Table of Contents
1Scope
2References
3Definitions
4Abbreviations,Acronyms,andSymbols
5Dataflow
6Multi-pairsynchronization
6.1Introduction
6.2Frameformat
6.3Multi-pairsynchronizationstatemachine
7Dispatching
7.1Principles
7.2Algorithm
7.3Pseudocode
8Differentialdelay
9Clocksynchronization
9.1Scope
9.2TDMservicesynchronizationandclocktransfer
9.3Aggregationlayersynchronization
9.4Pairsynchronization
10Serviceencapsulation
10.1Referencemodel
10.2Servicemux
10.3Asynchronousservices
10.4TDMservicestuffing
11FECandinterleaver
11.1FEC
11.2Interleaver
12Processes
12.1Pairmanagementandcontrol
12.2Aggregationgroupmanagementandcontrol
12.3Procedures
13TDIMBondingCommunicationChannel(BCC)
13.1Introduction
13.2Events
13.3Messages
14Handshaking
14.1Overview
14.2BondingNpar(2)codepoint
14.3Pairdiscovery
15Performancemonitoring
AnnexA-Modemratematching
A.1Introduction
A.2Workprinciples
A.3CoordinationbetweenBTU-CandBTU-R
A.4Framingformat
A.5Modemratematchingoperation
AppendixI-Clocksynchronizationexamples
I.1Clockdomains
I.2Rateadaptationbetweenclockdomains
I.3Timingoperationmodes
I.4Examples
AppendixII-Managementobjects Abstract
Describes a method for bonding of multiple digital subscriber lines (DSL) using Time-Division Inverse Multiplexing (TDIM). It provides a specification of the TDIM protocol in sufficient detail, to allow development and testing of interoperable implementations for both transmitter and receiver.
