IEEE 802.3 2000

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IEEE Standard for Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications

Published By	Publication Date	Number of Pages
IEEE	2000	1554

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Description

Revision Standard – Inactive – Superseded. Superseded **Incoporating IEEE Std 802.3, 1998 Edition, IEEE Std 802.3ac-1998, IEEE Std 802.3ab-1999, and IEEE Std 802.3ad-2000. Superseded by 802.3-2002 (802.3ag). The media access control characteristics for the Carrier Sense Multiple Access with Collision Detection (CSMA/CD) access method for shared medium local area networks are described. The control characteristics for full duplex dedicated channel use are also described. Specifications are provided for MAU types 1BASE5 at 1 Mb/s; Attachment Unit Interface (AUI) and MAU types 10BASE5, 10BASE2, FOIRL (fiber optic inter-repeater link), 10BROAD36, 10BASE-T, 10BASE-FL, 10BASE-FB, and 10BASE-FP at 10 Mb/s; Media Independent Interface (MII) and PHY types 100BASE-T4, 100BASE-TX, 100BASE-FX, and 100BASE-T2 at 100 Mb/s; and the Gigabit MII (GMII) and 1000BASE-X PHY types, 1000BASE-SX, 1000BASE-LX, and 1000BASE-CX, which operate at 1000 Mb/s (Gigabit Ethernet) as well as PHY type 1000BASE-T. Repeater specifications are provided at each speed. Full duplex specifications are provided at the Physical Layer for 10BASE-T, 10BASE-FL, 100BASE-TX, 100BASE-FX, 100BASE-T2, and Gigabit Ethernet. Systemconsiderations for multisegment networks at each speed and management information base (MIB) specifications and additions to support Virtual Bridged Local Area Networks (VLANs) as specified in IEEE P802.1Q are also provided. Also specified is an optional Link Aggregation sublayer which multiple physical links to be aggregated together to form a single logical link.

PDF Catalog

PDF Pages	PDF Title
1	Title Page
3	Foreword
4	Introduction
6	Participants
11	Officers
13	CONTENTS
39	List of special symbols
40	1. Introduction 1.1 Overview 1.1.1 Basic concepts
41	1.1.2 Architectural perspectives
43	1.1.3 Layer interfaces 1.1.4 Application areas 1.2 Notation 1.2.1 State diagram conventions
44	1.2.2 Service specification method and notation
45	1.2.3 Physical Layer and media notation
46	1.2.4 Physical Layer message notation 1.3 Normative references
50	1.4 Definitions
69	1.5 Abbreviations
72	2. Media Access Control (MAC) service specification 2.1 Scope and field of application 2.2 Overview of the service 2.2.1 General description of services provided by the layer 2.2.2 Model used for the service specification
73	2.2.3 Overview of interactions 2.2.4 Basic services and options 2.3 Detailed service specification 2.3.1 MA_DATA.request
74	2.3.2 MA_DATA.indication
75	2.3.3 MA_CONTROL.request
76	2.3.4 MA_CONTROL.indication
77	3. Media access control frame structure 3.1 Overview 3.1.1 MAC frame format
78	3.2 Elements of the MAC frame 3.2.1 Preamble field 3.2.2 Start Frame Delimiter (SFD) field 3.2.3 Address fields
79	3.2.4 Destination Address field 3.2.5 Source Address field 3.2.6 Length/Type field 3.2.7 Data and PAD fields
80	3.2.8 Frame Check Sequence (FCS) field 3.2.9 Extension field 3.3 Order of bit transmission 3.4 Invalid MAC frame
81	3.5 Elements of the Tagged MAC Frame
82	3.5.1 Preamble field 3.5.2 Start Frame Delimiter (SFD) field 3.5.3 Address fields 3.5.4 Length/Type field 3.5.5 Tag Control Information field (informative) 3.5.6 MAC Client Length/Type field 3.5.7 Data and PAD fields 3.5.8 Frame Check Sequence (FCS) field 3.5.9 Extension field
83	4. Media Access Control 4.1 Functional model of the MAC method 4.1.1 Overview
84	4.1.2 CSMA/CD operation
86	4.1.3 Relationships to the MAC client and Physical Layers
87	4.1.4 CSMA/CD access method functional capabilities
88	4.2 CSMA/CD Media Access Control (MAC) method: Precise specification 4.2.1 Introduction 4.2.2 Overview of the procedural model
95	4.2.3 Frame transmission model
98	4.2.4 Frame reception model
100	4.2.5 Preamble generation 4.2.6 Start frame sequence 4.2.7 Global declarations
104	4.2.8 Frame transmission
111	4.2.9 Frame reception
114	4.2.10 Common procedures
115	4.3 Interfaces to/from adjacent layers 4.3.1 Overview 4.3.2 Services provided by the MAC sublayer
116	4.3.3 Services required from the physical layer
118	4.4 Specific implementations 4.4.1 Compatibility overview
119	4.4.2 Allowable implementations
121	4.4.3 Configuration guidelines
122	5. Layer Management 5.1 Introduction 5.1.1 Systems Management overview 5.1.2 Layer Management model
123	5.1.3 Packages 5.1.4 Conformance requirements 5.2 Management facilities 5.2.1 Introduction 5.2.2 DTE MAC Sublayer Management facilities
133	5.2.3 DTE Physical Sublayer Management facilities
134	5.2.4 DTE Management procedural model
139	6. Physical Signaling (PLS) service specifications 6.1 Scope and field of application 6.2 Overview of the service 6.2.1 General description of services provided by the layer 6.2.2 Model used for the service specification 6.2.3 Overview of interactions
140	6.2.4 Basic services and options 6.3 Detailed service specification 6.3.1 Peer-to-peer service primitives
141	6.3.2 Sublayer-to-sublayer service primitives
143	7. Physical Signaling (PLS) and Attachment Unit Interface (AUI) specifica tions 7.1 Scope 7.1.1 Definitions 7.1.2 Summary of major concepts
144	7.1.3 Application 7.1.4 Modes of operation 7.1.5 Allocation of function 7.2 Functional specification 7.2.1 PLS–PMA (DTE–MAU) Interface protocol
151	7.2.2 PLS interface to MAC and management entities
153	7.2.3 Frame structure
154	7.2.4 PLS functions
157	7.3 Signal characteristics 7.3.1 Signal encoding
162	7.3.2 Signaling rate 7.3.3 Signaling levels 7.4 Electrical characteristics 7.4.1 Driver characteristics
165	7.4.2 Receiver characteristics
167	7.4.3 AUI cable characteristics
169	7.5 Functional description of interchange circuits 7.5.1 General 7.5.2 Definition of interchange circuits
171	7.6 Mechanical characteristics 7.6.1 Definition of mechanical interface 7.6.2 Line interface connector
172	7.6.3 Contact assignments
175	8. Medium Attachment Unit and baseband medium specifications, type 10BASE5 8.1 Scope 8.1.1 Overview
176	8.1.2 Definitions 8.1.3 Application perspective: MAU and MEDIUM objectives
177	8.2 MAU functional specifications 8.2.1 MAU Physical Layer functions
180	8.2.2 MAU interface messages
181	8.2.3 MAU state diagrams
182	8.3 MAU–medium electrical characteristics 8.3.1 MAU-to-coaxial cable interface
188	8.3.2 MAU electrical characteristics 8.3.3 MAU–DTE electrical characteristics 8.3.4 MAU–DTE mechanical connection
189	8.4 Characteristics of the coaxial cable 8.4.1 Coaxial cable electrical parameters
190	8.4.2 Coaxial cable properties
191	8.4.3 Total segment dc loop resistance
192	8.5 Coaxial trunk cable connectors 8.5.1 Inline coaxial extension connector 8.5.2 Coaxial cable terminator 8.5.3 MAU-to-coaxial cable connection
195	8.6 System considerations 8.6.1 Transmission system model 8.6.2 Transmission system requirements
196	8.6.3 Labeling 8.7 Environmental specifications 8.7.1 General safety requirements
197	8.7.2 Network safety requirements
198	8.7.3 Electromagnetic environment
199	8.7.4 Temperature and humidity 8.7.5 Regulatory requirements
200	8.8 Protocol Implementation Conformance Statement (PICS) proforma for Clause 8, Medium Attachment… 8.8.1 Overview 8.8.2 Abbreviations and special symbols 8.8.3 Instructions for completing the PICS proforma
202	8.8.4 Identification 8.8.5 Global statement of conformance
203	8.8.6 PICS proforma tables for MAU
210	8.8.7 PICS proforma tables for MAU AUI characteristics
213	8.8.8 PICS proforma tables for 10BASE5 coaxial cable
215	9. Repeater unit for 10 Mb/s baseband networks 9.1 Overview
216	9.2 References 9.3 Definitions 9.4 Compatibility interface 9.4.1 AUI compatibility 9.4.2 Mixing segment compatibility
217	9.4.3 Link segment compatibility 9.5 Basic functions 9.5.1 Repeater set network properties 9.5.2 Signal amplification 9.5.3 Signal symmetry
218	9.5.4 Signal retiming 9.5.5 Data handling
219	9.5.6 Collision handling
220	9.5.7 Electrical isolation
221	9.6 Detailed repeater functions and state diagrams 9.6.1 State diagram notation
223	9.6.2 Data and collision handling 9.6.3 Preamble regeneration
224	9.6.4 Fragment extension
225	9.6.5 MAU Jabber Lockup Protection 9.6.6 Auto-Partitioning/Reconnection (optional)
228	9.7 Electrical isolation 9.7.1 Environment A requirements 9.7.2 Environment B requirements 9.8 Reliability
229	9.9 Medium attachment unit and baseband medium specification for a vendor- independent FOIRL 9.9.1 Scope
231	9.9.2 FOMAU functional specifications
237	9.9.3 FOMAU electrical characteristics
238	9.9.4 FOMAU/Optical medium interface
241	9.9.5 Characteristics of the optical fiber cable link segment
242	9.9.6 System requirements
244	9.9.7 Environmental specifications
246	10. Medium attachment unit and baseband medium specifications, type 10BASE2 10.1 Scope 10.1.1 Overview
247	10.1.2 Definitions 10.1.3 Application perspective: MAU and medium objectives
248	10.2 References 10.3 MAU functional specifications
249	10.3.1 MAU Physical Layer functional requirements
251	10.3.2 MAU interface messages
253	10.3.3 MAU state diagrams
254	10.4 MAU–medium electrical characteristics 10.4.1 MAU-to-coaxial cable interface
256	10.4.2 MAU electrical characteristics
257	10.4.3 MAU–DTE electrical characteristics 10.5 Characteristics of coaxial cable system 10.5.1 Coaxial cable electrical parameters
258	10.5.2 Coaxial cable physical parameters
259	10.5.3 Total segment dc loop resistance
260	10.6 Coaxial trunk cable connectors 10.6.1 In-line coaxial extension connector
261	10.6.2 Coaxial cable terminator 10.6.3 MAU-to-coaxial cable connection 10.7 System considerations 10.7.1 Transmission system model
263	10.7.2 Transmission system requirements
264	10.8 Environmental specifications 10.8.1 Safety requirements 10.8.2 Electromagnetic environment 10.8.3 Regulatory requirements
265	11. Broadband medium attachment unit and broadband medium specifications, type 10BROAD36 11.1 Scope 11.1.1 Overview
267	11.1.2 Definitions 11.1.3 MAU and medium objectives 11.1.4 Compatibility considerations
268	11.1.5 Relationship to PLS and AUI 11.1.6 Mode of operation 11.2 MAU functional specifications 11.2.1 MAU functional requirements
271	11.2.2 DTE PLS to MAU and MAU to DTE PLS messages
272	11.2.3 MAU state diagrams
275	11.3 MAU characteristics 11.3.1 MAU-to-coaxial cable interface
280	11.3.2 MAU frequency allocations
281	11.3.3 AUI electrical characteristics
282	11.3.4 MAU transfer characteristics
288	11.3.5 Reliability
289	11.4 System considerations 11.4.1 Delay budget and network diameter 11.4.2 MAU operation with packets shorter than 512 bits
290	11.5 Characteristics of the coaxial cable system 11.5.1 Electrical requirements 11.5.2 Mechanical requirements 11.5.3 Delay requirements
291	11.6 Frequency translator requirements for the single-cable version 11.6.1 Electrical requirements 11.6.2 Mechanical requirements 11.7 Environmental specifications 11.7.1 Safety requirements
292	11.7.2 Electromagnetic environment 11.7.3 Temperature and humidity
293	12. Physical signaling, medium attachment, and baseband medium specifications, type 1BASE5 12.1 Introduction 12.1.1 Overview 12.1.2 Scope
294	12.1.3 Definitions 12.1.4 General characteristics 12.1.5 Compatibility 12.1.6 Objectives of type 1BASE5 specification 12.2 Architecture 12.2.1 Major concepts
296	12.2.2 Application perspective 12.2.3 Packet structure
297	12.3 DTE physical signaling (PLS) specification 12.3.1 Overview
298	12.3.2 Functional specification
305	12.4 Hub specification 12.4.1 Overview
306	12.4.2 Hub structure
307	12.4.3 Hub PLS functional specification
312	12.5 Physical medium attachment (PMA) specification 12.5.1 Overview 12.5.2 PLS–PMA interface
313	12.5.3 Signal characteristics
320	12.6 Medium Dependent Interface (MDI) specification 12.6.1 Line interface connector
321	12.6.2 Connector contact assignments 12.6.3 Labeling
322	12.7 Cable medium characteristics 12.7.1 Overview 12.7.2 Transmission parameters
323	12.7.3 Coupling parameters
324	12.7.4 Noise environment
325	12.8 Special link specification 12.8.1 Overview 12.8.2 Transmission characteristics 12.8.3 Permitted configurations 12.9 Timing 12.9.1 Overview
326	12.9.2 DTE timing 12.9.3 Medium timing 12.9.4 Special link timing 12.9.5 Hub timing
327	12.10 Safety 12.10.1 Isolation
328	12.10.2 Telephony voltages
329	13. System considerations for multisegment 10 Mb/s baseband networks 13.1 Overview
330	13.1.1 Repeater usage 13.2 Definitions 13.3 Transmission System Model 1
335	13.4 Transmission System Model 2 13.4.1 Round-trip collision delay
336	13.4.2 Interpacket gap (IPG) shrinkage
337	13.5 Full duplex topology limitations
338	14. Twisted-pair medium attachment unit (MAU) and baseband medium, type 10BASE-T 14.1 Scope 14.1.1 Overview
339	14.1.2 Definitions 14.1.3 Application perspective
341	14.1.4 Relationship to PLS and AUI 14.2 MAU functional specifications
342	14.2.1 MAU functions
346	14.2.2 PMA interface messages
347	14.2.3 MAU state diagrams
352	14.3 MAU electrical specifications 14.3.1 MAU-to-MDI interface characteristics
361	14.3.2 MAU-to-AUI specification 14.4 Characteristics of the simplex link segment
362	14.4.1 Overview 14.4.2 Transmission parameters
363	14.4.3 Coupling parameters 14.4.4 Noise environment
364	14.5 MDI specification 14.5.1 MDI connectors 14.5.2 Crossover function
365	14.6 System considerations 14.7 Environmental specifications 14.7.1 General safety 14.7.2 Network safety
367	14.7.3 Environment
368	14.8 MAU labeling
369	14.9 Timing summary
370	14.10 Protocol Implementation Conformance Statement (PICS) proforma for Clause 14, Twisted-pair m… 14.10.1 Introduction
371	14.10.2 Identification of implementation 14.10.3 Identification of the protocol
372	14.10.4 PICS proforma for 10BASE-T
388	15. Fiber optic medium and common elements of medium attachment units and star, type 10BASE-F 15.1 Scope 15.1.1 Overview
389	15.1.2 Definitions 15.1.3 Applications perspective: MAUs, stars, and fiber optic medium
393	15.2 MDI optical characteristics 15.2.1 Transmit optical parameters
400	15.2.2 Receive optical parameters
401	15.3 Characteristics of the fiber optic medium 15.3.1 Optical fiber and cable
402	15.3.2 Optical medium connector plug and socket
403	15.3.3 Fiber optic medium insertion loss 15.3.4 Electrical isolation
404	15.4 MAU reliability 15.5 MAU–AUI specification 15.5.1 MAU–AUI electrical characteristics 15.5.2 MAU–AUI mechanical connections 15.5.3 Power consumption 15.5.4 MAU–AUI messages
405	15.6 Environmental specifications 15.6.1 Safety requirements
406	15.6.2 Electromagnetic environment 15.6.3 Other environmental requirements 15.7 MAU labeling 15.7.1 10BASE-FP star labeling
407	15.8 Protocol implementation conformance statement (PICS) proforma for Clause 15, Fiber optic med… 15.8.1 Introduction 15.8.2 Abbreviations and special symbols 15.8.3 Instructions for completing the pics proforma
410	15.8.4 Identification
411	15.8.5 Major capabilities/options 15.8.6 PICS Proforma for the fiber optic medium
413	16. Fiber optic passive star and medium attachment unit, type 10BASE-FP 16.1 Scope 16.1.1 Overview
414	16.2 PMA interface messages 16.2.1 PMA-to-MDI interface signal encodings 16.2.2 PMA-to-MDI OTD messages
415	16.2.3 MDI ORD-to-PMA messages
416	16.3 10BASE-FP MAU functional specifications 16.3.1 Transmit function requirements
418	16.3.2 Receive function requirements
419	16.3.3 Loopback function requirements 16.3.4 Collision presence function requirements
420	16.3.5 signal_quality_error Message (SQE) Test function requirements 16.3.6 Jabber function requirements
421	16.3.7 Link fault detection and low light function requirements
422	16.3.8 Interface message time references 16.3.9 MAU state diagram
430	16.4 Timing summary 16.5 10BASE-FP Star functional specifications 16.5.1 Star functions
431	16.5.2 Star optical characteristics
432	16.6 Protocol Implementation Conformance Statement (PICS) proforma for Clause 16, Fiber optic pas… 16.6.1 Introduction 16.6.2 Abbreviations and special symbols 16.6.3 Instructions for completing the PICS proforma
434	16.6.4 Identification
435	16.6.5 Major capabilities/options 16.6.6 PICS proforma for the type 10BASE-FP MAU
447	16.6.7 PICS proforma tables for 10BASE-FP stars
449	17. Fiber optic medium attachment unit, type 10BASE-FB 17.1 Scope 17.1.1 Overview 17.1.2 Relationship to AUI
450	17.2 PMA interface messages 17.2.1 PMA-to-MDI interface signal encodings 17.2.2 PMA-to-MDI OTD messages
451	17.2.3 MDI ORD-to-PMA messages
452	17.2.4 Transitions between signals 17.2.5 Signaling rate 17.3 MAU functional specifications 17.3.1 Transmit function requirements
453	17.3.2 Receive function requirements 17.3.3 Collision function requirements
454	17.3.4 Loopback function requirements 17.3.5 Fault-handling function requirements 17.3.6 Jabber function requirements
455	17.3.7 Low light level detection function requirements 17.3.8 Synchronous qualification function requirements 17.3.9 Interface message time references
456	17.3.10 MAU state diagrams
460	17.4 Timing summary
461	17.5 Protocol implementation conformance statement (PICS) proforma for Clause 17, Fiber optic med… 17.5.1 Introduction 17.5.2 Abbreviations and special symbols 17.5.3 Instructions for completing the PICS proforma
463	17.5.4 Identification
464	17.5.5 PICS proforma for the type 10BASE-FB MAU 17.5.6 PICS proforma for the type 10BASE-FB MAU
475	18. Fiber optic medium attachment unit, type 10BASE-FL 18.1 Scope 18.1.1 Overview 18.2 PMA interface messages
476	18.2.1 PMA to fiber optic link segment messages 18.2.2 Fiber optic link segment to PMA messages
477	18.2.3 Interface message time references 18.3 MAU functional specifications 18.3.1 MAU functions
481	18.3.2 MAU state diagrams
488	18.4 Timing summary
489	18.5 Protocol implementation conformance statement (PICS) proforma for Clause 18, Fiber optic med… 18.5.1 Introduction 18.5.2 Abbreviations and special symbols
490	18.5.3 Instructions for completing the PICS proforma
491	18.5.4 Identification
492	18.5.5 Major capabilities/options 18.5.6 PICS proforma tables for the type 10BASE-FL MAU
504	19. Layer Management for 10 Mb/s baseband repeaters 19.1 Introduction 19.1.1 Scope 19.1.2 Relationship to objects in IEEE Std 802.1F-1993 19.1.3 Definitions 19.1.4 Symbols and abbreviations
505	19.1.5 Management model
506	19.2 Managed objects 19.2.1 Introduction 19.2.2 Overview of managed objects
511	19.2.3 Repeater managed object class
514	19.2.4 ResourceTypeID Managed Object Class 19.2.5 Group managed object class
515	19.2.6 Port managed object class
521	20. Layer Management for 10 Mb/s baseband medium attachment units 20.1 Introduction 20.1.1 Scope 20.1.2 Management model 20.2 Managed objects 20.2.1 Text description of managed objects
523	20.2.2 MAU Managed object class
527	21. Introduction to 100 Mb/s baseband networks, type 100BASE-T 21.1 Overview
528	21.1.1 Reconciliation Sublayer (RS) and Media Independent Interface (MII) 21.1.2 Physical Layer signaling systems 21.1.3 Repeater 21.1.4 Auto-Negotiation 21.1.5 Management 21.2 References 21.3 Definitions 21.4 Abbreviations
529	21.5 State diagrams 21.5.1 Actions inside state blocks 21.5.2 State diagram variables 21.5.3 State transitions 21.5.4 Operators
530	21.6 Protocol Implementation Conformance Statement (PICS) proforma 21.6.1 Introduction 21.6.2 Abbreviations and special symbols
531	21.6.3 Instructions for completing the PICS proforma 21.6.4 Additional information
532	21.6.5 Exceptional information 21.6.6 Conditional items 21.7 Relation of 100BASE-T to other standards
534	21.8 MAC delay constraints (exposed MII)
535	22. Reconciliation Sublayer (RS) and Media Independent Interface (MII) 22.1 Overview
536	22.1.1 Summary of major concepts 22.1.2 Application
537	22.1.3 Rates of operation 22.1.4 Allocation of functions 22.1.5 Relationship of MII and GMII 22.2 Functional specifications 22.2.1 Mapping of MII signals to PLS service primitives and Station Management
541	22.2.2 MII signal functional specifications
547	22.2.3 Frame structure
550	22.2.4 Management functions
562	22.3 Signal timing characteristics 22.3.1 Signals that are synchronous to TX_CLK
563	22.3.2 Signals that are synchronous to RX_CLK 22.3.3 Signals that have no required clock relationship 22.3.4 MDIO timing relationship to MDC
564	22.4 Electrical characteristics 22.4.1 Signal levels
565	22.4.2 Signal paths 22.4.3 Driver characteristics
566	22.4.4 Receiver characteristics
567	22.4.5 Cable characteristics
568	22.4.6 Hot insertion and removal 22.5 Power supply 22.5.1 Supply voltage
569	22.5.2 Load current 22.5.3 Short-circuit protection 22.6 Mechanical characteristics 22.6.1 Definition of mechanical interface 22.6.2 Shielding effectiveness and transfer impedance
570	22.6.3 Connector pin numbering 22.6.4 Clearance dimensions
571	22.6.5 Contact assignments
572	22.7 Protocol Implementation Conformance Statement (PICS) proforma for Clause 22, Reconciliation … 22.7.1 Introduction 22.7.2 Identification
574	22.7.3 PICS proforma tables for reconciliation sublayer and media independent interface
583	23. Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer and baseband medium… 23.1 Overview 23.1.1 Scope 23.1.2 Objectives 23.1.3 Relation of 100BASE-T4 to other standards 23.1.4 Summary
586	23.1.5 Application of 100BASE-T4
587	23.2 PCS functional specifications 23.2.1 PCS functions
592	23.2.2 PCS interfaces 23.2.3 Frame structure
593	23.2.4 PCS state diagrams
601	23.2.5 PCS electrical specifications 23.3 PMA service interface
602	23.3.1 PMA_TYPE.indicate 23.3.2 PMA_UNITDATA.request
603	23.3.3 PMA_UNITDATA.indicate
604	23.3.4 PMA_CARRIER.indicate 23.3.5 PMA_LINK.indicate
605	23.3.6 PMA_LINK.request
606	23.3.7 PMA_RXERROR.indicate 23.4 PMA functional specifications 23.4.1 PMA functions
610	23.4.2 PMA interface messages
611	23.4.3 PMA state diagrams
614	23.5 PMA electrical specifications 23.5.1 PMA-to-MDI interface characteristics
626	23.5.2 Power consumption
627	23.6 Link segment characteristics 23.6.1 Cabling 23.6.2 Link transmission parameters
629	23.6.3 Noise
630	23.6.4 Installation practice
631	23.7 MDI specification 23.7.1 MDI connectors
632	23.7.2 Crossover function 23.8 System considerations 23.9 Environmental specifications 23.9.1 General safety 23.9.2 Network safety
634	23.9.3 Environment 23.10 PHY labeling
635	23.11 Timing summary 23.11.1 Timing references
636	23.11.2 Definitions of controlled parameters
638	23.11.3 Table of required timing values
645	23.12 Protocol Implementation Conformance Statement (PICS) proforma for Clause 23, Physical Codin… 23.12.1 Introduction 23.12.2 Identification
646	23.12.3 Major capabilities/options 23.12.4 PICS proforma tables for the Physical Coding Sublayer (PCS), Physical Medium Attachment (…
659	24. Physical Coding Sublayer (PCS) and Physical Medium Attachment (PMA) sublayer, type 100BASE X 24.1 Overview 24.1.1 Scope 24.1.2 Objectives 24.1.3 Relationship of 100BASE X to other standards
660	24.1.4 Summary of 100BASE-X sublayers
661	24.1.5 Inter-sublayer interfaces 24.1.6 Functional block diagram 24.1.7 State diagram conventions
664	24.2 Physical Coding Sublayer (PCS) 24.2.1 Service Interface (MII) 24.2.2 Functional requirements
669	24.2.3 State variables
671	24.2.4 State diagrams
675	24.3 Physical Medium Attachment (PMA) sublayer 24.3.1 Service interface
680	24.3.2 Functional requirements
681	24.3.3 State variables
683	24.3.4 Process specifications and state diagrams
686	24.4 Physical Medium Dependent (PMD) sublayer service interface 24.4.1 PMD service interface
689	24.4.2 Medium Dependent Interface (MDI) 24.5 Compatibility considerations
690	24.6 Delay constraints 24.6.1 PHY delay constraints (exposed MII)
691	24.6.2 DTE delay constraints (unexposed MII) 24.6.3 Carrier de-assertion/assertion constraint (half duplex mode only) 24.7 Environmental specifications
692	24.8 Protocol Implementation Conformance Statement (PICS) proforma for Clause 24, Physical Coding… 24.8.1 Introduction 24.8.2 Identification
693	24.8.3 PICS proforma tables for the Physical Coding Sublayer (PCS) and Physical Medium Attachment…
695	25. Physical Medium Dependent (PMD) sublayer and baseband medium, type 100BASE TX 25.1 Overview 25.2 Functional specifications 25.3 General exceptions
696	25.4 Specific requirements and exceptions 25.4.1 Change to 7.2.3.1.1, “Line state patterns” 25.4.2 Change to 7.2.3.3, “Loss of synchronization” 25.4.3 Change to Table 8-1, “Contact assignments for unshielded twisted pair” 25.4.4 Deletion of 8.3, “Station labelling”
697	25.4.5 Change to 9.1.9, “Jitter” 25.4.6 Replacement of 11.2, “Crossover function” 25.4.7 Change to A.2, “DDJ test pattern for baseline wander measurements” 25.4.8 Change to annex G, “Stream cipher scrambling function” 25.4.9 Change to annex I, “Common mode cable termination”
698	25.5 Protocol Implementation Conformance Statement (PICS) proforma for Clause 25, Physical Medium… 25.5.1 Introduction 25.5.2 Identification
699	25.5.3 Major capabilities/options 25.5.4 PICS proforma tables for the Physical Medium Dependent (PMD) sublayer and baseband medium,…
700	26. Physical Medium Dependent (PMD) sublayer and baseband medium, type 100BASE FX 26.1 Overview 26.2 Functional specifications 26.3 General exceptions
701	26.4 Specific requirements and exceptions 26.4.1 Medium Dependent Interface (MDI) 26.4.2 Crossover function
702	26.5 Protocol Implementation Conformance Statement (PICS) proforma for Clause 26, Physical Medium… 26.5.1 Introduction 26.5.2 Identification 26.5.3 Protocol summary
703	26.5.4 Major capabilities/options 26.5.5 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and baseband medium, typ…
704	27. Repeater for 100 Mb/s baseband networks 27.1 Overview 27.1.1 Scope
705	27.1.2 Application perspective
706	27.1.3 Relationship to PHY 27.2 PMA interface messages 27.3 Repeater functional specifications
707	27.3.1 Repeater functions
711	27.3.2 Detailed repeater functions and state diagrams
725	27.4 Repeater electrical specifications 27.4.1 Electrical isolation 27.5 Environmental specifications 27.5.1 General safety 27.5.2 Network safety
726	27.5.3 Electrical isolation 27.5.4 Reliability
727	27.5.5 Environment 27.6 Repeater labeling
728	27.7 Protocol Implementation Conformance Statement (PICS) proforma for Clause 27, Repeater for 10… 27.7.1 Introduction 27.7.2 Identification
729	27.7.3 Major capabilities/options 27.7.4 PICS proforma tables for the repeater for 100 Mb/s baseband networks
737	28. Physical Layer link signaling for 10 Mb/s, 100 Mb/s, and 1000 Mb/s Auto-Negotiation on twiste… 28.1 Overview 28.1.1 Scope
738	28.1.2 Application perspective/objectives 28.1.3 Relationship to ISO/IEC 8802-3
739	28.1.4 Compatibility considerations
740	28.2 Functional specifications
741	28.2.1 Transmit function requirements
744	28.2.2 Receive function requirements
746	28.2.3 Arbitration function requirements
750	28.2.4 Management function requirements
756	28.2.5 Absence of management function 28.2.6 Technology-Dependent Interface
758	28.3 State diagrams and variable definitions
759	28.3.1 State diagram variables
763	28.3.2 State diagram timers
765	28.3.3 State diagram counters
766	28.3.4 State diagrams
769	28.4 Electrical specifications
770	28.5 Protocol Implementation Conformance Statement (PICS) proforma for Clause 28, Physical Layer … 28.5.1 Introduction 28.5.2 Identification
771	28.5.3 Major capabilities/options 28.5.4 PICS proforma tables for Physical Layer link signaling for 10 Mb/s, 100 Mb/s, and 1000 Mb/…
783	28.6 Auto-Negotiation expansion
784	29. System considerations for multisegment 100BASE-T networks 29.1 Overview
785	29.1.1 Single collision domain multisegment networks
786	29.1.2 Repeater usage 29.2 Transmission System Model 1 29.3 Transmission System Model 2
788	29.3.1 Round-trip collision delay
791	29.4 Full duplex 100 Mb/s topology limitations
792	30. 10 Mb/s, 100 Mb/s, 1000 Mb/s, MAC Control, and Link Aggregation Management 30.1 Overview
793	30.1.1 Scope 30.1.2 Relationship to objects in IEEE 802.1F 30.1.3 Systems management overview
794	30.1.4 Management model
795	30.2 Managed objects 30.2.1 Introduction 30.2.2 Overview of managed objects
800	30.2.3 Containment 30.2.4 Naming
801	30.2.5 Capabilities
811	30.3 Layer management for DTEs 30.3.1 MAC entity managed object class
820	30.3.2 PHY devicePHY device managed object class
822	30.3.3 MAC control entity object class
823	30.3.4 PAUSE entity managed object class
824	30.4 Layer management for 10, 100, and 1000 Mb/s baseband repeaters 30.4.1 Repeater managed object class
828	30.4.2 Group managed object class
829	30.4.3 Repeater port managed object class
835	30.5 Layer management for 10, 100, and 1000 Mb/s medium attachment units (MAUs) 30.5.1 MAU managed object class
840	30.6 Management for link Auto-Negotiation 30.6.1 Auto-Negotiation managed object class
843	30.7 Management for Link Aggregation 30.7.1 Aggregator managed object class
854	30.7.2 Aggregation Port managed object class
861	30.7.3 Aggregation Port Statistics managed object class
863	30.7.4 Aggregation Port Debug Information managed object class
868	31. MAC Control 31.1 Overview 31.2 Layer architecture 31.3 Support by interlayer interfaces
870	31.4 MAC Control frames 31.4.1 MAC Control frame format
871	31.5 Opcode-independent MAC Control sublayer operation 31.5.1 Frame parsing and data frame reception
872	31.5.2 Control frame reception 31.5.3 Opcode-independent MAC Control receive state diagram
873	31.6 Compatibility requirements 31.7 MAC Control client behavior
874	31.8 Protocol Implementation Conformance Statement (PICS) proforma for Clause 31, MAC Control 31.8.1 Introduction 31.8.2 Identification
875	31.8.3 PICS proforma for MAC Control frames
876	32. Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer and baseband medium… 32.1 Overview 32.1.1 Relation of 100BASE-T2 to other standards
878	32.1.2 Operation of 100BASE-T2
881	32.1.3 Application of 100BASE-T2 32.1.4 State diagram conventions 32.2 PHY Control functional specifications and service interface 32.2.1 PHY Control function
882	32.2.2 PHY Control Service interface
884	32.2.3 State diagram variables
885	32.2.4 State diagram timers 32.2.5 PHY Control state diagram
886	32.3 PCS functional specifications
887	32.3.1 PCS functions
893	32.3.2 PCS interfaces
894	32.3.3 Frame structure 32.3.4 State variables
896	32.3.5 State diagrams
897	32.3.6 PCS electrical specifications
900	32.4 PMA functional specifications and service interface 32.4.1 PMA functional specifications
904	32.4.2 PMA service interface
907	32.5 Management functions 32.5.1 100BASE-T2 Use of Auto-Negotiation and MII Registers 8, 9, and 10
908	32.5.2 Management functions
909	32.5.3 PHY specific registers for 100BASE-T2
912	32.5.4 Changes and additions to Auto-Negotiation (Clause 28)
915	32.6 PMA electrical specifications 32.6.1 PMA-to-MDI interface characteristics
938	32.6.2 Power consumption
939	32.7 Link segment characteristics 32.7.1 Cabling 32.7.2 Link transmission parameters
942	32.7.3 Noise
944	32.7.4 Installation practice 32.8 MDI specification 32.8.1 MDI connectors 32.8.2 Crossover function
945	32.9 System considerations
946	32.10 Environmental specifications 32.10.1 General safety 32.10.2 Network safety
947	32.10.3 Environment 32.10.4 Cabling specifications 32.11 PHY labeling
948	32.12 Delay constraints 32.12.1 PHY delay constraints (exposed MII) 32.12.2 DTE delay constraints (unexposed MII)
949	32.13 Protocol Implementation Conformance Statement (PICS) proforma for Clause 32, Physical Codin… 32.13.1 Identification
950	32.13.2 Major capabilities/options 32.13.3 Compatibility considerations
951	32.13.4 PHY control function
952	32.13.5 Physical Coding Sublayer (PCS) or Physical Medium Attachment (PMA) sublayer
969	33. Clause 33 is reserved for future use.
970	34. Introduction to 1000 Mb/s baseband network 34.1 Overview 34.1.1 Reconciliation Sublayer (RS) and Gigabit Media Independent Interface (GMII)
971	34.1.2 Physical Layer signaling systems 34.1.3 Repeater 34.1.4 Auto-Negotiation, type 1000BASE-X 34.1.5 Physical Layer line signaling for 10 Mb/s and 100 Mb/s Auto-Negotiation on twisted pair
972	34.1.6 Management 34.2 State diagrams 34.3 Protocol Implementation Conformance Statement (PICS) proforma 34.4 Relation of Gigabit Ethernet to other standards
974	35. Reconciliation Sublayer (RS) and Gigabit Media Independent Interface (GMII) 35.1 Overview
975	35.1.1 Summary of major concepts 35.1.2 Application 35.1.3 Rate of operation 35.1.4 Allocation of functions 35.2 Functional specifications
976	35.2.1 Mapping of GMII signals to PLS service primitives and Station Management
979	35.2.2 GMII signal functional specifications
987	35.2.3 GMII data stream
990	35.2.4 MAC delay constraints (with GMII) 35.2.5 Management functions 35.3 Signal mapping
991	35.4 Electrical characteristics 35.4.1 DC characteristics 35.4.2 AC characteristics
996	35.5 Protocol Implementation Conformance Statement (PICS) proforma for Clause 35, Reconciliation … 35.5.1 Introduction 35.5.2 Identification
997	35.5.3 PICS proforma tables for reconciliation sublayer and Gigabit Media Independent Interface
1001	36. Physical Coding Sublayer (PCS) and Physical Medium Attachment (PMA) sublayer, type 1000BASE X 36.1 Overview 36.1.1 Scope 36.1.2 Objectives 36.1.3 Relationship of 1000BASE X to other standards
1002	36.1.4 Summary of 1000BASE-X sublayers 36.1.5 Inter-sublayer interfaces
1003	36.1.6 Functional block diagram 36.1.7 State diagram conventions
1004	36.2 Physical Coding Sublayer (PCS) 36.2.1 PCS Interface (GMII)
1005	36.2.2 Functions within the PCS 36.2.3 Use of code-groups 36.2.4 8B/10B transmission code
1018	36.2.5 Detailed functions and state diagrams
1031	36.3 Physical Medium Attachment (PMA) sublayer 36.3.1 Service Interface
1033	36.3.2 Functions within the PMA
1034	36.3.3 A physical instantiation of the PMA Service Interface
1038	36.3.4 General electrical characteristics of the TBI
1039	36.3.5 TBI transmit interface electrical characteristics 36.3.6 TBI receive interface electrical characteristics
1041	36.3.7 Loopback mode
1042	36.3.8 Test functions 36.4 Compatibility considerations 36.5 Delay constraints 36.5.1 MDI to GMII delay constraints 36.5.2 DTE delay constraints (half duplex mode)
1043	36.5.3 Carrier de-assertion/assertion constraint (half duplex mode) 36.6 Environmental specifications
1044	36.7 Protocol Implementation Conformance Statement (PICS) proforma for Clause 36, Physical Coding… 36.7.1 Introduction 36.7.2 Identification
1045	36.7.3 Major Capabilities/Options 36.7.4 PICS proforma tables for the PCS and PMA sublayer, type 1000BASE-X
1048	37. Auto-Negotiation function, type 1000BASE-X 37.1 Overview 37.1.1 Scope 37.1.2 Application perspective/objectives
1049	37.1.3 Relationship to ISO/IEC 8802-3 37.1.4 Compatibility considerations
1050	37.2 Functional specifications 37.2.1 Config_Reg encoding
1053	37.2.2 Transmit function requirements 37.2.3 Receive function requirements
1054	37.2.4 Arbitration process requirements
1058	37.2.5 Management function requirements
1061	37.2.6 Absence of management function 37.3 Detailed functions and state diagrams 37.3.1 State diagram variables
1066	37.4 Environmental specifications
1068	37.5 Protocol Implementation Conformance Statement (PICS) proforma for Clause 37, Auto-Negotiatio… 37.5.1 Introduction 37.5.2 Identification
1069	37.5.3 Major Capabilities/Options 37.5.4 PICS proforma tables for the Auto-Negotiation function, type 1000BASE-X
1072	38. Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE LX (Long Waveleng… 38.1 Overview 38.1.1 Physical Medium Dependent (PMD) sublayer service interface
1073	38.1.2 Medium Dependent Interface (MDI) 38.2 PMD functional specifications
1074	38.2.1 PMD block diagram 38.2.2 PMD transmit function 38.2.3 PMD receive function 38.2.4 PMD signal detect function
1075	38.3 PMD to MDI optical specifications for 1000BASE-SX
1076	38.3.1 Transmitter optical specifications
1077	38.3.2 Receive optical specifications 38.3.3 Worst-case 1000BASE-SX link power budget and penalties (informative)
1078	38.4 PMD to MDI optical specifications for 1000BASE-LX 38.4.1 Transmitter optical specifications
1079	38.4.2 Receive optical specifications 38.4.3 Worst-case 1000BASE-LX link power budget and penalties (informative)
1080	38.5 Jitter specifications for 1000BASE-SX and 1000BASE-LX
1081	38.6 Optical measurement requirements 38.6.1 Center wavelength and spectral width measurements 38.6.2 Optical power measurements 38.6.3 Extinction ratio measurements 38.6.4 Relative Intensity Noise (RIN) 38.6.5 Transmitter optical waveform (transmit eye)
1082	38.6.6 Transmit rise/fall characteristics 38.6.7 Receive sensitivity measurements
1083	38.6.8 Total jitter measurements 38.6.9 Deterministic jitter measurement (informative) 38.6.10 Coupled Power Ratio (CPR) measurements
1084	38.6.11 Conformance test signal at TP3 for receiver testing
1085	38.6.12 Measurement of the receiver 3 dB electrical upper cutoff frequency
1086	38.7 Environmental specifications 38.7.1 General safety 38.7.2 Laser safety 38.7.3 Installation 38.8 Environment
1087	38.8.1 Electromagnetic emission 38.8.2 Temperature, humidity, and handling 38.9 PMD labeling requirements 38.10 Fiber optic cabling model
1088	38.11 Characteristics of the fiber optic cabling 38.11.1 Optical fiber and cable
1089	38.11.2 Optical fiber connection 38.11.3 Medium Dependent Interface (MDI)
1090	38.11.4 single-mode fiber offset-launch mode-conditioning patch cord for MMF operation of 1000BAS…
1092	38.12 Protocol Implementation Conformance Statement (PICS) proforma for Clause 38, Physical Mediu… 38.12.1 Introduction 38.12.2 Identification
1093	38.12.3 Major capabilities/options
1094	38.12.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and baseband medium, ty…
1099	39. Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE CX (short-haul co… 39.1 Overview 39.2 Functional specifications 39.2.1 PMD transmit function 39.2.2 PMD receive function 39.2.3 PMD signal detect function
1100	39.3 PMD to MDI electrical specifications
1101	39.3.1 Transmitter electrical specifications
1103	39.3.2 Receiver electrical specifications
1104	39.3.3 Jitter specifications for 1000BASE-CX
1105	39.4 Jumper cable assembly characteristics 39.4.1 Compensation networks 39.4.2 Shielding 39.5 MDI specification
1106	39.5.1 MDI connectors
1108	39.5.2 Crossover function
1109	39.6 Electrical measurement requirements 39.6.1 Transmit rise/fall time 39.6.2 Transmit skew measurement 39.6.3 Transmit eye (normalized and absolute) 39.6.4 Through_connection impedance 39.6.5 Jumper cable intra-pair differential skew
1110	39.6.6 Receiver link signal 39.6.7 Near-End Cross Talk (NEXT) 39.6.8 Differential time-domain reflectometry (TDR) measurement procedure
1111	39.7 Environmental specifications
1112	39.8 Protocol Implementation Conformance Statement (PICS) proforma for Clause 39, Physical Medium… 39.8.1 Introduction 39.8.2 Identification
1113	39.8.3 Major capabilities/options 39.8.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and baseband medium, typ…
1117	40. Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer and baseband medium… 40.1 Overview 40.1.1 Objectives 40.1.2 Relationship of 1000BASE-T to other standards 40.1.3 Operation of 1000BASE-T
1122	40.1.4 Signaling 40.1.5 Inter-sublayer interfaces 40.1.6 Conventions in this clause
1123	40.2 1000BASE-T Service Primitives and Interfaces 40.2.1 Technology-Dependent Interface
1124	40.2.2 PMA Service Interface
1125	40.2.3 PMA_TXMODE.indicate
1126	40.2.4 PMA_CONFIG.indicate 40.2.5 PMA_UNITDATA.request
1127	40.2.6 PMA_UNITDATA.indicate
1128	40.2.7 PMA_SCRSTATUS.request 40.2.8 PMA_RXSTATUS.indicate
1129	40.2.9 PMA_REMRXSTATUS.request 40.2.10 PMA_RESET.indicate 40.3 Physical Coding Sublayer (PCS)
1130	40.3.1 PCS functions
1145	40.3.2 Stream structure 40.3.3 State variables
1150	40.3.4 State diagrams
1155	40.4 Physical Medium Attachment (PMA) sublayer 40.4.1 PMA functional specifications
1156	40.4.2 PMA functions
1158	40.4.3 MDI
1159	40.4.4 Automatic MDI/MDI-X Configuration 40.4.5 State variables
1162	40.4.6 State Diagrams
1164	40.5 Management interface 40.5.1 Support for Auto-Negotiation
1168	40.5.2 MASTER SLAVE configuration resolution
1170	40.6 PMA electrical specifications 40.6.1 PMA-to-MDI interface tests
1191	40.7 Link segment characteristics 40.7.1 Cabling system characteristics 40.7.2 Link transmission parameters
1192	40.7.3 Coupling parameters
1193	40.7.4 Delay 40.7.5 Noise environment
1194	40.7.6 External coupled noise 40.8 MDI specification 40.8.1 MDI connectors
1195	40.8.2 Crossover function
1196	40.8.3 MDI electrical specifications
1198	40.9 Environmental specifications 40.9.1 General safety 40.9.2 Network safety
1199	40.9.3 Environment 40.10 PHY labeling
1200	40.11 Delay constraints 40.11.1 MDI to GMII delay constraints 40.11.2 DTE delay constraints (half duplex only)
1201	40.11.3 Carrier de-assertion/assertion constraint (half duplex mode) 40.12 Protocol implementation conformance statement (PICS) proforma for Clause 40—Physical coding…
1202	40.12.1 Identification 40.12.2 Major capabilities/options
1203	40.12.3 Clause conventions 40.12.4 Physical Coding Sublayer (PCS)
1207	40.12.5 Physical Medium Attachment (PMA)
1209	40.12.6 Management interface
1211	40.12.7 PMA Electrical Specifications
1217	40.12.8 Characteristics of the link segment
1219	40.12.9 MDI requirements
1221	40.12.10 General safety and environmental requirements 40.12.11 Timing requirements
1222	41. Repeater for 1000 Mb/s baseband networks 41.1 Overview 41.1.1 Scope
1223	41.1.2 Application perspective 41.1.3 Relationship to PHY 41.2 Repeater functional specifications
1224	41.2.1 Repeater functions
1228	41.2.2 Detailed repeater functions and state diagrams
1236	41.3 Repeater electrical specifications 41.3.1 Electrical isolation 41.4 Environmental specifications 41.4.1 General safety 41.4.2 Network safety
1237	41.4.3 Electrical isolation 41.4.4 Reliability
1238	41.4.5 Environment 41.5 Repeater labeling
1239	41.6 Protocol Implementation Conformance Statement (PICS) proforma for Clause 41, Repeater for 10… 41.6.1 Introduction 41.6.2 Identification
1240	41.6.3 Major capabilities/options 41.6.4 PICS proforma tables for the Repeater for 1000 Mb/s baseband networks
1247	42. System considerations for multisegment 1000 Mb/s networks 42.1 Overview
1248	42.1.1 Single collision domain multisegment networks
1249	42.1.2 Repeater usage 42.2 Transmission System Model 1 42.3 Transmission System Model 2
1250	42.3.1 Round-trip collision delay
1253	42.4 Full duplex 1000 Mb/s topology limitations
1254	43. Link Aggregation 43.1 Overview 43.1.1 Terminology 43.1.2 Goals and objectives
1255	43.1.3 Positioning of Link Aggregation within the IEEE 802.3 architecture 43.1.4 State diagram conventions
1257	43.2 Link Aggregation operation 43.2.1 Principles of Link Aggregation
1258	43.2.2 Service interfaces
1259	43.2.3 Frame Collector
1260	43.2.4 Frame Distributor
1262	43.2.5 Marker Generator/Receiver (optional) 43.2.6 Marker Responder 43.2.7 Aggregator Parser/Multiplexer
1263	43.2.8 Aggregator
1264	43.2.9 Control Parser/Multiplexer
1266	43.2.10 Addressing
1267	43.3 Link Aggregation Control 43.3.1 Characteristics of Link Aggregation Control
1268	43.3.2 System identification 43.3.3 Aggregator identification
1269	43.3.4 Port identification 43.3.5 Capability identification
1270	43.3.6 Link Aggregation Group identification
1272	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
1273	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
1274	43.3.14 Configuration and administrative control of Link Aggregation 43.3.15 Link Aggregation Control state information
1275	43.4 Link Aggregation Control Protocol (LACP) 43.4.1 LACP design elements 43.4.2 LACPDU structure and encoding
1279	43.4.3 LACP state machine overview
1281	43.4.4 Constants 43.4.5 Variables associated with the System
1282	43.4.6 Variables associated with each Aggregator
1283	43.4.7 Variables associated with each port
1286	43.4.8 Variables used for managing the operation of the state machines
1287	43.4.9 Functions
1289	43.4.10 Timers 43.4.11 Messages
1290	43.4.12 Receive machine
1292	43.4.13 Periodic Transmission machine
1293	43.4.14 Selection Logic
1296	43.4.15 Mux machine
1299	43.4.16 Transmit machine
1300	43.4.17 Churn Detection machines
1301	43.5 Marker protocol 43.5.1 Introduction
1302	43.5.2 Sequence of operations 43.5.3 Marker and Marker Response PDU structure and encoding
1304	43.5.4 Protocol definition
1305	43.6 Configuration capabilities and restrictions 43.6.1 Use of system and port priorities
1306	43.6.2 Dynamic allocation of operational Keys
1307	43.6.3 Link Aggregation on shared-medium links 43.6.4 Selection Logic variants
1308	43.7 Protocol Implementation Conformance Statement (PICS) proforma for Clause 43, Aggregation of … 43.7.1 Introduction 43.7.2 Identification
1309	43.7.3 Major capabilities/options 43.7.4 Frame Collector
1310	43.7.5 Frame Distributor 43.7.6 Marker protocol 43.7.7 Aggregator Parser/Multiplexer
1311	43.7.8 Control Parser/Multiplexer 43.7.9 System identification 43.7.10 Aggregator identification 43.7.11 Port identification
1312	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
1313	43.7.16 State machine variables 43.7.17 Receive machine 43.7.18 Periodic Transmission machine
1314	43.7.19 Selection Logic 43.7.20 Mux machine
1315	43.7.21 Transmit machine 43.7.22 Churn Detection machines
1316	43.7.23 Marker protocol 43.7.24 Configuration capabilities and restrictions
1317	43.7.25 Link Aggregation on shared-medium links
1318	Annex A (informative) Additional reference material
1321	Annex B (informative) System guidelines
1344	Annex C (informative) State diagram, MAC sublayer
1345	Annex D (informative) Application context, selected medium specifications
1352	Annex E (informative) Receiver wavelength design considerations (FOIRL)
1353	Annex F (normative) Additional attributes required for systems
1355	Annex G (normative) Additional material required for conformance testing
1356	Annex H (normative) GDMO specifications for CSMA/CD managed objects
1384	Annex 22A (informative) MII output delay, setup, and hold time budget
1387	Annex 22B (informative) MII driver ac characteristics
1389	Annex 22C (informative) Measurement techniques for MII signal timing characteristics
1391	Annex 23A (normative) 6T code words
1393	Annex 23B (informative) Noise budget
1394	Annex 23C (informative) Use of cabling systems with a nominal differential characteristic impedance of 120 Ohms
1395	Annex 27A (normative) Repeater delay consistency requirements
1396	Annex 28A (normative) Selector Field definitions
1397	Annex 28B (normative) IEEE 802.3 Selector Base Page definition
1400	Annex 28C (normative) Next Page Message Code Field definitions
1403	Annex 28D (normative) Description of extensions to Clause 28 and associated annexes
1405	Annex 29A (informative) DTE and repeater delay components
1406	Annex 29B (informative) Recommended topology documentation
1407	Annex 30A (normative) GDMO specification for 802.3 managed object classes
1470	Annex 30B (normative) GDMO and ASN.1 definitions for management
1477	Annex 30C (normative) SNMP MIB definitions for Link Aggregation
1510	Annex 31A (normative) MAC Control opcode assignments
1511	Annex 31B (normative) MAC Control PAUSE operation
1521	Annex 32A (informative) Use of cabling systems with nominal differential characteristic impedance of 120 or 150 Ohms
1522	Annex 36A (informative) Jitter test patterns
1525	Annex 36B (informative) 8B/10B transmission code running disparity calculation examples
1527	Annex 38A (informative) Fiber launch conditions
1528	Annex 40A (informative) Additional cabling design guidelines
1530	Annex 40B (informative) Description of cable clamp
1534	Annex 40C (informative) Add-on interface for additional Next Pages
1540	Annex 43A (informative) Collection and Distribution functions
1544	Annex 43B (normative) Requirements for support of Slow Protocols
1549	Annex 43C (informative) LACP standby link selection and dynamic Key management

Additional information

Standard Title	IEEE Standard for Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications
Published Code	IEEE
Publication Date	2000
Pages Count	1554

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