IEEE 802.3ad 2000

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IEEE Standard for Information Technology – Local and Metropolitan Area Networks – Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications-Aggregation of Multiple Link Segments

Published By	Publication Date	Number of Pages
IEEE	2000	183

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Description

Amendment Standard – Inactive – Superseded. Incorporated in IEEE Std 802.3, 2000 Edition. Superseded by 802.3-2002. An optional Link Aggregation sublayer for use with CSMA/CD MACs is defined. Link Aggregation allows one or more links to be aggregated together to form a Link Aggregation Group, such that a MAC Client can treat the Link Aggregation Group as if it were a single link. To this end, it specifies the establishment of DTE to DTE logical links, consisting of N parallel instances of full duplex point-to-point links operating at the same data rate.

PDF Catalog

PDF Pages	PDF Title
1	Title Page
3	Introduction
5	Participants
7	CONTENTS
11	CHANGES TO IEEE 802.3, 1998 EDITION 1.1 Overview
12	1.3 Normative references
13	1.4 Definitions 1.4.xxx Actor 1.4.xxx Aggregation Key 1.4.xxx Aggregation Link 1.4.xxx Aggregation Port 1.4.xxx Aggregation System 1.4.xxx Conversation 1.4.xxx end station 1.4.xxx Link Aggregation Group 1.4.xxx Partner 1.5 Abbreviations
14	2.3 Detailed service specification 2.3.1 MA_DATA.request
15	30. 10 Mb/s, 100 Mb/s, and 1000 Mb/s, MAC Control, and Link Aggregation Management 30.2 Managed objects
16	30.2.3 Containment
18	30.2.5 Capabilities
22	30.7 Management for Link Aggregation 30.7.1 Aggregator managed object class
33	30.7.2 Aggregation Port managed object class
39	30.7.3 Aggregation Port Statistics managed object class
42	30.7.4 Aggregation Port Debug Information managed object class
47	Annex 30A—GDMO specification for IEEE 802.3 managed object classes
72	Annex 30B—GDMO and ASN.1 definitions for management
74	Annex 30C—SNMP MIB definitions for Link Aggregation
105	AGGREGATION OF MULTIPLE LINK SEGMENTS 43. Link Aggregation 43.1 Overview 43.1.1 Terminology 43.1.2 Goals and objectives
106	43.1.3 Positioning of Link Aggregation within the IEEE 802.3 architecture
107	43.1.4 State diagram conventions
108	43.2 Link Aggregation operation 43.2.1 Principles of Link Aggregation
109	43.2.2 Service interfaces
110	43.2.3 Frame Collector
111	43.2.4 Frame Distributor
113	43.2.5 Marker Generator/Receiver (optional) 43.2.6 Marker Responder 43.2.7 Aggregator Parser/Multiplexer
114	43.2.8 Aggregator
115	43.2.9 Control Parser/Multiplexer
117	43.2.10 Addressing
118	43.3 Link Aggregation Control 43.3.1 Characteristics of Link Aggregation Control
119	43.3.2 System identification 43.3.3 Aggregator identification
120	43.3.4 Port identification 43.3.5 Capability identification
121	43.3.6 Link Aggregation Group identification
123	43.3.7 Selecting a Link Aggregation Group 43.3.8 Agreeing on a Link Aggregation Group 43.3.9 Attaching a link to an Aggregator
124	43.3.10 Signaling readiness to transfer user data 43.3.11 Enabling Collection and Distribution 43.3.12 Monitoring the membership of a Link Aggregation Group 43.3.13 Detaching a link from an Aggregator
125	43.3.14 Configuration and administrative control of Link Aggregation 43.3.15 Link Aggregation Control state information
126	43.4 Link Aggregation Control Protocol (LACP) 43.4.1 LACP design elements 43.4.2 LACPDU structure and encoding
130	43.4.3 LACP state machine overview
132	43.4.4 Constants 43.4.5 Variables associated with the System
133	43.4.6 Variables associated with each Aggregator
134	43.4.7 Variables associated with each port
137	43.4.8 Variables used for managing the operation of the state machines
138	43.4.9 Functions
140	43.4.10 Timers 43.4.11 Messages
141	43.4.12 Receive machine
143	43.4.13 Periodic Transmission machine
144	43.4.14 Selection Logic
147	43.4.15 Mux machine
150	43.4.16 Transmit machine
151	43.4.17 Churn Detection machines
152	43.5 Marker protocol 43.5.1 Introduction
153	43.5.2 Sequence of operations 43.5.3 Marker and Marker Response PDU structure and encoding
155	43.5.4 Protocol definition
156	43.6 Configuration capabilities and restrictions 43.6.1 Use of system and port priorities
157	43.6.2 Dynamic allocation of operational Keys
158	43.6.3 Link Aggregation on shared-medium links 43.6.4 Selection Logic variants
159	43.7 Protocol Implementation Conformance Statement (PICS) proforma for Clause 43, Aggregation of … 43.7.1 Introduction 43.7.2 Identification
160	43.7.3 Major capabilities/options 43.7.4 Frame Collector
161	43.7.5 Frame Distributor 43.7.6 Marker protocol 43.7.7 Aggregator Parser/Multiplexer
162	43.7.8 Control Parser/Multiplexer 43.7.9 System identification 43.7.10 Aggregator identification 43.7.11 Port identification
163	43.7.12 Capability identification 43.7.13 Link Aggregation Group identification 43.7.14 Detaching a link from an Aggregator 43.7.15 LACPDU structure
164	43.7.16 State machine variables 43.7.17 Receive machine 43.7.18 Periodic Transmission machine
165	43.7.19 Selection Logic 43.7.20 Mux machine
166	43.7.21 Transmit machine 43.7.22 Churn Detection machines
167	43.7.23 Marker protocol 43.7.24 Configuration capabilities and restrictions
168	43.7.25 Link Aggregation on shared-medium links
169	Annex 43A—Collection and Distribution functions
173	Annex 43B—Requirements for support of Slow Protocols
178	Annex 43C—LACP standby link selection and dynamic Key management

Additional information

Standard Title	IEEE Standard for Information Technology – Local and Metropolitan Area Networks – Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications-Aggregation of Multiple Link Segments
Published Code	IEEE
Publication Date	2000
Pages Count	183

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