuming that VAD provides an additional 50 per cent of bandwidth savings, G.729 subcell multiplexing uses approximately 6 kbps of bandwidth per DS0 channel of voice traffic. This is a significant amount of bandwidth savings.

Summary

This chapter provided an overview of managed voice and data services using ATM technology. AAL2 is an important component in providing a managed service using ATM. Because of efficient bandwidth use and the ability to transport different traffic types, AAL2 is used in trunking applications, such as interconnecting mobile wireless sites. Today, many service providers use a pure IP-based architecture to support this service.

 

James F. Durkin is the author of Voice-Enabling the Data Network from Cisco Press. The following article was an excerpt from the book.

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