IEEE 8802-3-2014

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ISO/IEC/IEEE International Standard for Ethernet

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IEEE	2014	3754

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Description

Adoption Standard – Active. Ethernet local area network operation is specified for selected speeds of operation from 1 Mb/s to 100 Gb/s using a common media access control (MAC) specification and management information base (MIB). The Carrier Sense Multiple Access with Collision Detection (CSMA/CD) MAC protocol specifies shared medium (half duplex) operation, as well as full duplex operation. Speed specific Media Independent Interfaces (MIIs) allow use of selected Physical Layer devices (PHY) for operation over coaxial, twisted-pair or fiber optic cables. System considerations for multisegment shared access networks describe the use of Repeaters that are defined for operational speeds up to 1000 Mb/s. Local Area Network (LAN) operation is supported at all speeds. Other specified capabilities include various PHY types for access networks, PHYs suitable for metropolitan area network applications, and the provision of power over selected twisted-pair PHY types.

PDF Catalog

PDF Pages	PDF Title
1	ISO/IEC/IEEE 8802-3
3	Foreword
5	IEEE Std 802.3™-2012 front cover
7	Title page
10	Notice to users Copyrights Updating of IEEE documents Errata Patents
11	Participants
25	Introduction
29	Contents
59	IMPORTANT NOTICE 1. Introduction 1.1 Overview 1.1.1 Scope
60	1.1.2 Basic concepts 1.1.2.1 Half duplex operation 1.1.2.2 Full duplex operation 1.1.3 Architectural perspectives
61	1.1.3.1 Architectural rationale 1.1.3.2 Compatibility interfaces
64	1.1.4 Layer interfaces 1.1.5 Application areas 1.2 Notation 1.2.1 State diagram conventions
65	1.2.2 Service specification method and notation
66	1.2.2.1 Classification of service primitives 1.2.3 Physical Layer and media notation
67	1.2.4 Physical Layer message notation 1.2.5 Hexadecimal notation 1.2.6 Accuracy and resolution of numerical quantities 1.3 Normative references
74	1.4 Definitions
102	1.5 Abbreviations
107	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 2.2.3 Overview of interactions
108	2.2.4 Basic services 2.3 Detailed service specification 2.3.1 MA_DATA.request 2.3.1.1 Function 2.3.1.2 Semantics of the service primitive 2.3.1.3 When generated 2.3.1.4 Effect of receipt 2.3.1.5 Additional comments
109	2.3.2 MA_DATA.indication 2.3.2.1 Function 2.3.2.2 Semantics of the service primitive 2.3.2.3 When generated
110	2.3.2.4 Effect of receipt 2.3.2.5 Additional comments
111	3. Media Access Control (MAC) frame and packet specifications 3.1 Overview 3.1.1 Packet format
112	3.1.2 Service interface mappings 3.2 Elements of the MAC frame and packet 3.2.1 Preamble field 3.2.2 Start Frame Delimiter (SFD) field 3.2.3 Address fields
113	3.2.3.1 Address designation 3.2.4 Destination Address field
114	3.2.5 Source Address field 3.2.6 Length/Type field 3.2.7 MAC Client Data field
115	3.2.8 Pad field 3.2.9 Frame Check Sequence (FCS) field 3.2.10 Extension field
116	3.3 Order of bit transmission 3.4 Invalid MAC frame
117	4. Media Access Control 4.1 Functional model of the MAC method 4.1.1 Overview
118	4.1.2 CSMA/CD operation 4.1.2.1 Normal operation 4.1.2.1.1 Transmission without contention
119	4.1.2.1.2 Reception without contention 4.1.2.2 Access interference and recovery
120	4.1.3 Relationships to the MAC client and Physical Layers 4.2 CSMA/CD Media Access Control (MAC) method: Precise specification 4.2.1 Introduction 4.2.2 Overview of the procedural model
121	4.2.2.1 Ground rules for the procedural model 4.2.2.2 Use of Pascal in the procedural model
122	4.2.2.3 Organization of the procedural model 4.2.2.4 Layer management extensions to procedural model 4.2.3 Packet transmission model
123	4.2.3.1 Transmit data encapsulation
128	4.2.3.2 Transmit media access management 4.2.3.2.1 Deference 4.2.3.2.2 Interpacket gap
129	4.2.3.2.3 Collision handling (half duplex mode only) 4.2.3.2.4 Collision detection and enforcement (half duplex mode only) 4.2.3.2.5 Collision backoff and retransmission (half duplex mode only)
130	4.2.3.2.6 Full duplex transmission 4.2.3.2.7 Packet bursting (half duplex mode only) 4.2.3.3 Minimum frame size
131	4.2.3.4 Carrier extension (half duplex mode only) 4.2.4 Frame reception model 4.2.4.1 Receive data decapsulation 4.2.4.1.1 Address recognition
132	4.2.4.1.2 Frame check sequence validation 4.2.4.1.3 Frame disassembly 4.2.4.2 Receive media access management 4.2.4.2.1 Framing 4.2.4.2.2 Collision filtering
133	4.2.5 Preamble generation 4.2.6 Start frame sequence 4.2.7 Global declarations 4.2.7.1 Common constants, types, and variables
135	4.2.7.2 Transmit state variables
136	4.2.7.3 Receive state variables 4.2.7.4 State variable initialization
137	4.2.8 Frame transmission
144	4.2.9 Frame reception
147	4.2.10 Common procedures
148	4.3 Interfaces to/from adjacent layers 4.3.1 Overview 4.3.2 MAC service 4.3.2.1 MAC client transmit interface state diagram 4.3.2.1.1 Variables
149	4.3.2.1.2 Functions 4.3.2.1.3 Messages 4.3.2.1.4 MAC client transmit interface state diagram
150	4.3.2.2 MAC client receive interface state diagram 4.3.2.2.1 Variables 4.3.2.2.2 Functions 4.3.2.2.3 Messages
151	4.3.2.2.4 MAC client receive interface state diagram 4.3.3 Services required from the Physical Layer
153	4.4 Specific implementations 4.4.1 Compatibility overview
154	4.4.2 MAC parameters
155	4.4.3 Configuration guidelines
157	5. Layer Management 5.1 Introduction 5.1.1 Systems Management overview 5.1.2 Layer Management model
158	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
160	5.2.2.1 DTE MAC sublayer attributes 5.2.2.1.1 aMACID 5.2.2.1.2 aFramesTransmittedOK 5.2.2.1.3 aSingleCollisionFrames 5.2.2.1.4 aMultipleCollisionFrames
161	5.2.2.1.5 aFramesReceivedOK 5.2.2.1.6 aFrameCheckSequenceErrors 5.2.2.1.7 aAlignmentErrors 5.2.2.1.8 aOctetsTransmittedOK
162	5.2.2.1.9 aFramesWithDeferredXmissions 5.2.2.1.10 aLateCollisions 5.2.2.1.11 aFramesAbortedDueToXSColls 5.2.2.1.12 aFramesLostDueToIntMACXmitError
163	5.2.2.1.13 aCarrierSenseErrors 5.2.2.1.14 aOctetsReceivedOK 5.2.2.1.15 aFramesLostDueToIntMACRcvError 5.2.2.1.16 aPromiscuousStatus
164	5.2.2.1.17 aReadMulticastAddressList 5.2.2.1.18 aMulticastFramesXmittedOK 5.2.2.1.19 aBroadcastFramesXmittedOK 5.2.2.1.20 aFramesWithExcessiveDeferral
165	5.2.2.1.21 aMulticastFramesReceivedOK 5.2.2.1.22 aBroadcastFramesReceivedOK 5.2.2.1.23 aInRangeLengthErrors 5.2.2.1.24 aOutOfRangeLengthField
166	5.2.2.1.25 aFrameTooLongErrors 5.2.2.1.26 aMACEnableStatus 5.2.2.1.27 aTransmitEnableStatus 5.2.2.1.28 aMulticastReceiveStatus
167	5.2.2.1.29 aReadWriteMACAddress 5.2.2.1.30 aCollisionFrames 5.2.2.2 DTE MAC Sublayer actions 5.2.2.2.1 acInitializeMAC 5.2.2.2.2 acAddGroupAddress
168	5.2.2.2.3 acDeleteGroupAddress 5.2.2.2.4 acExecuteSelfTest 5.2.2.3 ResourceTypeID Managed Object Class 5.2.2.3.1 ResourceTypeID 5.2.3 DTE Physical Sublayer Management facilities 5.2.3.1 DTE Physical Sublayer attributes 5.2.3.1.1 aPHYID 5.2.3.1.2 aSQETestErrors
169	5.2.4 DTE Management procedural model 5.2.4.1 Common constants and types 5.2.4.2 Transmit variables and procedures
171	5.2.4.3 Receive variables and procedures
173	5.2.4.4 Common procedures
175	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
176	6.2.4 Basic services and options 6.3 Detailed service specification 6.3.1 Peer-to-peer service primitives 6.3.1.1 PLS_DATA.request 6.3.1.1.1 Function 6.3.1.1.2 Semantics of the service primitive 6.3.1.1.3 When generated 6.3.1.1.4 Effect of receipt
177	6.3.1.2 PLS_DATA.indication 6.3.1.2.1 Function 6.3.1.2.2 Semantics of the service primitive 6.3.1.2.3 When generated 6.3.1.2.4 Effect of receipt 6.3.2 Sublayer-to-sublayer service primitives 6.3.2.1 PLS_CARRIER.indication 6.3.2.1.1 Function 6.3.2.1.2 Semantics of the service primitive 6.3.2.1.3 When generated 6.3.2.1.4 Effect of receipt
178	6.3.2.2 PLS_SIGNAL.indication 6.3.2.2.1 Function 6.3.2.2.2 Semantics of the service primitive 6.3.2.2.3 When generated 6.3.2.2.4 Effect of receipt 6.3.2.3 PLS_DATA_VALID.indication 6.3.2.3.1 Function 6.3.2.3.2 Semantics of the service primitive 6.3.2.3.3 When generated 6.3.2.3.4 Effect of receipt
179	7. Physical Signaling (PLS) and Attachment Unit Interface (AUI) specifications 7.1 Scope 7.1.1 Definitions 7.1.2 Summary of major concepts
180	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
181	7.2.1.1 PLS to PMA messages 7.2.1.1.1 output message
182	7.2.1.1.2 output_idle message 7.2.1.1.3 normal message 7.2.1.1.4 isolate message (optional) 7.2.1.1.5 mau_request message (optional)
184	7.2.1.2 PMA to PLS interface 7.2.1.2.1 input message
186	7.2.1.2.2 input_idle message 7.2.1.2.3 signal_quality_error message 7.2.1.2.4 mau_available message 7.2.1.2.5 mau_not_available message (optional)
187	7.2.2 PLS interface to MAC and management entities 7.2.2.1 PLS–MAC interface 7.2.2.1.1 OUTPUT_UNIT 7.2.2.1.2 OUTPUT_STATUS 7.2.2.1.3 INPUT_UNIT 7.2.2.1.4 CARRIER_STATUS
188	7.2.2.1.5 SIGNAL_STATUS 7.2.2.1.6 DATA_VALID_STATUS 7.2.2.2 PLS–management entity interface 7.2.2.2.1 RESET_REQUEST
189	7.2.2.2.2 RESET_RESPONSE 7.2.2.2.3 MODE_CONTROL 7.2.2.2.4 SQE_TEST 7.2.3 Frame structure
190	7.2.3.1 Silence 7.2.3.2 Preamble 7.2.3.3 Start of Frame Delimiter (SFD) 7.2.3.4 Data 7.2.3.5 End of transmission delimiter 7.2.4 PLS functions
191	7.2.4.1 Reset and Identify function 7.2.4.2 Mode function
192	7.2.4.3 Output function 7.2.4.4 Input function 7.2.4.5 Error Sense function
193	7.2.4.6 Carrier Sense function 7.3 Signal characteristics 7.3.1 Signal encoding 7.3.1.1 Data encoding
197	7.3.1.2 Control encoding
198	7.3.2 Signaling rate 7.3.3 Signaling levels 7.4 Electrical characteristics 7.4.1 Driver characteristics 7.4.1.1 Differential output voltage, loaded
200	7.4.1.2 Requirements after idle 7.4.1.3 AC common-mode output voltage 7.4.1.4 Differential output voltage, open circuit 7.4.1.5 DC common-mode output voltage
201	7.4.1.6 Fault tolerance 7.4.2 Receiver characteristics 7.4.2.1 Receiver threshold levels
202	7.4.2.2 AC differential input impedance 7.4.2.3 AC common-mode range 7.4.2.4 Total common-mode range
203	7.4.2.5 Idle input behavior 7.4.2.6 Fault tolerance 7.4.3 AUI cable characteristics
204	7.4.3.1 Conductor size 7.4.3.2 Pair-to-pair balanced crosstalk 7.4.3.3 Differential characteristic impedance 7.4.3.4 Transfer impedance 7.4.3.5 Attenuation 7.4.3.6 Timing jitter 7.4.3.7 Delay
205	7.5 Functional description of interchange circuits 7.5.1 General 7.5.2 Definition of interchange circuits
206	7.5.2.1 Circuit DO–Data Out 7.5.2.2 Circuit DI–Data In 7.5.2.3 Circuit CO–Control Out (optional) 7.5.2.4 Circuit CI–Control In
207	7.5.2.5 Circuit VP–Voltage Plus 7.5.2.6 Circuit VC–Voltage Common 7.5.2.7 Circuit PG–Protective Ground 7.5.2.8 Circuit shield terminations 7.6 Mechanical characteristics 7.6.1 Definition of mechanical interface 7.6.2 Line interface connector
208	7.6.3 Contact assignments
211	8. Medium Attachment Unit and baseband medium specifications, type 10BASE5 8.1 Scope 8.1.1 Overview 8.1.1.1 Medium Attachment Unit
212	8.1.1.2 Repeater unit 8.1.2 Definitions 8.1.3 Application perspective: MAU and MEDIUM objectives 8.1.3.1 Object 8.1.3.2 Compatibility considerations
213	8.1.3.3 Relationship to PLS and AU interface 8.1.3.4 Modes of operation 8.2 MAU functional specifications 8.2.1 MAU Physical Layer functions 8.2.1.1 Transmit function requirements
214	8.2.1.2 Receive function requirements
215	8.2.1.3 Collision Presence function requirements 8.2.1.4 Monitor function requirements (optional)
216	8.2.1.5 Jabber function requirements 8.2.2 MAU interface messages 8.2.2.1 DTE Physical Layer to MAU Physical Layer messages
217	8.2.2.2 MAU Physical Layer to DTE Physical Layer 8.2.2.2.1 input message 8.2.2.2.2 input_idle message 8.2.2.2.3 mau_available message 8.2.2.2.4 signal_quality_error message
218	8.2.3 MAU state diagrams 8.3 MAU–medium electrical characteristics 8.3.1 MAU-to-coaxial cable interface 8.3.1.1 Input impedance
219	8.3.1.2 Bias current 8.3.1.3 Coaxial cable signaling levels
225	8.3.1.4 Transmit output levels symmetry 8.3.1.5 Collision detect thresholds 8.3.2 MAU electrical characteristics 8.3.2.1 Electrical isolation
226	8.3.2.2 Power consumption 8.3.2.3 Reliability 8.3.3 MAU–DTE electrical characteristics 8.3.4 MAU–DTE mechanical connection 8.4 Characteristics of the coaxial cable 8.4.1 Coaxial cable electrical parameters 8.4.1.1 Characteristic impedance 8.4.1.2 Attenuation
227	8.4.1.3 Velocity of propagation 8.4.1.4 Edge jitter, untapped cable 8.4.1.5 Transfer impedance 8.4.1.6 Cable dc loop resistance
228	8.4.2 Coaxial cable properties 8.4.2.1 Mechanical requirements 8.4.2.1.1 General construction 8.4.2.1.2 Center conductor 8.4.2.1.3 Dielectric material 8.4.2.1.4 Shielding system 8.4.2.1.5 Overall jacket
229	8.4.2.2 Jacket marking 8.4.3 Total segment dc loop resistance 8.5 Coaxial trunk cable connectors 8.5.1 Inline coaxial extension connector
230	8.5.2 Coaxial cable terminator 8.5.2.1 Termination 8.5.2.2 Earthing 8.5.3 MAU-to-coaxial cable connection 8.5.3.1 Electrical requirements
231	8.5.3.2 Mechanical requirements 8.5.3.2.1 Connector housing 8.5.3.2.2 Contact reliability
232	8.5.3.2.3 Shield probe characteristics 8.6 System considerations 8.6.1 Transmission system model
233	8.6.2 Transmission system requirements 8.6.2.1 Cable sectioning 8.6.2.2 MAU placement 8.6.2.3 Trunk cable system grounding
234	8.6.3 Labeling 8.7 Environmental specifications 8.7.1 General safety requirements 8.7.2 Network safety requirements 8.7.2.1 Installations
235	8.7.2.2 Grounding 8.7.2.3 Safety 8.7.2.4 Breakdown path 8.7.2.5 Isolation boundary 8.7.2.6 Installation and maintenance guidelines
236	8.7.3 Electromagnetic environment 8.7.3.1 Susceptibility levels 8.7.3.2 Emission levels 8.7.4 Temperature and humidity 8.7.5 Regulatory requirements
237	8.8 Protocol implementation conformance statement (PICS) proforma for Clause 8, Medium Attachment Unit and baseband medium specifications, type 10BASE5 8.8.1 Overview 8.8.2 Abbreviations and special symbols 8.8.2.1 Status symbols 8.8.2.2 Abbreviations 8.8.3 Instructions for completing the PICS proforma 8.8.3.1 General structure of the PICS proforma
238	8.8.3.2 Additional information 8.8.3.3 Exception information 8.8.3.4 Conditional items
239	8.8.4 Identification 8.8.4.1 Implementation identification 8.8.4.2 Protocol summary 8.8.5 Global statement of conformance
240	8.8.6 PICS proforma tables for MAU 8.8.6.1 MAU compatibility 8.8.6.2 Transmit function
241	8.8.6.3 Receive function
242	8.8.6.4 Collision function 8.8.6.5 Monitor function
243	8.8.6.6 Jabber function
244	8.8.6.7 MAU to coaxial cable interface
245	8.8.6.8 MAU electrical characteristics 8.8.6.9 MAU-DTE requirements
246	8.8.6.10 MAU to coaxial cable connection 8.8.6.11 Safety requirements
247	8.8.7 PICS proforma tables for MAU AUI characteristics 8.8.7.1 Signal characteristics 8.8.7.2 DI and CI driver characteristics
248	8.8.7.3 DO receiver characteristics
249	8.8.7.4 CO receiver characteristics 8.8.7.5 Circuit termination
250	8.8.7.6 Mechanical characteristics
251	8.8.8 PICS proforma tables for 10BASE5 coaxial cable 8.8.8.1 10BASE5 coaxial cable characteristics
253	9. Repeater unit for 10 Mb/s baseband networks 9.1 Overview
254	9.2 References 9.3 Definitions 9.4 Compatibility interface 9.4.1 AUI compatibility 9.4.2 Mixing segment compatibility 9.4.2.1 Direct coaxial cable attachment compatibility 9.4.2.2 “N” connector compatibility 9.4.2.3 BNC compatibility 9.4.2.4 BFOC/2.5 (10BASE-FP) compatibility
255	9.4.3 Link segment compatibility 9.4.3.1 Vendor-dependent IRL 9.4.3.2 Fiber optic FOIRL compatibility 9.4.3.3 Twisted-pair jack compatibility 9.4.3.4 Fiber optic 10BASE-FB and 10BASE-FL compatibility 9.5 Basic functions 9.5.1 Repeater set network properties 9.5.2 Signal amplification 9.5.3 Signal symmetry
256	9.5.4 Signal retiming 9.5.5 Data handling 9.5.5.1 Start-of-packet propagation delays 9.5.5.2 Start-of-packet variability
257	9.5.6 Collision handling 9.5.6.1 Collision presence 9.5.6.2 Jam generation 9.5.6.3 Collision-jam propagation delays
258	9.5.6.4 Transmit recovery time 9.5.6.5 Carrier recovery time 9.5.7 Electrical isolation
259	9.6 Detailed repeater functions and state diagrams 9.6.1 State diagram notation
262	9.6.2 Data and collision handling 9.6.3 Preamble regeneration 9.6.4 Fragment extension
263	9.6.5 MAU Jabber Lockup Protection 9.6.6 Auto-Partitioning/Reconnection (optional) 9.6.6.1 Overview 9.6.6.2 Detailed auto-partition/reconnection algorithm state diagram
266	9.7 Electrical isolation 9.7.1 Environment A requirements 9.7.2 Environment B requirements 9.8 Reliability
267	9.9 Medium attachment unit and baseband medium specification for a vendor- independent FOIRL 9.9.1 Scope 9.9.1.1 Overview
269	9.9.1.2 Application perspective: FOMAU and medium objectives 9.9.1.3 Compatibility considerations 9.9.1.4 Relationship to AUI 9.9.1.5 Mode of operation 9.9.2 FOMAU functional specifications
270	9.9.2.1 Transmit function requirements
271	9.9.2.2 Receive function requirements 9.9.2.3 Collision Presence function requirements
272	9.9.2.4 Jabber function requirements 9.9.2.5 Low Light Level Detection function requirements
273	9.9.2.6 Repeater Unit to FOMAU Physical Layer messages 9.9.2.7 FOMAU Physical Layer to repeater unit messages 9.9.2.7.1 input message 9.9.2.7.2 input_idle message 9.9.2.7.3 fomau_available message 9.9.2.7.4 signal_quality_error message
274	9.9.2.8 FOMAU state diagrams
275	9.9.3 FOMAU electrical characteristics 9.9.3.1 Electrical isolation 9.9.3.2 Power consumption
276	9.9.3.3 Reliability 9.9.3.4 FOMAU/Repeater unit electrical characteristics 9.9.3.5 FOMAU/Repeater unit mechanical connection 9.9.4 FOMAU/Optical medium interface 9.9.4.1 Transmit optical parameters 9.9.4.1.1 Wavelength 9.9.4.1.2 Spectral width 9.9.4.1.3 Optical modulation 9.9.4.1.4 Optical idle signal 9.9.4.1.5 Transmit optical logic polarity
278	9.9.4.1.6 Optical rise and fall times 9.9.4.1.7 Transmit optical pulse edge jitter
279	9.9.4.1.8 Peak coupled optical power 9.9.4.2 Receive optical parameters 9.9.4.2.1 Receive peak optical power range 9.9.4.2.2 Receive optical pulse edge jitter 9.9.4.2.3 Receive optical logic polarity 9.9.5 Characteristics of the optical fiber cable link segment
280	9.9.5.1 Optical fiber medium 9.9.5.2 Optical medium connector plug and socket 9.9.6 System requirements 9.9.6.1 Optical transmission system considerations
281	9.9.6.2 Timing considerations
282	9.9.7 Environmental specifications 9.9.7.1 Safety requirements 9.9.7.1.1 Electrical safety 9.9.7.1.2 Optical source safety 9.9.7.2 Electromagnetic environment 9.9.7.2.1 Susceptibility levels 9.9.7.2.2 Emission levels
283	9.9.7.3 Temperature and humidity
285	10. Medium attachment unit and baseband medium specifications, type 10BASE2 10.1 Scope 10.1.1 Overview
286	10.1.1.1 Medium attachment unit (normally contained within the data terminal equipment [DTE]) 10.1.1.2 Repeater unit 10.1.2 Definitions 10.1.3 Application perspective: MAU and medium objectives 10.1.3.1 Object
287	10.1.3.2 Compatibility considerations 10.1.3.3 Relationship to PLS and AUI 10.1.3.4 Mode of operation 10.2 References 10.3 MAU functional specifications
288	10.3.1 MAU Physical Layer functional requirements 10.3.1.1 Transmit function requirements
289	10.3.1.2 Receive function requirements 10.3.1.3 Collision Presence function requirements
290	10.3.1.4 Jabber functional requirements 10.3.2 MAU interface messages 10.3.2.1 DTE to MAU messages 10.3.2.2 MAU to DTE messages
292	10.3.2.2.1 input message 10.3.2.2.2 input_idle message 10.3.2.2.3 mau_available message 10.3.2.2.4 signal_quality_error (SQE) message 10.3.3 MAU state diagrams
293	10.4 MAU–medium electrical characteristics 10.4.1 MAU-to-coaxial cable interface 10.4.1.1 Input impedance 10.4.1.2 Bias current 10.4.1.3 Coaxial cable signaling levels
295	10.4.1.4 Transmit output levels symmetry 10.4.1.5 Collision detect thresholds 10.4.2 MAU electrical characteristics 10.4.2.1 Electrical isolation 10.4.2.2 Power consumption
296	10.4.2.3 Reliability 10.4.3 MAU–DTE electrical characteristics 10.5 Characteristics of coaxial cable system 10.5.1 Coaxial cable electrical parameters 10.5.1.1 Characteristic impedance 10.5.1.2 Attenuation 10.5.1.3 Velocity of propagation 10.5.1.4 Edge jitter; entire segment without DTEs attached
297	10.5.1.5 Transfer impedance 10.5.1.6 Cable dc loop resistance 10.5.2 Coaxial cable physical parameters 10.5.2.1 Mechanical requirements
298	10.5.2.1.1 General construction 10.5.2.1.2 Center conductor 10.5.2.1.3 Dielectric material 10.5.2.1.4 Shielding system 10.5.2.1.5 Overall jacket 10.5.2.2 Jacket marking 10.5.3 Total segment dc loop resistance
299	10.6 Coaxial trunk cable connectors 10.6.1 In-line coaxial extension connector
300	10.6.2 Coaxial cable terminator 10.6.3 MAU-to-coaxial cable connection 10.7 System considerations 10.7.1 Transmission system model
302	10.7.2 Transmission system requirements 10.7.2.1 Cable sectioning 10.7.2.2 MAU placement 10.7.2.3 Trunk cable system earthing 10.7.2.4 Static discharge path 10.7.2.4.1 Installation environment
303	10.8 Environmental specifications 10.8.1 Safety requirements 10.8.1.1 Installations 10.8.1.2 Earthing 10.8.2 Electromagnetic environment 10.8.2.1 Susceptibility levels 10.8.2.2 Emission levels 10.8.3 Regulatory requirements
305	11. Broadband medium attachment unit and broadband medium specifications, type 10BROAD36 11.1 Scope 11.1.1 Overview
307	11.1.2 Definitions 11.1.3 MAU and medium objectives
308	11.1.4 Compatibility considerations 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 11.2.1.1 Transmit function requirements
309	11.2.1.2 Receive function requirements 11.2.1.3 Collision Detection function requirements
310	11.2.1.3.1 Collision enforcement transmitter requirements 11.2.1.3.2 Collision enforcement detection requirements 11.2.1.4 Jabber function requirements
311	11.2.2 DTE PLS to MAU and MAU to DTE PLS messages 11.2.2.1 DTE Physical Layer to MAU Physical Layer messages 11.2.2.2 MAU Physical Layer to DTE Physical Layer messages 11.2.2.2.1 input message 11.2.2.2.2 input_idle message 11.2.2.2.3 mau_available message 11.2.2.3 signal_quality_error message
312	11.2.3 MAU state diagrams 11.2.3.1 MAU state diagram messages 11.2.3.2 MAU state diagram signal names
315	11.3 MAU characteristics 11.3.1 MAU-to-coaxial cable interface 11.3.1.1 Receive interface 11.3.1.1.1 Receive input impedance 11.3.1.1.2 Receiver squelch requirements
316	11.3.1.1.3 Receive level requirements 11.3.1.1.4 Receiver selectivity and linearity requirements 11.3.1.1.5 Receive input mechanical requirements 11.3.1.2 Transmit interface 11.3.1.2.1 Transmit output impedance 11.3.1.2.2 Transmitted RF packet format
317	11.3.1.2.3 Transmit spectrum and group delay characteristics
319	11.3.1.2.4 Transmit out-of-band spectrum 11.3.1.2.5 Transmit level requirements 11.3.1.2.6 Nontransmitting signal leakage requirement 11.3.1.2.7 Transmit spurious output requirement
320	11.3.1.2.8 Collision enforcement signal leakage requirement 11.3.1.2.9 Transmit output mechanical requirements 11.3.2 MAU frequency allocations 11.3.2.1 Single-cable systems frequency allocations
321	11.3.2.2 Dual-cable systems frequency allocations 11.3.3 AUI electrical characteristics 11.3.3.1 Electrical isolation requirements 11.3.3.2 Current consumption
322	11.3.3.3 Driver and receiver requirements 11.3.3.4 AUI mechanical connection 11.3.4 MAU transfer characteristics 11.3.4.1 AUI to coaxial cable framing characteristics.
323	11.3.4.1.1 Scrambler and differential encoding requirements
324	11.3.4.2 Coaxial cable to AUI framing characteristics
325	11.3.4.3 Circuit DO to circuit DI framing characteristics 11.3.4.4 AUI to coaxial cable delay characteristics 11.3.4.4.1 Circuit DO to RF data signal delay 11.3.4.4.2 Circuit DO to CE RF output delay 11.3.4.4.3 Transmit postamble to SQE test signal delay 11.3.4.4.4 SQE test signal length 11.3.4.5 Coaxial cable to AUI delay characteristics
326	11.3.4.5.1 Received RF to circuit DI delay 11.3.4.5.2 Received RF to CE RF output and circuit CI delay 11.3.4.5.3 Collision enforcement to circuit CI delay 11.3.4.5.4 Receive data to SQE test delay
327	11.3.4.6 Delay from circuit DO to circuit DI
328	11.3.4.7 Interpacket gap requirement 11.3.4.8 Bit error ratio 11.3.5 Reliability
329	11.4 System considerations 11.4.1 Delay budget and network diameter 11.4.2 MAU operation with packets shorter than 512 bits
330	11.5 Characteristics of the coaxial cable system 11.5.1 Electrical requirements 11.5.2 Mechanical requirements 11.5.3 Delay requirements
331	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
332	11.7.2 Electromagnetic environment 11.7.2.1 Susceptibility levels 11.7.2.2 Emission levels 11.7.3 Temperature and humidity
333	12. Physical signaling, medium attachment, and baseband medium specifications, type 1BASE5 12.1 Introduction 12.1.1 Overview 12.1.2 Scope 12.1.3 Definitions 12.1.4 General characteristics
334	12.1.5 Compatibility 12.1.6 Objectives of type 1BASE5 specification 12.2 Architecture 12.2.1 Major concepts
335	12.2.2 Application perspective 12.2.3 Packet structure
336	12.2.3.1 Silence 12.2.3.2 Preamble
337	12.2.3.3 Start-of-frame delimiter 12.2.3.4 Data 12.2.3.5 End-of-transmission delimiter
338	12.3 DTE physical signaling (PLS) specification 12.3.1 Overview 12.3.1.1 Summary of major concepts 12.3.1.2 Application perspective
339	12.3.2 Functional specification 12.3.2.1 PLS-PMA interface 12.3.2.1.1 output message 12.3.2.1.2 output_idle message 12.3.2.1.3 input message 12.3.2.1.4 input_idle message
340	12.3.2.2 PLS-MAC interface 12.3.2.2.1 OUTPUT_UNIT 12.3.2.2.2 OUTPUT_STATUS 12.3.2.2.3 INPUT_UNIT 12.3.2.2.4 CARRIER_STATUS 12.3.2.2.5 SIGNAL_STATUS
341	12.3.2.3 PLS functions 12.3.2.3.1 State diagram variables 12.3.2.3.2 Output function
342	12.3.2.3.3 Input function 12.3.2.3.4 Error Sense function
343	12.3.2.3.5 Carrier Sense function 12.3.2.4 Signal encoding 12.3.2.4.1 Data transmission rate 12.3.2.4.2 Data symbol encoding 12.3.2.4.3 Collision presence encoding
344	12.3.2.4.4 Idle line encoding
345	12.4 Hub specification 12.4.1 Overview
346	12.4.1.1 Summary of major concepts 12.4.1.2 Application perspective 12.4.2 Hub structure 12.4.2.1 Upward side 12.4.2.2 Downward side
347	12.4.3 Hub PLS functional specification 12.4.3.1 Hub PLS to PMA interface 12.4.3.2 Hub PLS functions 12.4.3.2.1 State diagram variables
348	12.4.3.2.2 Upward Signal Transfer function 12.4.3.2.3 Jabber function
349	12.4.3.2.4 Downward Signal Transfer function
351	12.4.3.2.5 Retiming (jitter removal) 12.4.3.2.6 Header hub wrap-around 12.4.3.2.7 Collision presence startup
352	12.4.3.3 Reliability 12.5 Physical medium attachment (PMA) specification 12.5.1 Overview 12.5.2 PLS–PMA interface
353	12.5.3 Signal characteristics 12.5.3.1 Transmitter characteristics 12.5.3.1.1 Differential output voltage
356	12.5.3.1.2 Output timing jitter 12.5.3.1.3 Transmitter impedance balance
357	12.5.3.1.4 Common-mode output voltage 12.5.3.1.5 Common-mode tolerance
358	12.5.3.1.6 Transmitter fault tolerance 12.5.3.2 Receiver characteristics 12.5.3.2.1 Differential input voltage 12.5.3.2.2 Input timing jitter 12.5.3.2.3 Idle input behavior
359	12.5.3.2.4 Differential input impedance 12.5.3.2.5 Common-mode rejection
360	12.5.3.2.6 Noise immunity 12.5.3.2.7 Receiver fault tolerance 12.6 Medium Dependent Interface (MDI) specification 12.6.1 Line interface connector
361	12.6.2 Connector contact assignments 12.6.3 Labeling
362	12.7 Cable medium characteristics 12.7.1 Overview 12.7.2 Transmission parameters 12.7.2.1 Attenuation 12.7.2.2 Differential characteristic impedance 12.7.2.3 Medium timing jitter
363	12.7.2.4 Dispersion 12.7.3 Coupling parameters 12.7.3.1 Pair-to-pair crosstalk 12.7.3.2 Multiple-disturber crosstalk
364	12.7.3.3 Balance 12.7.4 Noise environment 12.7.4.1 Impulse noise
365	12.7.4.2 Crosstalk 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
366	12.9.2 DTE timing 12.9.3 Medium timing 12.9.4 Special link timing 12.9.5 Hub timing
367	12.10 Safety 12.10.1 Isolation
368	12.10.2 Telephony voltages
369	13. System considerations for multisegment 10 Mb/s baseband networks 13.1 Overview
370	13.1.1 Repeater usage 13.2 Definitions 13.3 Transmission System Model 1
377	13.4 Transmission System Model 2 13.4.1 Round-trip collision delay 13.4.1.1 Worst-case path delay value (PDV) selection 13.4.1.2 Worst-case PDV calculation
378	13.4.2 Interpacket gap (IPG) shrinkage
379	13.4.2.1 Worst-case path variability value (PVV) selection 13.4.2.2 Worst-case path variability value (PVV) calculation 13.5 Full duplex topology limitations
381	14. Twisted-pair medium attachment unit (MAU) and baseband medium, type 10BASE-T including type 10BASE-Te 14.1 Scope 14.1.1 Overview 14.1.1.1 Medium Attachment Unit (MAU)
382	14.1.1.2 Repeater unit 14.1.1.3 Twisted-pair media 14.1.2 Definitions
383	14.1.3 Application perspective 14.1.3.1 Objectives
384	14.1.3.2 Compatibility considerations 14.1.3.3 Modes of operation 14.1.4 Relationship to PLS and AUI 14.2 MAU functional specifications
385	14.2.1 MAU functions
386	14.2.1.1 Transmit function requirements 14.2.1.2 Receive function requirements
387	14.2.1.3 Loopback function requirements (half duplex mode only) 14.2.1.4 Collision Presence function requirements (half duplex mode only) 14.2.1.5 signal_quality_error Message (SQE) Test function requirements 14.2.1.6 Jabber function requirements
388	14.2.1.7 Link Integrity Test function requirements
389	14.2.1.8 Auto-Negotiation 14.2.2 PMA interface messages 14.2.2.1 PLS to PMA messages 14.2.2.1.1 PMA to PLS messages
390	14.2.2.2 PMA to twisted-pair link segment messages 14.2.2.3 Twisted-pair link segment to PMA messages 14.2.2.4 Interface message time references 14.2.3 MAU state diagrams 14.2.3.1 State diagram variables
396	14.2.3.2 State diagram timers 14.3 MAU electrical specifications 14.3.1 MAU-to-MDI interface characteristics 14.3.1.1 Isolation requirement
397	14.3.1.2 Transmitter specifications
398	14.3.1.2.1 Differential output voltage
401	14.3.1.2.2 Transmitter differential output impedance
402	14.3.1.2.3 Output timing jitter 14.3.1.2.4 Transmitter impedance balance 14.3.1.2.5 Common-mode output voltage
403	14.3.1.2.6 Transmitter common-mode rejection 14.3.1.2.7 Transmitter fault tolerance
404	14.3.1.3 Receiver specifications 14.3.1.3.1 Receiver differential input signals 14.3.1.3.2 Receiver differential noise immunity
405	14.3.1.3.3 Idle input behavior 14.3.1.3.4 Receiver differential input impedance 14.3.1.3.5 Common-mode rejection 14.3.1.3.6 Receiver fault tolerance 14.3.2 MAU-to-AUI specification 14.3.2.1 MAU-AUI electrical characteristics
406	14.3.2.2 MAU–AUI mechanical connection 14.3.2.3 Power consumption
407	14.4 Characteristics of the simplex link segment 14.4.1 Overview 14.4.2 Transmission parameters 14.4.2.1 Insertion loss 14.4.2.2 Differential characteristic impedance 14.4.2.3 Medium timing jitter
408	14.4.2.4 Delay 14.4.3 Coupling parameters 14.4.3.1 Differential near-end crosstalk (NEXT) loss 14.4.3.1.1 Twenty-five-pair cable and twenty-five-pair binder groups 14.4.3.1.2 Four-pair cable 14.4.3.1.3 Other cables 14.4.3.2 Multiple-disturber NEXT (MDNEXT) loss
409	14.4.4 Noise environment 14.4.4.1 Impulse noise 14.4.4.2 Crosstalk noise 14.5 MDI specification 14.5.1 MDI connectors
410	14.5.2 Crossover function
411	14.6 System considerations
412	14.7 Environmental specifications 14.7.1 General safety 14.7.2 Network safety 14.7.2.1 Installation 14.7.2.2 Grounding 14.7.2.3 Installation and maintenance guidelines 14.7.2.4 Telephony voltages
413	14.7.3 Environment 14.7.3.1 Electromagnetic emission 14.7.3.2 Temperature and humidity 14.8 MAU labeling
414	14.9 Timing summary
415	14.10 Protocol implementation conformance statement (PICS) proforma for Clause 14, Twisted-pair medium attachment unit (MAU) and baseband medium, type 10BASE-T and type 10BASE-Te 14.10.1 Introduction 14.10.1.1 Scope 14.10.1.2 Reference 14.10.1.3 Definitions 14.10.1.4 Conformance
416	14.10.2 Identification of implementation 14.10.2.1 Supplier information 14.10.2.2 Implementation information 14.10.3 Identification of the protocol
417	14.10.4 PICS proforma for 10BASE-T 14.10.4.1 Abbreviations 14.10.4.2 PICS Completion instructions and implementation statement 14.10.4.3 Additional information 14.10.4.4 References
418	14.10.4.5 PICS proforma tables for MAU 14.10.4.5.1 MAU functions
419	14.10.4.5.2 Transmit function 14.10.4.5.3 Receive function
420	14.10.4.5.4 Loopback function 14.10.4.5.5 Collision Detect function
421	14.10.4.5.6 signal_quality_error Message Test function 14.10.4.5.7 Jabber function
422	14.10.4.5.8 Link Integrity Test function
423	14.10.4.5.9 MAU state diagram requirements 14.10.4.5.10 AUI requirements 14.10.4.5.11 Isolation requirements
424	14.10.4.5.12 Transmitter specification
425	14.10.4.5.13 Receiver specification
426	14.10.4.5.14 MDI requirements 14.10.4.5.15 Safety requirements
427	14.10.4.6 PICS proforma tables for MAU AUI characteristics 14.10.4.6.1 Signal characteristics 14.10.4.6.2 DI and CI driver characteristics
428	14.10.4.6.3 DO receiver characteristics 14.10.4.6.4 Power consumption
429	14.10.4.6.5 Circuit termination 14.10.4.6.6 Mechanical characteristics
430	14.10.4.7 PICS proforma tables for 10BASE-T link segment 14.10.4.7.1 10BASE-T link segment characteristics
431	14.10.4.8 PICS proforma tables for Auto-Negotiation able MAUs
433	15. Fiber optic medium and common elements of medium attachment units and star, type 10BASE-F 15.1 Scope 15.1.1 Overview 15.1.1.1 Fiber optic medium attachment units (MAUs) 15.1.1.2 Fiber optic passive star
434	15.1.1.3 Repeater unit
435	15.1.2 Definitions 15.1.3 Applications perspective: MAUs, stars, and fiber optic medium 15.1.3.1 Objectives 15.1.3.2 Compatibility considerations
436	15.1.3.3 Relationship to PLS and AUI
437	15.1.3.4 Guidelines for implementation of systems 15.1.3.5 Modes of operation
438	15.2 MDI optical characteristics 15.2.1 Transmit optical parameters 15.2.1.1 Center wavelength 15.2.1.2 Spectral width 15.2.1.3 Optical modulation extinction ratio 15.2.1.4 Optical Idle Signal amplitude 15.2.1.5 Optical transmit pulse logic polarity 15.2.1.6 Optical transmit pulse rise and fall times 15.2.1.7 Optical transmit pulse overshoot and undershoot 15.2.1.8 Optical transmit pulse edge jitter
440	15.2.1.9 Optical transmit pulse duty cycle distortion 15.2.1.10 Optical transmit average power range 15.2.1.11 Optical transmit signal templates
441	15.2.1.11.1 10BASE-FP optical transmit signal template
442	15.2.1.11.2 10BASE-FB optical transmit signal template
444	15.2.1.11.3 10BASE-FL Optical transmit signal template
445	15.2.2 Receive optical parameters 15.2.2.1 Optical receive average power range 15.2.2.2 Optical receive pulse edge jitter
446	15.2.2.3 Optical receive pulse logic polarity 15.2.2.4 Optical receive pulse rise and fall times 15.3 Characteristics of the fiber optic medium 15.3.1 Optical fiber and cable 15.3.1.1 Attenuation 15.3.1.2 Modal bandwidth 15.3.1.3 Propagation delay
447	15.3.2 Optical medium connector plug and socket 15.3.2.1 Optical connector insertion loss 15.3.2.2 Optical connector return loss
448	15.3.3 Fiber optic medium insertion loss 15.3.3.1 10BASE-FP segment insertion loss 15.3.3.2 10BASE-FB and 10BASE-FL segment insertion loss 15.3.4 Electrical isolation 15.4 MAU reliability 15.5 MAU–AUI specification 15.5.1 MAU–AUI electrical characteristics
449	15.5.2 MAU–AUI mechanical connections 15.5.3 Power consumption 15.5.4 MAU–AUI messages 15.5.4.1 PLS to PMA messages 15.5.4.2 PMA to PLS messages 15.5.4.2.1 signal_quality_error message
450	15.6 Environmental specifications 15.6.1 Safety requirements 15.6.2 Electromagnetic environment
451	15.6.3 Other environmental requirements 15.7 MAU labeling 15.7.1 10BASE-FP star labeling
452	15.8 Protocol implementation conformance statement (PICS) proforma for Clause 15, Fiber optic medium and common elements of medium attachment units and star, type 10BASE-F 15.8.1 Introduction 15.8.2 Abbreviations and special symbols 15.8.2.1 Status symbols 15.8.2.2 Abbreviations 15.8.3 Instructions for completing the pics proforma 15.8.3.1 General structure of the PICS proforma
453	15.8.3.2 Additional information 15.8.3.3 Exception information
454	15.8.3.4 Conditional items 15.8.4 Identification 15.8.4.1 Implementation identification 15.8.4.2 Protocol summary
455	15.8.5 Major capabilities/options 15.8.6 PICS Proforma for the fiber optic medium 15.8.6.1 Characteristics of the fiber optic medium
456	15.8.6.2 Optical medium connector plug and socket 15.8.6.3 Fiber optic medium insertion loss 15.8.6.4 Electrical isolation requirements
457	16. Fiber optic passive star and medium attachment unit, type 10BASE-FP 16.1 Scope 16.1.1 Overview 16.1.1.1 10BASE-FP medium attachment unit 16.1.1.2 10BASE-FP Star 16.1.1.3 Repeater unit
458	16.2 PMA interface messages 16.2.1 PMA-to-MDI interface signal encodings 16.2.2 PMA-to-MDI OTD messages 16.2.2.1 OTD_output 16.2.2.2 OTD_idle
459	16.2.2.3 OTD_manch_violation 16.2.3 MDI ORD-to-PMA messages 16.2.3.1 ORD_input
460	16.2.3.2 ORD_idle 16.2.3.3 ORD_crv 16.3 10BASE-FP MAU functional specifications 16.3.1 Transmit function requirements
461	16.3.1.1 Preamble encoding 16.3.1.1.1 Synchronization pattern 16.3.1.1.2 Packet header code rule violation 16.3.1.1.3 Unique word 16.3.1.2 Data transmit
462	16.3.1.3 Collision encoding (unique word jam) 16.3.2 Receive function requirements 16.3.2.1 Preamble reconstruction and alignment 16.3.2.2 Data receive 16.3.2.3 Signal presence during collision 16.3.3 Loopback function requirements
463	16.3.4 Collision presence function requirements 16.3.4.1 CI Circuit signaling 16.3.4.2 Collision detection
464	16.3.4.3 End of collision 16.3.5 signal_quality_error Message (SQE) Test function requirements 16.3.6 Jabber function requirements
465	16.3.7 Link fault detection and low light function requirements
466	16.3.8 Interface message time references 16.3.9 MAU state diagram 16.3.9.1 MAU state diagram variables
468	16.3.9.2 MAU state diagram timers
469	16.3.9.3 MAU state diagram counters
474	16.4 Timing summary 16.5 10BASE-FP Star functional specifications 16.5.1 Star functions 16.5.1.1 Number of ports 16.5.1.2 Optical power division
475	16.5.1.3 Configuration 16.5.1.4 Reliability 16.5.2 Star optical characteristics 16.5.2.1 Star insertion loss 16.5.2.2 Star single output port uniformity 16.5.2.3 Star directivity
476	16.6 Protocol implementation conformance statement (PICS) proforma for Clause 16, Fiber optic passive star and medium attachment unit, type 10BASE-FP 16.6.1 Introduction 16.6.2 Abbreviations and special symbols 16.6.2.1 Status symbols 16.6.2.2 Abbreviations 16.6.3 Instructions for completing the PICS proforma 16.6.3.1 General structure of the PICS proforma
477	16.6.3.2 Additional information 16.6.3.3 Exception information
478	16.6.3.4 Conditional items 16.6.4 Identification 16.6.4.1 Implementation identification 16.6.4.2 Protocol summary
479	16.6.5 Major capabilities/options 16.6.6 PICS proforma for the type 10BASE-FP MAU 16.6.6.1 Compatibility considerations
480	16.6.6.2 Optical transmit parameters
481	16.6.6.3 Optical receive parameters 16.6.6.4 Optical medium connector plug and socket 16.6.6.5 MAU functions 16.6.6.6 PMA interface messages
482	16.6.6.7 PMA to MDI OTD messages 16.6.6.8 MDI ORD to PMA messages 16.6.6.9 Transmit functions (continued)
483	16.6.6.10 Collision Encoding (Unique Word Jam) function 16.6.6.11 Receive functions
484	16.6.6.12 Preamble reconstruction and alignment function 16.6.6.13 Data receive function 16.6.6.14 Signal presence during collision
485	16.6.6.15 Loopback function 16.6.6.16 Collision presence function
486	16.6.6.17 signal_quality_error Message (SQE) test function 16.6.6.18 Jabber function 16.6.6.19 Link Fault Detect function
487	16.6.6.20 MAU state diagram requirements 16.6.6.21 MAU-to-AUI signal characteristics 16.6.6.22 MAU-to-AUI DI and CI driver characteristics
488	16.6.6.23 AUI-to-MAU DO receiver characteristics 16.6.6.24 MAU-to-AUI circuit termination
489	16.6.6.25 MAU-to-AUI mechanical connections 16.6.6.26 MAU reliability
490	16.6.6.27 Power consumption 16.6.6.28 PLS–PMA requirements 16.6.6.29 signal_quality_error message (SQE)
491	16.6.6.30 Environmental requirements 16.6.6.31 MAU labeling 16.6.7 PICS proforma tables for 10BASE-FP stars 16.6.7.1 Star basic functions
492	16.6.7.2 Star optical characteristics 16.6.7.3 Star environmental requirements 16.6.7.4 10BASE-FP star labeling
493	17. Fiber optic medium attachment unit, type 10BASE-FB 17.1 Scope 17.1.1 Overview 17.1.1.1 Medium attachment unit 17.1.1.2 Relationship to repeater 17.1.1.3 Remote diagnostic messages 17.1.2 Relationship to AUI
494	17.2 PMA interface messages 17.2.1 PMA-to-MDI interface signal encodings 17.2.2 PMA-to-MDI OTD messages
495	17.2.2.1 OTD_output 17.2.2.2 OTD_sync_idle 17.2.2.3 OTD_remote_fault 17.2.3 MDI ORD-to-PMA messages 17.2.3.1 Status decoding 17.2.3.2 ORD_input 17.2.3.3 ORD_sync_idle
496	17.2.3.4 ORD_remote_fault 17.2.3.5 ORD_invalid_data 17.2.4 Transitions between signals 17.2.5 Signaling rate 17.3 MAU functional specifications 17.3.1 Transmit function requirements
497	17.3.1.1 Data transmit 17.3.1.2 Synchronous idle 17.3.1.3 Fault signaling 17.3.2 Receive function requirements 17.3.2.1 Data receive 17.3.2.2 Remote status message handling 17.3.3 Collision function requirements 17.3.3.1 Collision detection
498	17.3.3.2 End of collision 17.3.4 Loopback function requirements 17.3.5 Fault-handling function requirements 17.3.6 Jabber function requirements
499	17.3.7 Low light level detection function requirements 17.3.8 Synchronous qualification function requirements
500	17.3.9 Interface message time references 17.3.10 MAU state diagrams 17.3.10.1 MAU state diagram variables
501	17.3.10.2 MAU state diagram timers
504	17.4 Timing summary
505	17.5 Protocol implementation conformance statement (PICS) proforma for Clause 17, Fiber optic medium attachment unit, type 10BASE-FB 17.5.1 Introduction 17.5.2 Abbreviations and special symbols 17.5.2.1 Status symbols 17.5.2.1.1 Abbreviations 17.5.3 Instructions for completing the PICS proforma 17.5.3.1 General structure of the PICS proforma
506	17.5.3.2 Additional information 17.5.3.3 Exception information
507	17.5.3.4 Conditional items 17.5.4 Identification 17.5.4.1 Implementation identification 17.5.4.2 Protocol summary 17.5.5 PICS proforma for the type 10BASE-FB MAU
508	17.5.6 PICS proforma for the type 10BASE-FB MAU 17.5.6.1 Compatibility considerations 17.5.6.2 Optical transmit parameters
509	17.5.6.3 Optical receive parameters 17.5.6.4 Optical medium connector plug and socket
510	17.5.6.5 MAU functions 17.5.6.6 PMA-to-MDI OTD messages and signaling
511	17.5.6.7 MDI ORD-to-PMA messages and signaling 17.5.6.8 Transitions between signals 17.5.6.9 Signaling rate
512	17.5.6.10 Transmit functions 17.5.6.11 Receive functions
513	17.5.6.12 Data receive function 17.5.6.13 Remote status message handling 17.5.6.14 Collision function requirements
514	17.5.6.15 End of collision 17.5.6.16 Loopback function 17.5.6.17 Fault-handling function
515	17.5.6.18 Jabber-handling function 17.5.6.19 Low light detection
516	17.5.6.20 Synchronous qualification 17.5.6.21 MAU state diagram requirements 17.5.6.22 MAU reliability
517	17.5.6.23 PLS–PMA requirements 17.5.6.24 signal_quality_error message (SQE) 17.5.6.25 Environmental requirements 17.5.6.26 MAU labeling
519	18. Fiber optic medium attachment unit, type 10BASE-FL 18.1 Scope 18.1.1 Overview 18.1.1.1 10BASE-FL medium attachment unit (MAU) 18.1.1.2 Repeater unit 18.2 PMA interface messages
520	18.2.1 PMA to fiber optic link segment messages 18.2.1.1 OTD_output. 18.2.1.2 OTD_idle 18.2.2 Fiber optic link segment to PMA messages 18.2.2.1 ORD_input 18.2.2.2 ORD_idle
521	18.2.3 Interface message time references 18.3 MAU functional specifications 18.3.1 MAU functions
522	18.3.1.1 Transmit function requirements
523	18.3.1.2 Receive function requirements 18.3.1.3 Loopback function requirements (half duplex mode only) 18.3.1.4 Collision Presence function requirements (half duplex mode only)
524	18.3.1.5 signal_quality_error Message (SQE) Test function requirements 18.3.1.6 Jabber function requirements 18.3.1.7 Link Integrity Test function requirements
525	18.3.1.8 Auto-Negotiation 18.3.2 MAU state diagrams 18.3.2.1 MAU state diagram variables
527	18.3.2.2 MAU state diagram timers
532	18.4 Timing summary
533	18.5 Protocol implementation conformance statement (PICS) proforma for Clause 18, Fiber optic medium attachment unit, type 10BASE-FL 18.5.1 Introduction 18.5.2 Abbreviations and special symbols 18.5.2.1 Status symbols 18.5.2.2 Abbreviations
534	18.5.3 Instructions for completing the PICS proforma 18.5.3.1 General structure of the PICS proforma 18.5.3.2 Additional information 18.5.3.3 Exception information
535	18.5.3.4 Conditional items 18.5.4 Identification 18.5.4.1 Implementation identification 18.5.4.2 Protocol summary
536	18.5.5 Major capabilities/options 18.5.6 PICS proforma tables for the type 10BASE-FL MAU 18.5.6.1 Compatibility considerations
537	18.5.6.2 Optical transmit parameter
538	18.5.6.3 Optical receive parameters 18.5.6.4 Optical medium connector plug and socket
539	18.5.6.5 MAU functions 18.5.6.6 PMA interface messages 18.5.6.7 PMA-to-MDI OTD messages 18.5.6.8 MDI ORD-to-PMA messages
540	18.5.6.9 Transmit function 18.5.6.10 Receive function
541	18.5.6.11 Loopback function 18.5.6.12 Collision Presence function 18.5.6.13 signal_quality_error Message (SQE) Test function
542	18.5.6.14 Jabber function 18.5.6.15 Link Integrity Test function
544	18.5.6.16 MAU state diagram requirements 18.5.6.17 MAU-to-AUI signal characteristics
545	18.5.6.18 MAU-to-AUI DI and CI driver characteristics 18.5.6.19 AUI-to-MAU DO receiver characteristics
546	18.5.6.20 AUI circuit termination 18.5.6.21 MAU-to-AUI mechanical connections
547	18.5.6.22 MAU reliability 18.5.6.23 Power consumption 18.5.6.24 PLS–PMA requirements 18.5.6.25 signal_quality_error message (SQE)
548	18.5.6.26 Environmental requirements 18.5.6.27 MAU labeling
549	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
550	19.1.5 Management model
551	19.2 Managed objects 19.2.1 Introduction 19.2.2 Overview of managed objects 19.2.2.1 Text description of managed objects 19.2.2.2 Port functions to support management
553	19.2.2.3 Containment
554	19.2.2.4 Naming 19.2.2.5 Packages and capabilities
556	19.2.3 Repeater managed object class 19.2.3.1 Repeater attributes 19.2.3.1.1 aRepeaterID 19.2.3.1.2 aRepeaterGroupCapacity 19.2.3.1.3 aGroupMap 19.2.3.1.4 aRepeaterHealthState
557	19.2.3.1.5 aRepeaterHealthText 19.2.3.1.6 aRepeaterHealthData 19.2.3.1.7 aTransmitCollisions 19.2.3.2 Repeater actions 19.2.3.2.1 acResetRepeater
558	19.2.3.2.2 acExecuteNonDisruptiveSelfTest 19.2.3.3 Repeater notifications 19.2.3.3.1 nRepeaterHealth
559	19.2.3.3.2 nRepeaterReset 19.2.3.3.3 nGroupMapChange 19.2.4 ResourceTypeID Managed Object Class 19.2.5 Group managed object class 19.2.5.1 Group attributes 19.2.5.1.1 aGroupID
560	19.2.5.1.2 aGroupPortCapacity 19.2.5.1.3 aPortMap 19.2.5.2 Group Notifications 19.2.5.2.1 nPortMapChange 19.2.6 Port managed object class 19.2.6.1 Port Attributes 19.2.6.1.1 aPortID
561	19.2.6.1.2 aPortAdminState 19.2.6.1.3 aAutoPartitionState 19.2.6.1.4 aReadableFrames 19.2.6.1.5 aReadableOctets
562	19.2.6.1.6 aFrameCheckSequenceErrors 19.2.6.1.7 aAlignmentErrors 19.2.6.1.8 aFramesTooLong 19.2.6.1.9 aShortEvents
563	19.2.6.1.10 aRunts 19.2.6.1.11 aCollisions 19.2.6.1.12 aLateEvents
564	19.2.6.1.13 aVeryLongEvents 19.2.6.1.14 aDataRateMismatches 19.2.6.1.15 aAutoPartitions 19.2.6.1.16 aLastSourceAddress
565	19.2.6.1.17 aSourceAddressChanges 19.2.6.2 Port Actions 19.2.6.2.1 acPortAdminControl
567	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 20.2.1.1 Naming
568	20.2.1.2 Containment 20.2.1.3 Packages
569	20.2.2 MAU Managed object class 20.2.2.1 MAU attributes 20.2.2.1.1 aMAUID 20.2.2.1.2 aMAUType
570	20.2.2.1.3 aMediaAvailable 20.2.2.1.4 aLoseMediaCounter 20.2.2.1.5 aJabber
571	20.2.2.1.6 aMAUAdminState 20.2.2.1.7 aBbMAUXmitRcvSplitType 20.2.2.1.8 aBroadbandFrequencies
572	20.2.2.2 MAU actions 20.2.2.2.1 acResetMAU 20.2.2.2.2 acMAUAdminControl 20.2.2.3 MAU notifications 20.2.2.3.1 nJabber
573	Annex A (informative) Bibliography
577	Annex B (informative) System guidelines B.1 Baseband system guidelines and concepts, 10 Mb/s B.1.1 Overall system objectives B.1.2 Analog system components and parameter values
579	B.1.3 Minimum frame length determination
580	B.1.4 System jitter budgets B.1.4.1 Nominal jitter values
581	B.1.4.2 Decoder evaluation
582	B.1.5 Systems consideration calculations B.1.5.1 Overview B.1.5.2 Maximum collision fragment size
585	B.1.5.3 Interpacket Gap (IPG) shrinkage
586	B.1.5.4 Timing parameters for round-trip delay and variability calculations
589	B.2 System parameters and budgets for 1BASE5 B.2.1 Delay budget
590	B.2.2 Minimum frame length determination
591	B.2.3 Jitter budget
592	B.3 Example crosstalk computation for multiple disturbers, balanced-pair cable
594	B.4 10BASE-T guidelines B.4.1 System jitter budget B.4.2 Filter characteristics B.4.3 Notes for conformance testing B.4.3.1 Notes for 14.3.1.2.1 on differential output voltage
595	B.4.3.2 Note for 14.3.1.2.2 on transmitter differential output impedance B.4.3.3 Note for 14.3.1.2.3 on output timing jitter
596	B.4.3.4 General note on common-mode tests B.4.3.5 Note for 14.3.1.3.4 on receiver differential input impedance B.4.3.6 Note for 14.3.1.3.3 on receiver idle input behavior B.4.3.7 Note for 14.3.1.3.5 on receiver common-mode rejection
597	B.5 10BASE-F B.5.1 System jitter budget B.5.2 10BASE-FP fiber optic segment loss budget
600	Annex C (informative) State diagram, MAC sublayer
601	Annex D (informative) Application context, selected medium specifications D.1 Introduction D.2 Type 10BASE5 applications D.3 Type 10BASE2 applications
602	D.4 Type FOIRL and 10BASE-F applications; alternative fiber optic medium applications D.4.1 Alternative fiber types D.4.1.1 Theoretical coupling losses
603	D.4.1.2 Maximum launch power
604	D.4.2 Type 10BASE-FP applications using 50/125 µm fiber D.4.2.1 Coupled transmit power D.4.2.2 Star coupler loss
605	D.4.2.3 Collision detection D.5 10BASE-T use of cabling systems with a nominal differential characteristic impedance of 120 Ω
606	D.6 10BASE-T use of cabling systems with a nominal differential characteristic impedance of 150 Ω
608	Annex E (informative) Receiver wavelength design considerations (FOIRL)
609	Annex F (normative) Additional attributes required for systems F.1 Introduction F.1.1 Scope F.2 Objects/Attributes/Actions/Notifications F.2.1 TimeSinceSystemReset attribute
610	F.2.2 RepeaterResetTimeStamp attribute F.2.3 ResetSystemAction action
611	Annex G (normative) Additional material required for conformance testing G.1 Introduction G.1.1 Material in support of the aDataRateMismatches attribute
612	Annex H (normative) GDMO specifications for CSMA/CD managed objects
613	Annex 4A (normative) Simplified full duplex media access control 4A.1 Functional model of the MAC method 4A.1.1 Overview
614	4A.1.2 Full duplex operation 4A.1.2.1 Transmission 4A.1.2.2 Reception
615	4A.1.3 Relationships to the MAC client and Physical Layers 4A.2 Media access control (MAC) method: precise specification 4A.2.1 Introduction 4A.2.2 Overview of the procedural model 4A.2.2.1 Ground rules for the procedural model
616	4A.2.2.2 Use of Pascal in the procedural model 4A.2.2.3 Organization of the procedural model
621	4A.2.2.4 Layer management extensions to procedural model 4A.2.3 Packet transmission model 4A.2.3.1 Transmit data encapsulation 4A.2.3.2 Transmit media access management
622	4A.2.4 Frame reception model 4A.2.4.1 Receive data decapsulation
623	4A.2.4.2 Receive media access management 4A.2.5 Preamble generation 4A.2.6 Start frame sequence
624	4A.2.7 Global declarations 4A.2.7.1 Common constants, types, and variables
625	4A.2.7.2 Transmit state variables 4A.2.7.3 Receive state variables 4A.2.7.4 State variable initialization
626	4A.2.8 Frame transmission
629	4A.2.9 Frame reception
632	4A.2.10 Common procedures 4A.3 Interfaces to/from adjacent layers 4A.3.1 Overview 4A.3.2 MAC service 4A.3.2.1 MAC client transmit interface state diagram
633	4A.3.2.2 MAC client receive interface state diagram
636	4A.3.3 Services required from the Physical Layer
637	4A.4 Specific implementations 4A.4.1 Compatibility overview 4A.4.2 MAC parameters
639	IEEE Std 802.3™-2012, SECTION TWO Contents
677	21. Introduction to 100 Mb/s baseband networks, type 100BASE-T 21.1 Overview
678	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 21.5 State diagrams
679	21.5.1 Actions inside state blocks 21.5.2 State diagram variables 21.5.3 State transitions 21.5.4 Operators
681	21.6 Protocol implementation conformance statement (PICS) proforma 21.6.1 Introduction 21.6.2 Abbreviations and special symbols 21.6.3 Instructions for completing the PICS proforma
682	21.6.4 Additional information 21.6.5 Exceptional information 21.6.6 Conditional items
683	21.7 MAC delay constraints (exposed MII)
685	22. Reconciliation Sublayer (RS) and Media Independent Interface (MII) 22.1 Overview
686	22.1.1 Summary of major concepts 22.1.2 Application
687	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
688	22.2.1.1 Mapping of PLS_DATA.request 22.2.1.1.1 Function 22.2.1.1.2 Semantics of the service primitive 22.2.1.1.3 When generated
689	22.2.1.2 Mapping of PLS_DATA.indication 22.2.1.2.1 Function 22.2.1.2.2 Semantics of the service primitive 22.2.1.2.3 When generated 22.2.1.3 Mapping of PLS_CARRIER.indication 22.2.1.3.1 Function 22.2.1.3.2 Semantics of the service primitive 22.2.1.3.3 When generated
690	22.2.1.4 Mapping of PLS_SIGNAL.indication 22.2.1.4.1 Function 22.2.1.4.2 Semantics of the service primitive 22.2.1.4.3 When generated 22.2.1.5 Response to RX_ER indication from MII 22.2.1.6 Conditions for generation of TX_ER
691	22.2.1.7 Mapping of PLS_DATA_VALID.indication 22.2.1.7.1 Function 22.2.1.7.2 Semantics of the service primitive 22.2.1.7.3 When generated 22.2.2 MII signal functional specifications 22.2.2.1 TX_CLK (transmit clock) 22.2.2.2 RX_CLK (receive clock)
692	22.2.2.3 TX_EN (transmit enable) 22.2.2.4 TXD (transmit data)
693	22.2.2.5 TX_ER (transmit coding error)
694	22.2.2.6 Transmit direction LPI transition 22.2.2.7 RX_DV (Receive Data Valid) 22.2.2.8 RXD (receive data)
696	22.2.2.9 Receive direction LPI transition 22.2.2.10 RX_ER (receive error)
697	22.2.2.11 CRS (carrier sense) 22.2.2.12 COL (collision detected)
698	22.2.2.13 MDC (management data clock) 22.2.2.14 MDIO (management data input/output)
699	22.2.3 MII data stream 22.2.3.1 Inter-frame 22.2.3.2 Preamble and start of frame delimiter 22.2.3.2.1 Transmit case
700	22.2.3.2.2 Receive case
701	22.2.3.3 Data 22.2.3.4 End-of-Frame delimiter (EFD) 22.2.3.5 Handling of excess nibbles 22.2.4 Management functions
702	22.2.4.1 Control register (Register 0) 22.2.4.1.1 Reset
703	22.2.4.1.2 Loopback
704	22.2.4.1.3 Speed selection 22.2.4.1.4 Auto-Negotiation enable 22.2.4.1.5 Power down
705	22.2.4.1.6 Isolate 22.2.4.1.7 Restart Auto-Negotiation 22.2.4.1.8 Duplex mode 22.2.4.1.9 Collision test
706	22.2.4.1.10 Speed selection 22.2.4.1.11 Reserved bits 22.2.4.1.12 Unidirectional enable 22.2.4.2 Status register (Register 1) 22.2.4.2.1 100BASE-T4 ability 22.2.4.2.2 100BASE-X full duplex ability
708	22.2.4.2.3 100BASE-X half duplex ability 22.2.4.2.4 10 Mb/s full duplex ability 22.2.4.2.5 10 Mb/s half duplex ability 22.2.4.2.6 100BASE-T2 full duplex ability 22.2.4.2.7 100BASE-T2 half duplex ability 22.2.4.2.8 Unidirectional ability 22.2.4.2.9 MF preamble suppression ability 22.2.4.2.10 Auto-Negotiation complete
709	22.2.4.2.11 Remote fault 22.2.4.2.12 Auto-Negotiation ability 22.2.4.2.13 Link Status 22.2.4.2.14 Jabber detect 22.2.4.2.15 Extended capability
710	22.2.4.2.16 Extended status 22.2.4.3 Extended capability registers 22.2.4.3.1 PHY Identifier (Registers 2 and 3)
711	22.2.4.3.2 Auto-Negotiation advertisement (Register 4) 22.2.4.3.3 Auto-Negotiation link partner ability (Register 5) 22.2.4.3.4 Auto-Negotiation expansion (Register 6) 22.2.4.3.5 Auto-Negotiation Next Page (Register 7) 22.2.4.3.6 Auto-Negotiation link partner Received Next Page (Register 8) 22.2.4.3.7 MASTER-SLAVE control register (Register 9) 22.2.4.3.8 MASTER-SLAVE status register (Register 10) 22.2.4.3.9 PSE Control register (Register 11)
712	22.2.4.3.10 PSE Status register (Register 12) 22.2.4.3.11 MMD access control register (Register 13) 22.2.4.3.12 MMD access address data register (Register 14)
713	22.2.4.3.13 PHY specific registers 22.2.4.4 Extended Status register (Register 15) 22.2.4.4.1 1000BASE-X full duplex ability
714	22.2.4.4.2 1000BASE-X half duplex ability 22.2.4.4.3 1000BASE-T full duplex ability 22.2.4.4.4 1000BASE-T half duplex ability 22.2.4.4.5 Reserved bits 22.2.4.5 Management frame structure 22.2.4.5.1 IDLE (IDLE condition) 22.2.4.5.2 PRE (preamble)
715	22.2.4.5.3 ST (start of frame) 22.2.4.5.4 OP (operation code) 22.2.4.5.5 PHYAD (PHY Address) 22.2.4.5.6 REGAD (Register Address) 22.2.4.5.7 TA (turnaround) 22.2.4.5.8 DATA (data)
716	22.3 Signal timing characteristics 22.3.1 Signals that are synchronous to TX_CLK 22.3.1.1 TX_EN 22.3.1.2 TXD 22.3.1.3 TX_ER 22.3.2 Signals that are synchronous to RX_CLK
717	22.3.2.1 RX_DV 22.3.2.2 RXD 22.3.2.3 RX_ER 22.3.3 Signals that have no required clock relationship 22.3.3.1 CRS 22.3.3.2 COL 22.3.4 MDIO timing relationship to MDC
718	22.4 Electrical characteristics 22.4.1 Signal levels
719	22.4.2 Signal paths 22.4.3 Driver characteristics 22.4.3.1 DC characteristics 22.4.3.2 AC characteristics
720	22.4.4 Receiver characteristics 22.4.4.1 Voltage thresholds 22.4.4.2 Input current 22.4.4.3 Input capacitance 22.4.5 Cable characteristics
721	22.4.5.1 Conductor size 22.4.5.2 Characteristic impedance 22.4.5.3 Delay
722	22.4.5.4 Delay variation 22.4.5.5 Shielding 22.4.5.6 DC resistance 22.4.6 Hot insertion and removal 22.5 Power supply 22.5.1 Supply voltage
723	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
724	22.6.3 Connector pin numbering 22.6.4 Clearance dimensions
725	22.6.5 Contact assignments
726	22.7 LPI assertion and detection
727	22.7.1 LPI messages 22.7.2 Transmit LPI state diagram 22.7.2.1 Conventions 22.7.2.2 Variables and counters
728	22.7.2.3 State diagram 22.7.3 Considerations for transmit system behavior 22.7.3.1 Considerations for receive system behavior
729	22.8 Protocol implementation conformance statement (PICS) proforma for Clause 22, Reconciliation Sublayer (RS) and Media Independent Interface (MII) 22.8.1 Introduction 22.8.2 Identification 22.8.2.1 Implementation identification 22.8.2.2 Protocol summary
730	22.8.2.3 Major capabilities/options 22.8.3 PICS proforma tables for reconciliation sublayer and media independent interface 22.8.3.1 Mapping of PLS service primitives 22.8.3.2 MII signal functional specifications (continued)
732	22.8.3.3 LPI functions
733	22.8.3.4 Frame structure 22.8.3.5 Management functions (continued)
737	22.8.3.6 Signal timing characteristics
738	22.8.3.7 Electrical characteristics (continued)
740	22.8.3.8 Power supply 22.8.3.9 Mechanical characteristics
741	23. Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer and baseband medium, type 100BASE-T4 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
742	23.1.4.1 Summary of Physical Coding Sublayer (PCS) specification
744	23.1.4.2 Summary of physical medium attachment (PMA) specification 23.1.5 Application of 100BASE-T4 23.1.5.1 Compatibility considerations
745	23.1.5.2 Incorporating the 100BASE-T4 PHY into a DTE 23.1.5.3 Use of 100BASE-T4 PHY for point-to-point communication 23.1.5.4 Support for Auto-Negotiation 23.2 PCS functional specifications 23.2.1 PCS functions 23.2.1.1 PCS Reset function
746	23.2.1.2 PCS Transmit function
747	23.2.1.2.1 DC balance encoding rules 23.2.1.3 PCS Receive function
748	23.2.1.3.1 Error-detecting rules
749	23.2.1.4 PCS Error Sense function 23.2.1.5 PCS Carrier Sense function 23.2.1.6 PCS Collision Presence function
750	23.2.2 PCS interfaces 23.2.2.1 PCS–MII interface signals 23.2.2.2 PCS–Management entity signals 23.2.3 Frame structure
751	23.2.4 PCS state diagrams 23.2.4.1 PCS state diagram constants
752	23.2.4.2 PCS state diagram variables
755	23.2.4.3 PCS state diagram timer 23.2.4.4 PCS state diagram functions
757	23.2.4.5 PCS state diagrams
759	23.2.5 PCS electrical specifications 23.3 PMA service interface
760	23.3.1 PMA_TYPE.indication 23.3.1.1 Semantics of the service primitive 23.3.1.2 When generated 23.3.1.3 Effect of receipt 23.3.2 PMA_UNITDATA.request 23.3.2.1 Semantics of the service primitive
761	23.3.2.2 When generated 23.3.2.3 Effect of receipt 23.3.3 PMA_UNITDATA.indication 23.3.3.1 Semantics of the service primitive 23.3.3.2 When generated
762	23.3.3.3 Effect of receipt 23.3.4 PMA_CARRIER.indication 23.3.4.1 Semantics of the service primitive 23.3.4.2 When generated 23.3.4.3 Effect of receipt 23.3.5 PMA_LINK.indication 23.3.5.1 Semantics of the service primitive 23.3.5.2 When generated 23.3.5.3 Effect of receipt
763	23.3.6 PMA_LINK.request 23.3.6.1 Semantics of the service primitive 23.3.6.2 Default value of parameter link_control 23.3.6.3 When generated 23.3.6.4 Effect of receipt
764	23.3.7 PMA_RXERROR.indication 23.3.7.1 Semantics of the service primitive 23.3.7.2 When generated 23.3.7.3 Effect of receipt 23.4 PMA functional specifications 23.4.1 PMA functions 23.4.1.1 PMA Reset function
765	23.4.1.2 PMA Transmit function
766	23.4.1.3 PMA Receive function 23.4.1.4 PMA Carrier Sense function
767	23.4.1.5 Link Integrity function 23.4.1.6 PMA Align function
768	23.4.1.7 Clock Recovery function 23.4.2 PMA interface messages
769	23.4.3 PMA state diagrams 23.4.3.1 PMA constants
770	23.4.3.2 State diagram variables 23.4.3.3 State diagram timers
771	23.4.3.4 State diagram counters 23.4.3.5 Link Integrity state diagram 23.5 PMA electrical specifications 23.5.1 PMA-to-MDI interface characteristics 23.5.1.1 Isolation requirement
772	23.5.1.2 Transmitter specifications 23.5.1.2.1 Peak differential output voltage
773	23.5.1.2.2 Differential output templates
777	23.5.1.2.3 Differential output ISI (intersymbol interference)
779	23.5.1.2.4 Transmitter differential output impedance
780	23.5.1.2.5 Output timing jitter 23.5.1.2.6 Transmitter impedance balance
781	23.5.1.2.7 Common-mode output voltage 23.5.1.2.8 Transmitter common-mode rejection
782	23.5.1.2.9 Transmitter fault tolerance 23.5.1.2.10 Transmit clock frequency 23.5.1.3 Receiver specifications
783	23.5.1.3.1 Receiver differential input signals
784	23.5.1.3.2 Receiver differential noise immunity 23.5.1.3.3 Receiver differential input impedance 23.5.1.3.4 Common-mode rejection
785	23.5.1.3.5 Receiver fault tolerance 23.5.1.3.6 Receiver frequency tolerance 23.5.2 Power consumption 23.6 Link segment characteristics 23.6.1 Cabling
786	23.6.2 Link transmission parameters 23.6.2.1 Insertion loss 23.6.2.2 Differential characteristic impedance 23.6.2.3 Coupling parameters 23.6.2.3.1 Differential Near-End Crosstalk (NEXT) loss 23.6.2.3.2 Multiple-disturber NEXT (MDNEXT) loss
787	23.6.2.3.3 Equal Level Far-End Crosstalk (ELFEXT) loss 23.6.2.3.4 Multiple-disturber ELFEXT (MDELFEXT) loss 23.6.2.4 Delay 23.6.2.4.1 Maximum link delay 23.6.2.4.2 Maximum link delay per meter
788	23.6.2.4.3 Difference in link delays 23.6.3 Noise 23.6.3.1 Near-End Crosstalk 23.6.3.2 Far-End Crosstalk
789	23.6.4 Installation practice 23.6.4.1 Connector installation practices 23.6.4.2 Disallow use of Category 3 cable with more than four pairs 23.6.4.3 Allow use of Category 5 jumpers with up to 25 pairs 23.7 MDI specification 23.7.1 MDI connectors
790	23.7.2 Crossover function 23.8 System considerations
791	23.9 Environmental specifications 23.9.1 General safety 23.9.2 Network safety
792	23.9.2.1 Installation 23.9.2.2 Grounding 23.9.2.3 Installation and maintenance guidelines 23.9.2.4 Telephony voltages
793	23.9.3 Environment 23.9.3.1 Electromagnetic emission 23.9.3.2 Temperature and humidity 23.10 PHY labeling 23.11 Timing summary 23.11.1 Timing references
794	23.11.2 Definitions of controlled parameters
796	23.11.3 Table of required timing values
804	23.12 Protocol implementation conformance statement (PICS) proforma for Clause 23, Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer, and baseband medium, type 100BASE-T4 23.12.1 Introduction 23.12.2 Identification 23.12.2.1 Implementation identification 23.12.2.2 Protocol summary
805	23.12.3 Major capabilities/options 23.12.4 PICS proforma tables for the Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer and baseband medium, type 100BASE-T4 23.12.4.1 Compatibility considerations 23.12.4.2 PCS Transmit functions
806	23.12.4.3 PCS Receive functions 23.12.4.4 Other PCS functions (continued)
807	23.12.4.5 PCS state diagram variables
808	23.12.4.6 PMA service interface 23.12.4.7 PMA Transmit functions (continued)
809	23.12.4.8 PMA Receive functions 23.12.4.9 Link Integrity functions
810	23.12.4.10 PMA Align functions 23.12.4.11 Other PMA functions
811	23.12.4.12 Isolation requirements 23.12.4.13 PMA electrical requirements (continued)
814	23.12.4.14 Characteristics of the link segment (continued)
815	23.12.4.15 MDI requirements
816	23.12.4.16 General safety and environmental requirements
817	23.12.4.17 Timing requirements
819	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
820	24.1.3 Relationship of 100BASE-X to other standards 24.1.4 Summary of 100BASE-X sublayers 24.1.4.1 Physical Coding Sublayer (PCS)
821	24.1.4.2 Physical Medium Attachment (PMA) sublayer 24.1.4.3 Physical Medium Dependent (PMD) sublayer 24.1.4.4 Auto-Negotiation 24.1.5 Inter-sublayer interfaces
823	24.1.6 Functional block diagram 24.1.7 State diagram conventions 24.2 Physical Coding Sublayer (PCS) 24.2.1 Service Interface (MII) 24.2.2 Functional requirements
825	24.2.2.1 Code-groups 24.2.2.1.1 Data code-groups
827	24.2.2.1.2 Idle code-groups 24.2.2.1.3 Control code-groups 24.2.2.1.4 Start-of-Stream delimiter (/J/K/) 24.2.2.1.5 End-of-Stream delimiter (/T/R/) 24.2.2.1.6 SLEEP code-groups (/P/) 24.2.2.1.7 Invalid code-groups 24.2.2.2 Encapsulation
828	24.2.2.3 Data delay
829	24.2.2.4 Mapping between MII and PMA 24.2.3 State variables 24.2.3.1 Constants
830	24.2.3.2 Variables
832	24.2.3.3 Functions 24.2.3.4 Timers
833	24.2.3.5 Messages
834	24.2.4 State diagrams 24.2.4.1 Transmit Bits 24.2.4.2 Transmit
835	24.2.4.3 Receive Bits 24.2.4.4 Receive
837	24.2.4.4.1 Detecting channel activity 24.2.4.4.2 Code-group alignment 24.2.4.4.3 Stream decoding
839	24.2.4.4.4 Stream termination
841	24.2.4.5 Carrier Sense 24.3 Physical Medium Attachment (PMA) sublayer 24.3.1 Service interface
842	24.3.1.1 PMA_TYPE.indicate 24.3.1.1.1 Semantics of the service primitive 24.3.1.1.2 When generated 24.3.1.1.3 Effect of receipt 24.3.1.2 PMA_UNITDATA.request 24.3.1.2.1 Semantics of the service primitive 24.3.1.2.2 When generated 24.3.1.2.3 Effect of receipt 24.3.1.3 PMA_UNITDATA.indicate 24.3.1.3.1 Semantics of the service primitive
843	24.3.1.3.2 When generated 24.3.1.3.3 Effect of receipt 24.3.1.4 PMA_CARRIER.indicate 24.3.1.4.1 Semantics of the service primitive 24.3.1.4.2 When generated 24.3.1.4.3 Effect of receipt 24.3.1.5 PMA_LINK.indicate 24.3.1.5.1 Semantics of the service primitive 24.3.1.5.2 When generated 24.3.1.5.3 Effect of receipt
844	24.3.1.6 PMA_LINK.request 24.3.1.6.1 Semantics of the service primitive 24.3.1.6.2 When generated 24.3.1.6.3 Effect of receipt 24.3.1.7 PMA_RXERROR.indicate 24.3.1.7.1 Semantics of the service primitive 24.3.1.7.2 When generated 24.3.1.7.3 Effect of receipt 24.3.1.8 PMA_LPILINKFAIL.request 24.3.1.8.1 Semantics of the service primitive
845	24.3.1.8.2 When generated 24.3.1.8.3 Effect of receipt 24.3.1.9 PMA_RXLPI.request 24.3.1.9.1 Semantics of the service primitive 24.3.1.9.2 When generated 24.3.1.9.3 Effect of receipt 24.3.2 Functional requirements
846	24.3.2.1 Far-End fault 24.3.2.2 Comparison to previous IEEE 802.3 PMAs
847	24.3.2.3 EEE capability 24.3.3 State variables 24.3.3.1 Constants 24.3.3.2 Variables
849	24.3.3.3 Functions 24.3.3.4 Timers 24.3.3.5 Counters 24.3.3.6 Messages 24.3.4 Process specifications and state diagrams 24.3.4.1 TX
850	24.3.4.2 RX 24.3.4.3 Carrier detect 24.3.4.4 Link Monitor
852	24.3.4.5 Far-End Fault Generate
853	24.3.4.6 Far-End Fault Detect
855	24.4 Physical Medium Dependent (PMD) sublayer service interface 24.4.1 PMD service interface 24.4.1.1 PMD_UNITDATA.request 24.4.1.1.1 Semantics of the service primitive 24.4.1.1.2 When generated 24.4.1.1.3 Effect of receipt 24.4.1.2 PMD_UNITDATA.indicate
856	24.4.1.2.1 Semantics of the service primitive 24.4.1.2.2 When generated 24.4.1.2.3 Effect of receipt 24.4.1.3 PMD_SIGNAL.indicate 24.4.1.3.1 Semantics of the service primitive 24.4.1.3.2 When generated 24.4.1.3.3 Effect of receipt 24.4.1.4 PMD_RXQUIET.request 24.4.1.4.1 Semantics of the service primitive 24.4.1.4.2 When generated
857	24.4.1.4.3 Effect of receipt 24.4.1.5 PMD_TXQUIET.request 24.4.1.5.1 Semantics of the service primitive 24.4.1.5.2 When generated 24.4.1.5.3 Effect of receipt 24.4.2 Medium Dependent Interface (MDI) 24.5 Compatibility considerations 24.6 Delay constraints
858	24.6.1 PHY delay constraints (exposed MII) 24.6.2 DTE delay constraints (unexposed MII)
859	24.6.3 Carrier de-assertion/assertion constraint (half duplex mode only) 24.7 Environmental specifications
860	24.8 Protocol implementation conformance statement (PICS) proforma for Clause 24, Physical Coding Sublayer (PCS) and Physical Medium Attachment (PMA) sublayer, type 100BASE-X 24.8.1 Introduction 24.8.2 Identification 24.8.2.1 Implementation identification 24.8.2.2 Protocol summary
861	24.8.2.3 Major capabilities/options 24.8.3 PICS proforma tables for the Physical Coding Sublayer (PCS) and Physical Medium Attachment (PMA) sublayer, type 100BASE-X 24.8.3.1 General compatibility considerations 24.8.3.2 PCS functions
862	24.8.3.3 PMA functions 24.8.3.4 Timing 24.8.3.5 LPI functions
865	25. Physical Medium Dependent (PMD) sublayer and baseband medium, type 100BASE-TX 25.1 Overview 25.1.1 State diagram conventions 25.2 Functional specifications 25.3 General exceptions 25.4 Specific requirements and exceptions
866	25.4.1 Change to 7.2.3.1.1, “Line state patterns”
867	25.4.2 Change to 7.2.3.3, “Loss of synchronization” 25.4.3 Change to Table 8-1, “Contact assignments for twisted pair” 25.4.4 Deletion of 8.3, “Station labelling” 25.4.5 Change to 9.1.7, “Worst case droop of transformer”
868	25.4.5.1 Equivalent system time constant
869	25.4.6 Replacement of 8.4.1, “UTP isolation requirements” 25.4.7 Addition to 10.1, “Receiver” 25.4.8 Change to 9.1.9, “Jitter”
870	25.4.9 Cable plant 25.4.9.1 Cabling system characteristics 25.4.9.2 Link transmission parameters 25.4.9.2.1 Insertion loss 25.4.9.2.2 Differential characteristic impedance 25.4.9.2.3 Return loss
871	25.4.9.2.4 Differential near-end crosstalk (NEXT) 25.4.9.3 Noise environment 25.4.9.3.1 External coupled noise 25.4.10 Replacement of 11.2, “Crossover function” 25.4.11 Change to A.2, “DDJ test pattern for baseline wander measurements” 25.4.12 Change to Annex G, “Stream cipher scrambling function” 25.4.13 Change to Annex I, “Common mode cable termination”
872	25.5 EEE capability 25.5.1 Change to TP-PMD 7.1.2 “Encoder” 25.5.1.1 State variables 25.5.1.1.1 Variables
873	25.5.1.1.2 Messages 25.5.1.2 State diagram 25.5.2 Change to TP-PMD 7.2.2 “Decoder” 25.5.2.1 State variables 25.5.2.1.1 Variables
874	25.5.2.1.2 Messages
875	25.5.2.2 State diagram 25.5.3 Changes to 10.1.1.1 “Signal_Detect assertion threshold” 25.5.4 Changes to 10.1.1.2 “Signal_Detect de-assertion threshold” 25.5.5 Change to 10.1.2 “Signal_Detect timing requirements on assertion” 25.5.6 Change to 10.1.3 “Signal_Detect timing requirements on de-assertion”
876	25.5.7 Changes to TP-PMD 10.2 “Transmitter” 25.5.8 Replace TP-PMD Table 4 “Signal_Detect summary” with Table 25–3
877	25.6 Protocol implementation conformance statement (PICS) proforma for Clause 25, Physical Medium Dependent (PMD) sublayer and baseband medium, type 100BASE-TX 25.6.1 Introduction 25.6.2 Identification 25.6.2.1 Implementation identification 25.6.2.2 Protocol summary
878	25.6.3 Major capabilities/options 25.6.3.1 DTE Power via MDI major capabilities/options
879	25.6.4 PICS proforma tables for the Physical Medium Dependent (PMD) sublayer and baseband medium, type 100BASE-TX 25.6.4.1 General compatibility considerations 25.6.4.2 PMD compliance 25.6.4.3 Characteristics of link segment
880	25.6.4.4 DTE Power via MDI compliance 25.6.4.5 LPI functions
883	26. Physical Medium Dependent (PMD) sublayer and baseband medium, type 100BASE-FX 26.1 Overview 26.2 Functional specifications 26.3 General exceptions
884	26.4 Specific requirements and exceptions 26.4.1 Medium Dependent Interface (MDI) 26.4.2 Crossover function
885	26.5 Protocol implementation conformance statement (PICS) proforma for Clause 26, Physical Medium Dependent (PMD) sublayer and baseband medium, type 100BASE-FX 26.5.1 Introduction 26.5.2 Identification 26.5.2.1 Implementation identification 26.5.3 Protocol summary
886	26.5.4 Major capabilities/options 26.5.5 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and baseband medium, type 100BASE-FX 26.5.5.1 General compatibility considerations 26.5.5.2 PMD compliance
887	27. Repeater for 100 Mb/s baseband networks 27.1 Overview 27.1.1 Scope 27.1.1.1 Repeater set
888	27.1.1.2 Repeater unit 27.1.1.3 Repeater classes 27.1.2 Application perspective 27.1.2.1 Objectives 27.1.2.2 Compatibility considerations
889	27.1.2.2.1 Internal segment compatibility 27.1.3 Relationship to PHY 27.2 PMA interface messages 27.3 Repeater functional specifications
890	27.3.1 Repeater functions 27.3.1.1 Signal restoration functional requirements 27.3.1.1.1 Signal amplification 27.3.1.1.2 Signal wave-shape restoration 27.3.1.1.3 Signal retiming 27.3.1.2 Data handling functional requirements 27.3.1.2.1 Data frame forwarding 27.3.1.2.2 Received code violations
891	27.3.1.3 Received event handling functional requirements 27.3.1.3.1 Received event handling 27.3.1.3.2 Preamble regeneration 27.3.1.3.3 Start-of-packet propagation delay 27.3.1.3.4 Start-of-packet variability 27.3.1.4 Collision handling functional requirements 27.3.1.4.1 Collision detection 27.3.1.4.2 Jam generation
892	27.3.1.4.3 Collision-jam propagation delay 27.3.1.4.4 Cessation-of-collision Jam propagation delay 27.3.1.5 Error handling functional requirements 27.3.1.5.1 100BASE-X and 100BASE-T2 carrier integrity functional requirements
893	27.3.1.5.2 Speed handling 27.3.1.6 Partition functional requirements
894	27.3.1.7 Receive jabber functional requirements 27.3.2 Detailed repeater functions and state diagrams 27.3.2.1 State diagram variables 27.3.2.1.1 Constants
895	27.3.2.1.2 Variables
898	27.3.2.1.3 Functions 27.3.2.1.4 Timers
899	27.3.2.1.5 Counters 27.3.2.1.6 Port designation
900	27.3.2.2 State diagrams
908	27.4 Repeater electrical specifications 27.4.1 Electrical isolation 27.5 Environmental specifications 27.5.1 General safety 27.5.2 Network safety 27.5.2.1 Installation 27.5.2.2 Grounding
909	27.5.2.3 Installation and maintenance guidelines 27.5.3 Electrical isolation 27.5.3.1 Environment A requirements 27.5.3.2 Environment B requirements 27.5.4 Reliability
910	27.5.5 Environment 27.5.5.1 Electromagnetic emission 27.5.5.2 Temperature and humidity 27.6 Repeater labeling
911	27.7 Protocol implementation conformance statement (PICS) proforma for Clause 27, Repeater for 100 Mb/s baseband networks 27.7.1 Introduction 27.7.2 Identification 27.7.2.1 Implementation identification 27.7.2.2 Protocol summary
912	27.7.3 Major capabilities/options 27.7.4 PICS proforma tables for the repeater for 100 Mb/s baseband networks 27.7.4.1 Compatibility considerations
913	27.7.4.2 Repeater functions 27.7.4.3 Signal Restoration function
914	27.7.4.4 Data Handling function 27.7.4.5 Receive Event Handling function (continued)
915	27.7.4.6 Collision Handling function
916	27.7.4.7 Error Handling function 27.7.4.8 Partition functions (continued)
917	27.7.4.9 Receive Jabber function
918	27.7.4.10 Repeater state diagrams 27.7.4.11 Repeater electrical
919	27.7.4.12 Repeater labeling
921	28. Physical Layer link signaling for Auto-Negotiation on twisted pair 28.1 Overview 28.1.1 Scope
922	28.1.2 Application perspective/objectives 28.1.3 Relationship to architectural layering
923	28.1.4 Compatibility considerations
924	28.1.4.1 Interoperability with existing 10BASE-T devices 28.1.4.2 Interoperability with Auto-Negotiation compatible devices 28.1.4.3 Cabling compatibility with Auto-Negotiation 28.2 Functional specifications
925	28.2.1 Transmit function requirements 28.2.1.1 Link pulse transmission 28.2.1.1.1 FLP burst encoding
926	28.2.1.1.2 Transmit timing
927	28.2.1.2 Link codeword encoding 28.2.1.2.1 Selector Field 28.2.1.2.2 Technology Ability Field
928	28.2.1.2.3 Extended Next Page 28.2.1.2.4 Remote Fault 28.2.1.2.5 Acknowledge 28.2.1.2.6 Next Page
929	28.2.1.3 Transmit Switch function 28.2.2 Receive function requirements 28.2.2.1 FLP Burst ability detection and decoding
930	28.2.2.2 NLP detection 28.2.2.3 Receive Switch function
931	28.2.2.4 Link codeword matching 28.2.3 Arbitration function requirements 28.2.3.1 Parallel detection function 28.2.3.2 Renegotiation function
932	28.2.3.3 Priority Resolution function 28.2.3.4 Next Page function
933	28.2.3.4.1 Next Page encodings
934	28.2.3.4.2 Extended Next Page encodings 28.2.3.4.3 Next Page
935	28.2.3.4.4 Acknowledge 28.2.3.4.5 Message Page 28.2.3.4.6 Acknowledge 2 28.2.3.4.7 Toggle 28.2.3.4.8 Message Page encoding 28.2.3.4.9 Message Code Field 28.2.3.4.10 Unformatted Page encoding
936	28.2.3.4.11 Unformatted Code Field 28.2.3.4.12 Extended Unformatted Code Field 28.2.3.4.13 Use of Next Pages 28.2.3.4.14 MII register requirements 28.2.3.5 Remote fault sensing function
937	28.2.4 Management function requirements 28.2.4.1 Media Independent Interface 28.2.4.1.1 MII control register 28.2.4.1.2 MII status register
938	28.2.4.1.3 Auto-Negotiation advertisement register (Register 4) (R/W) 28.2.4.1.4 Auto-Negotiation Link Partner ability register (Register 5) (RO)
939	28.2.4.1.5 Auto-Negotiation expansion register (Register 6) (RO)
941	28.2.4.1.6 Auto-Negotiation Next Page transmit register (Register 7) (R/W) 28.2.4.1.7 Auto-Negotiation Link Partner Received Next Page register (Register 8) (RO)
942	28.2.4.1.8 State diagram variable to MII register mapping
943	28.2.4.2 Auto-Negotiation managed object class 28.2.5 Absence of management function 28.2.6 Technology-Dependent Interface 28.2.6.1 PMA_LINK.indication 28.2.6.1.1 Semantics of the service primitive
944	28.2.6.1.2 When generated 28.2.6.1.3 Effect of receipt 28.2.6.2 PMA_LINK.request 28.2.6.2.1 Semantics of the service primitive 28.2.6.2.2 When generated 28.2.6.2.3 Effect of receipt 28.2.6.3 PMA_LINKPULSE.request
945	28.2.6.3.1 Semantics of the service primitive 28.2.6.3.2 When generated 28.2.6.3.3 Effect of receipt 28.3 State diagrams and variable definitions
946	28.3.1 State diagram variables
952	28.3.2 State diagram timers
955	28.3.3 State diagram counters
956	28.3.4 State diagrams
959	28.4 Electrical specifications
960	28.5 Protocol implementation conformance statement (PICS) proforma for Clause 28, Physical Layer link signaling for Auto-Negotiation on twisted pair 28.5.1 Introduction 28.5.2 Identification 28.5.2.1 Implementation identification 28.5.2.2 Protocol summary
961	28.5.3 Major capabilities/options 28.5.4 PICS proforma tables for Physical Layer link signaling for Auto-Negotiation on twisted pair 28.5.4.1 Scope
962	28.5.4.2 Auto-Negotiation functions 28.5.4.3 Transmit function requirements (continued)
964	28.5.4.4 Receive function requirements
965	28.5.4.5 Arbitration functions (continued)
968	28.5.4.6 Management function requirements (continued)
970	28.5.4.7 Technology-dependent interface (continued)
971	28.5.4.8 State diagrams (continued)
972	28.5.4.9 Electrical characteristics 28.5.4.10 Auto-Negotiation annexes (continued)
975	28.6 Auto-Negotiation expansion
977	29. System considerations for multisegment 100BASE-T networks 29.1 Overview
978	29.1.1 Single collision domain multisegment networks
979	29.1.2 Repeater usage 29.2 Transmission System Model 1 29.3 Transmission System Model 2
981	29.3.1 Round-trip collision delay 29.3.1.1 Worst-case path delay value (PDV) selection
982	29.3.1.2 Worst-case PDV calculation
983	29.4 Full duplex 100 Mb/s topology limitations
985	30. Management 30.1 Overview
986	30.1.1 Scope 30.1.2 Relationship to objects in IEEE 802.1F 30.1.3 Systems management overview
987	30.1.4 Management model
988	30.2 Managed objects 30.2.1 Introduction 30.2.2 Overview of managed objects 30.2.2.1 Text description of managed objects
992	30.2.2.2 Functions to support management 30.2.2.2.1 DTE MAC sublayer functions
993	30.2.2.2.2 Repeater functions
995	30.2.3 Containment
998	30.2.4 Naming 30.2.5 Capabilities
1021	30.3 Layer management for DTEs 30.3.1 MAC entity managed object class 30.3.1.1 MAC entity attributes 30.3.1.1.1 aMACID 30.3.1.1.2 aFramesTransmittedOK 30.3.1.1.3 aSingleCollisionFrames 30.3.1.1.4 aMultipleCollisionFrames
1022	30.3.1.1.5 aFramesReceivedOK 30.3.1.1.6 aFrameCheckSequenceErrors 30.3.1.1.7 aAlignmentErrors 30.3.1.1.8 aOctetsTransmittedOK
1023	30.3.1.1.9 aFramesWithDeferredXmissions 30.3.1.1.10 aLateCollisions 30.3.1.1.11 aFramesAbortedDueToXSColls
1024	30.3.1.1.12 aFramesLostDueToIntMACXmitError 30.3.1.1.13 aCarrierSenseErrors 30.3.1.1.14 aOctetsReceivedOK 30.3.1.1.15 aFramesLostDueToIntMACRcvError
1025	30.3.1.1.16 aPromiscuousStatus 30.3.1.1.17 aReadMulticastAddressList 30.3.1.1.18 aMulticastFramesXmittedOK 30.3.1.1.19 aBroadcastFramesXmittedOK
1026	30.3.1.1.20 aFramesWithExcessiveDeferral 30.3.1.1.21 aMulticastFramesReceivedOK 30.3.1.1.22 aBroadcastFramesReceivedOK 30.3.1.1.23 aInRangeLengthErrors
1027	30.3.1.1.24 aOutOfRangeLengthField 30.3.1.1.25 aFrameTooLongErrors 30.3.1.1.26 aMACEnableStatus 30.3.1.1.27 aTransmitEnableStatus
1028	30.3.1.1.28 aMulticastReceiveStatus 30.3.1.1.29 aReadWriteMACAddress 30.3.1.1.30 aCollisionFrames 30.3.1.1.31 aMACCapabilities
1029	30.3.1.1.32 aDuplexStatus 30.3.1.1.33 aRateControlAbility 30.3.1.1.34 aRateControlStatus 30.3.1.1.35 aDeferControlAbility
1030	30.3.1.1.36 aDeferControlStatus 30.3.1.1.37 aMaxFrameLength 30.3.1.1.38 aSlowProtocolFrameLimit 30.3.1.2 MAC entity actions 30.3.1.2.1 acInitializeMAC
1031	30.3.1.2.2 acAddGroupAddress 30.3.1.2.3 acDeleteGroupAddress 30.3.1.2.4 acExecuteSelfTest 30.3.2 PHY devicePHY device managed object class 30.3.2.1 PHY device attributes 30.3.2.1.1 aPHYID
1032	30.3.2.1.2 aPhyType 30.3.2.1.3 aPhyTypeList
1033	30.3.2.1.4 aSQETestErrors 30.3.2.1.5 aSymbolErrorDuringCarrier
1034	30.3.2.1.6 aMIIDetect 30.3.2.1.7 aPhyAdminState
1035	30.3.2.1.8 aTransmitLPIMicroseconds 30.3.2.1.9 aReceiveLPIMicroseconds 30.3.2.1.10 aTransmitLPITransitions 30.3.2.1.11 aReceiveLPITransitions 30.3.2.2 PHY device actions 30.3.2.2.1 acPhyAdminControl
1036	30.3.3 MAC control entity object class 30.3.3.1 aMACControlID 30.3.3.2 aMACControlFunctionsSupported 30.3.3.3 aMACControlFramesTransmitted 30.3.3.4 aMACControlFramesReceived
1037	30.3.3.5 aUnsupportedOpcodesReceived 30.3.3.6 aPFCEnableStatus 30.3.4 PAUSE entity managed object class 30.3.4.1 aPAUSELinkDelayAllowance
1038	30.3.4.2 aPAUSEMACCtrlFramesTransmitted 30.3.4.3 aPAUSEMACCtrlFramesReceived 30.3.5 MPCP managed object class 30.3.5.1 MPCP Attributes 30.3.5.1.1 aMPCPID 30.3.5.1.2 aMPCPAdminState
1039	30.3.5.1.3 aMPCPMode 30.3.5.1.4 aMPCPLinkID 30.3.5.1.5 aMPCPRemoteMACAddress 30.3.5.1.6 aMPCPRegistrationState
1040	30.3.5.1.7 aMPCPMACCtrlFramesTransmitted 30.3.5.1.8 aMPCPMACCtrlFramesReceived 30.3.5.1.9 aMPCPTxGate
1041	30.3.5.1.10 aMPCPTxRegAck 30.3.5.1.11 aMPCPTxRegister 30.3.5.1.12 aMPCPTxRegRequest 30.3.5.1.13 aMPCPTxReport
1042	30.3.5.1.14 aMPCPRxGate 30.3.5.1.15 aMPCPRxRegAck 30.3.5.1.16 aMPCPRxRegister
1043	30.3.5.1.17 aMPCPRxRegRequest 30.3.5.1.18 aMPCPRxReport 30.3.5.1.19 aMPCPTransmitElapsed 30.3.5.1.20 aMPCPReceiveElapsed
1044	30.3.5.1.21 aMPCPRoundTripTime 30.3.5.1.22 aMPCPDiscoveryWindowsSent 30.3.5.1.23 aMPCPDiscoveryTimeout 30.3.5.1.24 aMPCPMaximumPendingGrants 30.3.5.1.25 aMPCPRecognizedMulticastIDs
1045	30.3.5.2 MPCP Actions 30.3.5.2.1 acMPCPAdminControl 30.3.6 OAM object class 30.3.6.1 OAM Attributes 30.3.6.1.1 aOAMID 30.3.6.1.2 aOAMAdminState 30.3.6.1.3 aOAMMode
1046	30.3.6.1.4 aOAMDiscoveryState 30.3.6.1.5 aOAMRemoteMACAddress 30.3.6.1.6 aOAMLocalConfiguration
1047	30.3.6.1.7 aOAMRemoteConfiguration 30.3.6.1.8 aOAMLocalPDUConfiguration 30.3.6.1.9 aOAMRemotePDUConfiguration
1048	30.3.6.1.10 aOAMLocalFlagsField 30.3.6.1.11 aOAMRemoteFlagsField 30.3.6.1.12 aOAMLocalRevision
1049	30.3.6.1.13 aOAMRemoteRevision 30.3.6.1.14 aOAMLocalState 30.3.6.1.15 aOAMRemoteState 30.3.6.1.16 aOAMRemoteVendorOUI
1050	30.3.6.1.17 aOAMRemoteVendorSpecificInfo 30.3.6.1.18 aOAMUnsupportedCodesTx 30.3.6.1.19 aOAMUnsupportedCodesRx
1051	30.3.6.1.20 aOAMInformationTx 30.3.6.1.21 aOAMInformationRx 30.3.6.1.22 aOAMUniqueEventNotificationTx
1052	30.3.6.1.23 aOAMDuplicateEventNotificationTx 30.3.6.1.24 aOAMUniqueEventNotificationRx 30.3.6.1.25 aOAMDuplicateEventNotificationRx
1053	30.3.6.1.26 aOAMLoopbackControlTx 30.3.6.1.27 aOAMLoopbackControlRx 30.3.6.1.28 aOAMVariableRequestTx 30.3.6.1.29 aOAMVariableRequestRx
1054	30.3.6.1.30 aOAMVariableResponseTx 30.3.6.1.31 aOAMVariableResponseRx 30.3.6.1.32 aOAMOrganizationSpecificTx
1055	30.3.6.1.33 aOAMOrganizationSpecificRx 30.3.6.1.34 aOAMLocalErrSymPeriodConfig 30.3.6.1.35 aOAMLocalErrSymPeriodEvent
1056	30.3.6.1.36 aOAMLocalErrFrameConfig 30.3.6.1.37 aOAMLocalErrFrameEvent 30.3.6.1.38 aOAMLocalErrFramePeriodConfig 30.3.6.1.39 aOAMLocalErrFramePeriodEvent
1057	30.3.6.1.40 aOAMLocalErrFrameSecsSummaryConfig 30.3.6.1.41 aOAMLocalErrFrameSecsSummaryEvent
1058	30.3.6.1.42 aOAMRemoteErrSymPeriodEvent 30.3.6.1.43 aOAMRemoteErrFrameEvent
1059	30.3.6.1.44 aOAMRemoteErrFramePeriodEvent 30.3.6.1.45 aOAMRemoteErrFrameSecsSummaryEvent
1060	30.3.6.1.46 aFramesLostDueToOAMError 30.3.6.2 OAM Actions 30.3.6.2.1 acOAMAdminControl 30.3.7 OMPEmulation managed object class 30.3.7.1 OMPEmulation Attributes 30.3.7.1.1 aOMPEmulationID
1061	30.3.7.1.2 aOMPEmulationType 30.3.7.1.3 aSLDErrors 30.3.7.1.4 aCRC8Errors 30.3.7.1.5 aGoodLLID 30.3.7.1.6 aONUPONcastLLID
1062	30.3.7.1.7 aOLTPONcastLLID 30.3.7.1.8 aBadLLID 30.3.8 EXTENSION entity managed object class 30.3.8.1 aEXTENSIONMACCtrlFramesTransmitted 30.3.8.2 aEXTENSIONMACCtrlFramesReceived
1063	30.3.8.3 aEXTENSIONMACCtrlStatus 30.4 Layer management for 10, 100, and 1000 Mb/s baseband repeaters 30.4.1 Repeater managed object class 30.4.1.1 Repeater attributes 30.4.1.1.1 aRepeaterID 30.4.1.1.2 aRepeaterType
1064	30.4.1.1.3 aRepeaterGroupCapacity 30.4.1.1.4 aGroupMap 30.4.1.1.5 aRepeaterHealthState 30.4.1.1.6 aRepeaterHealthText
1065	30.4.1.1.7 aRepeaterHealthData 30.4.1.1.8 aTransmitCollisions 30.4.1.2 Repeater actions 30.4.1.2.1 acResetRepeater
1066	30.4.1.2.2 acExecuteNonDisruptiveSelfTest 30.4.1.3 Repeater notifications 30.4.1.3.1 nRepeaterHealth 30.4.1.3.2 nRepeaterReset
1067	30.4.1.3.3 nGroupMapChange 30.4.2 Group managed object class 30.4.2.1 Group attributes 30.4.2.1.1 aGroupID 30.4.2.1.2 aGroupPortCapacity 30.4.2.1.3 aPortMap
1068	30.4.2.2 Group notifications 30.4.2.2.1 nPortMapChange 30.4.3 Repeater port managed object class 30.4.3.1 Port attributes 30.4.3.1.1 aPortID 30.4.3.1.2 aPortAdminState
1069	30.4.3.1.3 aAutoPartitionState 30.4.3.1.4 aReadableFrames 30.4.3.1.5 aReadableOctets 30.4.3.1.6 aFrameCheckSequenceErrors
1070	30.4.3.1.7 aAlignmentErrors 30.4.3.1.8 aFramesTooLong 30.4.3.1.9 aShortEvents
1071	30.4.3.1.10 aRunts 30.4.3.1.11 aCollisions 30.4.3.1.12 aLateEvents
1072	30.4.3.1.13 aVeryLongEvents 30.4.3.1.14 aDataRateMismatches
1073	30.4.3.1.15 aAutoPartitions 30.4.3.1.16 aIsolates 30.4.3.1.17 aSymbolErrorDuringPacket 30.4.3.1.18 aLastSourceAddress
1074	30.4.3.1.19 aSourceAddressChanges 30.4.3.1.20 aBursts 30.4.3.2 Port actions 30.4.3.2.1 acPortAdminControl 30.5 Layer management for medium attachment units (MAUs) 30.5.1 MAU managed object class
1075	30.5.1.1 MAU attributes 30.5.1.1.1 aMAUID 30.5.1.1.2 aMAUType
1079	30.5.1.1.3 aMAUTypeList 30.5.1.1.4 aMediaAvailable
1081	30.5.1.1.5 aLoseMediaCounter 30.5.1.1.6 aJabber
1082	30.5.1.1.7 aMAUAdminState 30.5.1.1.8 aBbMAUXmitRcvSplitType 30.5.1.1.9 aBroadbandFrequencies
1083	30.5.1.1.10 aFalseCarriers 30.5.1.1.11 aBIPErrorCount 30.5.1.1.12 aLaneMapping
1084	30.5.1.1.13 aIdleErrorCount 30.5.1.1.14 aPCSCodingViolation 30.5.1.1.15 aFECAbility 30.5.1.1.16 aFECmode
1085	30.5.1.1.17 aFECCorrectedBlocks 30.5.1.1.18 aFECUncorrectableBlocks
1086	30.5.1.1.19 aSNROpMarginChnlA 30.5.1.1.20 aSNROpMarginChnlB 30.5.1.1.21 aSNROpMarginChnlC 30.5.1.1.22 aSNROpMarginChnlD
1087	30.5.1.1.23 aEEESupportList 30.5.1.1.24 aLDFastRetrainCount 30.5.1.1.25 aLPFastRetrainCount 30.5.1.2 MAU actions 30.5.1.2.1 acResetMAU 30.5.1.2.2 acMAUAdminControl
1088	30.5.1.3 MAU notifications 30.5.1.3.1 nJabber 30.6 Management for link Auto-Negotiation 30.6.1 Auto-Negotiation managed object class 30.6.1.1 Auto-Negotiation attributes 30.6.1.1.1 aAutoNegID 30.6.1.1.2 aAutoNegAdminState
1089	30.6.1.1.3 aAutoNegRemoteSignaling 30.6.1.1.4 aAutoNegAutoConfig 30.6.1.1.5 aAutoNegLocalTechnologyAbility
1090	30.6.1.1.6 aAutoNegAdvertisedTechnologyAbility 30.6.1.1.7 aAutoNegReceivedTechnologyAbility 30.6.1.1.8 aAutoNegLocalSelectorAbility
1091	30.6.1.1.9 aAutoNegAdvertisedSelectorAbility 30.6.1.1.10 aAutoNegReceivedSelectorAbility 30.6.1.2 Auto-Negotiation actions 30.6.1.2.1 acAutoNegRestartAutoConfig
1092	30.6.1.2.2 acAutoNegAdminControl 30.7 Management for Link Aggregation 30.7.1 Aggregator managed object class
1093	30.7.1.1 Aggregator attributes 30.7.1.1.1 aAggID 30.7.1.1.2 aAggDescription 30.7.1.1.3 aAggName 30.7.1.1.4 aAggActorSystemID
1094	30.7.1.1.5 aAggActorSystemPriority 30.7.1.1.6 aAggAggregateOrIndividual 30.7.1.1.7 aAggActorAdminKey 30.7.1.1.8 aAggActorOperKey
1095	30.7.1.1.9 aAggMACAddress 30.7.1.1.10 aAggPartnerSystemID 30.7.1.1.11 aAggPartnerSystemPriority 30.7.1.1.12 aAggPartnerOperKey
1096	30.7.1.1.13 aAggAdminState 30.7.1.1.14 aAggOperState 30.7.1.1.15 aAggTimeOfLastOperChange
1097	30.7.1.1.16 aAggDataRate 30.7.1.1.17 aAggOctetsTxOK 30.7.1.1.18 aAggOctetsRxOK
1098	30.7.1.1.19 aAggFramesTxOK 30.7.1.1.20 aAggFramesRxOK 30.7.1.1.21 aAggMulticastFramesTxOK
1099	30.7.1.1.22 aAggMulticastFramesRxOK 30.7.1.1.23 aAggBroadcastFramesTxOK
1100	30.7.1.1.24 aAggBroadcastFramesRxOK 30.7.1.1.25 aAggFramesDiscardedOnTx
1101	30.7.1.1.26 aAggFramesDiscardedOnRx 30.7.1.1.27 aAggFramesWithTxErrors 30.7.1.1.28 aAggFramesWithRxErrors 30.7.1.1.29 aAggUnknownProtocolFrames
1102	30.7.1.1.30 aAggPortList 30.7.1.1.31 aAggLinkUpDownNotificationEnable 30.7.1.1.32 aAggCollectorMaxDelay
1103	30.7.1.2 Aggregator Notifications 30.7.1.2.1 nAggLinkUpNotification 30.7.1.2.2 nAggLinkDownNotification 30.7.2 Aggregation Port managed object class 30.7.2.1 Aggregation Port Attributes 30.7.2.1.1 aAggPortID
1104	30.7.2.1.2 aAggPortActorSystemPriority 30.7.2.1.3 aAggPortActorSystemID 30.7.2.1.4 aAggPortActorAdminKey 30.7.2.1.5 aAggPortActorOperKey
1105	30.7.2.1.6 aAggPortPartnerAdminSystemPriority 30.7.2.1.7 aAggPortPartnerOperSystemPriority 30.7.2.1.8 aAggPortPartnerAdminSystemID 30.7.2.1.9 aAggPortPartnerOperSystemID
1106	30.7.2.1.10 aAggPortPartnerAdminKey 30.7.2.1.11 aAggPortPartnerOperKey 30.7.2.1.12 aAggPortSelectedAggID
1107	30.7.2.1.13 aAggPortAttachedAggID 30.7.2.1.14 aAggPortActorPort 30.7.2.1.15 aAggPortActorPortPriority 30.7.2.1.16 aAggPortPartnerAdminPort
1108	30.7.2.1.17 aAggPortPartnerOperPort 30.7.2.1.18 aAggPortPartnerAdminPortPriority 30.7.2.1.19 aAggPortPartnerOperPortPriority 30.7.2.1.20 aAggPortActorAdminState
1109	30.7.2.1.21 aAggPortActorOperState 30.7.2.1.22 aAggPortPartnerAdminState 30.7.2.1.23 aAggPortPartnerOperState
1110	30.7.2.1.24 aAggPortAggregateOrIndividual 30.7.3 Aggregation Port Statistics managed object class 30.7.3.1 Aggregation Port Statistics attributes 30.7.3.1.1 aAggPortStatsID 30.7.3.1.2 aAggPortStatsLACPDUsRx 30.7.3.1.3 aAggPortStatsMarkerPDUsRx
1111	30.7.3.1.4 aAggPortStatsMarkerResponsePDUsRx 30.7.3.1.5 aAggPortStatsUnknownRx 30.7.3.1.6 aAggPortStatsIllegalRx
1112	30.7.3.1.7 aAggPortStatsLACPDUsTx 30.7.3.1.8 aAggPortStatsMarkerPDUsTx 30.7.3.1.9 aAggPortStatsMarkerResponsePDUsTx 30.7.4 Aggregation Port Debug Information managed object class 30.7.4.1 Aggregation Port Debug Information attributes 30.7.4.1.1 aAggPortDebugInformationID
1113	30.7.4.1.2 aAggPortDebugRxState 30.7.4.1.3 aAggPortDebugLastRxTime 30.7.4.1.4 aAggPortDebugMuxState
1114	30.7.4.1.5 aAggPortDebugMuxReason 30.7.4.1.6 aAggPortDebugActorChurnState
1115	30.7.4.1.7 aAggPortDebugPartnerChurnState
1116	30.7.4.1.8 aAggPortDebugActorChurnCount 30.7.4.1.9 aAggPortDebugPartnerChurnCount 30.7.4.1.10 aAggPortDebugActorSyncTransitionCount
1117	30.7.4.1.11 aAggPortDebugPartnerSyncTransitionCount 30.7.4.1.12 aAggPortDebugActorChangeCount 30.7.4.1.13 aAggPortDebugPartnerChangeCount 30.8 Management for WAN Interface Sublayer (WIS) 30.8.1 WIS managed object class 30.8.1.1 WIS attributes
1118	30.8.1.1.1 aWISID 30.8.1.1.2 aSectionStatus 30.8.1.1.3 aSectionSESThreshold 30.8.1.1.4 aSectionSESs 30.8.1.1.5 aSectionESs
1119	30.8.1.1.6 aSectionSEFSs 30.8.1.1.7 aSectionCVs 30.8.1.1.8 aJ0ValueTX 30.8.1.1.9 aJ0ValueRX
1120	30.8.1.1.10 aLineStatus 30.8.1.1.11 aLineSESThreshold 30.8.1.1.12 aLineSESs 30.8.1.1.13 aLineESs 30.8.1.1.14 aLineCVs
1121	30.8.1.1.15 aFarEndLineSESs 30.8.1.1.16 aFarEndLineESs 30.8.1.1.17 aFarEndLineCVs 30.8.1.1.18 aPathStatus
1122	30.8.1.1.19 aPathSESThreshold 30.8.1.1.20 aPathSESs 30.8.1.1.21 aPathESs 30.8.1.1.22 aPathCVs 30.8.1.1.23 aJ1ValueTX
1123	30.8.1.1.24 aJ1ValueRX 30.8.1.1.25 aFarEndPathStatus 30.8.1.1.26 aFarEndPathSESs 30.8.1.1.27 aFarEndPathESs
1124	30.8.1.1.28 aFarEndPathCVs 30.9 Management for DTE Power via MDI 30.9.1 PSE managed object class 30.9.1.1 PSE attributes 30.9.1.1.1 aPSEID 30.9.1.1.2 aPSEAdminState
1125	30.9.1.1.3 aPSEPowerPairsControlAbility 30.9.1.1.4 aPSEPowerPairs 30.9.1.1.5 aPSEPowerDetectionStatus
1126	30.9.1.1.6 aPSEPowerClassification 30.9.1.1.7 aPSEInvalidSignatureCounter 30.9.1.1.8 aPSEPowerDeniedCounter
1127	30.9.1.1.9 aPSEOverLoadCounter 30.9.1.1.10 aPSEShortCounter 30.9.1.1.11 aPSEMPSAbsentCounter 30.9.1.1.12 aPSEActualPower 30.9.1.1.13 aPSEPowerAccuracy
1128	30.9.1.1.14 aPSECumulativeEnergy 30.9.1.2 PSE actions 30.9.1.2.1 acPSEAdminControl 30.9.2 PD managed object class 30.9.2.1 PD attributes 30.9.2.1.1 aPDID 30.10 Layer management for Midspan 30.10.1 Midspan managed object class 30.10.1.1 Midspan attributes 30.10.1.1.1 aMidSpanID
1129	30.10.1.1.2 aMidSpanPSEGroupCapacity 30.10.1.1.3 aMidSpanPSEGroupMap 30.10.1.2 Midspan notifications 30.10.1.2.1 nMidSpanPSEGroupMapChange 30.10.2 PSE Group managed object class
1130	30.10.2.1 PSE Group attributes 30.10.2.1.1 aPSEGroupID 30.10.2.1.2 aPSECapacity 30.10.2.1.3 aPSEMap 30.10.2.2 PSE Group notifications 30.10.2.2.1 nPSEMapChange
1131	30.11 Layer Management for Physical Medium Entity (PME) 30.11.1 PAF managed object class 30.11.1.1 PAFAttributes 30.11.1.1.1 aPAFID 30.11.1.1.2 aPhyEnd 30.11.1.1.3 aPHYCurrentStatus
1132	30.11.1.1.4 aPAFSupported 30.11.1.1.5 aPAFAdminState
1133	30.11.1.1.6 aLocalPAFCapacity 30.11.1.1.7 aLocalPMEAvailable 30.11.1.1.8 aLocalPMEAggregate 30.11.1.1.9 aRemotePAFSupported
1134	30.11.1.1.10 aRemotePAFCapacity 30.11.1.1.11 aRemotePMEAggregate 30.11.2 PME managed object class 30.11.2.1 PME Attributes 30.11.2.1.1 aPMEID
1135	30.11.2.1.2 aPMEAdminState 30.11.2.1.3 aPMEStatus 30.11.2.1.4 aPMESNRMgn
1136	30.11.2.1.5 aTCCodingViolations 30.11.2.1.6 aProfileSelect 30.11.2.1.7 aOperatingProfile
1137	30.11.2.1.8 aPMEFECCorrectedBlocks 30.11.2.1.9 aPMEFECUncorrectableBlocks
1138	30.11.2.1.10 aTCCRCErrors 30.12 Layer Management for Link Layer Discovery Protocol (LLDP) 30.12.1 LLDP Configuration managed object class 30.12.1.1 LLDP Configuration attributes 30.12.1.1.1 aLldpXdot3PortConfigTLVsTxEnable 30.12.2 LLDP Local System Group managed object class 30.12.2.1 LLDP Local System Group attributes 30.12.2.1.1 aLldpXdot3LocPortAutoNegSupported
1139	30.12.2.1.2 aLldpXdot3LocPortAutoNegEnabled 30.12.2.1.3 aLldpXdot3LocPortAutoNegAdvertisedCap 30.12.2.1.4 aLldpXdot3LocPortOperMauType 30.12.2.1.5 aLldpXdot3LocPowerPortClass 30.12.2.1.6 aLldpXdot3LocPowerMDISupported
1140	30.12.2.1.7 aLldpXdot3LocPowerMDIEnabled 30.12.2.1.8 aLldpXdot3LocPowerPairControlable 30.12.2.1.9 aLldpXdot3LocPowerPairs 30.12.2.1.10 aLldpXdot3LocPowerClass 30.12.2.1.11 aLldpXdot3LocLinkAggStatus 30.12.2.1.12 aLldpXdot3LocLinkAggPortId
1141	30.12.2.1.13 aLldpXdot3LocMaxFrameSize 30.12.2.1.14 aLldpXdot3LocPowerType 30.12.2.1.15 aLldpXdot3LocPowerSource 30.12.2.1.16 aLldpXdot3LocPowerPriority 30.12.2.1.17 aLldpXdot3LocPDRequestedPowerValue
1142	30.12.2.1.18 aLldpXdot3LocPSEAllocatedPowerValue 30.12.2.1.19 aLldpXdot3LocResponseTime 30.12.2.1.20 aLldpXdot3LocReady
1143	30.12.2.1.21 aLldpXdot3LocReducedOperationPowerValue 30.12.2.1.22 aLldpXdot3LocTxTwSys 30.12.2.1.23 aLldpXdot3LocTxTwSysEcho 30.12.2.1.24 aLldpXdot3LocRxTwSys 30.12.2.1.25 aLldpXdot3LocRxTwSysEcho
1144	30.12.2.1.26 aLldpXdot3LocFbTwSys 30.12.2.1.27 aLldpXdot3TxDllReady 30.12.2.1.28 aLldpXdot3RxDllReady 30.12.2.1.29 aLldpXdot3LocDllEnabled
1145	30.12.3 LLDP Remote System Group managed object class 30.12.3.1 LLDP Remote System Group attributes 30.12.3.1.1 aLldpXdot3RemPortAutoNegSupported 30.12.3.1.2 aLldpXdot3RemPortAutoNegEnabled 30.12.3.1.3 aLldpXdot3RemPortAutoNegAdvertisedCap 30.12.3.1.4 aLldpXdot3RemPortOperMauType
1146	30.12.3.1.5 aLldpXdot3RemPowerPortClass 30.12.3.1.6 aLldpXdot3RemPowerMDISupported 30.12.3.1.7 aLldpXdot3RemPowerMDIEnabled 30.12.3.1.8 aLldpXdot3RemPowerPairControlable 30.12.3.1.9 aLldpXdot3RemPowerPairs
1147	30.12.3.1.10 aLldpXdot3RemPowerClass 30.12.3.1.11 aLldpXdot3RemLinkAggStatus 30.12.3.1.12 aLldpXdot3RemLinkAggPortId 30.12.3.1.13 aLldpXdot3RemMaxFrameSize 30.12.3.1.14 aLldpXdot3RemPowerType 30.12.3.1.15 aLldpXdot3RemPowerSource
1148	30.12.3.1.16 aLldpXdot3RemPowerPriority 30.12.3.1.17 aLldpXdot3RemPDRequestedPowerValue 30.12.3.1.18 aLldpXdot3RemPSEAllocatedPowerValue 30.12.3.1.19 aLldpXdot3RemTxTwSys
1149	30.12.3.1.20 aLldpXdot3RemTxTwSysEcho 30.12.3.1.21 aLldpXdot3RemRxTwSys 30.12.3.1.22 aLldpXdot3RemRxTwSysEcho 30.12.3.1.23 aLldpXdot3RemFbTwSys
1150	30.13 Management for oTimeSync entity 30.13.1 TimeSync entity managed object class 30.13.1.1 aTimeSyncCapabilityTX 30.13.1.2 aTimeSyncCapabilityRX 30.13.1.3 aTimeSyncDelayTXmax
1151	30.13.1.4 aTimeSyncDelayTXmin 30.13.1.5 aTimeSyncDelayRXmax 30.13.1.6 aTimeSyncDelayRXmin
1153	31. MAC Control 31.1 Overview 31.2 Layer architecture 31.3 Support by interlayer interfaces
1155	31.3.1 MA_CONTROL.request 31.3.1.1 Function 31.3.1.2 Semantics of the service primitive 31.3.1.3 When generated 31.3.1.4 Effect of receipt 31.3.2 MA_CONTROL.indication 31.3.2.1 Function 31.3.2.2 Semantics of the service primitive
1156	31.3.2.3 When generated 31.3.2.4 Effect of receipt 31.4 MAC Control frames 31.4.1 MAC Control frame format 31.4.1.1 Destination Address field
1157	31.4.1.2 Source Address field 31.4.1.3 Length/Type field 31.4.1.4 MAC Control Opcode field 31.4.1.5 MAC Control Parameters field 31.4.1.6 Reserved field 31.5 Opcode-independent MAC Control sublayer operation 31.5.1 Frame parsing and data frame reception
1158	31.5.2 Control frame reception 31.5.3 Opcode-independent MAC Control receive state diagram 31.5.3.1 Constants 31.5.3.2 Variables
1159	31.5.3.3 Messages
1160	31.5.3.4 Opcode-independent MAC Control Receive state diagram 31.6 Compatibility requirements 31.7 MAC Control client behavior
1161	31.8 Protocol implementation conformance statement (PICS) proforma for Clause 31, MAC Control 31.8.1 Introduction 31.8.2 Identification 31.8.2.1 Implementation identification 31.8.2.2 Protocol summary
1162	31.8.3 PICS proforma for MAC Control frames 31.8.3.1 Support by interlayer interfaces 31.8.3.2 MAC Control frame format 31.8.3.3 Opcode-independent MAC Control sublayer operation 31.8.3.4 Control opcode assignments
1163	32. Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer and baseband medium, type 100BASE-T2 32.1 Overview 32.1.1 Relation of 100BASE-T2 to other standards 32.1.2 Operation of 100BASE-T2
1167	32.1.2.1 Physical coding sublayer (PCS) 32.1.2.2 PMA sublayer 32.1.2.3 PHY Control function
1168	32.1.3 Application of 100BASE-T2 32.1.3.1 Compatibility considerations 32.1.3.2 Incorporating the 100BASE-T2 PHY into a DTE 32.1.3.3 Use of 100BASE-T2 PHY for point-to-point communication 32.1.3.4 Auto-Negotiation requirement 32.1.4 State diagram conventions 32.2 PHY Control functional specifications and service interface 32.2.1 PHY Control function
1169	32.2.2 PHY Control Service interface 32.2.2.1 PHYC_CONFIG.indication 32.2.2.1.1 Semantics of the primitive
1170	32.2.2.1.2 When generated 32.2.2.1.3 Effect of receipt 32.2.2.2 PHYC_TXMODE.indication 32.2.2.2.1 Semantics of the primitive 32.2.2.2.2 When generated 32.2.2.2.3 Effect of receipt 32.2.2.3 PHYC_RXSTATUS.request 32.2.2.3.1 Semantics of the primitive
1171	32.2.2.3.2 When generated 32.2.2.3.3 Effect of receipt 32.2.2.4 PHYC_REMRXSTATUS.request 32.2.2.4.1 Semantics of the primitive 32.2.2.4.2 When generated 32.2.2.4.3 Effect of receipt 32.2.3 State diagram variables
1172	32.2.4 State diagram timers
1173	32.2.5 PHY Control state diagram 32.3 PCS functional specifications
1175	32.3.1 PCS functions 32.3.1.1 PCS Reset function 32.3.1.2 PCS Transmit function 32.3.1.2.1 Side-stream scrambler polynomials
1176	32.3.1.2.2 Generation of bits San[2:0] and Sbn[2:0]
1177	32.3.1.2.3 Generation of sequences An and Bn
1180	32.3.1.3 PCS Receive function 32.3.1.3.1 Receiver descrambler polynomials 32.3.1.3.2 Decoding of quinary symbols
1181	32.3.1.4 PCS Carrier Sense function 32.3.1.5 PCS Collision Presence function 32.3.2 PCS interfaces 32.3.2.1 PCS–MII interface signals 32.3.2.2 PCS–management entity signals
1182	32.3.3 Frame structure 32.3.4 State variables 32.3.4.1 Variables
1184	32.3.4.2 Timer 32.3.4.3 Messages 32.3.5 State diagrams 32.3.5.1 PCS Transmit 32.3.5.2 PCS Receive
1185	32.3.5.3 PCS Carrier Sense 32.3.6 PCS electrical specifications
1188	32.4 PMA functional specifications and service interface 32.4.1 PMA functional specifications
1189	32.4.1.1 PMA functions 32.4.1.1.1 PMA Reset function 32.4.1.1.2 PMA Transmit function 32.4.1.1.3 PMA Receive function 32.4.1.1.4 Link Monitor function
1190	32.4.1.1.5 Clock Recovery function 32.4.1.2 PMA interface messages 32.4.1.2.1 MDI signals transmitted by the PHY 32.4.1.2.2 Signals received at the MDI
1191	32.4.1.3 PMA state diagram 32.4.1.3.1 State diagram variables 32.4.1.3.2 Timers 32.4.1.3.3 Link Monitor state diagram
1192	32.4.2 PMA service interface 32.4.2.1 PMA_TYPE.indication 32.4.2.1.1 Semantics of the service primitive 32.4.2.1.2 When generated 32.4.2.1.3 Effect of receipt 32.4.2.2 PMA_UNITDATA.request 32.4.2.2.1 Semantics of the service primitive
1193	32.4.2.2.2 When generated 32.4.2.2.3 Effect of receipt 32.4.2.3 PMA_UNITDATA.indication 32.4.2.3.1 Semantics of the service primitive 32.4.2.3.2 When generated 32.4.2.3.3 Effect of receipt 32.4.2.4 PMA_LINK.request 32.4.2.4.1 Semantics of the service primitive
1194	32.4.2.4.2 When generated 32.4.2.4.3 Effect of receipt 32.4.2.5 PMA_LINK.indication 32.4.2.5.1 Semantics of the service primitive 32.4.2.5.2 When generated 32.4.2.5.3 Effect of receipt 32.4.2.6 PMA_CARRIER.indication
1195	32.4.2.7 PMA_RXERROR.indication 32.4.2.8 PMA_RXSTATUS.request 32.5 Management functions 32.5.1 100BASE-T2 Use of Auto-Negotiation and MII Registers 8, 9, and 10
1196	32.5.2 Management functions
1197	32.5.3 PHY specific registers for 100BASE-T2 32.5.3.1 100BASE-T2 Control register (Register 9) 32.5.3.1.1 Transmitter test mode 32.5.3.1.2 Receive test mode
1198	32.5.3.1.3 MASTER-SLAVE Manual Configuration Enable 32.5.3.1.4 MASTER-SLAVE Manual Configuration Value 32.5.3.1.5 T2_Repeater/DTE Bit 32.5.3.1.6 Reserved bits 32.5.3.2 100BASE-T2 Status register (Register 10)
1199	32.5.3.2.1 MASTER-SLAVE Manual Configuration Fault 32.5.3.2.2 MASTER-SLAVE Configuration Resolution Complete 32.5.3.2.3 Local Receiver Status 32.5.3.2.4 Remote Receiver Status 32.5.3.2.5 Reserved bits 32.5.3.2.6 Idle Error count 32.5.4 Changes and additions to Auto-Negotiation (Clause 28) 32.5.4.1 Change to 28.2.4.1.3 (Auto-Negotiation Advertisement register)
1200	32.5.4.2 Use of Auto-Negotiation Next Page codes for 100BASE-T2 PHYs
1201	32.5.4.3 MASTER-SLAVE Configuration Resolution
1202	32.6 PMA electrical specifications 32.6.1 PMA-to-MDI interface characteristics 32.6.1.1 Isolation requirement 32.6.1.2 Transmitter electrical specifications
1203	32.6.1.2.1 Transmitter test modes 32.6.1.2.2 Peak differential output voltage and level distortion
1205	32.6.1.2.3 Maximum output droop 32.6.1.2.4 Differential output templates
1209	32.6.1.2.5 Transmitter timing jitter 32.6.1.2.6 Transmit clock frequency 32.6.1.3 Receiver electrical specifications
1210	32.6.1.3.1 Test channel
1221	32.6.1.3.2 Receiver test mode 32.6.1.3.3 Receiver differential input signals
1222	32.6.1.3.4 Receiver Alien NEXT tolerance 32.6.1.3.5 Receiver timing jitter 32.6.1.3.6 Common-mode noise rejection
1223	32.6.1.3.7 Receiver frequency tolerance 32.6.1.4 MDI Specifications 32.6.1.4.1 MDI differential impedance 32.6.1.4.2 MDI impedance balance
1224	32.6.1.4.3 MDI common-mode output voltage 32.6.1.4.4 MDI fault tolerance
1225	32.6.2 Power consumption 32.7 Link segment characteristics 32.7.1 Cabling
1226	32.7.2 Link transmission parameters 32.7.2.1 Insertion loss 32.7.2.2 Differential characteristic impedance 32.7.2.3 Coupling parameters 32.7.2.3.1 Differential near-end crosstalk (NEXT) loss
1227	32.7.2.3.2 Multiple-disturber NEXT (MDNEXT) loss 32.7.2.3.3 Equal level far-end crosstalk loss (ELFEXT) 32.7.2.3.4 Multiple-disturber ELFEXT (MDELFEXT) loss 32.7.2.3.5 10BASE-T NEXT loss to insertion loss ratio requirement
1228	32.7.2.4 Delay 32.7.2.4.1 Maximum link delay 32.7.2.4.2 Difference in link delays 32.7.3 Noise
1229	32.7.3.1 Near-end crosstalk noise
1230	32.7.3.2 Far-end crosstalk noise 32.7.3.3 External coupled noise 32.7.4 Installation practice 32.7.4.1 Connector installation practices 32.7.4.2 Restrictions on use of Category 3 cabling with more than four pairs 32.7.4.3 Restrictions on use of Category 5 cabling with up to 25 pairs
1231	32.8 MDI specification 32.8.1 MDI connectors
1232	32.8.2 Crossover function 32.9 System considerations 32.10 Environmental specifications 32.10.1 General safety 32.10.2 Network safety
1233	32.10.2.1 Installation 32.10.2.2 Grounding 32.10.2.3 Installation and maintenance guidelines 32.10.2.4 Telephony voltages
1234	32.10.3 Environment 32.10.3.1 Electromagnetic emission 32.10.3.2 Temperature and humidity 32.10.4 Cabling specifications 32.11 PHY labeling 32.12 Delay constraints 32.12.1 PHY delay constraints (exposed MII)
1235	32.12.2 DTE delay constraints (unexposed MII)
1236	32.13 Protocol implementation conformance statement (PICS) proforma for Clause 32, Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer and baseband medium, type 100BASE-T2 32.13.1 Identification 32.13.1.1 Implementation identification 32.13.1.2 Protocol summary
1237	32.13.2 Major capabilities/options 32.13.3 Compatibility considerations
1238	32.13.4 PHY control function
1239	32.13.5 Physical Coding Sublayer (PCS) or Physical Medium Attachment (PMA) sublayer 32.13.5.1 PCS transmit functions 32.13.5.2 PCS receive functions
1240	32.13.5.3 Other PCS functions
1241	32.13.5.4 PMA functions
1242	32.13.5.5 PMA service interface
1243	32.13.5.6 Management functions (continued)
1244	32.13.5.7 100BASE-T2 specific Auto-Negotiation requirements (continued)
1245	32.13.5.8 PMA electrical specifications (continued)
1252	32.13.5.9 Characteristics of the link segment (continued)
1254	32.13.5.10 MDI requirements 32.13.5.11 General safety and environmental requirements
1255	32.13.5.12 Timing requirements exposed MII 32.13.5.13 Timing requirements unexposed MII 32.13.5.14 Timing requirements: carrier assertion/deassertion constraint
1257	33. Data Terminal Equipment (DTE) Power via Media Dependent Interface (MDI) 33.1 Overview 33.1.1 Objectives
1258	33.1.2 Compatibility considerations 33.1.3 Relationship of DTE Power via MDI to the IEEE 802.3 Architecture
1259	33.1.4 Type 1 and Type 2 system parameters
1260	33.1.4.1 Type 2 cabling requirement 33.1.4.2 Type 1 and Type 2 channel requirement 33.2 Power sourcing equipment (PSE) 33.2.1 PSE location
1261	33.2.2 Midspan PSE types
1266	33.2.3 PI pin assignments
1267	33.2.4 PSE state diagrams 33.2.4.1 Overview 33.2.4.2 Conventions 33.2.4.3 Constants 33.2.4.4 Variables
1271	33.2.4.5 Timers 33.2.4.6 Functions
1273	33.2.4.7 State diagrams
1275	33.2.5 PSE detection of PDs 33.2.5.1 PSE detection validation circuit
1277	33.2.5.2 Detection probe requirements 33.2.5.3 Detection criteria
1278	33.2.5.4 Rejection criteria 33.2.5.5 Open circuit criteria 33.2.6 PSE classification of PDs and mutual identification
1280	33.2.6.1 PSE 1-Event Physical Layer classification
1281	33.2.6.2 PSE 2-Event Physical Layer classification
1283	33.2.7 Power supply output
1284	33.2.7.1 Output voltage in the POWER_ON state 33.2.7.2 Voltage transients
1285	33.2.7.3 Power feeding ripple and noise 33.2.7.4 Continuous output current capability in the POWER_ON state 33.2.7.5 Output current in POWER_UP mode
1286	33.2.7.6 Overload current 33.2.7.7 Output current—at short circuit condition
1288	33.2.7.8 Turn off time 33.2.7.9 Turn off voltage 33.2.7.10 Continuous output power capability in POWER_ON state 33.2.7.11 Current unbalance
1289	33.2.7.12 Power turn on time 33.2.7.13 PSE stability 33.2.8 Power supply allocation 33.2.9 PSE power removal 33.2.9.1 PSE Maintain Power Signature (MPS) requirements 33.2.9.1.1 PSE AC MPS component requirements
1290	33.2.9.1.2 PSE DC MPS component requirements
1291	33.3 Powered devices (PDs) 33.3.1 PD PI
1292	33.3.2 PD type descriptions 33.3.3 PD state diagram 33.3.3.1 Conventions
1293	33.3.3.2 Constants 33.3.3.3 Variables
1294	33.3.3.4 Timers
1295	33.3.3.5 State diagrams
1296	33.3.4 PD valid and non-valid detection signatures
1297	33.3.5 PD classifications
1298	33.3.5.1 PD 1-Event class signature 33.3.5.2 PD 2-Event class signature
1299	33.3.5.2.1 Mark Event behavior 33.3.6 PSE Type identification
1300	33.3.7 PD power
1301	33.3.7.1 Input voltage 33.3.7.2 Input average power 33.3.7.2.1 System stability test conditions during startup and steady state operation
1302	33.3.7.3 Input inrush current 33.3.7.4 Peak operating power
1303	33.3.7.5 Peak transient current
1304	33.3.7.6 PD behavior during transients at the PSE PI 33.3.7.7 Ripple and noise
1305	33.3.7.8 PD classification stability time 33.3.7.9 Backfeed voltage 33.3.8 PD Maintain Power Signature 33.4 Additional electrical specifications
1306	33.4.1 Isolation 33.4.1.1 Electrical isolation environments 33.4.1.1.1 Environment A requirements 33.4.1.1.2 Environment B requirements
1307	33.4.2 Fault tolerance 33.4.3 Impedance balance
1308	33.4.4 Common-mode output voltage
1310	33.4.5 Pair-to-pair output noise voltage
1311	33.4.6 Differential noise voltage 33.4.7 Return loss 33.4.8 100BASE-TX transformer droop
1312	33.4.9 Midspan PSE device additional requirements
1314	33.4.9.1 “Connector” or “telecom outlet” Midspan PSE device transmission requirements 33.4.9.1.1 Near End Crosstalk (NEXT) 33.4.9.1.2 Insertion loss 33.4.9.1.3 Return loss
1315	33.4.9.1.4 Work area or equipment cable Midspan PSE 33.4.9.2 Midspan signal path requirements 33.4.9.2.1 Alternative A Midspan PSE signal path transfer function
1316	33.5 Management function requirements 33.5.1 PSE registers 33.5.1.1 PSE Control register (Register 11) (R/W)
1317	33.5.1.1.1 Reserved bits (11.15:6) 33.5.1.1.2 Data Link Layer Classification capability (11.5) 33.5.1.1.3 Enable Physical Layer classification (11.4)
1318	33.5.1.1.4 Pair Control (11.3:2) 33.5.1.1.5 PSE enable (11.1:0) 33.5.1.2 PSE Status register (Register 12) (R/W)
1319	33.5.1.2.1 PSE Type electrical parameters (12.15) 33.5.1.2.2 Data Link Layer Classification Enabled (12.14)
1320	33.5.1.2.3 Physical Layer Classification Supported (12.13) 33.5.1.2.4 Power Denied or Removed (12.12) 33.5.1.2.5 Valid Signature (12.11) 33.5.1.2.6 Invalid Signature (12.10) 33.5.1.2.7 Short Circuit (12.9) 33.5.1.2.8 Overload (12.8) 33.5.1.2.9 MPS Absent (12.7) 33.5.1.2.10 PD Class (12.6:4)
1321	33.5.1.2.11 PSE Status (12.3:1) 33.5.1.2.12 Pair Control Ability (12.0) 33.6 Data Link Layer classification 33.6.1 TLV frame definition 33.6.2 Data Link Layer classification timing requirements
1322	33.6.3 Power control state diagrams 33.6.3.1 Conventions 33.6.3.2 Constants
1323	33.6.3.3 Variables
1324	33.6.3.4 Functions
1326	33.6.3.5 State diagrams
1327	33.6.4 State change procedure across a link
1328	33.6.4.1 PSE state change procedure across a link 33.6.4.2 PD state change procedure across a link
1329	33.7 Environmental 33.7.1 General safety 33.7.2 Network safety 33.7.3 Installation and maintenance guidelines 33.7.4 Patch panel considerations 33.7.5 Telephony voltages
1330	33.7.6 Electromagnetic emissions 33.7.7 Temperature and humidity 33.7.8 Labeling
1331	33.8 Protocol implementation conformance statement (PICS) proforma for Clause 33, DTE Power via MDI 33.8.1 Introduction 33.8.2 Identification 33.8.2.1 Implementation identification 33.8.2.2 Protocol summary
1332	33.8.2.3 PD Major capabilities/options
1333	33.8.2.4 PSE Major capabilities/options
1334	33.8.3 PICS proforma tables for DTE Power via MDI 33.8.3.1 Common device features 33.8.3.2 Power sourcing equipment
1339	33.8.3.3 Powered devices
1342	33.8.3.4 Electrical specifications applicable to the PSE and PD
1343	33.8.3.5 Electrical specifications applicable to the PSE
1344	33.8.3.6 Electrical specifications applicable to the PD
1345	33.8.3.7 Management function requirements
1348	33.8.3.8 Data Link Layer classification requirements
1349	33.8.3.9 Environmental specifications applicable to PSEs and PDs 33.8.3.10 Environmental specifications applicable to the PSE
1351	Annex 22A (informative) MII output delay, setup, and hold time budget 22A.1 System model
1352	22A.2 Signal transmission path characteristics
1353	22A.3 Budget calculation
1355	Annex 22B (informative) MII driver ac characteristics 22B.1 Implications of CMOS ASIC processes
1356	22B.2 Ro(min) and V, I values for operation from 5 V ± 10% supply 22B.3 Ro(min) and V, I values for operation from 3.3 V ± 0.3 V supply
1357	Annex 22C (informative) Measurement techniques for MII signal timing characteristics 22C.1 Measuring timing characteristics of source terminated signals 22C.2 Measuring timing characteristics of transmit signals at the MII 22C.3 Measuring timing characteristics of receive signals at the MII
1358	22C.4 Measuring timing characteristics of MDIO
1359	Annex 22D (informative) Clause 22 access to Clause 45 MMD registers 22D.1 Write operation 22D.2 Read operation 22D.3 MMD address operations 22D.3.1 Address
1360	22D.3.2 Data, no post increment 22D.3.3 Data, post increment on reads and writes 22D.3.4 Data, post increment on writes only 22D.4 PHY Coexistence and bus conflict avoidance
1361	Annex 23A (normative) 6T codewords
1363	Annex 23B (informative) Noise budget
1364	Annex 23C (informative) Use of cabling systems with a nominal differential characteristic impedance of 120 Ω
1365	Annex 27A (normative) Repeater delay consistency requirements
1367	Annex 28A (normative) Selector Field definitions
1368	Annex 28B (normative) IEEE 802.3 Selector Base Page definition 28B.1 Selector field value 28B.2 Technology Ability Field bit assignments
1369	28B.3 Priority resolution
1370	28B.4 Message Page transmission convention
1371	Annex 28C (normative) Next Page Message Code field definitions
1372	28C.1 Message code 0—Auto-Negotiation reserved code 1 28C.2 Message code 1—Null Message code 28C.3 Message code 2—Technology Ability extension code 1 28C.4 Message code 3—Technology Ability extension code 2
1373	28C.5 Message code 4—Remote fault number code 28C.6 Message code 5—Organizationally Unique Identifier (OUI) tag code
1374	28C.7 Message code 6—PHY identifier tag code 28C.8 Message code 2047—Auto-Negotiation reserved code 2 28C.9 Message code 7—100BASE-T2 technology message code 28C.10 Message code 8—1000BASE-T technology message code 28C.11 Message code 9—10GBASE-T and 1000BASE-T technology message code 28C.12 Message code 10—EEE technology message code
1375	28C.13 Message code 11—Organizationally Unique Identifier Tagged Message (Extended Next Page)
1376	Annex 28D (normative) Description of extensions to Clause 28 and associated annexes 28D.1 Introduction 28D.2 Extensions to Clause 28 28D.2.1 Extensions required for Clause 31 (full duplex) 28D.2.2 Extensions required for Clause 32 (100BASE-T2) 28D.3 Extensions for Clause 31
1377	28D.4 Extensions for Clause 32 (100BASE-T2) 28D.5 Extensions required for Clause 40 (1000BASE-T)
1378	28D.6 Extensions required for Clause 55 (10GBASE-T) 28D.7 Extensions required for Energy-Efficient Ethernet (Clause 78)
1379	Annex 29A (informative) DTE and repeater delay components 29A.1 DTE delay 29A.2 Repeater delay
1380	Annex 29B (informative) Recommended topology documentation
1381	Annex 30A (normative) GDMO specification for IEEE 802.3 managed object classes
1382	Annex 30B (normative) GDMO and ASN.1 definitions for management
1383	Annex 30C (normative) SNMP MIB definitions for Link Aggregation
1385	Annex 31A (normative) MAC Control opcode assignments
1390	Annex 31B (normative) MAC Control PAUSE operation 31B.1 PAUSE description 31B.2 Parameter semantics
1391	31B.3 Detailed specification of PAUSE operation 31B.3.1 Transmit operation 31B.3.2 Transmit state diagram for PAUSE operation 31B.3.2.1 Constants 31B.3.2.2 Variables
1392	31B.3.2.3 Functions 31B.3.2.4 Timers 31B.3.2.5 Messages 31B.3.2.6 Transmit state diagram for PAUSE operation 31B.3.3 Receive operation
1394	31B.3.4 Receive state diagram for PAUSE operation 31B.3.4.1 Constants 31B.3.4.2 Variables 31B.3.4.3 Timers
1395	31B.3.4.4 Receive state diagram (INITIATE MAC CONTROL FUNCTION) for PAUSE operation 31B.3.5 Status indication operation 31B.3.6 Indication state diagram for pause operation 31B.3.6.1 Constants 31B.3.6.2 Variables
1396	31B.3.6.3 Messages 31B.3.6.4 Indication state diagram for PAUSE operation 31B.3.7 Timing considerations for PAUSE operation
1398	31B.4 Protocol implementation conformance statement (PICS) proforma for MAC Control PAUSE operation 31B.4.1 Introduction 31B.4.2 Identification 31B.4.2.1 Implementation identification 31B.4.2.2 Protocol summary
1399	31B.4.3 Major capabilities/options 31B.4.4 PAUSE command requirements 31B.4.5 PAUSE command state diagram requirements
1400	31B.4.6 PAUSE command MAC timing considerations
1401	Annex 31C (normative) MAC Control organization specific extension operation 31C.1 Organization specific extension description 31C.2 Transmission of Extension MAC Control frame 31C.3 Receive operation
1402	31C.3.1 Receive state diagram (INITIATE MAC CONTROL FUNCTION) for EXTENSION operation
1403	31C.4 Protocol implementation conformance statement (PICS) proforma for MAC Control organization specific extension operation 31C.4.1 Introduction 31C.4.2 Identification 31C.4.2.1 Implementation identification 31C.4.2.2 Protocol summary 31C.4.3 EXTENSION command state diagram requirements
1404	Annex 31D (normative) MAC Control PFC operation 31D.1 PFC description 31D.2 Parameter semantics
1405	31D.3 PFC transmit
1406	31D.4 Transmit state diagram for PFC operation 31D.4.1 Constants
1407	31D.4.2 Variables 31D.4.3 Messages 31D.4.4 Transmit state diagram for PFC operation 31D.5 PFC receive 31D.6 Receive state diagram for PFC operation 31D.6.1 Constants
1408	31D.6.2 Variables
1409	31D.6.3 Receive state diagram (INITIATE MAC CONTROL FUNCTION) for PFC operation
1410	31D.7 Protocol implementation conformance statement (PICS) proforma for MAC Control PFC operation 31D.7.1 Introduction 31D.7.2 Identification 31D.7.2.1 Implementation identification 31D.7.2.2 Protocol summary
1411	31D.7.3 Major capabilities/options 31D.7.4 PFC command requirements 31D.7.5 PFC command state diagram requirements
1413	Annex 32A (informative) Use of cabling systems with nominal differential characteristic impedance of 120 Ω or 150 Ω
1415	Annex 33A (informative) PSE-PD stability 33A.1 Recommended PSE design guidelines and test setup
1417	33A.2 Recommended PD design guidelines
1419	IEEE Std 802.3™-2012, SECTION THREE Contents
1435	34. Introduction to 1000 Mb/s baseband network 34.1 Overview 34.1.1 Reconciliation Sublayer (RS) and Gigabit Media Independent Interface (GMII)
1436	34.1.2 Physical Layer signaling systems 34.1.3 Repeater 34.1.4 Auto-Negotiation, type 1000BASE-X 34.1.5 Auto-Negotiation, type 1000BASE-T 34.1.6 Management 34.2 State diagrams 34.3 Protocol implementation conformance statement (PICS) proforma
1439	35. Reconciliation Sublayer (RS) and Gigabit Media Independent Interface (GMII) 35.1 Overview
1440	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
1441	35.2.1 Mapping of GMII signals to PLS service primitives and Station Management 35.2.1.1 Mapping of PLS_DATA.request 35.2.1.1.1 Function 35.2.1.1.2 Semantics of the service primitive
1442	35.2.1.1.3 When generated 35.2.1.2 Mapping of PLS_DATA.indication 35.2.1.2.1 Function 35.2.1.2.2 Semantics of the service primitive 35.2.1.2.3 When generated 35.2.1.3 Mapping of PLS_CARRIER.indication 35.2.1.3.1 Function 35.2.1.3.2 Semantics of the service primitive
1443	35.2.1.3.3 When generated 35.2.1.4 Mapping of PLS_SIGNAL.indication 35.2.1.4.1 Function 35.2.1.4.2 Semantics of the service primitive 35.2.1.4.3 When generated 35.2.1.5 Response to error indications from GMII 35.2.1.6 Conditions for generation of TX_ER
1444	35.2.1.7 Mapping of PLS_DATA_VALID.indication 35.2.1.7.1 Function 35.2.1.7.2 Semantics of the service primitive 35.2.1.7.3 When generated 35.2.2 GMII signal functional specifications 35.2.2.1 GTX_CLK (1000 Mb/s transmit clock) 35.2.2.2 RX_CLK (receive clock)
1445	35.2.2.3 TX_EN (transmit enable) 35.2.2.4 TXD (transmit data)
1446	35.2.2.5 TX_ER (transmit coding error)
1448	35.2.2.6 Transmit direction LPI transition
1449	35.2.2.7 RX_DV (receive data valid) 35.2.2.8 RXD (receive data)
1451	35.2.2.9 RX_ER (receive error)
1452	35.2.2.10 Receive direction LPI transition
1453	35.2.2.11 CRS (carrier sense) 35.2.2.12 COL (collision detected)
1454	35.2.2.13 MDC (management data clock) 35.2.2.14 MDIO (management data input/output) 35.2.3 GMII data stream 35.2.3.1 Inter-frame
1455	35.2.3.2 Preamble and start of frame delimiter 35.2.3.2.1 Transmit case 35.2.3.2.2 Receive case
1456	35.2.3.3 Data 35.2.3.4 End-of-Frame delimiter 35.2.3.5 Carrier extension 35.2.3.6 Definition of Start of Packet and End of Packet Delimiters
1457	35.2.4 MAC delay constraints (with GMII) 35.2.5 Management functions 35.3 Signal mapping
1458	35.4 LPI Assertion and Detection
1459	35.4.1 LPI messages 35.4.2 Transmit LPI state diagram 35.4.2.1 Conventions 35.4.2.2 Variables and counters
1460	35.4.2.3 State diagram 35.4.3 Considerations for transmit system behavior 35.4.3.1 Considerations for receive system behavior 35.5 Electrical characteristics
1461	35.5.1 DC characteristics 35.5.2 AC characteristics 35.5.2.1 Signal Timing measurements
1462	35.5.2.2 GMII test circuit topology
1464	35.5.2.3 GMII ac specifications
1465	35.6 Protocol implementation conformance statement (PICS) proforma for Clause 35, Reconciliation Sublayer (RS) and Gigabit Media Independent Interface (GMII) 35.6.1 Introduction 35.6.2 Identification 35.6.2.1 Implementation identification
1466	35.6.2.2 Protocol summary 35.6.2.3 Major capabilities/options 35.6.3 PICS proforma tables for reconciliation sublayer and Gigabit Media Independent Interface
1467	35.6.3.1 Mapping of PLS service primitives 35.6.3.2 GMII signal functional specifications
1469	35.6.3.3 Data stream structure 35.6.3.4 LPI functions 35.6.3.5 Delay constraints 35.6.3.6 Management functions
1470	35.6.3.7 Electrical characteristics
1471	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
1472	36.1.4 Summary of 1000BASE-X sublayers 36.1.4.1 Physical Coding Sublayer (PCS) 36.1.4.2 Physical Medium Attachment (PMA) sublayer 36.1.4.3 Physical Medium Dependent (PMD) sublayer 36.1.5 Inter-sublayer interfaces
1473	36.1.6 Functional block diagram 36.1.7 State diagram conventions
1474	36.2 Physical Coding Sublayer (PCS) 36.2.1 PCS Interface (GMII)
1475	36.2.2 Functions within the PCS 36.2.3 Use of code-groups 36.2.4 8B/10B transmission code
1476	36.2.4.1 Notation conventions 36.2.4.2 Transmission order
1477	36.2.4.3 Valid and invalid code-groups 36.2.4.4 Running disparity rules
1478	36.2.4.5 Generating code-groups 36.2.4.6 Checking the validity of received code-groups 36.2.4.7 Ordered_sets
1483	36.2.4.7.1 Ordered_set rules
1484	36.2.4.8 /K28.5/ code-group considerations 36.2.4.9 Comma considerations
1485	36.2.4.10 Configuration (/C/) 36.2.4.11 Data (/D/) 36.2.4.12 IDLE (/I/) 36.2.4.13 Low Power Idle (LPI)
1486	36.2.4.14 Start_of_Packet (SPD) delimiter 36.2.4.15 End_of_Packet delimiter (EPD) 36.2.4.15.1 EPD rules 36.2.4.16 Carrier_Extend (/R/)
1487	36.2.4.16.1 Carrier_Extend rules 36.2.4.17 Error_Propagation (/V/) 36.2.4.18 Encapsulation 36.2.4.19 Mapping between GMII, PCS and PMA
1488	36.2.5 Detailed functions and state diagrams 36.2.5.1 State variables 36.2.5.1.1 Notation conventions
1489	36.2.5.1.2 Constants 36.2.5.1.3 Variables
1493	36.2.5.1.4 Functions
1494	36.2.5.1.5 Counters 36.2.5.1.6 Messages
1496	36.2.5.1.7 Timers
1497	36.2.5.2 State diagrams 36.2.5.2.1 Transmit 36.2.5.2.2 Receive 36.2.5.2.3 State variable function carrier_detect(x)
1503	36.2.5.2.4 Code-group stream decoding 36.2.5.2.5 Carrier sense 36.2.5.2.6 Synchronization
1505	36.2.5.2.7 Auto-Negotiation process
1506	36.2.5.2.8 LPI state diagram
1507	36.2.5.2.9 LPI status and management 36.3 Physical Medium Attachment (PMA) sublayer 36.3.1 Service Interface 36.3.1.1 PMA_UNITDATA.request 36.3.1.1.1 Semantics of the service primitive
1508	36.3.1.1.2 When generated 36.3.1.1.3 Effect of receipt 36.3.1.2 PMA_UNITDATA.indication 36.3.1.2.1 Semantics of the service primitive 36.3.1.2.2 When generated 36.3.1.2.3 Effect of receipt 36.3.2 Functions within the PMA
1509	36.3.2.1 Data delay 36.3.2.2 PMA transmit function 36.3.2.3 PMA receive function 36.3.2.4 Code-group alignment 36.3.3 A physical instantiation of the PMA Service Interface
1511	36.3.3.1 Required signals
1512	36.3.3.2 Summary of control signal usage 36.3.4 General electrical characteristics of the TBI 36.3.4.1 DC characteristics
1513	36.3.4.2 Valid signal levels 36.3.4.3 Rise and fall time definition 36.3.4.4 Output load
1514	36.3.5 TBI transmit interface electrical characteristics 36.3.5.1 Transmit data (tx_code-group) 36.3.5.2 TBI transmit interface timing
1515	36.3.6 TBI receive interface electrical characteristics 36.3.6.1 Receive data (rx_code-group) 36.3.6.2 Receive clock (PMA_RX_CLK, PMA_RX_CLK) 36.3.7 Loopback mode
1516	36.3.7.1 Receiver considerations 36.3.7.2 Transmitter considerations 36.3.8 Test functions 36.4 Compatibility considerations
1517	36.5 Delay constraints 36.5.1 MDI to GMII delay constraints
1518	36.5.2 DTE delay constraints (half duplex mode) 36.5.3 Carrier de-assertion/assertion constraint (half duplex mode) 36.6 Environmental specifications
1519	36.7 Protocol implementation conformance statement (PICS) proforma for Clause 36, Physical Coding Sublayer (PCS) and Physical Medium Attachment (PMA) sublayer, type 1000BASE-X 36.7.1 Introduction 36.7.2 Identification 36.7.2.1 Implementation identification 36.7.2.2 Protocol summary
1520	36.7.3 Major capabilities/options 36.7.4 PICS proforma tables for the PCS and PMA sublayer, type 1000BASE-X 36.7.4.1 Compatibility considerations
1521	36.7.4.2 Code-group functions 36.7.4.3 State diagrams
1522	36.7.4.4 PMA functions
1523	36.7.4.5 PMA transmit function 36.7.4.6 PMA code-group alignment function 36.7.4.7 TBI 36.7.4.8 Delay constraints
1524	36.7.4.9 LPI functions
1525	37. Auto-Negotiation function, type 1000BASE-X 37.1 Overview 37.1.1 Scope 37.1.2 Application perspective/objectives
1526	37.1.3 Relationship to architectural layering 37.1.4 Compatibility considerations 37.1.4.1 Auto-Negotiation
1527	37.1.4.2 Management interface 37.1.4.2.1 GMII management interface 37.1.4.3 Interoperability between Auto-Negotiation compatible devices 37.1.4.4 User Configuration with Auto-Negotiation 37.2 Functional specifications 37.2.1 Config_Reg encoding 37.2.1.1 Base Page to management register mapping
1528	37.2.1.2 Full duplex 37.2.1.3 Half duplex 37.2.1.4 Pause
1529	37.2.1.5 Remote fault 37.2.1.5.1 No error, link OK 37.2.1.5.2 Offline
1530	37.2.1.5.3 Link_Failure 37.2.1.5.4 Auto-Negotiation_Error 37.2.1.6 Acknowledge 37.2.1.7 Next Page 37.2.2 Transmit function requirements 37.2.2.1 Transmit function to Auto-Negotiation process interface requirements
1531	37.2.3 Receive function requirements 37.2.3.1 Receive function to Auto-Negotiation process interface requirements 37.2.4 Arbitration process requirements 37.2.4.1 Renegotiation function 37.2.4.2 Priority resolution function
1532	37.2.4.3 Next Page function
1533	37.2.4.3.1 Next Page encodings 37.2.4.3.2 Next Page
1534	37.2.4.3.3 Acknowledge 37.2.4.3.4 Message page 37.2.4.3.5 Acknowledge 2 37.2.4.3.6 Toggle 37.2.4.3.7 Message page encoding 37.2.4.3.8 Message Code Field 37.2.4.3.9 Unformatted page encoding 37.2.4.3.10 Unformatted Code Field
1535	37.2.4.3.11 Use of Next Pages 37.2.4.3.12 Management register requirements 37.2.5 Management function requirements 37.2.5.1 Management registers 37.2.5.1.1 Control register (Register 0)
1536	37.2.5.1.2 Status register (Register 1) 37.2.5.1.3 AN advertisement register (Register 4) (R/W) 37.2.5.1.4 AN link partner ability Base Page register (Register 5) (RO) 37.2.5.1.5 AN expansion register (Register 6) (RO)
1537	37.2.5.1.6 AN Next Page transmit register (Register 7) 37.2.5.1.7 AN link partner ability Next Page register (Register 8) 37.2.5.1.8 Extended status register (Register 15)
1538	37.2.5.1.9 State diagram variable to management register mapping 37.2.5.2 Auto-Negotiation managed object class 37.2.6 Absence of management function 37.3 Detailed functions and state diagrams
1539	37.3.1 State diagram variables 37.3.1.1 Variables
1542	37.3.1.2 Functions
1543	37.3.1.3 Messages 37.3.1.4 Timers 37.3.1.5 State diagrams
1545	37.4 Environmental specifications
1546	37.5 Protocol implementation conformance statement (PICS) proforma for Clause 37, Auto-Negotiation function, type 1000BASE-X 37.5.1 Introduction 37.5.2 Identification 37.5.2.1 Implementation identification 37.5.2.2 Protocol summary
1547	37.5.3 Major capabilities/options 37.5.4 PICS proforma tables for the Auto-Negotiation function, type 1000BASE-X 37.5.4.1 Compatibility considerations 37.5.4.2 Auto-Negotiation functions 37.5.4.2.1 Config_Reg
1548	37.5.4.2.2 Remote Fault functions 37.5.4.2.3 AN transmit functions 37.5.4.2.4 AN receive functions 37.5.4.2.5 Priority resolution functions
1549	37.5.4.2.6 Next Page functions 37.5.4.2.7 Management registers
1551	38. Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-LX (long wavelength laser) and 1000BASE-SX (short wavelength laser) 38.1 Overview 38.1.1 Physical Medium Dependent (PMD) sublayer service interface 38.1.1.1 PMD_UNITDATA.request 38.1.1.1.1 Semantics of the service primitive 38.1.1.1.2 When generated 38.1.1.1.3 Effect of receipt
1552	38.1.1.2 PMD_UNITDATA.indication 38.1.1.2.1 Semantics of the service primitive 38.1.1.2.2 When generated 38.1.1.2.3 Effect of receipt 38.1.1.3 PMD_SIGNAL.indication 38.1.1.3.1 Semantics of the service primitive 38.1.1.3.2 When generated 38.1.1.3.3 Effect of receipt 38.1.2 Medium Dependent Interface (MDI)
1553	38.2 PMD functional specifications 38.2.1 PMD block diagram 38.2.2 PMD transmit function 38.2.3 PMD receive function
1554	38.2.4 PMD signal detect function 38.3 PMD to MDI optical specifications for 1000BASE-SX
1555	38.3.1 Transmitter optical specifications
1556	38.3.2 Receive optical specifications 38.3.3 Worst-case 1000BASE-SX link power budget and penalties (informative)
1557	38.4 PMD to MDI optical specifications for 1000BASE-LX 38.4.1 Transmitter optical specifications
1558	38.4.2 Receive optical specifications
1559	38.4.3 Worst-case 1000BASE-LX link power budget and penalties (informative) 38.5 Jitter specifications for 1000BASE-SX and 1000BASE-LX
1560	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)
1561	38.6.5 Transmitter optical waveform (transmit eye) 38.6.6 Transmit rise/fall characteristics
1562	38.6.7 Receive sensitivity measurements 38.6.8 Total jitter measurements
1563	38.6.9 Deterministic jitter measurement (informative) 38.6.10 Coupled Power Ratio (CPR) measurements 38.6.11 Conformance test signal at TP3 for receiver testing
1565	38.6.12 Measurement of the receiver 3 dB electrical upper cutoff frequency
1566	38.7 Environmental specifications 38.7.1 General safety 38.7.2 Laser safety 38.7.3 Installation 38.8 Environment 38.8.1 Electromagnetic emission
1567	38.8.2 Temperature, humidity, and handling 38.9 PMD labeling requirements 38.10 Fiber optic cabling model 38.11 Characteristics of the fiber optic cabling
1568	38.11.1 Optical fiber and cable 38.11.2 Optical fiber connection
1569	38.11.2.1 Connection insertion loss 38.11.2.2 Connection return loss 38.11.3 Medium Dependent Interface (MDI)
1570	38.11.4 Single-mode fiber offset-launch mode-conditioning patch cord for MMF operation of 1000BASE-LX
1572	38.12 Protocol implementation conformance statement (PICS) proforma for Clause 38, Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-LX (Long Wavelength Laser) and 1000BASE-SX (Short Wavelength Laser) 38.12.1 Introduction 38.12.2 Identification 38.12.2.1 Implementation identification 38.12.2.2 Protocol summary
1573	38.12.3 Major capabilities/options
1574	38.12.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-LX (Long Wavelength Laser) and 1000BASE-SX (Short Wavelength Laser) 38.12.4.1 PMD functional specifications 38.12.4.2 PMD to MDI optical specifications for 1000BASE-SX
1575	38.12.4.3 PMD to MDI optical specifications for 1000BASE-LX 38.12.4.4 Jitter specifications 38.12.4.5 Optical measurement requirements
1578	38.12.4.6 Characteristics of the fiber optic cabling
1579	39. Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-CX (short-haul copper) 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
1580	39.3 PMD to MDI electrical specifications
1581	39.3.1 Transmitter electrical specifications
1583	39.3.2 Receiver electrical specifications
1584	39.3.3 Jitter specifications for 1000BASE-CX
1585	39.4 Jumper cable assembly characteristics 39.4.1 Compensation networks 39.4.2 Shielding
1586	39.5 MDI specification 39.5.1 MDI connectors 39.5.1.1 Style-1 connector specification
1587	39.5.1.2 Style-2 connector specification
1588	39.5.1.3 Style-2 connector example drawing (informative) 39.5.2 Crossover function
1589	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
1590	39.6.6 Receiver link signal 39.6.7 Near-End Cross Talk (NEXT) 39.6.8 Differential time-domain reflectometry (TDR) measurement procedure 39.6.8.1 Driving waveform
1591	39.6.8.2 Calibration of the test setup 39.7 Environmental specifications
1592	39.8 Protocol implementation conformance statement (PICS) proforma for Clause 39, Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-CX 39.8.1 Introduction 39.8.2 Identification 39.8.2.1 Implementation identification 39.8.2.2 Protocol summary
1593	39.8.3 Major capabilities/options 39.8.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-CX (short-haul copper) 39.8.4.1 PMD functional specifications
1594	39.8.4.2 PMD to MDI electrical specifications
1595	39.8.4.3 Jumper cable assembly characteristics
1596	39.8.4.4 Other requirements
1597	40. Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer and baseband medium, type 1000BASE-T 40.1 Overview 40.1.1 Objectives 40.1.2 Relationship of 1000BASE-T to other standards
1598	40.1.3 Operation of 1000BASE-T
1601	40.1.3.1 Physical Coding Sublayer (PCS) 40.1.3.2 Physical Medium Attachment (PMA) sublayer
1602	40.1.4 Signaling
1603	40.1.5 Inter-sublayer interfaces 40.1.6 Conventions in this clause 40.2 1000BASE-T Service Primitives and Interfaces 40.2.1 Technology-Dependent Interface 40.2.1.1 PMA_LINK.request 40.2.1.1.1 Semantics of the primitive
1604	40.2.1.1.2 When generated 40.2.1.1.3 Effect of receipt 40.2.1.2 PMA_LINK.indication 40.2.1.2.1 Semantics of the primitive 40.2.1.2.2 When generated 40.2.1.2.3 Effect of receipt 40.2.2 PMA Service Interface
1606	40.2.3 PMA_TXMODE.indication 40.2.3.1 Semantics of the primitive
1607	40.2.3.2 When generated 40.2.3.3 Effect of receipt 40.2.4 PMA_CONFIG.indication 40.2.4.1 Semantics of the primitive 40.2.4.2 When generated 40.2.4.3 Effect of receipt 40.2.5 PMA_UNITDATA.request 40.2.5.1 Semantics of the primitive
1608	40.2.5.2 When generated 40.2.5.3 Effect of receipt 40.2.6 PMA_UNITDATA.indication 40.2.6.1 Semantics of the primitive 40.2.6.2 When generated 40.2.6.3 Effect of receipt
1609	40.2.7 PMA_SCRSTATUS.request 40.2.7.1 Semantics of the primitive 40.2.7.2 When generated 40.2.7.3 Effect of receipt 40.2.8 PMA_RXSTATUS.indication 40.2.8.1 Semantics of the primitive 40.2.8.2 When generated 40.2.8.3 Effect of receipt
1610	40.2.9 PMA_REMRXSTATUS.request 40.2.9.1 Semantics of the primitive 40.2.9.2 When generated 40.2.9.3 Effect of receipt 40.2.10 PMA_RESET.indication 40.2.10.1 When generated 40.2.10.2 Effect of receipt 40.2.11 PMA_LPIMODE.indication 40.2.11.1 Semantics of the primitive
1611	40.2.11.2 When generated 40.2.11.3 Effect of receipt 40.2.12 PMA_LPIREQ.request 40.2.12.1 Semantics of the primitive 40.2.12.2 When generated 40.2.12.3 Effect of receipt 40.2.13 PMA_REMLPIREQ.request 40.2.13.1 Semantics of the primitive
1612	40.2.13.2 When generated 40.2.13.3 Effect of receipt 40.2.14 PMA_UPDATE.indication 40.2.14.1 Semantics of the primitive 40.2.14.2 When generated 40.2.14.3 Effect of receipt 40.2.15 PMA_REMUPDATE.request 40.2.15.1 Semantics of the primitive
1613	40.2.15.2 When generated 40.2.15.3 Effect of receipt 40.3 Physical Coding Sublayer (PCS)
1614	40.3.1 PCS functions 40.3.1.1 PCS Reset function
1615	40.3.1.2 PCS Data Transmission Enable 40.3.1.3 PCS Transmit function
1616	40.3.1.3.1 Side-stream scrambler polynomials
1617	40.3.1.3.2 Generation of bits Sxn[3:0], Syn[3:0], and Sgn[3:0]
1618	40.3.1.3.3 Generation of bits Scn[7:0]
1619	40.3.1.3.4 Generation of bits Sdn[8:0]
1620	40.3.1.3.5 Generation of quinary symbols TAn, TBn, TCn, TDn
1627	40.3.1.3.6 Generation of An, Bn, Cn, Dn
1628	40.3.1.4 PCS Receive function 40.3.1.4.1 Decoding of code-groups
1629	40.3.1.4.2 Receiver descrambler polynomials 40.3.1.5 PCS Carrier Sense function 40.3.1.6 PCS Local LPI Request function
1630	40.3.2 Stream structure 40.3.3 State variables 40.3.3.1 Variables
1633	40.3.3.2 Functions
1634	40.3.3.3 Timer 40.3.3.4 Messages
1635	40.3.4 State diagrams
1640	40.3.4.1 Supplement to state diagram
1641	40.4 Physical Medium Attachment (PMA) sublayer 40.4.1 PMA functional specifications
1642	40.4.2 PMA functions 40.4.2.1 PMA Reset function 40.4.2.2 PMA Transmit function 40.4.2.3 PMA Receive function
1643	40.4.2.4 PHY Control function
1644	40.4.2.5 Link Monitor function
1645	40.4.2.6 Clock Recovery function 40.4.3 MDI 40.4.3.1 MDI signals transmitted by the PHY 40.4.3.2 Signals received at the MDI 40.4.4 Automatic MDI/MDI-X Configuration 40.4.4.1 Description of Automatic MDI/MDI-X state diagram
1646	40.4.4.2 Pseudo-random sequence generator 40.4.5 State variables 40.4.5.1 State diagram variables
1649	40.4.5.2 Timers
1651	40.4.6 State Diagrams 40.4.6.1 PHY Control state diagram
1653	40.4.6.2 Link Monitor state diagram
1654	40.4.6.2.1 Auto Crossover state diagram 40.5 Management interface 40.5.1 Support for Auto-Negotiation
1655	40.5.1.1 1000BASE-T use of registers during Auto-Negotiation
1657	40.5.1.2 1000BASE-T Auto-Negotiation page use 40.5.1.3 Sending Next Pages
1659	40.5.2 MASTER-SLAVE configuration resolution
1661	40.6 PMA electrical specifications 40.6.1 PMA-to-MDI interface tests 40.6.1.1 Isolation requirement 40.6.1.1.1 Test channel
1662	40.6.1.1.2 Test modes
1666	40.6.1.1.3 Test Fixtures
1669	40.6.1.2 Transmitter electrical specifications 40.6.1.2.1 Peak differential output voltage and level accuracy 40.6.1.2.2 Maximum output droop 40.6.1.2.3 Differential output templates
1677	40.6.1.2.4 Transmitter distortion
1679	40.6.1.2.5 Transmitter timing jitter
1680	40.6.1.2.6 Transmit clock frequency 40.6.1.2.7 Transmitter operation following a transition from the QUIET to the WAKE state 40.6.1.3 Receiver electrical specifications 40.6.1.3.1 Receiver differential input signals 40.6.1.3.2 Receiver frequency tolerance
1681	40.6.1.3.3 Common-mode noise rejection 40.6.1.3.4 Alien Crosstalk noise rejection
1682	40.6.1.3.5 Signal_detect 40.7 Link segment characteristics 40.7.1 Cabling system characteristics
1683	40.7.2 Link transmission parameters 40.7.2.1 Insertion loss 40.7.2.2 Differential characteristic impedance 40.7.2.3 Return loss 40.7.3 Coupling parameters
1684	40.7.3.1 Near-End Crosstalk (NEXT) 40.7.3.1.1 Differential Near-End Crosstalk 40.7.3.2 Far-End Crosstalk (FEXT) 40.7.3.2.1 Equal Level Far-End Crosstalk (ELFEXT) loss 40.7.3.2.2 Multiple Disturber Equal Level Far-End Crosstalk (MDELFEXT) loss
1685	40.7.3.2.3 Multiple-Disturber Power Sum Equal Level Far-End Crosstalk (PSELFEXT) loss 40.7.4 Delay 40.7.4.1 Maximum link delay 40.7.4.2 Link delay skew 40.7.5 Noise environment
1686	40.7.6 External coupled noise 40.8 MDI specification 40.8.1 MDI connectors
1687	40.8.2 Crossover function
1688	40.8.3 MDI electrical specifications 40.8.3.1 MDI return loss 40.8.3.2 MDI impedance balance
1689	40.8.3.3 MDI common-mode output voltage 40.8.3.4 MDI fault tolerance
1690	40.9 Environmental specifications 40.9.1 General safety 40.9.2 Network safety 40.9.2.1 Installation
1691	40.9.2.2 Installation and maintenance guidelines 40.9.2.3 Telephony voltages 40.9.3 Environment 40.9.3.1 Electromagnetic emission 40.9.3.2 Temperature and humidity 40.10 PHY labeling
1692	40.11 Delay constraints 40.11.1 MDI to GMII delay constraints
1693	40.11.2 DTE delay constraints (half duplex only) 40.11.3 Carrier de-assertion/assertion constraint (half duplex mode)
1694	40.12 Protocol implementation conformance statement (PICS) proforma for Clause 40—Physical coding sublayer (PCS), physical medium attachment (PMA) sublayer and baseband medium, type 1000BASE-T 40.12.1 Identification 40.12.1.1 Implementation identification 40.12.1.2 Protocol summary 40.12.2 Major capabilities/options
1695	40.12.3 Clause conventions 40.12.4 Physical Coding Sublayer (PCS)
1698	40.12.4.1 PCS receive functions 40.12.4.2 Other PCS functions
1699	40.12.5 Physical Medium Attachment (PMA)
1701	40.12.6 Management interface
1702	40.12.6.1 1000BASE-T Specific Auto-Negotiation Requirements
1703	40.12.7 PMA Electrical Specifications
1710	40.12.8 Characteristics of the link segment
1711	40.12.9 MDI requirements
1713	40.12.10 General safety and environmental requirements 40.12.11 Timing requirements
1715	41. Repeater for 1000 Mb/s baseband networks 41.1 Overview 41.1.1 Scope 41.1.1.1 Repeater set
1716	41.1.1.2 Repeater unit 41.1.2 Application perspective 41.1.2.1 Objectives 41.1.2.2 Compatibility considerations 41.1.2.2.1 Internal segment compatibility 41.1.3 Relationship to PHY 41.2 Repeater functional specifications
1717	41.2.1 Repeater functions 41.2.1.1 Signal restoration functional requirements 41.2.1.1.1 Signal amplification 41.2.1.1.2 Signal wave-shape restoration
1718	41.2.1.1.3 Signal retiming 41.2.1.2 Data-handling functional requirements 41.2.1.2.1 Data frame forwarding 41.2.1.2.2 Received code violations 41.2.1.3 Received event-handling functional requirements 41.2.1.3.1 Received event handling 41.2.1.3.2 Preamble regeneration 41.2.1.3.3 Start-of-packet propagation delay
1719	41.2.1.3.4 Start-of-packet variability 41.2.1.4 Collision-handling functional requirements 41.2.1.4.1 Collision detection 41.2.1.4.2 Jam generation 41.2.1.4.3 Start-of-collision-jam propagation delay 41.2.1.4.4 Cessation-of-collision Jam propagation delay 41.2.1.5 Error-handling functional requirements 41.2.1.5.1 Carrier integrity functional requirements
1720	41.2.1.5.2 Speed handling 41.2.1.6 Partition functional requirements
1721	41.2.1.7 Receive jabber functional requirements 41.2.2 Detailed repeater functions and state diagrams
1722	41.2.2.1 State diagram variables 41.2.2.1.1 Constants 41.2.2.1.2 Variables
1723	41.2.2.1.3 Functions 41.2.2.1.4 Timers
1724	41.2.2.1.5 Counters 41.2.2.1.6 Port designation
1725	41.2.2.2 State diagrams
1729	41.3 Repeater electrical specifications 41.3.1 Electrical isolation 41.4 Environmental specifications 41.4.1 General safety 41.4.2 Network safety 41.4.2.1 Installation 41.4.2.2 Grounding
1730	41.4.2.3 Installation and maintenance guidelines 41.4.3 Electrical isolation 41.4.3.1 Environment A requirements 41.4.3.2 Environment B requirements 41.4.4 Reliability
1731	41.4.5 Environment 41.4.5.1 Electromagnetic emission 41.4.5.2 Temperature and humidity 41.5 Repeater labeling 41.6 Protocol implementation conformance statement (PICS) proforma for Clause 41, Repeater for 1000 Mb/s baseband networks 41.6.1 Introduction
1732	41.6.2 Identification 41.6.2.1 Implementation identification 41.6.2.2 Protocol summary 41.6.3 Major capabilities/options
1733	41.6.4 PICS proforma tables for the Repeater for 1000 Mb/s baseband networks 41.6.4.1 Compatibility considerations 41.6.4.2 Repeater functions
1734	41.6.4.3 Signal restoration function 41.6.4.4 Data-Handling function
1735	41.6.4.5 Receive Event-Handling function 41.6.4.6 Collision-Handling function
1736	41.6.4.7 Error-Handling function
1737	41.6.4.8 Partition function 41.6.4.9 Receive Jabber function
1738	41.6.4.10 Repeater state diagrams 41.6.4.11 Repeater electrical
1739	41.6.4.12 Repeater labeling
1741	42. System considerations for multisegment 1000 Mb/s networks 42.1 Overview
1742	42.1.1 Single collision domain multisegment networks
1743	42.1.2 Repeater usage 42.2 Transmission System Model 1 42.3 Transmission System Model 2
1744	42.3.1 Round-trip collision delay
1745	42.3.1.1 Worst-case path delay value (PDV) selection 42.3.1.2 Worst-case PDV calculation
1747	42.4 Full duplex 1000 Mb/s topology limitations
1749	43. Content moved to IEEE Std 802.1AX-2008
1751	Annex 36A (informative) Jitter test patterns 36A.1 High-frequency test pattern 36A.2 Low-frequency test pattern 36A.3 Mixed frequency test pattern 36A.4 Long continuous random test pattern
1752	36A.5 Short continuous random test pattern
1754	Annex 36B (informative) 8B/10B transmission code running disparity calculation examples
1757	Annex 38A (informative) Fiber launch conditions 38A.1 Overfilled Launch 38A.2 Radial Overfilled Launch (ROFL)
1759	Annex 40A (informative) Additional cabling design guidelines 40A.1 Alien crosstalk 40A.1.1 Multipair cabling (i.e., greater than 4-pair) 40A.1.2 Bundled or hybrid cable configurations 40A.2 Cabling configurations
1761	Annex 40B (informative) Description of cable clamp
1763	40B.1 Cable clamp validation
1765	Annex 40C (informative) Add-on interface for additional Next Pages
1767	40C.1 State variables 40C.2 State diagrams 40C.2.1 Auto-Negotiation Transmit state diagram add-on for 1000BASE-T
1770	40C.2.2 Auto-Negotiation Receive state diagram add-on for 1000BASE-T
1773	Annex 43A is no longer in use
1774	Annex 43B is no longer in use
1775	Annex 43C is no longer in use
1777	IEEE Std 802.3™-2012, SECTION FOUR Contents
1813	44. Introduction to 10 Gb/s baseband network 44.1 Overview 44.1.1 Scope 44.1.2 Objectives 44.1.3 Relationship of 10 Gigabit Ethernet to the ISO OSI reference model
1814	44.1.4 Summary of 10 Gigabit Ethernet sublayers 44.1.4.1 Reconciliation Sublayer (RS) and 10 Gigabit Media Independent Interface (XGMII)
1815	44.1.4.2 XGMII Extender Sublayer (XGXS) and 10 Gigabit Attachment Unit Interface (XAUI) 44.1.4.3 Management interface (MDIO/MDC) 44.1.4.4 Physical Layer signaling systems
1816	44.1.4.5 WAN Interface Sublayer (WIS), type 10GBASE-W 44.1.5 Management 44.2 State diagrams 44.3 Delay constraints
1818	44.4 Protocol implementation conformance statement (PICS) proforma
1819	45. Management Data Input/Output (MDIO) Interface 45.1 Overview 45.1.1 Summary of major concepts 45.1.2 Application
1820	45.2 MDIO Interface Registers
1823	45.2.1 PMA/PMD registers
1827	45.2.1.1 PMA/PMD control 1 register (Register 1.0)
1828	45.2.1.1.1 Reset (1.0.15) 45.2.1.1.2 Low power (1.0.11)
1829	45.2.1.1.3 Speed selection (1.0.13,1.0.6, 1.0.5:2) 45.2.1.1.4 PMA remote loopback (1.0.1) 45.2.1.1.5 PMA local loopback (1.0.0)
1830	45.2.1.2 PMA/PMD status 1 register (Register 1.1) 45.2.1.2.1 Fault (1.1.7) 45.2.1.2.2 Receive link status (1.1.2)
1831	45.2.1.2.3 Low-power ability (1.1.1) 45.2.1.3 PMA/PMD device identifier (Registers 1.2 and 1.3) 45.2.1.4 PMA/PMD speed ability (Register 1.4)
1832	45.2.1.4.1 100G capable (1.4.9) 45.2.1.4.2 40G capable (1.4.8) 45.2.1.4.3 10/1G capable (1.4.7) 45.2.1.4.4 10M capable (1.4.6) 45.2.1.4.5 100M capable (1.4.5) 45.2.1.4.6 1000M capable (1.4.4) 45.2.1.4.7 10PASS-TS capable (1.4.2) 45.2.1.4.8 2BASE-TL capable (1.4.1)
1833	45.2.1.4.9 10G capable (1.4.0) 45.2.1.5 PMA/PMD devices in package (Registers 1.5 and 1.6) 45.2.1.6 PMA/PMD control 2 register (Register 1.7) 45.2.1.6.1 PMA/PMD type selection (1.7.5:0) 45.2.1.7 PMA/PMD status 2 register (Register 1.8) 45.2.1.7.1 Device present (1.8.15:14) 45.2.1.7.2 Transmit fault ability (1.8.13) 45.2.1.7.3 Receive fault ability (1.8.12) 45.2.1.7.4 Transmit fault (1.8.11)
1835	45.2.1.7.5 Receive fault (1.8.10)
1837	45.2.1.7.6 PMA/PMD extended abilities (1.8.9) 45.2.1.7.7 PMD transmit disable ability (1.8.8) 45.2.1.7.8 10GBASE-SR ability (1.8.7) 45.2.1.7.9 10GBASE-LR ability (1.8.6) 45.2.1.7.10 10GBASE-ER ability (1.8.5) 45.2.1.7.11 10GBASE-LX4 ability (1.8.4)
1838	45.2.1.7.12 10GBASE-SW ability (1.8.3) 45.2.1.7.13 10GBASE-LW ability (1.8.2) 45.2.1.7.14 10GBASE-EW ability (1.8.1) 45.2.1.7.15 PMA local loopback ability (1.8.0) 45.2.1.8 PMD transmit disable register (Register 1.9) 45.2.1.8.1 PMD transmit disable 9 (1.9.10)
1839	45.2.1.8.2 PMD transmit disable 4, 5, 6, 7, 8 (1.9.5, 1.9.6, 1.9.7, 1.9.8, 1.9.9) 45.2.1.8.3 PMD transmit disable 3 (1.9.4)
1840	45.2.1.8.4 PMD transmit disable 2 (1.9.3) 45.2.1.8.5 PMD transmit disable 1 (1.9.2) 45.2.1.8.6 PMD transmit disable 0 (1.9.1) 45.2.1.8.7 Global PMD transmit disable (1.9.0) 45.2.1.9 PMD receive signal detect register (Register 1.10)
1841	45.2.1.9.1 PMD receive signal detect 9 (1.10.10) 45.2.1.9.2 PMD receive signal detect 4, 5, 6, 7, 8 (1.10.5, 1.10.6, 1.10.7, 1.10.8, 1.10.9) 45.2.1.9.3 PMD receive signal detect 3 (1.10.4)
1842	45.2.1.9.4 PMD receive signal detect 2 (1.10.3) 45.2.1.9.5 PMD receive signal detect 1 (1.10.2) 45.2.1.9.6 PMD receive signal detect 0 (1.10.1) 45.2.1.9.7 Global PMD receive signal detect (1.10.0) 45.2.1.10 PMA/PMD extended ability register (Register 1.11)
1843	45.2.1.10.1 P2MP ability (1.11.9) 45.2.1.10.2 10BASE-T ability (1.11.8) 45.2.1.10.3 100BASE-TX ability (1.11.7) 45.2.1.10.4 1000BASE-KX ability (1.11.6) 45.2.1.10.5 1000BASE-T ability (1.11.5) 45.2.1.10.6 10GBASE-KR ability (1.11.4)
1844	45.2.1.10.7 10GBASE-KX4 ability (1.11.3) 45.2.1.10.8 10GBASE-T ability (1.11.2) 45.2.1.10.9 10GBASE-LRM ability (1.11.1) 45.2.1.10.10 10GBASE-CX4 ability (1.11.0) 45.2.1.11 10G-EPON PMA/PMD ability register (Register 1.12)
1845	45.2.1.11.1 10/1GBASE-PRX-D1 ability (1.12.10) 45.2.1.11.2 10/1GBASE-PRX-D2 ability (1.12.9) 45.2.1.11.3 10/1GBASE-PRX-D3 ability (1.12.8) 45.2.1.11.4 10GBASE-PR-D1 ability (1.12.7) 45.2.1.11.5 10GBASE-PR-D2 ability (1.12.6) 45.2.1.11.6 10GBASE-PR-D3 ability (1.12.5)
1846	45.2.1.11.7 10/1GBASE-PRX-U1 ability (1.12.4) 45.2.1.11.8 10/1GBASE-PRX-U2 ability (1.12.3) 45.2.1.11.9 10/1GBASE-PRX-U3 ability (1.12.2) 45.2.1.11.10 10GBASE-PR-U1 ability (1.12.1) 45.2.1.11.11 10GBASE-PR-U3 ability (1.12.0) 45.2.1.12 40G/100G PMA/PMD extended ability register (Register 1.13)
1847	45.2.1.12.1 PMA remote loopback ability (1.13.15) 45.2.1.12.2 100GBASE-ER4 ability (1.13.11) 45.2.1.12.3 100GBASE-LR4 ability (1.13.10) 45.2.1.12.4 100GBASE-SR10 ability (1.13.9) 45.2.1.12.5 100GBASE-CR10 ability (1.13.8)
1848	45.2.1.12.6 40GBASE-FR ability (1.13.4) 45.2.1.12.7 40GBASE-LR4 ability (1.13.3) 45.2.1.12.8 40GBASE-SR4 ability (1.13.2) 45.2.1.12.9 40GBASE-CR4 ability (1.13.1) 45.2.1.12.10 40GBASE-KR4 ability (1.13.0) 45.2.1.13 PMA/PMD package identifier (Registers 1.14 and 1.15) 45.2.1.14 10P/2B PMA/PMD control register (Register 1.30) 45.2.1.14.1 PMA/PMD link control (1.30.15)
1849	45.2.1.14.2 STFU (1.30.14) 45.2.1.14.3 Silence time (1.30.13:8) 45.2.1.14.4 Port subtype select (1.30.7)
1850	45.2.1.14.5 Handshake cleardown (1.30.6) 45.2.1.14.6 Ignore incoming handshake (1.30.5) 45.2.1.14.7 PMA/PMD type selection (1.30.4:0) 45.2.1.15 10P/2B PMA/PMD status register (Register 1.31)
1851	45.2.1.15.1 Data rate (1.31.15:5) 45.2.1.15.2 CO supported (1.31.4) 45.2.1.15.3 CPE supported (1.31.3) 45.2.1.15.4 PMA/PMD link status (1.31.2:0) 45.2.1.16 Link partner PMA/PMD control register (Register 1.32)
1853	45.2.1.16.1 Get link partner parameters (1.32.15) 45.2.1.16.2 Send link partner parameters (1.32.13) 45.2.1.17 Link partner PMA/PMD status register (Register 1.33)
1854	45.2.1.17.1 Get link partner result (1.33.14) 45.2.1.17.2 Send link partner result (1.33.12) 45.2.1.18 10P/2B PMA/PMD link loss register (Register 1.36) 45.2.1.19 10P/2B RX SNR margin register (Register 1.37)
1855	45.2.1.20 10P/2B link partner RX SNR margin register (Register 1.38) 45.2.1.21 10P/2B line attenuation register (Register 1.39) 45.2.1.22 10P/2B link partner line attenuation register (Register 1.40) 45.2.1.23 10P/2B line quality thresholds register (Register 1.41)
1856	45.2.1.23.1 Loop attenuation threshold (1.41.15:8) 45.2.1.23.2 SNR margin threshold (1.41.7:4) 45.2.1.24 2B link partner line quality thresholds register (Register 1.42) 45.2.1.25 10P FEC correctable errors counter (Register 1.43) 45.2.1.26 10P FEC uncorrectable errors counter (Register 1.44)
1857	45.2.1.27 10P link partner FEC correctable errors register (Register 1.45) 45.2.1.28 10P link partner FEC uncorrectable errors register (Register 1.46) 45.2.1.29 10P electrical length register (Register 1.47) 45.2.1.29.1 Electrical length (1.47.15:0) 45.2.1.30 10P link partner electrical length register (Register 1.48)
1858	45.2.1.31 10P PMA/PMD general configuration register (Register 1.49) 45.2.1.31.1 TX window length (1.49.7:0) 45.2.1.32 10P PSD configuration register (Register 1.50) 45.2.1.32.1 PBO disable (1.50.8) 45.2.1.33 10P downstream data rate configuration (Registers 1.51, 1.52)
1859	45.2.1.34 10P downstream Reed-Solomon configuration (Register 1.53) 45.2.1.34.1 RS codeword length (1.53.0) 45.2.1.35 10P upstream data rate configuration (Registers 1.54, 1.55) 45.2.1.36 10P upstream 10P upstream Reed-Solomon configuration register (Register 1.56)
1860	45.2.1.36.1 RS codeword length (1.56.0) 45.2.1.37 10P tone group registers (Registers 1.57, 1.58)
1861	45.2.1.38 10P tone control parameters (Registers 1.59, 1.60, 1.61, 1.62, 1.63) 45.2.1.38.1 Tone active (1.59.15) 45.2.1.38.2 Tone direction (1.59.14)
1862	45.2.1.38.3 Max SNR margin (1.59.13:5) 45.2.1.38.4 Target SNR margin (1.60.8:0) 45.2.1.38.5 Minimum SNR margin (1.61.8:0) 45.2.1.38.6 PSD level (1.62.8:0) 45.2.1.38.7 USPBO reference (1.63.8:0) 45.2.1.39 10P tone control action register (Register 1.64)
1863	45.2.1.39.1 Refresh tone status (1.64.5) 45.2.1.39.2 Change tone activity (1.64.4) 45.2.1.39.3 Change tone direction (1.64.3) 45.2.1.39.4 Change SNR margin (1.64.2) 45.2.1.39.5 Change PSD level (1.64.1)
1864	45.2.1.39.6 Change USPBO reference PSD (1.64.0) 45.2.1.40 10P tone status registers (Registers 1.65, 1.66, 1.67) 45.2.1.40.1 Refresh status (1.65.15) 45.2.1.40.2 Active (1.65.14)
1865	45.2.1.40.3 Direction (1.65.13) 45.2.1.40.4 RX PSD (1.65.7:0) 45.2.1.40.5 TX PSD (1.66.15:8) 45.2.1.40.6 Bit load (1.66.7:3) 45.2.1.40.7 SNR margin (1.67.9:0) 45.2.1.41 10P outgoing indicator bits status register (Register 1.68)
1866	45.2.1.41.1 LoM (1.68.8) 45.2.1.41.2 lpr (1.68.7) 45.2.1.41.3 po (1.68.6) 45.2.1.41.4 Rdi (1.68.5) 45.2.1.41.5 los (1.68.4) 45.2.1.41.6 fec-s (1.68.1) 45.2.1.41.7 be-s (1.68.0) 45.2.1.42 10P incoming indicator bits status register (Register 1.69)
1867	45.2.1.42.1 LoM (1.69.8) 45.2.1.42.2 Flpr (1.69.7) 45.2.1.42.3 Fpo (1.69.6) 45.2.1.42.4 Rdi (1.69.5)
1868	45.2.1.42.5 Flos (1.69.4) 45.2.1.42.6 Ffec-s (1.69.1) 45.2.1.42.7 Febe-s (1.69.0) 45.2.1.43 10P cyclic extension configuration register (Register 1.70) 45.2.1.44 10P attainable downstream data rate register (Register 1.71)
1869	45.2.1.45 2B general parameter register (Register 1.80) 45.2.1.45.1 PMMS target margin (1.80.14:10) 45.2.1.45.2 Line probing control (1.80.9)
1870	45.2.1.45.3 Noise environment (1.80.8) 45.2.1.45.4 Region (1.80.1:0) 45.2.1.46 2B PMD parameters registers (Registers 1.81 through 1.88)
1872	45.2.1.46.1 Minimum data rate (1.81, 1.83, 1.85, 1.87. Bits 14:8) 45.2.1.46.2 Max data rate (1.81, 1.83, 1.85, 1.87. Bits 6:0)
1873	45.2.1.46.3 Data rate step (1.82, 1.84, 1.86, 1.88. Bits 13:7) 45.2.1.46.4 Power (1.82, 1.84, 1.86, 1.88. Bits 6:2) 45.2.1.46.5 Constellation (1.82, 1.84, 1.86, 1.88. Bits 1:0) 45.2.1.47 2B code violation errors counter (Register 1.89) 45.2.1.48 2B link partner code violations register (Register 1.90)
1874	45.2.1.49 2B errored seconds counter (Register 1.91) 45.2.1.50 2B link partner errored seconds register (Register 1.92) 45.2.1.51 2B severely errored seconds counter (Register 1.93) 45.2.1.52 2B link partner severely errored seconds register (Register 1.94)
1875	45.2.1.53 2B LOSW counter (Register 1.95) 45.2.1.54 2B link partner LOSW register (Register 1.96) 45.2.1.55 2B unavailable seconds counter (Register 1.97)
1876	45.2.1.56 2B link partner unavailable seconds register (Register 1.98) 45.2.1.57 2B state defects register (Register 1.99) 45.2.1.57.1 Segment defect (1.99.15) 45.2.1.57.2 SNR margin defect (1.99.14) 45.2.1.57.3 Loop attenuation defect (1.99.13)
1877	45.2.1.57.4 Loss of sync word (1.99.12) 45.2.1.58 2B link partner state defects register (Register 1.100) 45.2.1.59 2B negotiated constellation register (Register 1.101) 45.2.1.59.1 Negotiated constellation (1.101.1:0) 45.2.1.60 2B extended PMD parameters registers (Registers 1.102 through 1.109)
1879	45.2.1.60.1 Minimum data rate (1.102, 1.104, 1.106, 1.108. Bits 14:8) 45.2.1.60.2 Max data rate (1.102, 1.104, 1.106, 1.108. Bits 6:0)
1880	45.2.1.60.3 Data rate step (1.103, 1.105, 1.107, 1.109. Bits 13:7) 45.2.1.60.4 Power (1.103, 1.105, 1.107, 1.109. Bits 6:2) 45.2.1.60.5 Constellation (1.103, 1.105, 1.107, 1.109. Bits 1:0) 45.2.1.61 10GBASE-T status (Register 1.129) 45.2.1.61.1 LP information valid (1.129.0) 45.2.1.62 10GBASE-T pair swap and polarity register (Register 1.130)
1881	45.2.1.62.1 Pair D polarity (1.130.11) 45.2.1.62.2 Pair C polarity (1.130.10) 45.2.1.62.3 Pair B polarity (1.130.9) 45.2.1.62.4 Pair A polarity (1.130.8) 45.2.1.62.5 MDI/MDI-X connection (1.130.1:0) 45.2.1.63 10GBASE-T TX power backoff and PHY short reach setting (Register 1.131)
1882	45.2.1.63.1 10GBASE-T TX power backoff settings (1.131.15:10) 45.2.1.63.2 PHY short reach mode (1.131.0) 45.2.1.64 10GBASE-T test mode register (Register 1.132)
1883	45.2.1.64.1 Test mode control (1.132.15:13) 45.2.1.64.2 Transmitter test frequencies (1.132.12:10) 45.2.1.65 SNR operating margin channel A register (Register 1.133) 45.2.1.66 SNR operating margin channel B register (Register 1.134)
1884	45.2.1.67 SNR operating margin channel C register (Register 1.135) 45.2.1.68 SNR operating margin channel D register (Register 1.136) 45.2.1.69 Minimum margin channel A register (Register 1.137) 45.2.1.70 Minimum margin channel B register (Register 1.138) 45.2.1.71 Minimum margin channel C register (Register 1.139) 45.2.1.72 Minimum margin channel D register (Register 1.140) 45.2.1.73 RX signal power channel A register (Register 1.141)
1885	45.2.1.74 RX signal power channel B register (Register 1.142) 45.2.1.75 RX signal power channel C register (Register 1.143) 45.2.1.76 RX signal power channel D register (Register 1.144) 45.2.1.77 10GBASE-T skew delay register (Registers 1.145 and 1.146)
1886	45.2.1.78 10GBASE-T fast retrain status and control register (Register 1.147) 45.2.1.78.1 LP fast retrain count (1.147.15:11) 45.2.1.78.2 LD fast retrain count (1.147.10:6) 45.2.1.78.3 Fast retrain ability (1.147.4) 45.2.1.78.4 Fast retrain negotiated (1.147.3)
1887	45.2.1.78.5 Fast retrain signal type (1.147.2:1) 45.2.1.78.6 Fast retrain enable (1.147.0) 45.2.1.79 BASE-R PMD control register (Register 1.150) 45.2.1.79.1 Restart training (1.150.0) 45.2.1.79.2 Training enable (1.150.1) 45.2.1.80 BASE-R PMD status register (Register 1.151)
1888	45.2.1.80.1 Receiver status 0 (1.151.0)
1889	45.2.1.80.2 Frame lock 0 (1.151.1) 45.2.1.80.3 Start-up protocol status 0 (1.151.2) 45.2.1.80.4 Training failure 0 (1.151.3) 45.2.1.80.5 Receiver status 1, 2, 3 (1.151.4, 1.151.8, 1.151.12) 45.2.1.80.6 Frame lock 1, 2, 3 (1.151.5, 1.151.9, 1.151.13) 45.2.1.80.7 Start-up protocol status 1, 2, 3 (1.151.6, 1.151.10, 1.151.14) 45.2.1.80.8 Training failure 1, 2, 3 (1.151.7, 1.151.11, 1.151.15) 45.2.1.81 BASE-R LP coefficient update, lane 0 register (Register 1.152) 45.2.1.81.1 Preset (1.152.13) 45.2.1.81.2 Initialize (1.152.12)
1890	45.2.1.81.3 Coefficient (k) update (1.152.5:0) 45.2.1.82 BASE-R LP status report, lane 0 register (Register 1.153)
1891	45.2.1.82.1 Receiver ready (1.153.15) 45.2.1.82.2 Coefficient (k) status (1.153.5:0) 45.2.1.83 BASE-R LD coefficient update, lane 0 register (Register 1.154) 45.2.1.83.1 Preset (1.154.13)
1892	45.2.1.83.2 Initialize (1.154.12) 45.2.1.83.3 Coefficient (k) update(1.154.5:0) 45.2.1.84 BASE-R LD status report, lane 0 register (Register 1.155) 45.2.1.84.1 Receiver ready (1.155.15)
1893	45.2.1.84.2 Coefficient (k) status (1.155.5:0) 45.2.1.85 BASE-R PMD status 2 register (Register 1.156)
1894	45.2.1.85.1 Receiver status 4, 5, 6, 7 (1.156.0, 1.156.4, 1.156.8, 1.156.12) 45.2.1.85.2 Frame lock 4, 5, 6, 7 (1.156.1, 1.156.5, 1.156.9, 1.156.13) 45.2.1.85.3 Start-up protocol status 4, 5, 6, 7 (1.156.2, 1.156.6, 1.156.10, 1.156.14) 45.2.1.85.4 Training failure 4, 5, 6, 7 (1.156.3, 1.156.7, 1.156.11, 1.156.15) 45.2.1.86 BASE-R PMD status 3 register (Register 1.157)
1895	45.2.1.86.1 Receiver status 8, 9 (1.157.0, 1.157.4) 45.2.1.86.2 Frame lock 8, 9 (1.157.1, 1.157.5) 45.2.1.86.3 Start-up protocol status 8, 9 (1.157.2, 1.157.6) 45.2.1.86.4 Training failure 8, 9 (1.157.3, 1.157.7)
1896	45.2.1.87 1000BASE-KX control register (Register 1.160) 45.2.1.87.1 PMD transmit disable (1.160.0)
1897	45.2.1.88 1000BASE-KX status register (Register 1.161) 45.2.1.88.1 PMD transmit fault ability (1.161.13) 45.2.1.88.2 PMD receive fault ability (1.161.12) 45.2.1.88.3 PMD transmit fault (1.161.11)
1898	45.2.1.88.4 PMD receive fault (1.161.10) 45.2.1.88.5 PMD transmit disable ability (1.161.8) 45.2.1.88.6 1000BASE-KX signal detect (1.161.0) 45.2.1.89 BASE-R FEC ability register (Register 1.170) 45.2.1.89.1 BASE-R FEC ability (1.170.0) 45.2.1.89.2 BASE-R FEC error indication ability (1.170.1)
1899	45.2.1.90 BASE-R FEC control register (Register 1.171) 45.2.1.90.1 FEC enable (1.171.0) 45.2.1.90.2 FEC enable error indication (1.171.1) 45.2.1.91 10GBASE-R FEC corrected blocks counter (Register 1.172, 1.173)
1900	45.2.1.92 10GBASE-R FEC uncorrected blocks counter (Register 1.174, 1.175) 45.2.1.93 BASE-R FEC corrected blocks counter, lanes 0 through 19 45.2.1.94 BASE-R FEC uncorrected blocks counter, lanes 0 through 19
1901	45.2.1.95 BASE-R LP coefficient update register, lanes 1 through 9 45.2.1.96 BASE-R LP status report register, lanes 1 through 9 45.2.1.97 BASE-R LD coefficient update register, lanes 1 through 9 45.2.1.98 BASE-R LD status report register, lanes 1 through 9 45.2.1.99 Test-pattern ability (Register 1.1500)
1902	45.2.1.100 PRBS pattern testing control (Register 1.1501)
1903	45.2.1.101 Square wave testing control (Register 1.1510)
1904	45.2.1.102 PRBS Tx pattern testing error counter (Register 1.1600, 1.1601, 1.1602, 1.1603, 1.1604, 1.1605, 1.1606, 1.1607, 1.1608, 1.1609) 45.2.1.103 PRBS Rx pattern testing error counter (Register 1.1700, 1.1701, 1.1702, 1.1703, 1.1704, 1.1705, 1.1706, 1.1707, 1.1708, 1.1709)
1905	45.2.1.104 TimeSync PMA/PMD capability (Register 1.1800) 45.2.1.105 TimeSync PMA/PMD transmit path data delay (Registers 1.1801, 1.1802, 1.1803, 1.1804)
1906	45.2.1.106 TimeSync PMA/PMD receive path data delay (Registers 1.1805, 1.1806, 1.1807, 1.1808) 45.2.2 WIS registers
1907	45.2.2.1 WIS control 1 register (Register 2.0) 45.2.2.1.1 Reset (2.0.15)
1908	45.2.2.1.2 Loopback (2.0.14)
1909	45.2.2.1.3 Low power (2.0.11) 45.2.2.1.4 Speed selection (2.0.13, 2.0.6, and 2.0.5:2) 45.2.2.2 WIS status 1 register (Register 2.1) 45.2.2.2.1 Fault (2.1.7)
1910	45.2.2.2.2 Link status (2.1.2) 45.2.2.2.3 Low-power ability (2.1.1) 45.2.2.3 WIS device identifier (Registers 2.2 and 2.3) 45.2.2.4 WIS speed ability (Register 2.4) 45.2.2.4.1 10G capable (2.4.0) 45.2.2.5 WIS devices in package (Registers 2.5 and 2.6) 45.2.2.6 10G WIS control 2 register (Register 2.7)
1911	45.2.2.6.1 PRBS31 receive test-pattern enable (2.7.5) 45.2.2.6.2 PRBS31 transmit test-pattern enable (2.7.4) 45.2.2.6.3 Test-pattern selection (2.7.3) 45.2.2.6.4 Receive test-pattern enable (2.7.2)
1912	45.2.2.6.5 Transmit test-pattern enable (2.7.1) 45.2.2.6.6 PCS type selection (2.7.0) 45.2.2.7 10G WIS status 2 register (Register 2.8) 45.2.2.7.1 Device present (2.8.15:14) 45.2.2.7.2 PRBS31 pattern testing ability (2.8.1)
1913	45.2.2.7.3 10GBASE-R ability (2.8.0) 45.2.2.8 10G WIS test-pattern error counter register (Register 2.9) 45.2.2.9 WIS package identifier (Registers 2.14 and 2.15) 45.2.2.10 10G WIS status 3 register (Register 2.33) 45.2.2.10.1 SEF (2.33.11)
1914	45.2.2.10.2 Far end PLM-P/LCD-P (2.33.10)
1915	45.2.2.10.3 Far end AIS-P/LOP-P (2.33.9) 45.2.2.10.4 LOF (2.33.7) 45.2.2.10.5 LOS (2.33.6) 45.2.2.10.6 RDI-L (2.33.5) 45.2.2.10.7 AIS-L (2.33.4) 45.2.2.10.8 LCD-P (2.33.3)
1916	45.2.2.10.9 PLM-P (2.33.2) 45.2.2.10.10 AIS-P (2.33.1) 45.2.2.10.11 LOP-P (2.33.0) 45.2.2.11 10G WIS far end path block error count (Register 2.37) 45.2.2.12 10G WIS J1 transmit (Registers 2.39 through 2.46)
1917	45.2.2.13 10G WIS J1 receive (Registers 2.47 through 2.54)
1918	45.2.2.14 10G WIS far end line BIP errors (Registers 2.55 and 2.56)
1919	45.2.2.15 10G WIS line BIP errors (Registers 2.57 and 2.58) 45.2.2.16 10G WIS path block error count (Register 2.59) 45.2.2.16.1 Path block error count (2.59.15:0) 45.2.2.17 10G WIS section BIP error count (Register 2.60)
1920	45.2.2.17.1 Section BIP error count (2.60.15:0) 45.2.2.18 10G WIS J0 transmit (Registers 2.64 through 2.71)
1921	45.2.2.19 10G WIS J0 receive (Registers 2.72 through 2.79)
1922	45.2.2.20 TimeSync WIS capability (Register 2.1800) 45.2.2.21 TimeSync WIS transmit path data delay (Registers 2.1801, 2.1802, 2.1803, 2.1804) 45.2.2.22 TimeSync WIS receive path data delay (Registers 2.1805, 2.1806, 2.1807, 2.1808)
1924	45.2.3 PCS registers
1925	45.2.3.1 PCS control 1 register (Register 3.0)
1926	45.2.3.1.1 Reset (3.0.15) 45.2.3.1.2 Loopback (3.0.14)
1927	45.2.3.1.3 Low power (3.0.11) 45.2.3.1.4 Clock stop enable (3.0.10) 45.2.3.1.5 Speed selection (3.0.13, 3.0.6, 3.0.5:2) 45.2.3.2 PCS status 1 register (Register 3.1)
1928	45.2.3.2.1 Transmit LPI received (3.1.11) 45.2.3.2.2 Receive LPI received (3.1.10) 45.2.3.2.3 Transmit LPI indication (3.1.9) 45.2.3.2.4 Receive LPI indication (3.1.8)
1929	45.2.3.2.5 Fault (3.1.7) 45.2.3.2.6 Clock stop capable (3.1.6) 45.2.3.2.7 PCS receive link status (3.1.2) 45.2.3.2.8 Low-power ability (3.1.1) 45.2.3.3 PCS device identifier (Registers 3.2 and 3.3) 45.2.3.4 PCS speed ability (Register 3.4)
1930	45.2.3.4.1 10G capable (3.4.0) 45.2.3.4.2 10PASS-TS/2BASE-TL capable 45.2.3.4.3 40G capable (3.4.2) 45.2.3.4.4 100G capable (3.4.3) 45.2.3.5 PCS devices in package (Registers 3.5 and 3.6) 45.2.3.6 PCS control 2 register (Register 3.7) 45.2.3.6.1 PCS type selection (3.7.2:0) 45.2.3.7 PCS status 2 register (Register 3.8)
1932	45.2.3.7.1 Device present (3.8.15:14) 45.2.3.7.2 Transmit fault (3.8.11) 45.2.3.7.3 Receive fault (3.8.10) 45.2.3.7.4 100GBASE-R capable (3.8.5) 45.2.3.7.5 40GBASE-R capable (3.8.4) 45.2.3.7.6 10GBASE-T capable (3.8.3) 45.2.3.7.7 10GBASE-W capable (3.8.2) 45.2.3.7.8 10GBASE-X capable (3.8.1)
1933	45.2.3.7.9 10GBASE-R capable (3.8.0) 45.2.3.8 PCS package identifier (Registers 3.14 and 3.15) 45.2.3.9 EEE capability (Register 3.20) 45.2.3.9.1 10GBASE-KR EEE supported (3.20.6)
1934	45.2.3.9.2 10GBASE-KX4 EEE supported (3.20.5) 45.2.3.9.3 1000BASE-KX EEE supported (3.20.4) 45.2.3.9.4 10GBASE-T EEE supported (3.20.3) 45.2.3.9.5 1000BASE-T EEE supported (3.20.2) 45.2.3.9.6 100BASE-TX EEE supported (3.20.1) 45.2.3.10 EEE wake error counter (Register 3.22) 45.2.3.11 10GBASE-X PCS status register (Register 3.24)
1935	45.2.3.11.1 10GBASE-X receive lane alignment status (3.24.12) 45.2.3.11.2 Pattern testing ability (3.24.11) 45.2.3.11.3 Lane 3 sync (3.24.3) 45.2.3.11.4 Lane 2 sync (3.24.2) 45.2.3.11.5 Lane 1 sync (3.24.1) 45.2.3.11.6 Lane 0 sync (3.24.0) 45.2.3.12 10GBASE-X PCS test control register (Register 3.25)
1936	45.2.3.12.1 Transmit test-pattern enable (3.25.2) 45.2.3.12.2 Test pattern select (3.25.1:0) 45.2.3.13 BASE-R and 10GBASE-T PCS status 1 register (Register 3.32)
1937	45.2.3.13.1 BASE-R and 10GBASE-T receive link status (3.32.12) 45.2.3.13.2 PRBS9 pattern testing ability (3.32.3) 45.2.3.13.3 PRBS31 pattern testing ability (3.32.2) 45.2.3.13.4 BASE-R and 10GBASE-T PCS high BER (3.32.1)
1938	45.2.3.13.5 BASE-R and 10GBASE-T PCS block lock (3.32.0) 45.2.3.14 BASE-R and 10GBASE-T PCS status 2 register (Register 3.33) 45.2.3.14.1 Latched block lock (3.33.15) 45.2.3.14.2 Latched high BER (3.33.14)
1939	45.2.3.14.3 BER(3.33.13:8) 45.2.3.14.4 Errored blocks (3.33.7:0) 45.2.3.15 10GBASE-R PCS test pattern seed A (Registers 3.34 through 3.37) 45.2.3.16 10GBASE-R PCS test pattern seed B (Registers 3.38 through 3.41)
1940	45.2.3.17 BASE-R PCS test-pattern control register (Register 3.42)
1941	45.2.3.17.1 Scrambled idle test-pattern enable (3.42.7) 45.2.3.17.2 10GBASE-R PRBS9 transmit test-pattern enable (3.42.6) 45.2.3.17.3 10GBASE-R PRBS31 receive test-pattern enable (3.42.5) 45.2.3.17.4 10GBASE-R PRBS31 transmit test-pattern enable (3.42.4) 45.2.3.17.5 Transmit test-pattern enable (3.42.3)
1942	45.2.3.17.6 Receive test-pattern enable (3.42.2) 45.2.3.17.7 Test-pattern select (3.42.1) 45.2.3.17.8 Data pattern select (3.42.0) 45.2.3.18 BASE-R PCS test-pattern error counter register (Register 3.43) 45.2.3.19 BER high order counter (Register 3.44)
1943	45.2.3.20 Errored blocks high order counter (Register 3.45) 45.2.3.21 Multi-lane BASE-R PCS alignment status 1 register (Register 3.50) 45.2.3.21.1 Multi-lane BASE-R PCS alignment status (3.50.12)
1944	45.2.3.21.2 Block 7 lock (3.50.7) 45.2.3.21.3 Block 6 lock (3.50.6) 45.2.3.21.4 Block 5 lock (3.50.5)
1945	45.2.3.21.5 Block 4 lock (3.50.4) 45.2.3.21.6 Block 3 lock (3.50.3) 45.2.3.21.7 Block 2 lock (3.50.2) 45.2.3.21.8 Block 1 lock (3.50.1) 45.2.3.21.9 Block 0 lock (3.50.0) 45.2.3.22 Multi-lane BASE-R PCS alignment status 2 register (Register 3.51)
1946	45.2.3.22.1 Block 19 lock (3.51.11) 45.2.3.22.2 Block 18 lock (3.51.10) 45.2.3.22.3 Block 17 lock (3.51.9)
1947	45.2.3.22.4 Block 16 lock (3.51.8) 45.2.3.22.5 Block 15 lock (3.51.7) 45.2.3.22.6 Block 14 lock (3.51.6) 45.2.3.22.7 Block 13 lock (3.51.5) 45.2.3.22.8 Block 12 lock (3.51.4) 45.2.3.22.9 Block 11 lock (3.51.3) 45.2.3.22.10 Block 10 lock (3.51.2) 45.2.3.22.11 Block 9 lock (3.51.1) 45.2.3.22.12 Block 8 lock (3.51.0)
1948	45.2.3.23 Multi-lane BASE-R PCS alignment status 3 register (Register 3.52) 45.2.3.23.1 Lane 7 aligned (3.52.7) 45.2.3.23.2 Lane 6 aligned (3.52.6)
1949	45.2.3.23.3 Lane 5 aligned (3.52.5) 45.2.3.23.4 Lane 4 aligned (3.52.4) 45.2.3.23.5 Lane 3 aligned (3.52.3) 45.2.3.23.6 Lane 2 aligned (3.52.2) 45.2.3.23.7 Lane 1 aligned (3.52.1) 45.2.3.23.8 Lane 0 aligned (3.52.0) 45.2.3.24 Multi-lane BASE-R PCS alignment status 4 register (Register 3.53) 45.2.3.24.1 Lane 19 aligned (3.53.11)
1950	45.2.3.24.2 Lane 18 aligned (3.53.10) 45.2.3.24.3 Lane 17 aligned (3.53.9)
1951	45.2.3.24.4 Lane 16 aligned (3.53.8) 45.2.3.24.5 Lane 15 aligned (3.53.7) 45.2.3.24.6 Lane 14 aligned (3.53.6) 45.2.3.24.7 Lane 13 aligned (3.53.5) 45.2.3.24.8 Lane 12 aligned (3.53.4) 45.2.3.24.9 Lane 11 aligned (3.53.3) 45.2.3.24.10 Lane 10 aligned (3.53.2) 45.2.3.24.11 Lane 9 aligned (3.53.1) 45.2.3.24.12 Lane 8 aligned (3.53.0)
1952	45.2.3.25 10P/2B capability register (3.60) 45.2.3.25.1 PAF available (3.60.12) 45.2.3.25.2 Remote PAF supported (3.60.11) 45.2.3.26 10P/2B PCS control register (Register 3.61)
1953	45.2.3.26.1 MII receive during transmit (3.61.15) 45.2.3.26.2 TX_EN and CRS infer a collision (3.61.14) 45.2.3.26.3 PAF enable (3.61.0) 45.2.3.27 10P/2B PME available (Registers 3.62 and 3.63)
1954	45.2.3.28 10P/2B PME aggregate registers (Registers 3.64 and 3.65) 45.2.3.29 10P/2B PAF RX error register (Register 3.66)
1955	45.2.3.30 10P/2B PAF small fragments register (Register 3.67) 45.2.3.31 10P/2B PAF large fragments register (Register 3.68)
1956	45.2.3.32 10P/2B PAF overflow register (Register 3.69) 45.2.3.33 10P/2B PAF bad fragments register (Register 3.70) 45.2.3.34 10P/2B PAF lost fragments register (Register 3.71)
1957	45.2.3.35 10P/2B PAF lost starts of fragments register (Register 3.72) 45.2.3.36 10P/2B PAF lost ends of fragments register (Register 3.73) 45.2.3.37 10GBASE-PR and 10/1GBASE-PRX FEC ability register (Register 3.74)
1958	45.2.3.38 10GBASE-PR and 10/1GBASE-PRX FEC control register (Register 3.75) 45.2.3.38.1 FEC enable error indication (3.75.1) 45.2.3.38.2 10 Gb/s FEC Enable (3.75.0) 45.2.3.39 10/1GBASE-PRX and 10GBASE-PR corrected FEC codewords counter (Register 3.76, 3.77)
1959	45.2.3.40 10/1GBASE-PRX and 10GBASE-PR uncorrected FEC codewords counter (Register 3.78, 3.79) 45.2.3.41 10GBASE-PR and 10/1GBASE-PRX BER monitor timer control register (Register 3.80)
1960	45.2.3.42 10GBASE-PR and 10/1GBASE-PRX BER monitor status (Register 3.81) 45.2.3.42.1 10GBASE-PR and 10/1GBASE-PRX PCS high BER (3.81.0) 45.2.3.42.2 10GBASE-PR and 10/1GBASE-PRX PCS latched high BER (3.81.1) 45.2.3.43 10GBASE-PR and 10/1GBASE-PRX BER monitor threshold control (Register 3.82)
1961	45.2.3.44 BIP error counter lane 0 (Register 3.200) 45.2.3.45 BIP error counter, lanes 1 through 19 (Registers 3.201 through 3.219) 45.2.3.46 Lane 0 mapping register (Register 3.400) 45.2.3.47 Lanes 1 through 19 mapping registers (Registers 3.401 through 3.419)
1962	45.2.3.48 TimeSync PCS capability (Register 3.1800) 45.2.3.49 TimeSync PCS transmit path data delay (Registers 3.1801, 3.1802, 3.1803, 3.1804) 45.2.3.50 TimeSync PCS receive path data delay (Registers 3.1805, 3.1806, 3.1807, 3.1808)
1963	45.2.4 PHY XS registers
1964	45.2.4.1 PHY XS control 1 register (Register 4.0)
1965	45.2.4.1.1 Reset (4.0.15) 45.2.4.1.2 Loopback (4.0.14) 45.2.4.1.3 Low power (4.0.11) 45.2.4.1.4 Clock stop enable (4.0.10) 45.2.4.1.5 XAUI stop enable (4.0.9)
1966	45.2.4.1.6 Speed selection (4.0.13, 4.0.6, 4.0.5:2) 45.2.4.2 PHY XS status 1 register (Register 4.1)
1967	45.2.4.2.1 Transmit LPI received (4.1.11) 45.2.4.2.2 Receive LPI received (4.1.10) 45.2.4.2.3 Transmit LPI indication (4.1.9) 45.2.4.2.4 Receive LPI indication (4.1.8) 45.2.4.2.5 Fault (4.1.7) 45.2.4.2.6 Clock stop capable (4.1.6) 45.2.4.2.7 PHY XS transmit link status (4.1.2) 45.2.4.2.8 Low-power ability (4.1.1)
1968	45.2.4.3 PHY XS device identifier (Registers 4.2 and 4.3) 45.2.4.4 PHY XS speed ability (Register 4.4) 45.2.4.4.1 10G capable (4.4.0) 45.2.4.5 PHY XS devices in package (Registers 4.5 and 4.6) 45.2.4.6 PHY XS status 2 register (Register 4.8)
1969	45.2.4.6.1 Device present (4.8.15:14) 45.2.4.6.2 Transmit fault (4.8.11) 45.2.4.6.3 Receive fault (4.8.10) 45.2.4.7 PHY XS package identifier (Registers 4.14 and 4.15)
1970	45.2.4.8 EEE capability (Register 4.20) 45.2.4.8.1 PHY XS EEE supported (4.20.4) 45.2.4.8.2 XAUI stop capable (4.20.0) 45.2.4.9 EEE wake error counter (Register 4.22) 45.2.4.10 10G PHY XGXS lane status register (Register 4.24) 45.2.4.10.1 PHY XGXS transmit lane alignment status (4.24.12)
1971	45.2.4.10.2 Pattern testing ability (4.24.11) 45.2.4.10.3 PHY XS loopback ability (4.24.10) 45.2.4.10.4 Lane 3 sync (4.24.3) 45.2.4.10.5 Lane 2 sync (4.24.2)
1972	45.2.4.10.6 Lane 1 sync (4.24.1) 45.2.4.10.7 Lane 0 sync (4.24.0) 45.2.4.11 10G PHY XGXS test control register (Register 4.25) 45.2.4.11.1 10G PHY XGXS test-pattern enable (4.25.2) 45.2.4.11.2 10G PHY XGXS test-pattern select (4.25.1:0)
1973	45.2.4.12 TimeSync PHY XS capability (Register 4.1800) 45.2.4.13 TimeSync PHY XS transmit path data delay (Registers 4.1801, 4.1802, 4.1803, 4.1804) 45.2.4.14 TimeSync PHY XS receive path data delay (Registers 4.1805, 4.1806, 4.1807, 4.1808)
1974	45.2.5 DTE XS registers
1975	45.2.5.1 DTE XS control 1 register (Register 5.0)
1976	45.2.5.1.1 Reset (5.0.15) 45.2.5.1.2 Loopback (5.0.14) 45.2.5.1.3 Low power (5.0.11) 45.2.5.1.4 Clock stop enable (5.0.10)
1977	45.2.5.1.5 XAUI stop enable (5.0.9) 45.2.5.1.6 Speed selection (5.0.13, 5.0.6, 5.0.5:2) 45.2.5.2 DTE XS status 1 register (Register 5.1)
1978	45.2.5.2.1 Transmit LPI received (5.1.11) 45.2.5.2.2 Receive LPI received (5.1.10) 45.2.5.2.3 Transmit LPI indication (5.1.9) 45.2.5.2.4 Receive LPI indication (5.1.8) 45.2.5.2.5 Fault (5.1.7) 45.2.5.2.6 Clock stop capable (5.1.6) 45.2.5.2.7 DTE XS receive link status (5.1.2)
1979	45.2.5.2.8 Low-power ability (5.1.1) 45.2.5.3 DTE XS device identifier (Registers 5.2 and 5.3) 45.2.5.4 DTE XS speed ability (Register 5.4) 45.2.5.4.1 10G capable (5.4.0) 45.2.5.5 DTE XS devices in package (Registers 5.5 and 5.6) 45.2.5.6 DTE XS status 2 register (Register 5.8) 45.2.5.6.1 Device present (5.8.15:14)
1980	45.2.5.6.2 Transmit fault (5.8.11) 45.2.5.6.3 Receive fault (5.8.10) 45.2.5.7 DTE XS package identifier (Registers 5.14 and 5.15)
1981	45.2.5.8 EEE capability (Register 5.20) 45.2.5.8.1 PHY XS EEE supported (5.20.4) 45.2.5.8.2 XAUI stop capable (5.20.0) 45.2.5.9 EEE wake error counter (Register 5.22) 45.2.5.10 10G DTE XGXS lane status register (Register 5.24) 45.2.5.10.1 DTE XGXS receive lane alignment status (5.24.12)
1982	45.2.5.10.2 Pattern testing ability (5.24.11) 45.2.5.10.3 Lane 3 sync (5.24.3) 45.2.5.10.4 Lane 2 sync (5.24.2) 45.2.5.10.5 Lane 1 sync (5.24.1) 45.2.5.10.6 Lane 0 sync (5.24.0)
1983	45.2.5.11 10G DTE XGXS test control register (Register 5.25) 45.2.5.11.1 10G DTE XGXS test-pattern enable (5.25.2) 45.2.5.11.2 10G DTE XGXS test-pattern select (5.25.1:0) 45.2.5.12 TimeSync DTE XS capability (Register 5.1800)
1984	45.2.5.13 TimeSync DTE XS transmit path data delay (Registers 5.1801, 5.1802, 5.1803, 5.1804) 45.2.5.14 TimeSync DTE XS receive path data delay (Registers 5.1805, 5.1806, 5.1807, 5.1808)
1985	45.2.6 TC registers
1986	45.2.6.1 TC control register (Register 6.0) 45.2.6.1.1 Reset (6.0.15)
1987	45.2.6.1.2 Speed selection (6.0.13, 6.0.6, 6.0.5:2) 45.2.6.2 TC device identifier (Registers 6.2 and 6.3) 45.2.6.3 TC speed ability (Register 6.4)
1988	45.2.6.3.1 10PASS-TS/2BASE-TL capable (6.4.1) 45.2.6.4 TC devices in package registers (Registers 6.5, 6.6) 45.2.6.5 TC package identifier registers (Registers 6.14, 6.15) 45.2.6.6 10P/2B aggregation discovery control register (Register 6.16) 45.2.6.6.1 Discovery operation (6.16.1:0)
1989	45.2.6.7 10P/2B aggregation and discovery status register (Register 6.17) 45.2.6.7.1 Link partner aggregate operation result (6.17.1)
1990	45.2.6.7.2 Discovery operation result (6.17.0) 45.2.6.8 10P/2B aggregation discovery code (Registers 6.18, 6.19, 6.20) 45.2.6.9 10P/2B link partner PME aggregate control register (Register 6.21)
1991	45.2.6.9.1 Link partner aggregate operation (6.21.1:0) 45.2.6.10 10P/2B link partner PME aggregate data (Registers 6.22, 6.23)
1992	45.2.6.11 10P/2B TC CRC error register (Register 6.24) 45.2.6.12 10P/2B TPS-TC coding violations counter (Registers 6.25, 6.26) 45.2.6.13 10P/2B TC indications register (Register 6.27) 45.2.6.13.1 Local TC synchronized (6.27.8) 45.2.6.13.2 Remote TC synchronized (6.27.0)
1993	45.2.6.14 TimeSync TC capability (Register 6.1800) 45.2.6.15 TimeSync TC transmit path data delay (Registers 6.1801, 6.1802, 6.1803, 6.1804)
1994	45.2.6.16 TimeSync TC receive path data delay (Registers 6.1805, 6.1806, 6.1807, 6.1808) 45.2.7 Auto-Negotiation registers
1995	45.2.7.1 AN control register (Register 7.0)
1996	45.2.7.1.1 AN reset (7.0.15) 45.2.7.1.2 Extended Next Page control (7.0.13) 45.2.7.1.3 Auto-Negotiation enable (7.0.12) 45.2.7.1.4 Restart Auto-Negotiation (7.0.9) 45.2.7.2 AN status (Register 7.1)
1997	45.2.7.2.1 Parallel detection fault (7.1.9) 45.2.7.2.2 Extended Next Page status (7.1.7) 45.2.7.2.3 Page received (7.1.6) 45.2.7.2.4 Auto-Negotiation complete (7.1.5)
1998	45.2.7.2.5 Remote fault (7.1.4) 45.2.7.2.6 Auto-Negotiation ability (7.1.3) 45.2.7.2.7 Link status (7.1.2) 45.2.7.2.8 Link partner Auto-Negotiation ability (7.1.0) 45.2.7.3 Auto-Negotiation device identifier (Registers 7.2 and 7.3) 45.2.7.4 AN devices in package (Registers 7.5 and 7.6) 45.2.7.5 AN package identifier (Registers 7.14 and 7.15)
1999	45.2.7.6 AN advertisement register (7.16, 7.17, and 7.18)
2000	45.2.7.7 AN LP Base Page ability register (7.19, 7.20, and 7.21) 45.2.7.8 AN XNP transmit register (7.22, 7.23, and 7.24)
2001	45.2.7.9 AN LP XNP ability register (7.25, 7.26, and 7.27)
2002	45.2.7.10 10GBASE-T AN control register (Register 7.32) 45.2.7.10.1 MASTER-SLAVE manual config enable (7.32.15) 45.2.7.10.2 MASTER-SLAVE config value (7.32.14)
2003	45.2.7.10.3 Port type (7.32.13) 45.2.7.10.4 10GBASE-T capability (7.32.12) 45.2.7.10.5 LD PMA training reset request (7.32.2) 45.2.7.10.6 Fast retrain ability 45.2.7.10.7 LD loop timing ability (7.32.0)
2004	45.2.7.11 10GBASE-T AN status register (Register 7.33) 45.2.7.11.1 MASTER-SLAVE configuration fault (7.33.15) 45.2.7.11.2 MASTER-SLAVE configuration resolution (7.33.14)
2005	45.2.7.11.3 Local receiver status (7.33.13) 45.2.7.11.4 Remote receiver status (7.33.12) 45.2.7.11.5 Link partner 10GBASE-T capability (7.33.11) 45.2.7.11.6 Link partner loop timing ability (7.33.10) 45.2.7.11.7 Link partner PMA training reset request (7.33.9) 45.2.7.11.8 Fast retrain ability (7.33.1) 45.2.7.12 Backplane Ethernet, BASE-R copper status (Register 7.48)
2006	45.2.7.12.1 BASE-R FEC negotiated (7.48.4) 45.2.7.12.2 Negotiated Port Type (7.48.1, 7.48.2, 7.48.3, 7.48.5, 7.48.6, 7.48.8) 45.2.7.12.3 Backplane Ethernet, BASE-R copper AN ability (7.48.0) 45.2.7.13 EEE advertisement (Register 7.60)
2007	45.2.7.13.1 10GBASE-KR EEE supported (7.60.6) 45.2.7.13.2 10GBASE-KX4 EEE supported (7.60.5)
2008	45.2.7.13.3 1000BASE-KX EEE supported (7.60.4) 45.2.7.13.4 10GBASE-T EEE supported (7.60.3) 45.2.7.13.5 1000BASE-T EEE supported (7.60.2) 45.2.7.13.6 100BASE-TX EEE supported (7.60.1) 45.2.7.14 EEE link partner ability (Register 7.61)
2009	45.2.8 Clause 22 extension registers 45.2.8.1 Clause 22 extension devices in package registers (Registers 29.5, 29.6) 45.2.8.2 FEC capability register (Register 29.7)
2010	45.2.8.2.1 FEC capable (29.7.0) 45.2.8.3 FEC control register (Register 29.8) 45.2.8.3.1 FEC enable (29.8.0) 45.2.8.4 FEC buffer head coding violation counter (Register 29.9)
2011	45.2.8.5 FEC corrected blocks counter (Register 29.10) 45.2.8.6 FEC uncorrected blocks counter (Register 29.11) 45.2.9 Vendor specific MMD 1 registers
2012	45.2.9.1 Vendor specific MMD 1 device identifier (Registers 30.2 and 30.3) 45.2.9.2 Vendor specific MMD 1 status register (Register 30.8) 45.2.9.2.1 Device present (30.8.15:14) 45.2.9.3 Vendor specific MMD 1 package identifier (Registers 30.14 and 30.15)
2013	45.2.10 Vendor specific MMD 2 registers 45.2.10.1 Vendor specific MMD 2 device identifier (Registers 31.2 and 31.3) 45.2.10.2 Vendor specific MMD 2 status register (Register 31.8)
2014	45.2.10.2.1 Device present (31.8.15:14) 45.2.10.3 Vendor specific MMD 2 package identifier (Registers 31.14 and 31.15) 45.3 Management frame structure
2015	45.3.1 IDLE (idle condition) 45.3.2 PRE (preamble) 45.3.3 ST (start of frame) 45.3.4 OP (operation code) 45.3.5 PRTAD (port address) 45.3.6 DEVAD (device address) 45.3.7 TA (turnaround)
2016	45.3.8 ADDRESS / DATA 45.4 Electrical interface 45.4.1 Electrical specification 45.4.2 Timing specification
2018	45.5 Protocol implementation conformance statement (PICS) proforma for Clause 45, MDIO interface 45.5.1 Introduction 45.5.2 Identification 45.5.2.1 Implementation identification 45.5.2.2 Protocol summary
2019	45.5.2.3 Major capabilities/options 45.5.3 PICS proforma tables for the Management Data Input Output (MDIO) interface 45.5.3.1 MDIO signal functional specifications 45.5.3.2 PMA/PMD MMD options
2022	45.5.3.3 PMA/PMD management functions
2029	45.5.3.4 WIS options 45.5.3.5 WIS management functions
2033	45.5.3.6 PCS options
2034	45.5.3.7 PCS management functions
2040	45.5.3.8 Auto-Negotiation options 45.5.3.9 Auto-Negotiation management functions
2044	45.5.3.10 PHY XS options 45.5.3.11 PHY XS management functions
2046	45.5.3.12 DTE XS options 45.5.3.13 DTE XS management functions
2048	45.5.3.14 Vendor specific MMD 1 management functions 45.5.3.15 Vendor specific MMD 2 management functions
2049	45.5.3.16 Management frame structure
2050	45.5.3.17 TC management functions
2052	45.5.3.18 Clause 22 extension options 45.5.3.19 Clause 22 extension management functions
2053	45.5.3.20 Signal timing characteristics 45.5.3.21 Electrical characteristics
2055	46. Reconciliation Sublayer (RS) and 10 Gigabit Media Independent Interface (XGMII) 46.1 Overview
2056	46.1.1 Summary of major concepts 46.1.2 Application 46.1.3 Rate of operation
2057	46.1.4 Delay constraints 46.1.5 Allocation of functions 46.1.6 XGMII structure
2058	46.1.7 Mapping of XGMII signals to PLS service primitives 46.1.7.1 Mapping of PLS_DATA.request 46.1.7.1.1 Function 46.1.7.1.2 Semantics of the service primitive
2059	46.1.7.1.3 When generated 46.1.7.1.4 Effect of receipt 46.1.7.2 Mapping of PLS_DATA.indication 46.1.7.2.1 Function 46.1.7.2.2 Semantics of the service primitive 46.1.7.2.3 When generated 46.1.7.2.4 Effect of receipt
2060	46.1.7.3 Mapping of PLS_CARRIER.indication 46.1.7.4 Mapping of PLS_SIGNAL.indication 46.1.7.5 Mapping of PLS_DATA_VALID.indication 46.1.7.5.1 Function 46.1.7.5.2 Semantics of the service primitive 46.1.7.5.3 When generated 46.1.7.5.4 Effect of receipt 46.2 XGMII data stream
2061	46.2.1 Inter-frame 46.2.2 Preamble and start of frame delimiter
2062	46.2.3 Data 46.2.4 End of frame delimiter 46.2.5 Definition of Start of Packet and End of Packet Delimiters 46.3 XGMII functional specifications
2063	46.3.1 Transmit 46.3.1.1 TX_CLK (10 Gb/s transmit clock) 46.3.1.2 TXC (transmit control) 46.3.1.3 TXD (transmit data)
2065	46.3.1.4 Start control character alignment
2066	46.3.1.5 Transmit direction LPI transition
2067	46.3.2 Receive 46.3.2.1 RX_CLK (receive clock) 46.3.2.2 RXC (receive control)
2069	46.3.2.3 RXD (receive data) 46.3.2.4 Receive direction LPI transition
2070	46.3.3 Error and fault handling 46.3.3.1 Response to error indications by the XGMII 46.3.3.2 Conditions for generation of transmit Error control characters 46.3.3.3 Response to received invalid frame sequences
2071	46.3.4 Link fault signaling
2072	46.3.4.1 Conventions 46.3.4.2 Variables and counters 46.3.4.3 State Diagram
2073	46.4 LPI Assertion and Detection
2074	46.4.1 LPI messages 46.4.2 Transmit LPI state diagram
2075	46.4.2.1 Variables and counters 46.4.2.2 State diagram 46.4.3 Considerations for transmit system behavior 46.4.3.1 Considerations for receive system behavior
2076	46.5 XGMII electrical characteristics
2079	46.6 Protocol implementation conformance statement (PICS) proforma for Clause 46, Reconciliation Sublayer (RS) and 10 Gigabit Media Independent Interface (XGMII) 46.6.1 Introduction 46.6.2 Identification 46.6.2.1 Implementation identification 46.6.2.2 Protocol summary
2080	46.6.2.3 Major capabilities/options 46.6.3 PICS proforma Tables for Reconciliation Sublayer and 10 Gigabit Media Independent Interface 46.6.3.1 General 46.6.3.2 Mapping of PLS service primitives
2081	46.6.3.3 Data stream structure
2082	46.6.3.4 LPI functions 46.6.3.5 Link Interruption 46.6.3.6 XGMII signal functional specifications
2083	46.6.3.7 Link fault signaling state diagram
2084	46.6.3.8 Electrical characteristics
2085	47. XGMII Extender Sublayer (XGXS) and 10 Gigabit Attachment Unit Interface (XAUI) 47.1 Overview
2086	47.1.1 Summary of major concepts 47.1.2 Application 47.1.3 Rate of operation
2087	47.1.4 Allocation of functions 47.1.5 Global signal detect function 47.1.6 Global transmit disable function 47.2 Functional specifications 47.2.1 PCS and PMA functionality
2088	47.2.2 Delay constraints 47.3 XAUI Electrical characteristics 47.3.1 Signal levels 47.3.2 Signal paths
2089	47.3.3 Driver characteristics 47.3.3.1 Load 47.3.3.2 Amplitude and swing
2090	47.3.3.3 Transition time 47.3.3.4 Output impedance 47.3.3.5 Driver template and jitter
2091	47.3.4 Receiver characteristics 47.3.4.1 Bit error ratio 47.3.4.2 Reference input signals
2092	47.3.4.3 Input signal amplitude 47.3.4.4 AC coupling 47.3.4.5 Input impedance 47.3.4.6 Jitter tolerance
2093	47.3.4.7 EEE receiver timing 47.3.5 Interconnect characteristics 47.3.5.1 Characteristic impedance 47.3.5.2 Connector impedance
2094	47.4 Electrical measurement requirements 47.4.1 Compliance interconnect definition
2095	47.4.2 Eye template measurements
2096	47.4.3 Jitter test requirements 47.4.3.1 Transmit jitter 47.4.3.2 Jitter tolerance 47.5 Environmental specifications
2097	47.6 Protocol implementation conformance statement (PICS) proforma for Clause 47, XGMII Extender (XGMII) and 10 Gigabit Attachment Unit Interface (XAUI) 47.6.1 Introduction 47.6.2 Identification 47.6.2.1 Implementation identification 47.6.2.2 Protocol summary
2098	47.6.3 Major capabilities/options 47.6.4 PICS Proforma tables for XGXS and XAUI 47.6.4.1 Compatibility considerations 47.6.4.2 XGXS and XAUI functions 47.6.4.3 Electrical characteristics
2099	47.6.4.4 LPI functions
2101	48. Physical Coding Sublayer (PCS) and Physical Medium Attachment (PMA) sublayer, type 10GBASE-X 48.1 Overview 48.1.1 Objectives
2102	48.1.2 Relationship of 10GBASE-X to other standards 48.1.3 Summary of 10GBASE-X sublayers 48.1.3.1 Physical Coding Sublayer (PCS)
2103	48.1.3.2 Physical Medium Attachment (PMA) sublayer 48.1.3.3 Physical Medium Dependent (PMD) sublayer 48.1.4 Rate of operation 48.1.5 Allocation of functions
2104	48.1.6 Inter-sublayer interfaces 48.1.7 Functional block diagram
2105	48.1.8 Special symbols 48.2 Physical Coding Sublayer (PCS) 48.2.1 PCS service interface (XGMII) 48.2.2 Functions within the PCS
2106	48.2.3 Use of code-groups
2108	48.2.4 Ordered_sets and special code-groups 48.2.4.1 Data (/D/)
2110	48.2.4.2 Idle (\|\|I\|\|) and Low Power Idle (\|\|LPIDLE\|\|)
2111	48.2.4.2.1 Sync \|\|K\|\|
2112	48.2.4.2.2 Align \|\|A\|\| 48.2.4.2.3 Skip \|\|R\|\|
2113	48.2.4.3 Encapsulation 48.2.4.3.1 Start \|\|S\|\| 48.2.4.3.2 Terminate \|\|T\|\| 48.2.4.4 Error /E/ 48.2.4.5 Link status
2114	48.2.4.5.1 Sequence \|\|Q\|\| 48.2.5 Management function requirements
2115	48.2.6 Detailed functions and state diagrams 48.2.6.1 State variables 48.2.6.1.1 Notation conventions
2116	48.2.6.1.2 Constants
2117	48.2.6.1.3 Variables
2120	48.2.6.1.4 Functions
2121	48.2.6.1.5 Counters 48.2.6.1.6 Timers
2122	48.2.6.1.7 Messages
2123	48.2.6.2 State diagrams 48.2.6.2.1 Transmit 48.2.6.2.2 Synchronization
2125	48.2.6.2.3 Deskew 48.2.6.2.4 Receive 48.2.6.2.5 LPI state diagrams
2131	48.2.6.2.6 LPI status and management
2132	48.2.6.3 Initialization process 48.2.6.4 Link status reporting 48.2.6.4.1 Link status detection 48.2.6.4.2 Link status signaling 48.2.6.4.3 Link status messages 48.2.7 Auto-Negotiation for Backplane Ethernet 48.3 Physical Medium Attachment (PMA) sublayer
2133	48.3.1 Functions within the PMA 48.3.1.1 PMA transmit process 48.3.1.2 PMA receive process
2134	48.3.2 Service interface 48.3.2.1 PMA_UNITDATA.request 48.3.2.1.1 Semantics of the service primitive 48.3.2.1.2 When generated 48.3.2.1.3 Effect of receipt 48.3.2.2 PMA_UNITDATA.indication 48.3.2.2.1 Semantics of the service primitive 48.3.2.2.2 When generated 48.3.2.2.3 Effect of receipt
2135	48.3.3 Loopback mode 48.3.3.1 Receiver considerations 48.3.3.2 Transmitter considerations 48.3.4 Test functions 48.4 Compatibility considerations 48.5 Delay constraints
2136	48.6 Environmental specifications
2137	48.7 Protocol implementation conformance statement (PICS) proforma for Physical Coding Sublayer (PCS) and Physical Medium Attachment (PMA) sublayer, type 10GBASE-X 48.7.1 Introduction 48.7.2 Identification 48.7.2.1 Implementation identification 48.7.2.2 Protocol summary
2138	48.7.3 Major capabilities/options 48.7.4 PICS proforma tables for the PCS and PMA sublayer, type 10GBASE-X 48.7.4.1 Compatibility considerations 48.7.4.2 PCS functions
2140	48.7.4.3 PMA Functions 48.7.4.4 Interface functions 48.7.4.5 LPI functions
2141	49. Physical Coding Sublayer (PCS) for 64B/66B, type 10GBASE-R 49.1 Overview 49.1.1 Scope 49.1.2 Objectives 49.1.3 Relationship of 10GBASE-R to other standards
2142	49.1.4 Summary of 10GBASE-R and 10GBASE-W sublayers 49.1.4.1 Physical Coding Sublayer (PCS)
2143	49.1.4.2 WAN Interface Sublayer (WIS) 49.1.4.3 Physical Medium Attachment (PMA) sublayer 49.1.4.4 Physical Medium Dependent (PMD) sublayer 49.1.4.5 Bit ordering across 10GBASE-R and 10GBASE-W sublayers.
2144	49.1.5 Inter-sublayer interfaces
2145	49.1.6 Functional block diagram
2146	49.2 Physical Coding Sublayer (PCS) 49.2.1 PCS service interface (XGMII) 49.2.2 Functions within the PCS
2147	49.2.3 Use of blocks 49.2.4 64B/66B transmission code 49.2.4.1 Notation conventions
2148	49.2.4.2 Transmission order 49.2.4.3 Block structure
2150	49.2.4.4 Control codes 49.2.4.5 Ordered sets
2151	49.2.4.6 Valid and invalid blocks 49.2.4.7 Idle (/I/)
2152	49.2.4.8 Start (/S/) 49.2.4.9 Terminate (/T/) 49.2.4.10 ordered_set (/O/) 49.2.4.11 Error (/E/)
2153	49.2.5 Transmit process 49.2.6 Scrambler
2154	49.2.7 Gearbox 49.2.8 Test-pattern generators
2155	49.2.9 Block synchronization 49.2.10 Descrambler 49.2.11 Receive process
2156	49.2.12 Test-pattern checker
2157	49.2.13 Detailed functions and state diagrams 49.2.13.1 State diagram conventions 49.2.13.2 State variables 49.2.13.2.1 Constants 49.2.13.2.2 Variables
2159	49.2.13.2.3 Functions
2160	49.2.13.2.4 Counters
2161	49.2.13.2.5 Timers
2162	49.2.13.3 State diagrams 49.2.13.3.1 LPI state diagrams
2165	49.2.14 PCS Management 49.2.14.1 Status
2166	49.2.14.2 Counters 49.2.14.3 Test mode control 49.2.14.4 Loopback 49.2.15 Delay constraints
2167	49.2.16 Auto-Negotiation for Backplane Ethernet
2171	49.3 Protocol implementation conformance statement (PICS) proforma for Clause 49, Physical Coding Sublayer (PCS) type 10GBASE-R 49.3.1 Introduction 49.3.2 Identification 49.3.2.1 Implementation identification 49.3.2.2 Protocol summary
2172	49.3.3 Major capabilities/options 49.3.4 PICS Proforma Tables for PCS, type 10GBASE-R 49.3.4.1 Coding rules
2173	49.3.4.2 Scrambler and Descrambler 49.3.5 Test-pattern modes
2174	49.3.5.1 Bit order 49.3.6 Management 49.3.6.1 State diagrams
2175	49.3.6.2 WIS 49.3.6.3 Loopback 49.3.6.4 Delay Constraints 49.3.6.5 Auto-Negotiation for Backplane Ethernet functions
2176	49.3.6.6 LPI functions
2177	50. WAN Interface Sublayer (WIS), type 10GBASE-W 50.1 Overview 50.1.1 Scope
2178	50.1.2 Objectives
2179	50.1.3 Relationship to other sublayers 50.1.4 Summary of functions
2180	50.1.5 Sublayer interfaces 50.1.6 Functional block diagram 50.1.7 Notational conventions
2181	50.2 WIS Service Interface 50.2.1 WIS_UNITDATA.request 50.2.1.1 Semantics of the service primitive 50.2.1.2 When generated
2182	50.2.1.3 Effect of receipt 50.2.2 WIS_UNITDATA.indication 50.2.2.1 Semantics of the service primitive 50.2.2.2 When generated 50.2.2.3 Effect of receipt 50.2.3 WIS_SIGNAL.request 50.2.3.1 Semantics of the service primitive
2183	50.2.3.2 When generated 50.2.3.3 Effect of receipt 50.2.4 WIS_SIGNAL.indication 50.2.4.1 Semantics of the service primitive 50.2.4.2 When generated 50.2.4.3 Effect of receipt 50.3 Functions within the WIS
2185	50.3.1 Payload mapping and data-unit delineation
2186	50.3.1.1 Transmit payload mapping
2187	50.3.1.2 Receive payload mapping 50.3.2 WIS frame generation
2188	50.3.2.1 Transmit Path Overhead insertion
2189	50.3.2.2 Transmit Line Overhead insertion
2190	50.3.2.3 Transmit Section Overhead insertion
2191	50.3.2.4 Receive Path, Line, and Section Overhead extraction
2192	50.3.2.5 Fault processing
2193	50.3.3 Scrambling
2194	50.3.3.1 Scrambler polynomial 50.3.3.2 Scrambler bit ordering 50.3.4 Octet and frame delineation 50.3.5 Error propagation
2195	50.3.5.1 Propagated errors 50.3.5.2 Error propagation timing 50.3.5.3 Loss of Code-group Delineation 50.3.6 Mapping between WIS and PMA
2196	50.3.7 WIS data delay constraints
2197	50.3.8 WIS test-pattern generator and checker 50.3.8.1 Square wave test pattern 50.3.8.2 PRBS31 test pattern
2198	50.3.8.3 Mixed-frequency test pattern
2199	50.3.8.3.1 Test Signal Structure (TSS)
2200	50.3.8.3.2 Continuous Identical Digits 50.3.9 Loopback 50.3.10 Link status 50.3.11 Management interface
2201	50.3.11.1 Management registers 50.3.11.2 WIS managed object class 50.3.11.3 Management support objects
2202	50.4 Synchronization state diagram 50.4.1 State diagram variables 50.4.1.1 Constants
2203	50.4.1.2 Variables 50.4.1.3 Functions
2204	50.4.1.4 Counters 50.4.2 State diagram
2206	50.4.3 Parameter values 50.5 Environmental specifications
2208	50.6 Protocol implementation conformance statement (PICS) proforma for Clause 50, WAN Interface Sublayer (WIS), type 10GBASE-W 50.6.1 Introduction 50.6.2 Identification 50.6.2.1 Implementation identification 50.6.2.2 Protocol summary
2209	50.6.3 Major capabilities/options 50.6.4 PICS proforma tables for the WAN Interface Sublayer (WIS), type 10GBASE-W 50.6.4.1 Compatibility considerations 50.6.4.2 WIS transmit functions
2210	50.6.4.3 WIS receive functions
2211	50.6.4.4 State diagrams
2212	50.6.4.5 Error notification 50.6.4.6 Management registers and functions
2213	50.6.4.7 WIS test-pattern generator and checker
2215	51. Physical Medium Attachment (PMA) sublayer, type Serial 51.1 Overview 51.1.1 Scope 51.1.2 Summary of functions
2216	51.2 PMA Service Interface 51.2.1 PMA_UNITDATA.request 51.2.1.1 Semantics of the service primitive 51.2.1.2 When generated
2217	51.2.1.3 Effect of receipt 51.2.2 PMA_UNITDATA.indication 51.2.2.1 Semantics of the service primitive 51.2.2.2 When generated 51.2.2.3 Effect of receipt 51.2.3 PMA_SIGNAL.indication 51.2.3.1 Semantics of the service primitive 51.2.3.2 When generated 51.2.3.3 Effect of receipt
2218	51.2.4 PMA_RXMODE.request 51.2.4.1 Semantics of the service primitive 51.2.4.2 When generated 51.2.4.3 Effect of receipt 51.2.5 PMA_TXMODE.request 51.2.5.1 Semantics of the service primitive 51.2.5.2 When generated 51.2.5.3 Effect of receipt 51.2.6 PMA_ENERGY.indication 51.2.6.1 Semantics of the service primitive
2219	51.2.6.2 When generated 51.2.6.3 Effect of receipt 51.3 Functions within the PMA 51.3.1 PMA transmit function 51.3.2 PMA receive function 51.3.3 Delay Constraints
2220	51.4 Sixteen-Bit Interface (XSBI)
2221	51.4.1 Required signals
2223	51.4.2 Optional Signals
2224	51.5 General electrical characteristics of the XSBI 51.5.1 DC characteristics 51.5.2 Valid signal levels
2225	51.5.3 Rise and fall time definition 51.5.4 Output load 51.6 XSBI transmit interface electrical characteristics 51.6.1 XSBI transmit interface timing
2226	51.6.1.1 PMA client output timing
2227	51.6.1.2 PMA input timing 51.6.2 XSBI PMA_TX_CLK and PMA_TXCLK_SRC Specification
2228	51.7 XSBI receive interface electrical characteristics 51.7.1 XSBI receive interface timing
2229	51.7.1.1 PMA output timing
2230	51.7.1.2 PMA client input timing 51.7.2 XSBI PMA_RX_CLK specification 51.8 PMA loopback mode (optional)
2231	51.9 Environmental specifications
2232	51.10 Protocol implementation conformance statement (PICS) proforma for Clause 51, Physical Medium Attachment (PMA) sublayer, type Serial 51.10.1 Introduction 51.10.2 Identification 51.10.2.1 Implementation identification 51.10.2.2 Protocol summary
2233	51.10.3 Major capabilities/options 51.10.4 PICS proforma tables for the PMA Interface Sublayer, type Serial 51.10.4.1 Compatibility considerations 51.10.4.2 PMA transmit functions
2234	51.10.4.3 PMA receive functions 51.10.4.4 PMA delay constraints
2235	52. Physical Medium Dependent (PMD) sublayer and baseband medium, type 10GBASE-S (short wavelength serial), 10GBASE-L (long wavelength serial), and 10GBASE-E (extra long wavelength serial) 52.1 Overview
2236	52.1.1 Physical Medium Dependent (PMD) sublayer service interface 52.1.1.1 PMD_UNITDATA.request
2237	52.1.1.1.1 Semantics of the service primitive 52.1.1.1.2 When generated 52.1.1.1.3 Effect of receipt 52.1.1.2 PMD_UNITDATA.indication 52.1.1.2.1 Semantics of the service primitive 52.1.1.2.2 When generated 52.1.1.2.3 Effect of receipt 52.1.1.3 PMD_SIGNAL.indication 52.1.1.3.1 Semantics of the service primitive
2238	52.1.1.3.2 When generated 52.1.1.3.3 Effect of receipt 52.2 Delay constraints 52.3 PMD MDIO function mapping
2239	52.4 PMD functional specifications 52.4.1 PMD block diagram 52.4.2 PMD Transmit function 52.4.3 PMD Receive function 52.4.4 PMD Signal Detect function
2240	52.4.5 PMD_reset function 52.4.6 PMD_fault function 52.4.7 PMD_global_transmit_disable function
2241	52.4.8 PMD_transmit_fault function 52.4.9 PMD_receive_fault function 52.5 PMD to MDI optical specifications for 10GBASE-S
2242	52.5.1 10GBASE-S transmitter optical specifications
2244	52.5.2 10GBASE-S receive optical specifications 52.5.3 10GBASE-S link power budgets (informative) 52.6 PMD to MDI optical specifications for 10GBASE-L
2245	52.6.1 10GBASE-L transmitter optical specifications
2247	52.6.2 10GBASE-L receive optical specifications 52.6.3 10GBASE-L link power budgets (informative)
2248	52.7 PMD to MDI optical specifications for 10GBASE-E
2249	52.7.1 10GBASE-E transmitter optical specifications
2250	52.7.2 10GBASE-E receive optical specifications 52.7.3 10GBASE-E link power budgets (informative) 52.8 Jitter specifications for 10GBASE-R and 10GBASE-W
2251	52.8.1 Sinusoidal jitter for receiver conformance test
2252	52.9 Optical measurement requirements 52.9.1 Test patterns 52.9.1.1 Test-pattern definition
2254	52.9.1.2 Square wave pattern definition 52.9.2 Center wavelength and spectral width measurements 52.9.3 Average optical power measurements 52.9.4 Extinction ratio measurements 52.9.5 Optical modulation amplitude (OMA) test procedure
2255	52.9.6 Relative intensity noise optical modulation amplitude (RINxOMA) measuring procedure 52.9.6.1 General test description 52.9.6.2 Component descriptions
2256	52.9.6.3 Test Procedure
2257	52.9.7 Transmitter optical waveform
2258	52.9.8 Receiver sensitivity measurements
2259	52.9.9 Stressed receiver conformance test 52.9.9.1 Stressed receiver conformance test block diagram
2261	52.9.9.2 Parameter definitions
2262	52.9.9.3 Stressed receiver conformance test signal characteristics and calibration
2263	52.9.9.4 Stressed receiver conformance test procedure
2264	52.9.10 Transmitter and dispersion penalty measurement 52.9.10.1 Reference transmitter requirements 52.9.10.2 Channel requirements
2265	52.9.10.3 Reference receiver requirements 52.9.10.4 Test procedure
2266	52.9.11 Measurement of the receiver 3 dB electrical upper cutoff frequency
2267	52.10 Environmental specifications 52.10.1 General safety 52.10.2 Laser safety 52.10.3 Installation 52.11 Environment 52.11.1 Electromagnetic emission
2268	52.11.2 Temperature, humidity, and handling 52.12 PMD labeling requirements 52.13 Fiber optic cabling model
2269	52.14 Characteristics of the fiber optic cabling (channel) 52.14.1 Optical fiber and cable 52.14.2 Optical fiber connection 52.14.2.1 Connection insertion loss
2270	52.14.2.2 Maximum discrete reflectance 52.14.3 10GBASE-E attenuator management
2271	52.14.4 Medium Dependent Interface (MDI) requirements
2272	52.15 Protocol implementation conformance statement (PICS) proforma for Clause 52, Physical Medium Dependent (PMD) sublayer and baseband medium, type 10GBASE-S (short wavelength serial), 10GBASE-L (long wavelength serial), and 10GBASE-E (extra long w… 52.15.1 Introduction 52.15.2 Identification 52.15.2.1 Implementation identification 52.15.2.2 Protocol summary
2273	52.15.2.3 Major capabilities/options
2274	52.15.3 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and baseband medium, types 10GBASE-R and 10GBASE-W 52.15.3.1 PMD functional specifications 52.15.3.2 Management functions
2275	52.15.3.3 PMD to MDI optical specifications for 10GBASE-SR 52.15.3.4 PMD to MDI optical specifications for 10GBASE-SW 52.15.3.5 PMD to MDI optical specifications for 10GBASE-LR
2276	52.15.3.6 PMD to MDI optical specifications for 10GBASE-LW 52.15.3.7 PMD to MDI optical specifications for 10GBASE-ER 52.15.3.8 PMD to MDI optical specifications for 10GBASE-EW
2277	52.15.3.9 Optical measurement requirements 52.15.3.10 Characteristics of the fiber optic cabling and MDI
2278	52.15.3.11 Environmental specifications 52.15.3.12 Environment
2279	53. Physical Medium Dependent (PMD) sublayer and baseband medium, type 10GBASE-LX4 53.1 Overview 53.1.1 Physical Medium Dependent (PMD) service interface 53.1.2 PMD_UNITDATA.request
2280	53.1.2.1 Semantics of the service primitive 53.1.2.2 When generated 53.1.2.3 Effect of Receipt 53.1.3 PMD_UNITDATA.indication 53.1.3.1 Semantics of the service primitive
2281	53.1.3.2 When generated 53.1.3.3 Effect of receipt 53.1.4 PMD_SIGNAL.indication 53.1.4.1 Semantics of the service primitive 53.1.4.2 When generated 53.1.4.3 Effect of receipt 53.2 Delay constraints 53.3 PMD MDIO function mapping
2282	53.4 PMD functional specifications 53.4.1 PMD block diagram
2283	53.4.2 PMD transmit function
2284	53.4.3 PMD receive function 53.4.4 Global PMD signal detect function 53.4.5 PMD lane by lane signal detect function
2285	53.4.6 PMD reset function 53.4.7 Global PMD transmit disable function 53.4.8 PMD lane by lane transmit disable function 53.4.9 PMD fault function 53.4.10 PMD transmit fault function (optional) 53.4.11 PMD receive fault function (optional) 53.5 Wavelength-division multiplexed-lane assignments 53.6 Operating ranges for 10GBASE-LX4 PMD
2287	53.7 PMD to MDI optical specifications for 10GBASE-LX4 53.7.1 Transmitter optical specifications
2288	53.7.2 Receive optical specifications 53.7.3 Worst case 10GBASE-LX4 link power budget and penalties (informative) 53.8 Jitter specifications for each lane of the 10GBASE-LX4 PMD 53.8.1 Transmit jitter specification
2290	53.8.1.1 Channel requirements for transmit jitter testing 53.8.1.2 Test pattern requirements for transmit jitter testing 53.8.2 Receive jitter tolerance specification 53.8.2.1 Input jitter for receiver jitter test
2291	53.8.2.2 Added sinusoidal jitter for receiver jitter test
2292	53.9 Optical measurement requirements 53.9.1 Wavelength range measurements
2293	53.9.2 Optical power measurements 53.9.3 Source spectral window measurements 53.9.4 Extinction ratio measurements 53.9.5 Optical Modulation Amplitude (OMA) measurements 53.9.6 Relative Intensity Noise [RIN12(OMA)] 53.9.7 Transmitter optical waveform (transmit eye)
2295	53.9.8 Transmit rise/fall characteristics 53.9.9 Receive sensitivity measurements 53.9.10 Transmitter jitter conformance (per lane) 53.9.10.1 Block diagram and general description of test set up
2296	53.9.10.2 Channel requirements for transmit jitter testing
2297	53.9.10.3 Transmit jitter test procedure 53.9.11 Receive sensitivity measurements 53.9.12 Stressed receiver conformance test 53.9.12.1 Block diagram of stressed receiver tolerance test set up
2298	53.9.12.2 Stressed receiver conformance test procedure 53.9.12.3 Characterization of receiver input signal
2299	53.9.12.4 Jitter tolerance test procedure 53.9.13 Measurement of the receiver 3 dB electrical upper cutoff frequency
2300	53.9.14 Conformance test signal at TP3 for receiver testing
2302	53.9.15 Receiver test suite for WDM conformance testing
2304	53.10 Environmental specifications 53.10.1 General safety 53.10.2 Laser safety
2305	53.10.3 Installation 53.11 Environment 53.11.1 Electromagnetic emission 53.11.2 Temperature, humidity, and handling 53.12 PMD labeling requirements
2306	53.13 Fiber optic cabling model 53.14 Characteristics of the fiber optic cabling (channel) 53.14.1 Optical fiber and cable
2307	53.14.2 Optical fiber connection 53.14.2.1 Connection insertion loss
2308	53.14.2.2 Connection return loss 53.14.3 Medium Dependent Interface (MDI)
2309	53.15 Protocol implementation conformance statement (PICS) proforma for Clause 53, Physical Medium Dependent (PMD) sublayer and baseband medium, type 10GBASE-LX4 53.15.1 Introduction 53.15.2 Identification 53.15.2.1 Implementation identification 53.15.2.2 Protocol summary
2310	53.15.3 Major capabilities/options
2311	53.15.4 PICS proforma tables for 10GBASE-LX4 and baseband medium 53.15.4.1 PMD Functional specifications
2312	53.15.4.2 PMD to MDI optical specifications for 10GBASE-LX4 53.15.4.3 Management functions
2313	53.15.4.4 Jitter specifications
2314	53.15.4.5 Optical measurement requirements
2317	53.15.4.6 Characteristics of the fiber optic cabling
2319	54. Physical Medium Dependent (PMD) sublayer and baseband medium, type 10GBASE-CX4 54.1 Overview
2320	54.2 Physical Medium Dependent (PMD) service interface 54.3 Delay constraints 54.4 PMD MDIO function mapping 54.5 PMD functional specifications 54.5.1 Link block diagram
2321	54.5.2 PMD Transmit function 54.5.3 PMD Receive function 54.5.4 Global PMD signal detect function
2322	54.5.5 PMD lane-by-lane signal detect function 54.5.6 Global PMD transmit disable function 54.5.7 PMD lane-by-lane transmit disable function
2323	54.5.8 Loopback mode 54.5.9 PMD fault function 54.5.10 PMD transmit fault function 54.5.11 PMD receive fault function 54.6 MDI Electrical specifications for 10GBASE-CX4 54.6.1 Signal levels 54.6.2 Signal paths
2324	54.6.3 Transmitter characteristics
2325	54.6.3.1 Test fixtures 54.6.3.2 Test-fixture impedance 54.6.3.3 Signaling speed range
2326	54.6.3.4 Output amplitude
2327	54.6.3.5 Output return loss
2328	54.6.3.6 Differential output template
2329	54.6.3.7 Transition time 54.6.3.8 Transmit jitter 54.6.3.9 Transmit jitter test requirements
2330	54.6.4 Receiver characteristics 54.6.4.1 Bit error ratio 54.6.4.2 Signaling speed range 54.6.4.3 AC-coupling 54.6.4.4 Input signal amplitude
2331	54.6.4.5 Input return loss 54.7 Cable assembly characteristics
2332	54.7.1 Characteristic impedance and reference impedance 54.7.2 Cable assembly insertion loss
2333	54.7.3 Cable assembly return loss 54.7.4 Near-End Crosstalk (NEXT) 54.7.4.1 Differential Near-End Crosstalk
2334	54.7.4.2 Multiple Disturber Near-End Crosstalk (MDNEXT)
2335	54.7.5 Far-End Crosstalk (FEXT) 54.7.5.1 Equal Level Far-End Crosstalk (ELFEXT) loss 54.7.5.2 Multiple Disturber Equal Level Far-End Crosstalk (MDELFEXT) loss
2336	54.7.6 Shielding 54.7.7 Crossover function
2337	54.8 MDI specification 54.8.1 MDI connectors 54.8.2 Connector pin assignments
2338	54.9 Environmental specifications
2339	54.10 Protocol implementation conformance statement (PICS) proforma for Clause 54, Physical Medium Dependent (PMD) sublayer and baseband medium, type 10GBASE-CX4 54.10.1 Introduction 54.10.2 Identification 54.10.2.1 Implementation identification 54.10.2.2 Protocol summary
2340	54.10.3 PICS proforma tables for 10GBASE-CX4 and baseband medium 54.10.4 Major capabilities/options
2341	54.10.4.1 PMD Functional specifications
2342	54.10.4.2 Management functions
2343	54.10.4.3 Transmitter specifications
2344	54.10.4.4 Receiver specifications 54.10.4.5 Cable assembly specifications
2345	54.10.4.6 MDI connector specifications
2347	55. Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer and baseband medium, type 10GBASE-T 55.1 Overview 55.1.1 Objectives
2348	55.1.2 Relationship of 10GBASE-T to other standards 55.1.3 Operation of 10GBASE-T
2352	55.1.3.1 Physical Coding Sublayer (PCS) 55.1.3.2 Physical Medium Attachment (PMA) sublayer
2353	55.1.3.3 EEE capability
2354	55.1.4 Signaling 55.1.5 Interfaces
2355	55.1.6 Conventions in this clause 55.2 10GBASE-T service primitives and interfaces 55.2.1 Technology Dependent Interface 55.2.1.1 PMA_LINK.request 55.2.1.1.1 Semantics of the primitive
2356	55.2.1.1.2 When generated 55.2.1.1.3 Effect of receipt 55.2.1.2 PMA_LINK.indication 55.2.1.2.1 Semantics of the primitive 55.2.1.2.2 When generated 55.2.1.2.3 Effect of receipt 55.2.2 PMA service interface
2358	55.2.2.1 PMA_TXMODE.indication 55.2.2.1.1 Semantics of the primitive
2359	55.2.2.1.2 When generated 55.2.2.1.3 Effect of receipt 55.2.2.2 PMA_CONFIG.indication 55.2.2.2.1 Semantics of the primitive 55.2.2.2.2 When generated 55.2.2.2.3 Effect of receipt 55.2.2.3 PMA_UNITDATA.request
2360	55.2.2.3.1 Semantics of the primitive 55.2.2.3.2 When generated 55.2.2.3.3 Effect of receipt 55.2.2.4 PMA_UNITDATA.indication 55.2.2.4.1 Semantics of the primitive
2361	55.2.2.4.2 When generated 55.2.2.4.3 Effect of receipt 55.2.2.5 PMA_SCRSTATUS.request 55.2.2.5.1 Semantics of the primitive 55.2.2.5.2 When generated 55.2.2.5.3 Effect of receipt 55.2.2.6 PMA_PCSSTATUS.request 55.2.2.6.1 Semantics of the primitive 55.2.2.6.2 When generated
2362	55.2.2.6.3 Effect of receipt 55.2.2.7 PMA_RXSTATUS.indication 55.2.2.7.1 Semantics of the primitive 55.2.2.7.2 When generated 55.2.2.7.3 Effect of receipt 55.2.2.8 PMA_REMRXSTATUS.request 55.2.2.8.1 Semantics of the primitive 55.2.2.8.2 When generated
2363	55.2.2.8.3 Effect of receipt 55.2.2.9 PMA_ALERTDETECT.indication 55.2.2.9.1 Semantics of the primitive 55.2.2.9.2 When generated 55.2.2.9.3 Effect of receipt 55.2.2.10 PCS_RX_LPI_STATUS.request 55.2.2.10.1 Semantics of the primitive 55.2.2.10.2 When generated 55.2.2.10.3 Effect of receipt
2364	55.2.2.11 PMA_PCSDATAMODE.indication 55.2.2.11.1 Semantics of the primitive 55.2.2.11.2 When generated 55.2.2.11.3 Effect of receipt 55.2.2.12 PMA_FR_ACTIVE.indication 55.2.2.12.1 Semantics of the primitive 55.2.2.12.2 When generated 55.2.2.12.3 Effect of receipt 55.3 Physical Coding Sublayer (PCS) 55.3.1 PCS service interface (XGMII) 55.3.2 PCS functions
2365	55.3.2.1 PCS Reset function
2366	55.3.2.2 PCS Transmit function
2367	55.3.2.2.1 Use of blocks 55.3.2.2.2 65B-LDPC transmission code 55.3.2.2.3 Notation conventions 55.3.2.2.4 Transmission order 55.3.2.2.5 Block structure
2371	55.3.2.2.6 Control codes 55.3.2.2.7 Ordered sets
2372	55.3.2.2.8 Valid and invalid blocks 55.3.2.2.9 Idle (/I/)
2373	55.3.2.2.10 LPI (/LI/)
2374	55.3.2.2.11 Start (/S/) 55.3.2.2.12 Terminate (/T/) 55.3.2.2.13 ordered_set (/O/) 55.3.2.2.14 Error (/E/) 55.3.2.2.15 Transmit process
2375	55.3.2.2.16 PCS scrambler.
2376	55.3.2.2.17 CRC8 55.3.2.2.18 LDPC encoder 55.3.2.2.19 DSQ128 bit mapping
2377	55.3.2.2.20 DSQ128 to 4D-PAM16
2378	55.3.2.2.21 65B-LDPC framer 55.3.2.2.22 EEE capability
2379	55.3.2.3 PCS Receive function
2380	55.3.2.3.1 Frame and block synchronization 55.3.2.3.2 PCS descrambler 55.3.2.3.3 CRC8 receive function 55.3.3 Test-pattern generators
2381	55.3.4 PMA training side-stream scrambler polynomials
2382	55.3.4.1 Generation of bits San, Sbn, Scn, Sdn 55.3.4.2 Generation of 4D symbols TAn, TBn, TCn, TDn
2383	55.3.4.3 PMA training mode descrambler polynomials 55.3.5 LPI signaling
2384	55.3.5.1 LPI Synchronization
2385	55.3.5.2 Quiet period signaling 55.3.5.3 Refresh period signaling
2386	55.3.6 Detailed functions and state diagrams 55.3.6.1 State diagram conventions 55.3.6.2 State diagram parameters 55.3.6.2.1 Constants 55.3.6.2.2 Variables
2389	55.3.6.2.3 Timers 55.3.6.2.4 Functions
2391	55.3.6.2.5 Counters 55.3.6.3 Messages 55.3.6.4 State diagrams
2392	55.3.7 PCS management 55.3.7.1 Status 55.3.7.2 Counters
2399	55.3.7.3 Loopback 55.4 Physical Medium Attachment (PMA) sublayer 55.4.1 PMA functional specifications
2400	55.4.2 PMA functions 55.4.2.1 PMA Reset function 55.4.2.2 PMA Transmit function
2401	55.4.2.2.1 Alert signal
2402	55.4.2.2.2 Link failure signal 55.4.2.3 PMA transmit disable function 55.4.2.3.1 Global PMA transmit disable function 55.4.2.3.2 PMA pair by pair transmit disable function 55.4.2.3.3 PMA MDIO function mapping
2403	55.4.2.4 PMA Receive function
2404	55.4.2.5 PHY Control function
2405	55.4.2.5.1 Infofield notation 55.4.2.5.2 Start of Frame Delimiter 55.4.2.5.3 Current transmitter settings
2406	55.4.2.5.4 Next transmitter settings 55.4.2.5.5 Requested transmitter settings 55.4.2.5.6 Message Field
2407	55.4.2.5.7 SNR_margin
2408	55.4.2.5.8 Transition counter 55.4.2.5.9 Coefficient exchange handshake 55.4.2.5.10 Reserved Fields 55.4.2.5.11 Vendor-specific field 55.4.2.5.12 Coefficient Field 55.4.2.5.13 CRC16
2409	55.4.2.5.14 Startup sequence
2412	55.4.2.5.15 Fast retrain function 55.4.2.6 Link Monitor function
2413	55.4.2.7 Refresh Monitor function 55.4.2.8 Clock Recovery function 55.4.3 MDI 55.4.3.1 MDI signals transmitted by the PHY
2414	55.4.3.2 Signals received at the MDI 55.4.4 Automatic MDI/MDI-X configuration
2415	55.4.5 State variables 55.4.5.1 State diagram variables
2418	55.4.5.2 Timers
2419	55.4.5.3 Functions 55.4.5.4 Counters
2420	55.4.6 State diagrams 55.4.6.1 PHY Control state diagram
2421	55.4.6.2 Transition counter state diagrams
2423	55.4.6.3 Link Monitor state diagram
2424	55.4.6.4 EEE Refresh monitor state diagram
2425	55.4.6.5 Fast retrain state diagram 55.5 PMA electrical specifications 55.5.1 Isolation requirement
2426	55.5.2 Test modes
2428	55.5.2.1 Test fixtures
2429	55.5.3 Transmitter electrical specifications 55.5.3.1 Maximum output droop 55.5.3.2 Transmitter linearity.
2430	55.5.3.3 Transmitter timing jitter 55.5.3.4 Transmitter power spectral density (PSD) and power level
2431	55.5.3.5 Transmit clock frequency 55.5.4 Receiver electrical specifications 55.5.4.1 Receiver differential input signals
2432	55.5.4.2 Receiver frequency tolerance 55.5.4.3 Common-mode noise rejection 55.5.4.4 Alien crosstalk noise rejection
2433	55.5.4.5 Short reach mode link test 55.5.4.5.1 Short reach test channels 55.6 Management interfaces 55.6.1 Support for Auto-Negotiation
2434	55.6.1.1 10GBASE-T use of registers during Auto-Negotiation 55.6.1.2 10GBASE-T Auto-Negotiation page use
2436	55.6.1.3 Sending Next Pages 55.6.2 MASTER-SLAVE configuration resolution
2438	55.7 Link segment characteristics
2439	55.7.1 Cabling system characteristics 55.7.2 Link segment transmission parameters 55.7.2.1 Insertion loss
2440	55.7.2.2 Differential characteristic impedance 55.7.2.3 Return loss 55.7.2.4 Coupling parameters between duplex channels comprising one link segment 55.7.2.4.1 Differential near-end crosstalk
2441	55.7.2.4.2 Multiple disturber near-end crosstalk (MDNEXT) loss 55.7.2.4.3 Multiple disturber power sum near-end crosstalk (PSNEXT) loss
2442	55.7.2.4.4 Equal level far-end crosstalk (ELFEXT)
2443	55.7.2.4.5 Multiple disturber equal level far-end crosstalk (MDELFEXT) 55.7.2.4.6 Multiple disturber power sum equal level far-end crosstalk (PS ELFEXT) 55.7.2.5 Maximum link delay 55.7.2.6 Link delay skew 55.7.3 Coupling parameters between link segments
2444	55.7.3.1 Multiple disturber alien near-end crosstalk (MDANEXT) loss 55.7.3.1.1 Multiple disturber power sum alien near-end crosstalk (PSANEXT) loss
2445	55.7.3.1.2 PSANEXT loss to insertion loss ratio requirements
2447	55.7.3.2 Multiple disturber alien far-end crosstalk (MDAFEXT) loss 55.7.3.2.1 Multiple disturber power sum alien equal level far-end crosstalk (PSAELFEXT)
2448	55.7.3.2.2 PSAELFEXT to insertion loss ratio requirements
2450	55.7.3.3 Alien crosstalk margin computation
2454	55.7.4 Noise environment
2455	55.8 MDI specification 55.8.1 MDI connectors 55.8.2 MDI electrical specifications
2456	55.8.2.1 MDI return loss 55.8.2.2 MDI impedance balance
2457	55.8.2.3 MDI fault tolerance
2458	55.9 Environmental specifications 55.9.1 General safety 55.9.2 Network safety 55.9.3 Installation and maintenance guidelines
2459	55.9.4 Telephone voltages 55.9.5 Electromagnetic compatibility 55.9.6 Temperature and humidity 55.10 PHY labeling 55.11 Delay constraints
2461	55.12 Protocol implementation conformance statement (PICS) proforma for Clause 55—Physical Coding Sublayer (PCS), Physical Medium Attachment (PMA) sublayer and baseband medium, type 10GBASE-T 55.12.1 Identification 55.12.1.1 Implementation identification 55.12.1.2 Protocol summary
2462	55.12.2 Major capabilities/options
2463	55.12.3 Physical Coding Sublayer (PCS)
2465	55.12.3.1 PCS Receive functions 55.12.3.2 Other PCS functions 55.12.4 Physical Medium Attachment (PMA)
2467	55.12.5 Management interface
2469	55.12.6 PMA Electrical Specifications
2470	55.12.7 Characteristics of the link segment
2471	55.12.8 MDI requirements 55.12.9 General safety and environmental requirements
2472	55.12.10 Timing requirements
2473	Annex 44A (informative) Diagram of Data Flow 44A.1 10GBASE-R bit ordering 44A.2 10GBASE-W serial bit ordering 44A.3 10GBASE-LX4 bit ordering
2479	44A.4 Loopback locations
2481	Annex 45A (informative) Clause 45 MDIO electrical interface 45A.1 MDIO driver 45A.2 Single Clause 45 electrical interface
2482	45A.3 Clause 45 electrical interface for STA with Clause 22 electrical interface to PHYs 45A.4 Clause 22 electrical interface for STA with Clause 45 electrical interface to MMDs
2485	Annex 48A (normative) Jitter test patterns 48A.1 High-frequency test pattern 48A.2 Low-frequency test pattern 48A.3 Mixed-frequency test pattern
2486	48A.4 Continuous random test pattern (CRPAT)
2487	48A.5 Continuous jitter test pattern (CJPAT)
2488	48A.5.1 Continuous jitter test pattern (CJPAT) 10 bit values
2493	Annex 48B (informative) Jitter test methods 48B.1 BER and jitter model 48B.1.1 Description of dual Dirac mathematical model
2495	48B.1.2 Random Jitter 48B.1.3 Addition of Deterministic Jitter 48B.1.4 Effects of jitter high-pass filtering and CJPAT on deterministic jitter
2496	48B.2 Jitter tolerance test methodologies 48B.2.1 Calibration of a signal source using the BERT scan technique
2497	48B.3 Jitter output test methodologies 48B.3.1 Time domain measurement—Scope and BERT scan 48B.3.1.1 Jitter high pass filtering (using Golden PLL)
2498	48B.3.1.2 Time domain scope measurement 48B.3.1.3 BERT Scan 48B.3.1.3.1 Approximate curve-fitting for BERT scan
2499	48B.3.2 Time Interval Analysis 48B.3.2.1 TIA with Golden PLL
2500	48B.3.2.1.1 Test method
2501	48B.3.2.2 TIA with pattern trigger
2502	48B.3.2.2.1 Test Method 48B.3.2.3 Approximate curve fitting for TIA bathtub curve
2503	Annex 50A (informative) Thresholds for Severely Errored Second calculations 50A.1 Section SES threshold 50A.2 Line SES threshold 50A.3 Path SES threshold
2504	50A.4 Definition of Path Block Error 50A.5 Definition of Far End Path Block Error
2505	Annex 55A (normative) LDPC details 55A.1 The generator matrix 55A.2 The sparse parity check matrix H
2506	Annex 55B (informative) Additional cabling design guidelines for 10GBASE-T 55B.1 Alien crosstalk considerations
2507	55B.1.1 Alien crosstalk mitigation
2508	55B.1.2 Alien crosstalk mitigation procedure
2509	IEEE Std 802.3™-2012, SECTION FIVE Contents
2543	56. Introduction to Ethernet for subscriber access networks 56.1 Overview
2547	56.1.1 Summary of P2P sublayers 56.1.2 Summary of P2MP sublayers 56.1.2.1 Multipoint MAC Control Protocol (MPCP)
2548	56.1.2.2 Reconciliation Sublayer (RS) and media independent interfaces 56.1.3 Physical Layer signaling systems
2552	56.1.4 Management 56.1.5 Unidirectional transmission 56.2 State diagrams 56.3 Protocol implementation conformance statement (PICS) proforma
2555	57. Operations, Administration, and Maintenance (OAM) 57.1 Overview 57.1.1 Scope 57.1.2 Summary of objectives and major concepts
2556	57.1.3 Summary of non-objectives 57.1.4 Positioning of OAM within the IEEE 802.3 architecture 57.1.5 Compatibility considerations 57.1.5.1 Application 57.1.5.2 Interoperability between OAM capable DTEs
2557	57.1.5.3 MAC Control PAUSE 57.1.5.4 Interface to MAC Control client 57.1.5.5 Frame loss during OAM remote loopback 57.1.6 State diagram conventions 57.2 Functional specifications 57.2.1 Interlayer service interfaces
2558	57.2.2 Principles of operation 57.2.3 Instances of the MAC data service interface 57.2.4 Responsibilities of OAM client
2559	57.2.5 OAM client interactions 57.2.5.1 OAMPDU.request 57.2.5.1.1 Function 57.2.5.1.2 Semantics of the service primitive 57.2.5.1.3 When generated 57.2.5.1.4 Effect of receipt 57.2.5.2 OAMPDU.indication 57.2.5.2.1 Function
2560	57.2.5.2.2 Semantics of the service primitive 57.2.5.2.3 When generated 57.2.5.2.4 Effect of receipt 57.2.5.3 OAM_CTL.request 57.2.5.3.1 Function 57.2.5.3.2 Semantics of the service primitive
2561	57.2.5.3.3 When generated 57.2.5.3.4 Effect of receipt 57.2.5.4 OAM_CTL.indication 57.2.5.4.1 Function 57.2.5.4.2 Semantics of the service primitive
2562	57.2.5.4.3 When generated 57.2.5.4.4 Effect of receipt 57.2.6 Instances of the OAM internal service interface 57.2.7 Internal block diagram
2563	57.2.8 OAM internal interactions 57.2.8.1 OAMI.request 57.2.8.1.1 Function 57.2.8.1.2 Semantics of the service primitive 57.2.8.1.3 When generated 57.2.8.1.4 Effect of receipt 57.2.8.2 OAMI.indication 57.2.8.2.1 Function
2564	57.2.8.2.2 Semantics of the service primitive 57.2.8.2.3 When generated 57.2.8.2.4 Effect of receipt 57.2.9 Modes
2565	57.2.9.1 Active mode 57.2.9.2 Passive mode 57.2.10 OAM events 57.2.10.1 Critical link events 57.2.10.2 Link events 57.2.10.3 Local event procedure
2566	57.2.10.4 Remote event procedure 57.2.11 OAM remote loopback 57.2.11.1 Initiating OAM remote loopback
2567	57.2.11.2 During OAM remote loopback 57.2.11.3 Exiting OAM remote loopback 57.2.11.4 Loss of OAMPDUs during OAM remote loopback
2568	57.2.11.5 Loss of frames during OAM remote loopback 57.2.11.6 Timing considerations for OAM remote loopback 57.2.12 Unidirectional OAM operation 57.3 Detailed functions and state diagrams
2569	57.3.1 State diagram variables 57.3.1.1 Constants 57.3.1.2 Variables
2571	57.3.1.3 Messages
2572	57.3.1.4 Counters 57.3.1.5 Timers
2573	57.3.2 Control 57.3.2.1 OAM Discovery
2574	57.3.2.1.1 FAULT state 57.3.2.1.2 ACTIVE_SEND_LOCAL state 57.3.2.1.3 PASSIVE_WAIT state 57.3.2.1.4 SEND_LOCAL_REMOTE state 57.3.2.1.5 SEND_LOCAL_REMOTE_OK state 57.3.2.1.6 SEND_ANY state 57.3.2.1.7 Sending Discovery status to peer
2575	57.3.2.2 Transmit 57.3.2.2.1 RESET state 57.3.2.2.2 WAIT_FOR_TX state
2576	57.3.2.2.3 Expiration of pdu_timer 57.3.2.2.4 Valid request to send an OAMPDU 57.3.2.2.5 TX_OAMPDU state 57.3.2.2.6 Transmit rules 57.3.2.3 Receive rules
2577	57.3.3 Multiplexer 57.3.3.1 WAIT_FOR_TX state 57.3.3.1.1 Valid request to send an OAMPDU 57.3.3.1.2 Valid request to forward or loopback frame
2578	57.3.3.2 TX_FRAME state 57.3.4 Parser 57.3.4.1 Reception of OAMPDU
2579	57.3.4.2 Reception of non-OAMPDUs 57.3.4.2.1 Reception of non-OAMPDU in FWD mode 57.3.4.2.2 Reception of non-OAMPDU in LB mode 57.3.4.2.3 Reception of non-OAMPDU in DISCARD mode 57.4 OAMPDUs 57.4.1 Ordering and representation of octets
2580	57.4.2 Structure 57.4.2.1 Flags field
2581	57.4.2.2 Code field 57.4.3 OAMPDU descriptions
2582	57.4.3.1 Information OAMPDU 57.4.3.2 Event Notification OAMPDU
2583	57.4.3.3 Variable Request OAMPDU
2584	57.4.3.4 Variable Response OAMPDU 57.4.3.5 Loopback Control OAMPDU
2585	57.4.3.6 Organization Specific OAMPDU 57.5 OAM TLVs 57.5.1 Parsing
2586	57.5.2 Information TLVs 57.5.2.1 Local Information TLV
2589	57.5.2.2 Remote Information TLV 57.5.2.3 Organization Specific Information TLV 57.5.3 Link Event TLVs
2590	57.5.3.1 Errored Symbol Period Event TLV
2591	57.5.3.2 Errored Frame Event TLV 57.5.3.3 Errored Frame Period Event TLV
2592	57.5.3.4 Errored Frame Seconds Summary Event TLV
2593	57.5.3.5 Organization Specific Event TLVs
2594	57.6 Variables 57.6.1 Variable Descriptors 57.6.2 Variable Containers
2595	57.6.2.1 Format of Variable Containers when returning attributes 57.6.2.2 Format of Variable Containers when returning packages and objects
2596	57.6.3 Parsing
2597	57.6.4 Variable Branch/Leaf examples 57.6.5 Variable Indications
2598	57.7 Protocol implementation conformance statement (PICS) proforma for Clause 57, Operations, Administration, and Maintenance (OAM) 57.7.1 Introduction 57.7.2 Identification 57.7.2.1 Implementation identification
2599	57.7.2.2 Protocol summary 57.7.2.3 Major capabilities/options 57.7.3 PICS proforma tables for Operation, Administration, and Maintenance (OAM) 57.7.3.1 Functional specifications 57.7.3.2 Event Notification Generation and Reception
2602	57.7.3.3 OAMPDUs
2603	57.7.3.4 Local Information TLVs 57.7.3.5 Remote Information TLVs
2604	57.7.3.6 Organization Specific Information TLVs 57.7.4 Link Event TLVs
2605	57.7.5 Variables Descriptors and Containers
2607	58. Physical Medium Dependent (PMD) sublayer and medium, type 100BASE-LX10 (Long Wavelength) and 100BASE-BX10 (BiDirectional Long Wavelength) 58.1 Overview 58.1.1 Goals and objectives
2608	58.1.2 Positioning of this PMD set within the IEEE 802.3 architecture 58.1.3 Terminology and conventions 58.1.4 Physical Medium Dependent (PMD) sublayer service interface
2609	58.1.4.1 Delay constraints 58.1.4.2 PMD_UNITDATA.request 58.1.4.3 PMD_UNITDATA.indication 58.1.4.4 PMD_SIGNAL.indication 58.2 PMD functional specifications
2610	58.2.1 PMD block diagram 58.2.2 PMD transmit function 58.2.3 PMD receive function
2611	58.2.4 100BASE-LX10 and 100BASE-BX10 signal detect function 58.3 PMD to MDI optical specifications for 100BASE-LX10 58.3.1 Transmitter optical specifications
2612	58.3.2 Receiver optical specifications
2613	58.4 PMD to MDI optical specifications for 100BASE-BX10 58.4.1 Transmit optical specifications
2614	58.4.2 Receiver optical specifications
2615	58.5 Illustrative 100BASE-LX10 and 100BASE-BX10 channels and penalties (informative)
2616	58.6 Jitter at TP1 and TP4 for 100BASE-LX10 and 100BASE-BX10 (informative) 58.7 Optical measurement requirements
2617	58.7.1 Test patterns 58.7.1.1 100BASE-X optical frame-based test pattern
2619	58.7.2 Wavelength and spectral width measurements 58.7.3 Optical power measurements 58.7.4 Extinction ratio measurements
2620	58.7.5 Optical modulation amplitude (OMA) measurements (informative) 58.7.6 OMA relationship to extinction ratio and power measurements (informative)
2621	58.7.7 Relative intensity noise optical modulation amplitude (RINxOMA) measuring procedure 58.7.7.1 General test description 58.7.7.2 Component descriptions
2622	58.7.7.3 Test procedure
2623	58.7.8 Transmitter optical waveform (transmit eye)
2624	58.7.9 Transmitter and dispersion penalty (TDP) measurement
2625	58.7.9.1 Reference transmitter requirements 58.7.9.2 Channel requirements
2626	58.7.9.3 Reference receiver requirements 58.7.9.4 Test procedure
2627	58.7.9.5 Approximate measures of TDP (informative)
2628	58.7.10 Receiver sensitivity measurements 58.7.11 Stressed receiver conformance test
2629	58.7.11.1 Stressed receiver conformance test block diagram
2630	58.7.11.2 Stressed receiver conformance test signal characteristics and calibration
2632	58.7.11.3 Stressed receiver conformance test procedure 58.7.11.4 Sinusoidal jitter for receiver conformance test
2633	58.7.12 Jitter measurements (informative)
2635	58.8 Environmental, safety, and labeling 58.8.1 General safety 58.8.2 Laser safety 58.8.3 Installation 58.8.4 Environment 58.8.5 PMD labeling requirements 58.9 Characteristics of the fiber optic cabling
2636	58.9.1 Fiber optic cabling model 58.9.2 Optical fiber and cable
2637	58.9.3 Optical fiber connection 58.9.4 Medium Dependent Interface (MDI)
2638	58.10 Protocol implementation conformance statement (PICS) proforma for Clause 58, Physical Medium Dependent (PMD) sublayer and medium, type 100BASE-LX10 (Long Wavelength) and 100BASE-BX10 (BiDirectional Long Wavelength) 58.10.1 Introduction 58.10.2 Identification 58.10.2.1 Implementation identification 58.10.2.2 Protocol summary
2639	58.10.2.3 Major capabilities/options 58.10.3 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and medium, type 100BASE-LX10 and 100BASE-BX10 58.10.3.1 PMD functional specifications
2640	58.10.3.2 PMD to MDI optical specifications for 100BASE-LX10 58.10.3.3 PMD to MDI optical specifications for 100BASE-BX10-D 58.10.3.4 PMD to MDI optical specifications for 100BASE-BX10-U
2641	58.10.3.5 Optical measurement requirements 58.10.3.6 Environmental specifications 58.10.3.7 Characteristics of the fiber optic cabling and MDI
2643	59. Physical Medium Dependent (PMD) sublayer and medium, type 1000BASE-LX10 (Long Wavelength) and 1000BASE-BX10 (BiDirectional Long Wavelength) 59.1 Overview 59.1.1 Goals and objectives
2644	59.1.2 Positioning of 1000BASE-LX10 and 1000BASE-BX10 PMDs within the IEEE 802.3 architecture 59.1.3 Terminology and conventions 59.1.4 Physical Medium Dependent (PMD) sublayer service interface
2645	59.1.5 Delay constraints 59.1.5.1 PMD_UNITDATA.request 59.1.5.2 PMD_UNITDATA.indication 59.1.5.3 PMD_SIGNAL.indication 59.2 PMD functional specifications 59.2.1 PMD block diagram
2646	59.2.2 PMD transmit function 59.2.3 PMD receive function 59.2.4 PMD signal detect function
2647	59.3 PMD to MDI optical specifications for 1000BASE-LX10 59.3.1 Transmitter optical specifications 59.3.2 Receiver optical specifications
2650	59.4 PMD to MDI optical specifications for 1000BASE-BX10-D and 1000BASE-BX10-U 59.4.1 Transmit optical specifications
2651	59.4.2 Receiver optical specifications 59.5 Illustrative 1000BASE-LX10 and 1000BASE-BX10 channels and penalties (informative) 59.6 Jitter specifications
2653	59.7 Optical measurement requirements 59.7.1 Test patterns
2656	59.7.2 Wavelength and spectral width measurements
2657	59.7.3 Optical power measurements 59.7.4 Extinction ratio measurements 59.7.5 OMA measurements (informative) 59.7.6 OMA relationship to extinction ratio and power measurements (informative) 59.7.7 Relative intensity noise optical modulation amplitude (RIN12OMA) 59.7.8 Transmitter optical waveform (transmit eye) 59.7.9 Transmit rise/fall characteristics
2658	59.7.10 Transmitter and dispersion penalty (TDP) 59.7.11 Receive sensitivity measurements 59.7.12 Total jitter measurements (informative)
2659	59.7.13 Deterministic or high probability jitter measurement (informative) 59.7.14 Stressed receiver conformance test 59.7.15 Measurement of the receiver 3 dB electrical upper cutoff frequency
2660	59.8 Environmental, safety, and labeling specifications 59.8.1 General safety 59.8.2 Laser safety 59.8.3 Installation 59.8.4 Environment
2661	59.8.5 PMD labeling requirements 59.9 Characteristics of the fiber optic cabling 59.9.1 Fiber optic cabling model 59.9.2 Optical fiber and cable
2663	59.9.3 Optical fiber connection 59.9.4 Medium Dependent Interface (MDI) 59.9.5 Single-mode fiber offset-launch mode-conditioning patch cord for MMF operation of 1000BASE-LX10
2665	59.10 Protocol implementation conformance statement (PICS) proforma for Clause 59, Physical Medium Dependent (PMD) sublayer and medium, type 1000BASE-LX10 (Long Wavelength) and 1000BASE-BX10 (BiDirectional Long Wavelength) 59.10.1 Introduction 59.10.2 Identification 59.10.2.1 Implementation identification 59.10.2.2 Protocol summary
2666	59.10.3 Major capabilities/options 59.10.3.1 PMD functional specifications
2667	59.10.3.2 PMD to MDI optical specifications for 1000BASE-LX10 59.10.3.3 PMD to MDI optical specifications for 1000BASE-BX10-D 59.10.3.4 PMD to MDI optical specifications for 1000BASE-BX10-U
2668	59.10.3.5 Optical Measurement requirements 59.10.3.6 Environmental, safety, and labeling specifications
2669	59.10.3.7 Characteristics of the fiber optic cabling 59.10.3.8 Offset-launch mode-conditioning patch cord
2671	60. Physical Medium Dependent (PMD) sublayer and medium, type 1000BASE-PX10 and 1000BASE-PX20 (long wavelength passive optical networks) 60.1 Overview
2672	60.1.1 Goals and objectives 60.1.2 Positioning of this PMD set within the IEEE 802.3 architecture 60.1.3 Terminology and conventions
2673	60.1.4 Physical Medium Dependent (PMD) sublayer service interface 60.1.5 Delay constraints 60.1.5.1 PMD_UNITDATA.request 60.1.5.2 PMD_UNITDATA.indication 60.1.5.3 PMD_SIGNAL.request 60.1.5.4 PMD_SIGNAL.indication
2674	60.2 PMD functional specifications 60.2.1 PMD block diagram
2675	60.2.2 PMD transmit function 60.2.3 PMD receive function 60.2.4 PMD signal detect function 60.2.4.1 ONU PMD signal detect (downstream) 60.2.4.2 OLT PMD signal detect (upstream) 60.2.4.3 1000BASE-PX Signal detect functions
2676	60.2.5 PMD transmit enable function for ONU 60.3 PMD to MDI optical specifications for 1000BASE-PX10-D and 1000BASE-PX10-U 60.3.1 Transmitter optical specifications
2678	60.3.2 Receiver optical specifications 60.4 PMD to MDI optical specifications for 1000BASE-PX20-D and 1000BASE-PX20-U
2679	60.4.1 Transmit optical specifications
2680	60.4.2 Receiver optical specifications
2681	60.5 Illustrative 1000BASE-PX10 and 1000BASE-PX20 channels and penalties (informative)
2682	60.6 Jitter at TP1-4 for 1000BASE-PX10 and 1000BASE-PX20 (informative)
2684	60.7 Optical measurement requirements 60.7.1 Frame-based test patterns 60.7.2 Wavelength and spectral width measurements 60.7.3 Optical power measurements
2685	60.7.4 Extinction ratio measurements 60.7.5 OMA measurements (informative) 60.7.6 OMA relationship to extinction ratio and power measurements (informative) 60.7.7 Relative intensity noise optical modulation amplitude (RIN15OMA) 60.7.8 Transmitter optical waveform (transmit eye)
2686	60.7.9 Transmitter and dispersion penalty (TDP) 60.7.10 Receive sensitivity measurement 60.7.11 Stressed receive conformance test 60.7.12 Jitter measurements (informative) 60.7.13 Other measurements 60.7.13.1 Laser On/Off timing measurement 60.7.13.1.1 Definitions
2687	60.7.13.1.2 Test specification
2688	60.7.13.2 Receiver settling timing measurement (informative) 60.7.13.2.1 Definitions
2689	60.7.13.2.2 Test specification
2690	60.8 Environmental, safety, and labeling 60.8.1 General safety 60.8.2 Laser safety 60.8.3 Installation 60.8.4 Environment 60.8.5 PMD labeling requirements
2691	60.9 Characteristics of the fiber optic cabling 60.9.1 Fiber optic cabling model 60.9.2 Optical fiber and cable
2692	60.9.3 Optical fiber connection 60.9.4 Medium Dependent Interface (MDI)
2693	60.10 Protocol implementation conformance statement (PICS) proforma for Clause 60, Physical Medium Dependent (PMD) sublayer and medium, type 1000BASE-PX10 and 1000BASE-PX20 (long wavelength passive optical networks) 60.10.1 Introduction 60.10.2 Identification 60.10.2.1 Implementation identification 60.10.2.2 Protocol Summary
2694	60.10.3 Major capabilities/options 60.10.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and medium, type 1000BASE-PX10 and 1000BASE-PX20 (long wavelength passive optical networks) 60.10.4.1 PMD functional specifications
2695	60.10.4.2 PMD to MDI optical specifications for 1000BASE-PX10-D 60.10.4.3 PMD to MDI optical specifications for 1000BASE-PX10-U
2696	60.10.4.4 PMD to MDI optical specifications for 1000BASE-PX20-D
2697	60.10.4.5 PMD to MDI optical specifications for 1000BASE-PX20-U 60.10.4.6 Optical measurement requirements
2698	60.10.4.7 Characteristics of the fiber optic cabling and MDI 60.10.4.8 Environmental specifications
2699	61. Physical Coding Sublayer (PCS), Transmission Convergence (TC) sublayer, and common specifications, type 10PASS-TS and type 2BASE-TL 61.1 Overview 61.1.1 Scope
2700	61.1.2 Objectives 61.1.3 Relation of 2BASE-TL and 10PASS-TS to other standards
2701	61.1.4 Summary 61.1.4.1 Summary of Physical Coding Sublayer (PCS) specification
2702	61.1.4.1.1 Implementation of Media Independent Interface 61.1.4.1.2 Summary of MAC-PHY Rate Matching specification 61.1.4.1.3 Summary of PME Aggregation specification
2703	61.1.4.1.4 Overview of management 61.1.4.2 Summary of Transmission Convergence (TC) specification 61.1.4.3 Summary of handshaking and PHY control specification 61.1.5 Application of 2BASE-TL, 10PASS-TS 61.1.5.1 Compatibility considerations 61.1.5.2 Incorporating the 2BASE-TL, 10PASS-TS PHY into a DTE 61.1.5.3 Application and examples of PME Aggregation
2704	61.1.5.3.1 Addressing PCS and PME instances 61.1.5.3.2 Indicating PME aggregation capability
2706	61.1.5.3.3 Setting PME aggregation connection
2707	61.1.5.4 Support for handshaking
2708	61.2 PCS functional specifications 61.2.1 MAC-PHY Rate Matching functional specifications 61.2.1.1 MAC-PHY Rate Matching functions 61.2.1.2 MAC-PHY Rate Matching functional interfaces 61.2.1.2.1 MAC-PHY Rate Matching – MII signals 61.2.1.2.2 MAC-PHY Rate Matching–Management entity signals 61.2.1.3 MAC-PHY Rate Matching state diagrams 61.2.1.3.1 MAC-PHY Rate Matching state diagram constants 61.2.1.3.2 MAC-PHY Rate Matching state diagram variables
2709	61.2.1.3.3 MAC-PHY Rate Matching state diagram timers 61.2.1.3.4 MAC-PHY Rate Matching state diagram functions 61.2.1.3.5 MAC-PHY Rate Matching state diagrams
2711	61.2.2 PME Aggregation functional specifications
2712	61.2.2.1 PAF Enable and Bypass 61.2.2.2 PME Aggregation functions
2713	61.2.2.3 PME Aggregation Transmit function 61.2.2.4 PME Aggregation Receive function 61.2.2.4.1 Expected sequence number 61.2.2.4.2 PME Aggregation Receive function state diagram variables
2714	61.2.2.4.3 PME Aggregation Receive function state diagram 61.2.2.4.4 PME Aggregation Receive function state diagram description
2715	61.2.2.5 PME Aggregation restrictions
2716	61.2.2.6 PME Aggregation transmit function restrictions
2717	61.2.2.7 Error-detecting rules 61.2.2.7.1 Errors during fragment reception
2718	61.2.2.7.2 Errors in fragment sequencing 61.2.2.7.3 Errors in packet reassembly 61.2.2.8 PME aggregation functional interfaces 61.2.2.8.1 PME aggregation–g-interface signals 61.2.2.8.2 PME aggregation–management entity signals
2719	61.2.2.8.3 PME aggregation register functions
2720	61.2.2.8.4 PME aggregation discovery register functions 61.2.3 PCS sublayer: Management entity signals
2722	61.3 TC sublayer functional specifications
2723	61.3.1 The g-interface
2724	61.3.2 The a(b)-interface 61.3.2.1 a(b) data flow: reference G.993.1 section 7.1.1 61.3.2.2 a(b) synchronization flow
2725	61.3.2.3 a(b) OAM flow 61.3.3 TC functions 61.3.3.1 TC encapsulation and coding
2728	61.3.3.2 Sync insertion and transmit control
2729	61.3.3.3 TC-CRC functions
2730	61.3.3.4 Bit ordering
2732	61.3.3.5 Sync detection
2733	61.3.3.5.1 State diagram variables 61.3.3.5.2 State diagram 61.3.3.6 Receive control
2734	61.3.3.7 State diagrams for 64/65-octet encapsulation 61.3.3.7.1 Transmit state diagram
2737	61.3.3.7.2 Receive state diagram
2740	61.3.3.8 TC sublayer management entity signals 61.4 Handshaking and PHY control specification for type 2BASE-TL and 10PASS-TS 61.4.1 Overview 61.4.2 Replacement of 1, “Scope” 61.4.2.1 Scope
2741	61.4.2.2 Purpose 61.4.3 Changes to 6.1, “Description of signals” 61.4.4 Changes to 9.4, “Standard information field (S)”
2742	61.4.5 Changes to 9.5, “Non-standard information field (NS)” 61.4.6 Applicability of Annex A–B and Appendix I–VI 61.4.7 PME Aggregation – remote access of PME Aggregation registers 61.4.7.1 Remote_discovery_register
2744	61.4.7.2 PME_Aggregate_register
2745	61.4.7.3 Timing and preferred transactions 61.5 Link segment characteristics
2746	61.6 MDI specification 61.7 System considerations 61.8 Environmental specifications 61.9 PHY labeling
2747	61.10 Protocol implementation conformance statement (PICS) proforma for Clause 61, Physical Coding Sublayer (PCS), Transmission Convergence (TC) sublayer, and common specifications type 10PASS-TS, 2BASE-TL 61.10.1 Introduction 61.10.2 Identification 61.10.2.1 Implementation identification 61.10.2.2 Protocol summary
2748	61.10.3 Major capabilities/options 61.10.4 PICS proforma tables for the Physical Coding Sublayer (PCS), Transmission Convergence (TC) sublayer, and common specifications type 10PASS-TS, 2BASE-TL 61.10.4.1 MAC-PHY Rate Matching
2749	61.10.4.2 64/65-octet Encapsulation
2750	61.10.4.3 PME Aggregation
2756	61.10.4.4 Handshaking
2757	62. Physical Medium Attachment (PMA) and Physical Medium Dependent (PMD), type 10PASS-TS 62.1 Overview 62.1.1 Scope 62.1.2 Objectives 62.1.3 Relation of 10PASS-TS to other standards 62.1.4 Summary of Physical Medium Attachment (PMA) specification 62.1.4.1 a(b)-interface 62.1.4.2 I-interface 62.1.4.2.1 I Data Flow
2758	62.1.4.2.2 I Synchronization Flow 62.2 PMA functional specifications 62.2.1 PMA functional diagram 62.2.2 PMA functional specifications
2759	62.2.3 General exceptions
2760	62.2.4 Specific requirements and exceptions 62.2.4.1 Replacement of 9.3.1, “PMS-TC functional diagram” 62.2.4.2 Changes to 9.3.3, “Forward error correction” 62.2.4.3 Changes to 9.3.5, “Framing” 62.3 PMD functional specifications 62.3.1 PMD Overview
2761	62.3.2 PMD functional specifications 62.3.3 General exceptions
2762	62.3.4 Specific requirements and exceptions 62.3.4.1 Replacement of 8.2.1, “Multi-carrier Modulation”
2763	62.3.4.2 Changes to 8.2.2, “Cyclic extension” 62.3.4.3 Changes to 8.2.3, “Synchronization” 62.3.4.4 Replacement of 8.2.4, “Power back-off in the upstream direction”
2764	62.3.4.5 Changes to 8.2.5, “Constellation encoder” 62.3.4.6 Changes to 8.2.8, “U-interface characteristics”
2765	62.3.4.7 Changes to section 10, “Operations and maintenance”
2766	62.3.4.8 Changes to 11.1, “VDSL Link State and Timing Diagram”
2767	62.3.4.9 Changes to section 18 (Annex 4), “Handshake procedure for VDSL” 62.3.4.9.1 Replacement of 18.1, “Introduction” 62.3.4.9.2 Replacement of 18.2, “Description of signals” 62.3.4.9.3 Replacement of 18.3, “Message coding format” 62.3.4.9.4 Replacement of 18.4.1, “Handshake – 10PASS-TS-O”
2769	62.3.4.9.5 Replacement of 18.4.2, “Handshake – 10PASS-TS-R”
2770	62.3.5 Transmission medium interface characteristics
2771	62.3.5.1 Transmit signal characteristics 62.3.5.1.1 Wide-band power
2772	62.3.5.1.2 Power spectral density (PSD) 62.3.5.1.3 Egress control 62.3.5.2 Termination impedance 62.3.5.3 Return loss
2773	62.3.5.4 Output signal balance
2774	62.4 Protocol implementation conformance statement (PICS) proforma for Clause 62, Physical Medium Attachment (PMA) and Physical Medium Dependent (PMD), type 10PASS-TS 62.4.1 Introduction 62.4.2 Identification 62.4.2.1 Implementation identification 62.4.2.2 Protocol summary
2775	62.4.3 Major capabilities/options 62.4.4 PICS proforma tables for the Physical Medium Attachment (PMA) and Physical Medium Dependent (PMD), type 10PASS-TS 62.4.4.1 MCM-VDSL based PMA
2776	62.4.4.2 MCM-VDSL based PMD
2779	63. Physical Medium Attachment (PMA) and Physical Medium Dependent (PMD), type 2BASE-TL 63.1 2BASE-TL Overview 63.1.1 Scope 63.1.2 Objectives 63.1.3 Relation of 2BASE-TL to other standards 63.1.4 Summary of Physical Medium Attachment (PMA) specification
2780	63.1.4.1 a(b)-interface 63.1.4.2 The I-interface 63.1.4.2.1 The I Data Flow
2781	63.1.4.2.2 I Synchronization Flow 63.1.4.3 Operation Channel (OC) 63.1.5 Summary of Physical Medium Dependent (PMD) specification
2782	63.2 2BASE-TL PMA functional specifications 63.2.1 General exceptions 63.2.2 Specific requirements and exceptions
2783	63.2.2.1 Changes to 7.1, “Data Mode Operation” 63.2.2.2 Changes to Section 9, “Management” 63.2.2.3 Relation between the 2BASE-TL registers and the SHDSL management functions
2784	63.3 2BASE-TL PMD functional specifications 63.3.1 General exceptions
2785	63.3.2 Specific requirements and exceptions 63.3.2.1 Replacement of section 5, “Transport Capacity”
2786	63.3.2.2 Changes to section 6, “PMD Layer Functional Characteristics”
2787	63.3.2.3 Changes to section 10, “Clock Architecture” 63.3.2.4 Changes to Annex A, “Regional Requirements—Region 1” 63.3.2.4.1 General Changes 63.3.2.4.2 Additional requirement: wetting current
2788	63.3.2.5 Changes to Annex B, “Regional Requirements—Region 2” 63.3.2.5.1 General changes 63.3.2.5.2 Additional requirement: wetting current 63.3.2.6 Changes to Annex C, “Regional Requirements – Region 3”
2789	63.4 Protocol implementation conformance statement (PICS) proforma for Clause 63, Physical Medium Attachment (PMA) and Physical Medium Dependent (PMD), type 2BASE-TL 63.4.1 Introduction 63.4.2 Identification 63.4.2.1 Implementation identification 63.4.2.2 Protocol summary
2790	63.4.3 Major capabilities/options 63.4.4 PICS proforma tables for the Physical Medium Attachment (PMA) and Physical Medium Dependent (PMD) sublayers, type 2BASE-TL 63.4.4.1 SHDSL based PMA
2791	63.4.4.2 SHDSL based PMD
2793	64. Multipoint MAC Control 64.1 Overview
2794	64.1.1 Goals and objectives 64.1.2 Position of Multipoint MAC Control within the IEEE 802.3 hierarchy
2796	64.1.3 Functional block diagram
2797	64.1.4 Service interfaces 64.1.5 State diagram conventions 64.2 Multipoint MAC Control operation
2798	64.2.1 Principles of Multipoint MAC Control
2799	64.2.1.1 Ranging and Timing Process
2800	64.2.2 Multipoint transmission control, Control Parser, and Control Multiplexer
2803	64.2.2.1 Constants 64.2.2.2 Counters
2804	64.2.2.3 Variables
2805	64.2.2.4 Functions
2806	64.2.2.5 Timers 64.2.2.6 Messages 64.2.2.7 State Diagrams
2812	64.3 Multipoint Control Protocol (MPCP) 64.3.1 Principles of Multipoint Control Protocol 64.3.2 Compatibility considerations 64.3.2.1 PAUSE operation
2813	64.3.2.2 Optional Shared LAN Emulation 64.3.2.3 Multicast and single copy broadcast support 64.3.2.4 Delay requirements 64.3.3 Discovery Processing
2817	64.3.3.1 Constants 64.3.3.2 Variables
2818	64.3.3.3 Functions 64.3.3.4 Timers 64.3.3.5 Messages
2821	64.3.3.6 State Diagram
2826	64.3.4 Report Processing 64.3.4.1 Constants 64.3.4.2 Variables
2827	64.3.4.3 Functions 64.3.4.4 Timers 64.3.4.5 Messages
2828	64.3.4.6 State Diagram
2830	64.3.5 Gate Processing 64.3.5.1 Constants
2831	64.3.5.2 Variables
2832	64.3.5.3 Functions
2833	64.3.5.4 Timers 64.3.5.5 Messages
2835	64.3.5.6 State Diagrams
2838	64.3.6 MPCPDU structure and encoding
2839	64.3.6.1 GATE description
2841	64.3.6.2 REPORT description
2842	64.3.6.3 REGISTER_REQ description
2844	64.3.6.4 REGISTER description
2845	64.3.6.5 REGISTER_ACK description
2847	64.4 Protocol implementation conformance statement (PICS) proforma for Clause 64, Multipoint MAC Control 64.4.1 Introduction 64.4.2 Identification 64.4.2.1 Implementation identification 64.4.2.2 Protocol summary
2848	64.4.3 Major capabilities/options 64.4.4 PICS proforma tables for Multipoint MAC Control 64.4.4.1 Compatibility Considerations 64.4.4.2 Multipoint MAC Control
2849	64.4.4.3 State diagrams
2850	64.4.4.4 MPCP
2851	65. Extensions of the Reconciliation Sublayer (RS) and Physical Coding Sublayer (PCS) / Physical Media Attachment (PMA) for 1000BASE-X for multipoint links and forward error correction 65.1 Extensions of the Reconciliation Sublayer (RS) for point-to-point emulation 65.1.1 Overview 65.1.2 Principle of operation
2852	65.1.3 Functional specifications 65.1.3.1 Variables 65.1.3.2 Transmit
2853	65.1.3.2.1 SLD 65.1.3.2.2 LLID 65.1.3.2.3 CRC-8 65.1.3.3 Receive function
2854	65.1.3.3.1 SLD 65.1.3.3.2 LLID
2855	65.1.3.3.3 CRC-8 65.2 Extensions of the physical coding sublayer for data detection and forward error correction 65.2.1 Overview
2856	65.2.2 Burst-mode operation 65.2.2.1 Principle of operation
2858	65.2.2.2 Detailed functions and state diagrams 65.2.2.2.1 Variables
2859	65.2.2.2.2 Functions 65.2.2.2.3 Messages 65.2.2.2.4 Counters
2860	65.2.2.3 State Diagrams 65.2.3 Forward error correction
2861	65.2.3.1 FEC code 65.2.3.2 FEC frame format 65.2.3.2.1 Placing parity octets 65.2.3.2.2 Shortened last block 65.2.3.2.3 Special frame markers
2862	65.2.3.3 FEC sublayer operation 65.2.3.3.1 Principles of operation
2863	65.2.3.3.2 Functional block diagram 65.2.3.3.3 Transmission
2864	65.2.3.3.4 Reception
2865	65.2.3.4 Detailed functions and state diagrams 65.2.3.4.1 State variables 65.2.3.4.2 Notation conventions 65.2.3.4.3 Constants
2866	65.2.3.4.4 Variables
2868	65.2.3.4.5 Functions
2869	65.2.3.4.6 Counters 65.2.3.4.7 Messages 65.2.3.5 State diagrams 65.2.3.5.1 Transmit state diagram
2871	65.2.3.5.2 Receive synchronization state diagram
2872	65.2.3.5.3 Receive state diagram
2873	65.2.3.6 Error monitoring capability 65.2.3.6.1 buffer_head_coding_violation_counter 65.2.3.6.2 FEC_corrected_blocks_counter 65.2.3.6.3 FEC_uncorrected_Blocks_counter
2874	65.3 Extensions to PMA for 1000BASE-PX 65.3.1 Extensions for 1000BASE-PX-U 65.3.1.1 Physical Medium Attachment (PMA) sublayer interfaces 65.3.1.2 Loop-timing specifications for ONUs 65.3.2 Extensions for 1000BASE-PX-D 65.3.2.1 CDR lock timing measurement 65.3.2.1.1 Definitions 65.3.2.1.2 Test specification
2875	65.3.3 Delay variation requirements
2876	65.4 Protocol implementation conformance statement (PICS) proforma for Clause 65, Extensions of the Reconciliation Sublayer (RS) and Physical Coding Sublayer (PCS) / Physical Media Attachment (PMA) for 1000BASE-X for multipoint links and forward erro… 65.4.1 Introduction 65.4.2 Identification 65.4.2.1 Implementation identification 65.4.2.2 Protocol summary
2877	65.4.3 Major capabilities/options 65.4.4 PICS proforma tables for Extensions of Reconciliation Sublayer (RS) and Physical Coding Sublayer (PCS) / Physical Media Attachment (PMA) for 1000BASE-X for multipoint links and forward error correction 65.4.4.1 Operating modes of OLT MACs 65.4.4.2 ONU and OLT variables
2878	65.4.4.3 Preamble mapping and replacement 65.4.4.4 Data detection 65.4.4.5 FEC requirements
2879	65.4.4.6 FEC State diagrams 65.4.4.7 PMA 65.4.4.8 OLT Receiver 65.4.4.9 Delay variation
2881	66. Extensions of the 10 Gb/s Reconciliation Sublayer (RS), 100BASE-X PHY, and 1000BASE-X PHY for unidirectional transport 66.1 Modifications to the physical coding sublayer (PCS) and physical medium attachment (PMA) sublayer, type 100BASE-X 66.1.1 Overview 66.1.2 Functional specifications 66.1.2.1 Variables 66.1.2.2 Transmit state diagram
2882	66.1.2.3 Far-end fault generate
2883	66.2 Modifications to the physical coding sublayer (PCS) and physical medium attachment (PMA) sublayer, type 1000BASE-X 66.2.1 Overview 66.2.2 Functional specifications
2884	66.2.2.1 Variables 66.2.2.2 Transmit 66.2.2.3 Transmit state diagram
2885	66.3 Modifications to the reconciliation sublayer (RS) for P2P 10 Gb/s operation 66.3.1 Overview 66.3.2 Functional specifications 66.3.2.1 Link fault signaling 66.3.2.2 Variables 66.3.2.3 State diagram
2886	66.4 Modifications to the RS for P2MP 10 Gb/s operation 66.4.1 Overview 66.4.2 Functional specifications 66.4.2.1 Link fault signaling 66.4.2.2 Variables 66.4.2.3 State diagram
2888	66.5 Protocol implementation conformance statement (PICS) proforma for Clause 66, Extensions of the 10 Gb/s Reconciliation Sublayer (RS), 100BASE-X PHY, and 1000BASE-X PHY for unidirectional transport 66.5.1 Introduction 66.5.2 Identification 66.5.2.1 Implementation identification 66.5.2.2 Protocol summary
2889	66.5.3 Major capabilities/options 66.5.4 PICS proforma tables for Extensions of the 10 Gb/s Reconciliation Sublayer (RS), 100BASE-X PHY, and 1000BASE-X PHY for unidirectional transport 66.5.4.1 Maintaining compatibility with IEEE 802.1 protocols 66.5.4.2 Extensions of the 100BASE-X PHY
2890	66.5.4.3 Extensions of the 1000BASE-X PHY 66.5.4.4 Extensions of the 10 Gb/s P2P RS
2891	66.5.4.5 Extensions of the 10 Gb/s P2MP RS
2893	67. System considerations for Ethernet subscriber access networks 67.1 Overview
2894	67.2 Discussion and examples of EFM P2MP topologies 67.2.1 Trade off between link span and split ratio 67.2.2 Single splitter topology 67.2.3 Tree-and-branch topology
2895	67.2.4 Interoperability between certain 1000BASE-PX10 and 1000BASE-PX20 67.3 Hybrid media topologies 67.4 Topology limitations 67.5 Deployment restrictions for subscriber access copper
2896	67.6 Operations, Administration, and Maintenance 67.6.1 Unidirectional links 67.6.2 Active and Passive modes 67.6.3 Link status signaling in P2MP networks
2897	68. Physical medium dependent (PMD) sublayer type 10GBASE-LRM 68.1 Overview 68.1.1 Physical Medium Dependent (PMD) sublayer service interface 68.2 Delay constraints 68.3 PMD MDIO function mapping
2898	68.4 PMD functional specifications 68.4.1 PMD block diagram 68.4.2 PMD transmit function 68.4.3 PMD receive function 68.4.4 PMD signal detect function
2899	68.4.5 PMD_reset function 68.4.6 PMD_fault function 68.4.7 PMD_global_transmit_disable function 68.4.8 PMD_transmit_fault function 68.4.9 PMD_receive_fault function
2900	68.5 PMD to MDI optical specifications 68.5.1 Transmitter optical specifications 68.5.2 Characteristics of signal within, and at the receiving end of, a compliant 10GBASE- LRM channel (informative) 68.5.3 Receiver optical specifications 68.5.3.1 Dynamic response 68.6 Definitions of optical parameters and measurement methods
2901	68.6.1 Test patterns and related subclauses for optical parameters 68.6.2 Optical modulation amplitude (OMA) 68.6.3 Extinction ratio measurement 68.6.4 Relationship between OMA, extinction ratio and average power (informative)
2904	68.6.5 Transmitter optical waveform—transmitter eye mask 68.6.5.1 Transmitter eye mask acceptable hit count examples (informative)
2905	68.6.6 Transmitter waveform and dispersion penalty (TWDP)
2906	68.6.6.1 TWDP measurement procedure
2908	68.6.6.2 TWDP signal processing algorithm,
2910	68.6.7 Transmitter signal to noise ratio
2911	68.6.8 Transmitter uncorrelated jitter
2912	68.6.9 Comprehensive stressed receiver sensitivity and overload 68.6.9.1 Comprehensive stressed receiver sensitivity and overload test block diagram
2913	68.6.9.2 Comprehensive stressed receiver test signal characteristics
2914	68.6.9.3 Comprehensive stressed receiver test signal calibration 68.6.9.4 Comprehensive stressed receiver test procedure
2917	68.6.10 Simple stressed receiver sensitivity and overload (informative) 68.6.11 Receiver jitter tolerance
2918	68.7 Safety, installation, environment, and labeling 68.7.1 Safety 68.7.2 Installation 68.7.3 Environment 68.7.4 PMD labeling 68.8 Fiber optic cabling model 68.9 Characteristics of the fiber optic cabling (channel)
2919	68.9.1 Optical fiber and cable 68.9.2 Optical fiber connections 68.9.2.1 Connection insertion loss 68.9.2.2 Maximum discrete reflectance
2920	68.9.3 Single-mode fiber offset-launch mode-conditioning patch cord
2921	68.10 Protocol implementation conformance statement (PICS) proforma for Clause 68, Physical medium dependent (PMD) sublayer type 10GBASE-LRM 68.10.1 Introduction 68.10.2 Identification 68.10.2.1 Implementation identification 68.10.2.2 Protocol summary
2922	68.10.2.3 Major capabilities/options 68.10.3 PICS proforma tables for physical medium dependent (PMD) sublayer type 10GBASE-LRM 68.10.3.1 PMD functional specifications
2923	68.10.3.2 Management functions 68.10.3.3 PMD to MDI optical specifications
2924	68.10.3.4 Definitions of optical parameters and measurement methods 68.10.3.5 Safety, installation, environment, and labeling
2925	68.10.3.6 Characteristics of the fiber optic cabling (channel)
2927	69. Introduction to Ethernet operation over electrical backplanes 69.1 Overview 69.1.1 Scope 69.1.2 Objectives
2928	69.1.3 Relationship of Backplane Ethernet to the ISO OSI reference model
2929	69.2 Summary of Backplane Ethernet Sublayers 69.2.1 Reconciliation sublayer and media independent interfaces 69.2.2 Management interface 69.2.3 Physical Layer signaling systems
2930	69.2.4 Auto-Negotiation 69.2.5 Management 69.2.6 Low-Power Idle 69.3 Delay constraints
2931	69.4 State diagrams
2932	69.5 Protocol implementation conformance statement (PICS) proforma
2933	70. Physical Medium Dependent sublayer and baseband medium, type 1000BASE-KX 70.1 Overview 70.2 Physical Medium Dependent (PMD) service interface
2934	70.2.1 PMD_RXQUIET.request 70.2.1.1 Semantics of the service primitive 70.2.1.2 When generated 70.2.1.3 Effect of receipt 70.2.2 PMD_TXQUIET.request 70.2.2.1 Semantics of the service primitive 70.2.2.2 When generated 70.2.2.3 Effect of receipt 70.3 PCS requirements for Auto-Negotiation (AN) service interface 70.4 Delay constraints
2935	70.5 PMD MDIO function mapping 70.6 PMD functional specifications 70.6.1 Link block diagram
2936	70.6.2 PMD transmit function 70.6.3 PMD receive function 70.6.4 PMD signal detect function
2937	70.6.5 PMD transmit disable function 70.6.6 Loopback mode 70.6.7 PMD fault function 70.6.8 PMD transmit fault function 70.6.9 PMD receive fault function 70.6.10 PMD LPI function
2938	70.7 1000BASE-KX electrical characteristics 70.7.1 Transmitter characteristics
2939	70.7.1.1 Test fixtures 70.7.1.2 Test fixture impedance 70.7.1.3 Signaling speed 70.7.1.4 Differential output eye mask
2940	70.7.1.5 Output amplitude
2941	70.7.1.6 Differential output return loss 70.7.1.7 Transition time
2942	70.7.1.8 Transmit jitter 70.7.1.9 Transmit jitter test requirements 70.7.2 Receiver characteristics 70.7.2.1 Receiver interference tolerance
2943	70.7.2.2 Signaling speed range 70.7.2.3 AC-coupling 70.7.2.4 Input signal amplitude 70.7.2.5 Differential input return loss
2944	70.8 Interconnect characteristics 70.9 Environmental specifications 70.9.1 General safety 70.9.2 Network safety 70.9.3 Installation and maintenance guidelines 70.9.4 Electromagnetic compatibility 70.9.5 Temperature and humidity
2945	70.10 Protocol implementation conformance statement (PICS) proforma for Clause 70, Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-KX 70.10.1 Introduction 70.10.2 Identification 70.10.2.1 Implementation identification 70.10.2.2 Protocol summary
2946	70.10.3 Major capabilities/options
2947	70.10.4 PICS proforma tables for Clause 70, Physical Medium Dependent (PMD) sublayer and baseband medium, type 1000BASE-KX. 70.10.4.1 PMD functional specifications
2948	70.10.4.2 Management functions 70.10.4.3 Transmitter electrical characteristics
2949	70.10.4.4 Receiver electrical characteristics 70.10.4.5 Environmental and safety specifications
2951	71. Physical Medium Dependent sublayer and baseband medium, type 10GBASE-KX4 71.1 Overview 71.2 Physical Medium Dependent (PMD) service interface
2952	71.2.1 PMD_RXQUIET.request 71.2.1.1 Semantics of the service primitive 71.2.1.2 When generated 71.2.1.3 Effect of receipt 71.2.2 PMD_TXQUIET.request 71.2.2.1 Semantics of the service primitive 71.2.2.2 When generated 71.2.2.3 Effect of receipt 71.3 PCS requirements for Auto-Negotiation (AN) service interface
2953	71.4 Delay constraints 71.5 PMD MDIO function mapping 71.6 PMD functional specifications 71.6.1 Link block diagram
2954	71.6.2 PMD Transmit function
2955	71.6.3 PMD Receive function 71.6.4 Global PMD signal detect function 71.6.5 PMD lane-by-lane signal detect function 71.6.6 Global PMD transmit disable function 71.6.7 PMD lane-by-lane transmit disable function
2956	71.6.8 Loopback mode 71.6.9 PMD fault function 71.6.10 PMD transmit fault function 71.6.11 PMD receive fault function 71.6.12 PMD LPI function
2957	71.7 Electrical characteristics for 10GBASE-KX4 71.7.1 Transmitter characteristics
2958	71.7.1.1 Test fixtures 71.7.1.2 Test fixture impedance 71.7.1.3 Signaling speed 71.7.1.4 Output amplitude
2959	71.7.1.5 Output return loss
2960	71.7.1.6 Differential output template
2962	71.7.1.7 Transition time 71.7.1.8 Transmit jitter 71.7.1.9 Transmit jitter test requirements 71.7.2 Receiver characteristics
2963	71.7.2.1 Receiver interference tolerance 71.7.2.2 Signaling speed 71.7.2.3 AC-coupling 71.7.2.4 Input signal amplitude
2964	71.7.2.5 Differential input return loss 71.8 Interconnect characteristics 71.9 Environmental specifications 71.9.1 General safety 71.9.2 Network safety 71.9.3 Installation and maintenance guidelines 71.9.4 Electromagnetic compatibility 71.9.5 Temperature and humidity
2965	71.10 Protocol implementation conformance statement (PICS) proforma for Clause 71, Physical Medium Dependent (PMD) sublayer and baseband medium, type 10GBASE-KX4 71.10.1 Introduction 71.10.2 Identification 71.10.2.1 Implementation identification 71.10.2.2 Protocol summary
2966	71.10.3 Major capabilities/options 71.10.4 PICS proforma tables for Clause 71, Physical Medium Dependent (PMD) sublayer and baseband medium, type 10GBASE-KX4 71.10.4.1 PCS requirements for AN service interface
2967	71.10.4.2 PMD functional specifications
2969	71.10.4.3 Management functions
2970	71.10.4.4 Transmitter electrical characteristics
2971	71.10.4.5 Receiver electrical characteristics 71.10.4.6 Environmental and safety specifications
2973	72. Physical Medium Dependent sublayer and baseband medium, type 10GBASE-KR 72.1 Overview 72.2 Physical Medium Dependent (PMD) service interface
2974	72.2.1 PMD_RX_MODE.request 72.2.1.1 Semantics of the service primitive 72.2.1.2 When generated 72.2.1.3 Effect of receipt 72.2.2 PMD_TX_MODE.request 72.2.2.1 Semantics of the service primitive 72.2.2.2 When generated 72.2.2.3 Effect of receipt
2975	72.3 PCS requirements for Auto-Negotiation (AN) service interface 72.4 Delay constraints 72.5 PMD MDIO function mapping 72.6 PMD functional specifications 72.6.1 Link block diagram
2976	72.6.2 PMD transmit function 72.6.3 PMD receive function
2977	72.6.4 PMD signal detect function 72.6.5 PMD transmit disable function 72.6.6 Loopback mode
2978	72.6.7 PMD_fault function 72.6.8 PMD transmit fault function 72.6.9 PMD receive fault function 72.6.10 PMD control function 72.6.10.1 Overview 72.6.10.2 Training frame structure
2979	72.6.10.2.1 Frame marker 72.6.10.2.2 Control channel encoding 72.6.10.2.3 Coefficient update field
2980	72.6.10.2.3.1 Preset 72.6.10.2.3.2 Initialize
2981	72.6.10.2.3.3 Coefficient (k) update
2982	72.6.10.2.4 Status report field 72.6.10.2.4.4 Receiver ready 72.6.10.2.4.5 Coefficient (k) status
2983	72.6.10.2.5 Coefficient update process 72.6.10.2.6 Training pattern 72.6.10.3 State variables 72.6.10.3.1 Variables
2986	72.6.10.3.2 Timers 72.6.10.3.3 Counters 72.6.10.3.4 Functions
2987	72.6.10.4 State diagrams 72.6.10.4.1 Frame lock 72.6.10.4.2 Training 72.6.10.4.3 Coefficient update
2990	72.6.11 PMD LPI function
2991	72.7 10GBASE-KR electrical characteristics 72.7.1 Transmitter characteristics 72.7.1.1 Test fixture
2992	72.7.1.2 Test fixture impedance 72.7.1.3 Signaling speed 72.7.1.4 Output amplitude
2993	72.7.1.5 Differential output return loss
2994	72.7.1.6 Common-mode output return loss
2995	72.7.1.7 Transition time 72.7.1.8 Transmit jitter test requirements 72.7.1.9 Transmit jitter
2996	72.7.1.10 Transmitter output waveform
2997	72.7.1.11 Transmitter output waveform requirements
2999	72.7.2 Receiver characteristics
3000	72.7.2.1 Receiver interference tolerance 72.7.2.2 Signaling speed range 72.7.2.3 AC-coupling 72.7.2.4 Input signal amplitude
3001	72.7.2.5 Differential input return loss 72.8 Interconnect characteristics 72.9 Environmental specifications 72.9.1 General safety 72.9.2 Network safety 72.9.3 Installation and maintenance guidelines 72.9.4 Electromagnetic compatibility 72.9.5 Temperature and humidity
3002	72.10 Protocol implementation conformance statement (PICS) proforma for Clause 72, Physical Medium Dependent (PMD) sublayer and baseband medium, type 10GBASE-KR 72.10.1 Introduction 72.10.2 Identification 72.10.2.1 Implementation identification 72.10.2.2 Protocol summary
3003	72.10.3 Major capabilities/options 72.10.4 PICS proforma tables for Clause 72, Physical Medium Dependent (PMD) sublayer and baseband medium, type 10GBASE-KR 72.10.4.1 PCS requirements for AN service interface
3004	72.10.4.2 PMD functional specifications 72.10.4.3 Management functions
3005	72.10.4.4 PMD Control functions
3007	72.10.4.5 Transmitter electrical characteristics
3009	72.10.4.6 Receiver electrical characteristics 72.10.4.7 Environmental specifications
3011	73. Auto-Negotiation for backplane and copper cable assembly 73.1 Auto-Negotiation introduction
3012	73.2 Relationship to the ISO/IEC Open Systems Interconnection (OSI) reference model 73.3 Functional specifications
3013	73.4 Transmit function requirements 73.5 DME transmission 73.5.1 DME electrical specifications 73.5.2 DME page encoding
3014	73.5.3 DME page timing
3015	73.5.3.1 Manchester violation delimiter 73.6 Link codeword encoding
3016	73.6.1 Selector Field 73.6.2 Echoed Nonce Field 73.6.3 Transmitted Nonce Field
3017	73.6.4 Technology Ability Field 73.6.5 FEC capability
3018	73.6.6 Pause Ability 73.6.7 Remote Fault 73.6.8 Acknowledge 73.6.9 Next Page
3019	73.6.10 Transmit Switch function 73.7 Receive function requirements 73.7.1 DME page reception 73.7.2 Receive Switch function 73.7.3 Link codeword matching 73.7.4 Arbitration function requirements
3020	73.7.4.1 Parallel Detection function 73.7.5 Renegotiation function 73.7.6 Priority Resolution function
3021	73.7.7 Next Page function
3022	73.7.7.1 Next page encodings
3023	73.7.7.1.1 Use of Next Pages 73.8 Management register requirements
3024	73.9 Technology-Dependent interface 73.9.1 AN_LINK.indication 73.9.1.1 Semantics of the service primitive
3025	73.9.1.2 When generated 73.9.1.3 Effect of receipt 73.10 State diagrams and variable definitions 73.10.1 State diagram variables
3032	73.10.2 State diagram timers
3034	73.10.3 State diagram counters
3035	73.10.4 .State diagrams
3038	73.11 Protocol implementation conformance statement (PICS) proforma for Clause 73, Auto-Negotiation for backplane and copper cable assembly 73.11.1 Introduction 73.11.2 Identification 73.11.2.1 Implementation identification 73.11.2.2 Protocol summary
3039	73.11.3 Major capabilities/options 73.11.4 PICS proforma tables for Auto-Negotiation for backplane and copper cable assembly 73.11.4.1 Functional specifications
3040	73.11.4.2 DME transmission
3041	73.11.4.3 Link codeword encoding
3042	73.11.4.4 Receive function requirements
3043	73.11.4.5 Next Page function 73.11.4.6 Management register requirements
3044	73.11.4.7 State diagrams and variable definitions 73.11.4.8 Service primitives
3045	73.11.4.9 Auto-Negotiation annexes
3047	74. Forward Error Correction (FEC) sublayer for BASE-R PHYs 74.1 Overview 74.2 Objectives 74.3 Relationship to other sublayers
3048	74.4 Inter-sublayer interfaces
3049	74.4.1 Functional Block Diagram for 10GBASE-R PHYs
3050	74.4.2 Functional block diagram for 40GBASE-R PHYs 74.4.3 Functional block diagram for 100GBASE-R PHYs
3051	74.5 FEC service interface
3052	74.5.1 10GBASE-R service primitives 74.5.1.1 FEC_UNITDATA.request 74.5.1.1.1 Semantics of the service primitive 74.5.1.1.2 When generated 74.5.1.1.3 Effect of receipt 74.5.1.2 FEC_UNITDATA.indication
3053	74.5.1.2.1 Semantics of the service primitive 74.5.1.2.2 When generated 74.5.1.2.3 Effect of receipt 74.5.1.3 FEC_SIGNAL.indication 74.5.1.3.1 Semantics of the service primitive 74.5.1.3.2 When generated 74.5.1.3.3 Effect of receipt 74.5.1.4 FEC_ENERGY.indication (optional) 74.5.1.4.1 Effect of receipt
3054	74.5.1.5 FEC_LPI_ACTIVE.request (optional) 74.5.1.5.1 When generated 74.5.1.5.2 Effect of receipt 74.5.1.6 FEC_RX_MODE.request (optional) 74.5.1.6.1 When generated 74.5.1.6.2 Effect of receipt 74.5.1.7 FEC_TX_MODE.request (optional) 74.5.1.7.1 When generated 74.5.1.7.2 Effect of receipt
3055	74.5.2 40GBASE-R and 100GBASE-R service primitives 74.6 Delay constraints 74.7 FEC principle of operation
3056	74.7.1 FEC code 74.7.2 FEC block format
3057	74.7.3 Composition of the FEC block 74.7.4 Functions within FEC sublayer 74.7.4.1 Reverse gearbox function 74.7.4.1.1 Reverse gearbox function for 10GBASE-R
3058	74.7.4.1.2 Reverse gearbox function for 40GBASE-R and 100GBASE-R 74.7.4.2 FEC Encoder
3059	74.7.4.3 FEC transmission bit ordering 74.7.4.4 FEC (2112,2080) encoder
3060	74.7.4.4.1 PN-2112 pseudo-noise sequence generator
3061	74.7.4.5 FEC decoder
3062	74.7.4.5.1 FEC (2112,2080) decoding
3063	74.7.4.6 FEC receive bit ordering 74.7.4.7 FEC block synchronization
3064	74.7.4.8 FEC rapid block synchronization for EEE (optional) 74.8 FEC MDIO function mapping 74.8.1 FEC capability
3065	74.8.2 FEC Enable 74.8.3 FEC Enable Error Indication 74.8.3.1 FEC Error Indication ability
3066	74.8.4 FEC Error monitoring capability 74.8.4.1 FEC_corrected_blocks_counter 74.8.4.2 FEC_uncorrected_blocks_counter 74.9 BASE-R PHY test-pattern mode 74.10 Detailed functions and state diagrams 74.10.1 State diagram conventions
3067	74.10.2 State variables 74.10.2.1 Constants 74.10.2.2 Variables 74.10.2.3 Functions
3068	74.10.2.4 Counters 74.10.3 State diagrams
3070	74.11 Protocol implementation conformance statement (PICS) proforma for Clause 74, Forward Error Correction (FEC) sublayer for BASE-R PHYs 74.11.1 Introduction 74.11.2 Identification 74.11.2.1 Implementation identification 74.11.2.2 Protocol summary
3071	74.11.3 Major capabilities/options
3072	74.11.4 Management
3073	74.11.5 FEC Requirements
3074	74.11.6 FEC Error Monitoring
3075	75. Physical Medium Dependent (PMD) sublayer and medium for passive optical networks, type 10GBASE–PR and 10/1GBASE–PRX 75.1 Overview 75.1.1 Terminology and conventions 75.1.2 Goals and objectives 75.1.3 Power budget classes
3076	75.1.4 Power budgets
3077	75.1.5 Positioning of PMD sublayer within the IEEE 802.3 architecture 75.2 PMD types
3080	75.2.1 Mapping of PMDs to power budgets 75.2.1.1 Asymmetric-rate, 10 Gb/s downstream and 1 Gb/s upstream power budgets (PRX type)
3081	75.2.1.2 Symmetric-rate, 10 Gb/s power budgets (PR type) 75.3 PMD functional specifications 75.3.1 PMD service interface 75.3.1.1 Delay constraints 75.3.1.2 PMD_UNITDATA.request
3082	75.3.1.3 PMD_UNITDATA.indication 75.3.1.4 PMD_SIGNAL.request 75.3.1.5 PMD_SIGNAL.indication 75.3.2 PMD block diagram
3083	75.3.3 PMD transmit function 75.3.4 PMD receive function
3084	75.3.5 PMD signal detect function 75.3.5.1 ONU PMD signal detect 75.3.5.2 OLT PMD signal detect 75.3.5.3 10GBASE–PR and 10/1GBASE–PRX Signal detect functions 75.3.6 PMD transmit enable function for ONU
3085	75.4 PMD to MDI optical specifications for 10/10G–EPON and 10/1G–EPON OLT PMDs 75.4.1 Transmitter optical specifications
3086	75.4.2 Receiver optical specifications
3088	75.5 PMD to MDI optical specifications for 10/10G–EPON and 10/1G–EPON ONU PMDs
3089	75.5.1 Transmitter optical specifications
3090	75.5.2 Receiver optical specifications
3093	75.6 Dual-rate (coexistence) mode
3094	75.6.1 Downstream dual-rate operation 75.6.2 Upstream dual-rate operation 75.7 Definitions of optical parameters and measurement methods 75.7.1 Insertion loss 75.7.2 Allocation for penalties in 10G–EPON PMDs 75.7.3 Test patterns
3095	75.7.4 Wavelength and spectral width measurement 75.7.5 Optical power measurements 75.7.6 Extinction ratio measurements
3096	75.7.7 Optical modulation amplitude (OMA) test procedure 75.7.8 Relative intensity noise optical modulation amplitude (RINxOMA) measuring procedure 75.7.9 Transmit optical waveform (transmit eye)
3097	75.7.10 Transmitter and dispersion penalty (TDP) 75.7.11 Receive sensitivity 75.7.12 Stressed receiver conformance test
3098	75.7.13 Jitter measurements 75.7.14 Laser on/off timing measurement 75.7.15 Receiver settling timing measurement 75.7.15.1 Definitions
3099	75.7.15.2 Test specification
3100	75.8 Environmental, safety, and labeling 75.8.1 General safety 75.8.2 Laser safety 75.8.3 Installation 75.8.4 Environment 75.8.5 PMD labeling
3101	75.9 Characteristics of the fiber optic cabling 75.9.1 Fiber optic cabling model 75.9.2 Optical fiber and cable
3102	75.9.3 Optical fiber connection 75.9.4 Medium Dependent Interface (MDI)
3103	75.10 Protocol implementation conformance statement (PICS) proforma for Clause 75, Physical Medium Dependent (PMD) sublayer and medium for passive optical networks, type 10GBASE–PR and 10/1GBASE–PRX 75.10.1 Introduction 75.10.2 Identification 75.10.2.1 Implementation identification 75.10.2.2 Protocol summary
3104	75.10.3 Major capabilities/options
3105	75.10.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and medium for passive optical networks, type 10GBASE–PR and 10/1GBASE–PRX 75.10.4.1 PMD functional specifications 75.10.4.2 PMD to MDI optical specifications for 10GBASE–PR–D1
3106	75.10.4.3 PMD to MDI optical specifications for 10GBASE–PR–D2 75.10.4.4 PMD to MDI optical specifications for 10GBASE–PR–D3 75.10.4.5 PMD to MDI optical specifications for 10/1GBASE–PRX–D1
3107	75.10.4.6 PMD to MDI optical specifications for 10/1GBASE–PRX–D2 75.10.4.7 PMD to MDI optical specifications for 10/1GBASE–PRX–D3 75.10.4.8 PMD to MDI optical specifications for 10GBASE–PR–U1
3108	75.10.4.9 PMD to MDI optical specifications for 10GBASE–PR–U3 75.10.4.10 PMD to MDI optical specifications for 10/1GBASE–PRX–U1 75.10.4.11 PMD to MDI optical specifications for 10/1GBASE–PRX–U2
3109	75.10.4.12 PMD to MDI optical specifications for 10/1GBASE–PRX–U3 75.10.4.13 Definitions of optical parameters and measurement methods
3110	75.10.4.14 Characteristics of the fiber optic cabling and MDI 75.10.4.15 Environmental specifications
3111	76. Reconciliation Sublayer, Physical Coding Sublayer, and Physical Media Attachment for 10G-EPON 76.1 Overview 76.1.1 Conventions 76.1.2 Delay constraints 76.2 Reconciliation Sublayer (RS) for 10G-EPON 76.2.1 Overview
3114	76.2.2 Dual-speed Media Independent Interface 76.2.2.1 10/10G-EPON 76.2.2.2 10/1G-EPON 76.2.2.3 Dual-rate mode
3115	76.2.2.4 Mapping of XGMII and GMII primitives
3116	76.2.3 Summary of major concepts 76.2.3.1 Application 76.2.4 GMII structure 76.2.5 XGMII structure
3117	76.2.6 Mapping of XGMII and GMII signals to PLS service primitives 76.2.6.1 Functional specifications for multiple MACs 76.2.6.1.1 Variables 76.2.6.1.2 RS Transmit function
3118	76.2.6.1.3 RS Receive function 76.2.6.1.3.1 SLD 76.2.6.1.3.2 LLID
3119	76.2.6.1.3.3 CRC-8 76.3 Physical Coding Sublayer (PCS) for 10G-EPON 76.3.1 Overview 76.3.1.1 10/1GBASE-PRX PCS
3120	76.3.1.2 10GBASE-PR PCS 76.3.2 PCS transmit function
3121	76.3.2.1 Idle control character deletion 76.3.2.1.1 Constants
3122	76.3.2.1.2 Variables
3123	76.3.2.1.3 Functions 76.3.2.1.4 Counters 76.3.2.1.5 State diagrams
3125	76.3.2.2 64B/66B Encode
3126	76.3.2.3 Scrambler 76.3.2.4 FEC encoding 76.3.2.4.1 FEC Algorithm [RS(255,223)]
3128	76.3.2.4.2 Parity calculation
3130	76.3.2.4.3 FEC Transmission Block Formatting 76.3.2.5 Data Detector 76.3.2.5.1 Burst Mode operation (ONU only)
3132	76.3.2.5.2 Constants
3133	76.3.2.5.3 Variables
3134	76.3.2.5.4 Functions 76.3.2.5.5 Messages 76.3.2.5.6 Counters
3135	76.3.2.5.7 State diagrams 76.3.2.6 Gearbox
3138	76.3.3 PCS receive Function 76.3.3.1 OLT synchronizer 76.3.3.1.1 Variables
3139	76.3.3.1.2 Counters 76.3.3.1.3 Functions
3141	76.3.3.1.4 State diagram 76.3.3.2 ONU Synchronizer
3143	76.3.3.2.1 Constants 76.3.3.2.2 Variables
3144	76.3.3.2.3 Counters 76.3.3.2.4 Functions 76.3.3.2.5 State diagram 76.3.3.3 FEC decoding process
3146	76.3.3.3.1 Variables 76.3.3.3.2 Counters
3147	76.3.3.3.3 Functions 76.3.3.3.4 State diagrams 76.3.3.4 BER monitor
3148	76.3.3.4.1 Variables
3149	76.3.3.4.2 Timers 76.3.3.4.3 Counters 76.3.3.4.4 State diagrams
3150	76.3.3.5 Descrambler 76.3.3.6 66B/64B Decode
3151	76.3.3.7 Idle Insertion 76.3.3.7.1 Constants 76.3.3.7.2 Variables
3152	76.3.3.7.3 Functions 76.3.3.7.4 Messages 76.3.3.7.5 State diagrams 76.4 10GBASE-PR and 10/1GBASE-PRX PMA 76.4.1 Extensions for 10GBASE-PR-U and 10/1GBASE-PRX-U 76.4.1.1 Physical Medium Attachment (PMA) sublayer interfaces
3154	76.4.1.2 Loop-timing specifications for ONUs 76.4.2 Extensions for 10GBASE-PR-D and 10/1GBASE-PRX-D 76.4.2.1 CDR lock timing measurement for the upstream direction 76.4.2.1.1 Test specification
3155	76.5 Protocol implementation conformance statement (PICS) proforma for Clause 76, Reconciliation Sublayer, Physical Coding Sublayer, and Physical Media Attachment for 10G-EPON 76.5.1 Introduction 76.5.2 Identification 76.5.2.1 Implementation identification
3156	76.5.2.2 Protocol summary 76.5.3 Major capabilities/options 76.5.4 PICS proforma tables for Reconciliation Sublayer (RS), Physical Coding Sublayer (PCS), and Physical Media Attachment (PMA) for point-to-multipoint media, types 10GBASE–PR and 10/1GBASE–PRX 76.5.4.1 Operating modes of OLT MACs
3157	76.5.4.2 ONU and OLT variables 76.5.4.3 Preamble mapping and replacement
3158	76.5.4.4 Coding Rules 76.5.4.5 Data detection 76.5.4.6 Idle control character deletion 76.5.4.7 FEC requirements
3159	76.5.4.8 FEC state diagrams 76.5.4.9 PCS Idle Insertion 76.5.4.10 PMA 76.5.4.11 Delay variation
3161	77. Multipoint MAC Control for 10G–EPON 77.1 Overview
3162	77.1.1 Goals and objectives 77.1.2 Position of Multipoint MAC Control within the IEEE 802.3 hierarchy
3166	77.1.3 Functional block diagram
3167	77.1.4 Service interfaces 77.1.5 State diagram conventions 77.2 Multipoint MAC Control operation
3168	77.2.1 Principles of Multipoint MAC Control
3169	77.2.1.1 Ranging and timing process
3170	77.2.2 Multipoint transmission control, Control Parser, and Control Multiplexer
3172	77.2.2.1 Constants
3173	77.2.2.2 Counters 77.2.2.3 Variables
3176	77.2.2.4 Functions
3177	77.2.2.5 Timers 77.2.2.6 Messages 77.2.2.7 State diagrams
3183	77.3 Multipoint Control Protocol (MPCP) 77.3.1 Principles of Multipoint Control Protocol 77.3.2 Compatibility considerations 77.3.2.1 PAUSE operation
3184	77.3.2.2 Optional Shared LAN emulation 77.3.2.3 Multicast and single copy broadcast support 77.3.2.4 Delay requirements 77.3.3 Discovery processing
3188	77.3.3.1 Constants 77.3.3.2 Variables
3190	77.3.3.3 Functions 77.3.3.4 Timers 77.3.3.5 Messages
3193	77.3.3.6 State Diagrams
3198	77.3.4 Report Processing 77.3.4.1 Constants 77.3.4.2 Variables
3199	77.3.4.3 Functions 77.3.4.4 Timers 77.3.4.5 Messages
3200	77.3.4.6 State diagrams
3201	77.3.5 Gate Processing
3202	77.3.5.1 Constants
3203	77.3.5.2 Variables
3205	77.3.5.3 Functions
3206	77.3.5.4 Timers 77.3.5.5 Messages
3207	77.3.5.6 State diagrams
3210	77.3.6 MPCPDU structure and encoding
3211	77.3.6.1 GATE description
3213	77.3.6.2 REPORT description
3216	77.3.6.3 REGISTER_REQ description
3217	77.3.6.4 REGISTER description
3219	77.3.6.5 REGISTER_ACK description 77.4 Discovery Process in dual-rate systems 77.4.1 OLT speed-specific discovery
3220	77.4.2 ONU speed-specific registration
3223	77.5 Protocol implementation conformance statement (PICS) proforma for Clause 77, Multipoint MAC Control 77.5.1 Introduction 77.5.2 Identification 77.5.2.1 Implementation identification 77.5.2.2 Protocol summary
3224	77.5.3 Major capabilities/options 77.5.4 PICS proforma tables for Multipoint MAC Control 77.5.4.1 Compatibility considerations 77.5.4.2 Multipoint MAC Control
3225	77.5.4.3 State diagrams
3226	77.5.4.4 MPCP
3227	Annex 57A (normative) Requirements for support of Slow Protocols 57A.1 Introduction and rationale 57A.2 Slow Protocol transmission characteristics 57A.3 Addressing
3228	57A.4 Protocol identification
3229	57A.5 Handling of Slow Protocol frames
3230	57A.6 Protocol implementation conformance statement (PICS) proforma for Annex 57A, Requirements for support of Slow Protocols 57A.6.1 Introduction 57A.6.2 Identification 57A.6.2.1 Implementation identification 57A.6.2.2 Protocol summary
3231	57A.6.2.3 Transmission characteristics 57A.6.2.4 Frame handling
3232	Annex 57B (normative) Organization specific slow protocol (OSSP) 57B.1 Transmission and representation of octets 57B.1.1 OSSPDU frame structure
3234	57B.2 Protocol implementation conformance statement (PICS) proforma for Annex 57B, Organization specific slow protocol (OSSP) 57B.2.1 Introduction 57B.2.2 Identification 57B.2.2.1 Implementation identification 57B.2.2.2 Protocol summary
3235	57B.2.2.3 OSSPDU structure
3237	Annex 58A (informative) Frame-based testing
3239	Annex 61A (informative) EFM Copper examples 61A.1 Purpose and scope 61A.2 Aggregation Discovery example
3243	61A.3 Example of 64/65-octet encapsulation
3247	Annex 61B (normative) Handshake codepoints for 2BASE-TL and 10PASS-TS 61B.1 Purpose and scope 61B.2 Level-1 S field codepoints for 2BASE-TL and 10PASS-TS 61B.3 Codepoints for 2BASE-TL 61B.3.1 Level-2 S field codepoints for 2BASE-TL
3249	61B.3.2 Level-3 S field codepoints for 2BASE-TL 61B.3.2.1 Training parameter codepoints
3259	61B.3.2.2 PMMS parameter codepoints
3266	61B.3.2.3 Framing parameter codepoints
3267	61B.4 Codepoints for 10PASS-TS 61B.4.1 Level-2 S field codepoints for 10PASS-TS
3268	61B.4.2 Level-3 S field codepoints for 10PASS-TS 61B.4.2.1 Used bands in upstream codepoints
3269	61B.4.2.2 Used bands in downstream codepoints
3270	61B.4.2.3 IDFT/DFT size codepoints 61B.4.2.4 Initial length of CE codepoints
3271	61B.4.2.5 MCM RFI band codepoints
3273	61B.5 Protocol implementation conformance statement (PICS) proforma for Annex 61B, Handshake codepoints for 2BASE-TL and 10PASS-TS 61B.5.1 Introduction 61B.5.2 Identification 61B.5.2.1 Implementation identification 61B.5.2.2 Protocol summary 61B.5.3 Major capabilities/options
3274	61B.5.4 2BASE-TL handshake coding rules
3275	Annex 62A (normative) PMD profiles for 10PASS-TS 62A.1 Introduction and rationale 62A.2 Relationship to other clauses 62A.3 Profile definitions 62A.3.1 Bandplan and PSD mask profiles
3277	62A.3.2 Bandplan definitions 62A.3.3 PSD mask definitions 62A.3.4 UPBO Reference PSD Profiles
3278	62A.3.5 Band Notch Profiles
3280	62A.3.6 Payload rate profiles 62A.3.7 Complete profiles 62A.3.8 Default profile
3281	62A.4 Register settings
3283	62A.5 Protocol implementation conformance statement (PICS) proforma for Annex 62A, PMD profiles for 10PASS-TS 62A.5.1 Introduction 62A.5.2 Identification 62A.5.2.1 Implementation identification 62A.5.2.2 Protocol summary 62A.5.3 Major capabilities/options 62A.5.4 PICS proforma tables for PMD profiles for 10PASS-TS
3287	Annex 62B (normative) Performance guidelines for 10PASS-TS PMD profiles 62B.1 Introduction and rationale 62B.2 Relationship to other clauses 62B.3 Performance test cases
3289	62B.3.1 Additional tests 62B.4 Deployment guidelines
3290	62B.5 Protocol implementation conformance statement (PICS) proforma for Annex 62B, Performance guidelines for 10PASS-TS PMD profiles 62B.5.1 Introduction 62B.5.2 Identification 62B.5.2.1 Implementation identification 62B.5.2.2 Protocol summary
3291	62B.5.3 Major capabilities/options 62B.5.4 PICS proforma tables for Performance guidelines for 10PASS-TS PMD profiles
3293	Annex 62C (informative) 10PASS-TS Examples 62C.1 Introduction 62C.2 Bandplan configuration
3296	62C.2.1 Plan A with variable LF region
3297	62C.3 PSD mask configuration 62C.3.1 General procedure 62C.3.2 PSD Masks for Plan A with variable LF region
3299	Annex 63A (normative) PMD Profiles for 2BASE-TL 63A.1 Introduction and rationale 63A.2 Relationship to other clauses 63A.3 Profile definitions
3300	63A.4 Register settings
3301	63A.5 Protocol implementation conformance statement (PICS) proforma Annex 63A, PMD Profiles for 2BASE-TL 63A.5.1 Introduction 63A.5.2 Identification 63A.5.2.1 Implementation identification 63A.5.2.2 Protocol summary
3302	63A.5.3 Major capabilities/options 63A.5.4 PICS proforma tables for Performance guidelines for 2BASE-TL PMD profiles
3303	Annex 63B (normative) Performance guidelines for 2BASE-TL PMD profiles 63B.1 Introduction and rationale 63B.2 Relationship to other clauses 63B.3 Performance test cases.
3305	63B.4 Deployment Guidelines
3306	63B.5 Protocol implementation conformance statement (PICS) proforma for Annex 63B, Performance guidelines for 2BASE-TL PMD profiles 63B.5.1 Introduction 63B.5.2 Identification 63B.5.2.1 Implementation identification 63B.5.2.2 Protocol summary
3307	63B.5.3 Major capabilities/options 63B.5.4 PICS proforma tables for Performance guidelines for 2BASE-TL PMD profiles
3309	Annex 67A (informative) Environmental characteristics for Ethernet subscriber access networks 67A.1 Introduction 67A.1.1 Terminal deployment scenarios
3310	67A.2 Temperature
3312	67A.3 Temperature impact on optical components 67A.3.1 Component case temperature recommendations
3315	Annex 69A (normative) Interference tolerance testing 69A.1 Introduction 69A.2 Test setup
3316	69A.2.1 Pattern generator 69A.2.2 Test channel
3317	69A.2.3 Interference generator 69A.2.4 Transmitter control 69A.3 Test methodology
3319	Annex 69B (informative) Interconnect characteristics 69B.1 Overview 69B.2 Reference model 69B.3 Characteristic impedance
3320	69B.4 Channel parameters 69B.4.1 Overview 69B.4.2 Fitted attenuation
3321	69B.4.3 Insertion loss
3324	69B.4.4 Insertion loss deviation 69B.4.5 Return loss
3325	69B.4.6 Crosstalk 69B.4.6.1 Power sum differential near-end crosstalk (PSNEXT)
3326	69B.4.6.2 Power sum differential far-end crosstalk (PSFEXT) 69B.4.6.3 Power sum differential crosstalk 69B.4.6.4 Insertion loss to crosstalk ratio (ICR)
3329	Annex 73A (normative) Next page message code field definitions 73A.1 Message code 1—Null Message code 73A.2 Message code 5—Organizationally Unique Identifier (OUI) tag code
3330	73A.3 Message code 6—AN device identifier tag code 73A.4 Message code 10—EEE technology message code
3333	Annex 74A (informative) FEC block encoding examples 74A.1 Input to the FEC (2112,2080) Encoder 74A.2 Output of the FEC (2112,2080) Encoder
3334	74A.3 Output of the FEC (2112,2080) Encoder after scrambling with PN-2112 sequence
3335	74A.4 Output of the PN-2112 sequence generator 74A.5 Output of the FEC (2112,2080) Encoder to Support Rapid Block during the wake state in EEE (optional) 74A.6 Output of the FEC (2112,2080) Encoder to Support Rapid Block during the refresh state in EEE (optional)
3337	Annex 75A (informative) Dual-rate receiver implementation 75A.1 Overview
3341	Annex 75B (informative) Illustrative channels and penalties for PR10, PR20, PR30, PRX10, PRX20, and PRX30 power budget classes 75B.1 Overview 75B.2 Wavelength allocation 75B.2.1 Downstream wavelength allocation
3343	75B.2.2 Upstream wavelength allocation
3345	Annex 75C (informative) Jitter at TP1–TP8 for PR10, PR20, PR30, PRX10, PRX20, PRX30 75C.1 Overview
3347	Annex 76A (informative) FEC Encoding example 76A.1 Introduction and rationale 76A.2 64B/66B block input
3349	76A.3 66 bit block input in binary format 76A.4 RS(255,223) input buffer in Binary Format
3350	76A.5 RS(255,223) input buffer
3351	76A.6 Parity symbol output 76A.7 Parity symbols in binary format
3352	76A.8 64B/66B Parity Blocks for Transmit 76A.9 Parity 66 bit blocks in binary format
3353	IEEE Std 802.3™-2012, SECTION SIX Contents
3373	78. Energy-Efficient Ethernet (EEE) 78.1 Overview 78.1.1 LPI Signaling
3374	78.1.1.1 Interlayer service interfaces 78.1.1.2 Responsibilities of LPI Client 78.1.2 LPI Client service interface 78.1.2.1 LP_IDLE.request 78.1.2.1.1 Function
3375	78.1.2.1.2 Semantics of the service primitive 78.1.2.1.3 When generated 78.1.2.1.4 Effect of receipt 78.1.2.2 LP_IDLE.indication 78.1.2.2.1 Function 78.1.2.2.2 Semantics of the service primitive 78.1.2.2.3 When generated 78.1.2.2.4 Effect of receipt
3376	78.1.3 Reconciliation sublayer operation 78.1.3.1 RS LPI assert function
3377	78.1.3.2 LPI detect function 78.1.3.3 PHY LPI operation 78.1.3.3.1 PHY LPI transmit operation
3378	78.1.3.3.2 PHY LPI receive operation 78.1.4 EEE Supported PHY types 78.2 LPI mode timing parameters description
3379	78.3 Capabilities Negotiation
3380	78.4 Data Link Layer Capabilities
3381	78.4.1 Data Link Layer capabilities timing requirements 78.4.2 Control state diagrams 78.4.2.1 Conventions 78.4.2.2 Constants 78.4.2.3 Variables
3383	78.4.2.4 Functions
3384	78.4.2.5 State diagrams
3386	78.4.3 State change procedure across a link
3387	78.4.3.1 Transmitting link partner’s state change procedure across a link 78.4.3.2 Receiving link partner’s state change procedure across a link
3388	78.5 Communication link access latency
3389	78.5.1 10 Gb/s PHY extension using XGXS 78.6 Protocol implementation conformance statement (PICS) proforma for EEE Data Link Layer Capabilities 78.6.1 Introduction
3390	78.6.2 Identification 78.6.2.1 Implementation identification 78.6.2.2 Protocol summary 78.6.3 Major capabilities/options
3391	78.6.4 DLL requirements
3393	79. IEEE 802.3 Organizationally Specific Link Layer Discovery Protocol (LLDP) type, length, and value (TLV) information elements 79.1 Overview 79.1.1 IEEE 802.3 LLDP frame format
3394	79.1.1.1 Destination Address field 79.1.1.2 Source Address field 79.1.1.3 Length/Type field 79.1.1.4 LLDPDU field 79.1.1.5 Pad field 79.1.1.6 Frame Check Sequence field 79.2 Requirements of the IEEE 802.3 Organizationally Specific TLV set 79.3 IEEE 802.3 Organizationally Specific TLVs
3395	79.3.1 MAC/PHY Configuration/Status TLV 79.3.1.1 Auto-negotiation support/status 79.3.1.2 PMD auto-negotiation advertised capability field 79.3.1.3 Operational MAU type
3396	79.3.1.4 MAC/PHY Configuration/Status TLV usage rules 79.3.2 Power Via MDI TLV 79.3.2.1 MDI power support
3397	79.3.2.2 PSE power pair 79.3.2.3 Power class 79.3.2.4 Requested power type/source/priority
3398	79.3.2.4.1 Power type 79.3.2.4.2 Power source 79.3.2.4.3 Power priority 79.3.2.5 PD requested power value
3399	79.3.2.6 PSE allocated power value 79.3.2.7 Power Via MDI TLV usage rules 79.3.3 Link Aggregation TLV (deprecated) 79.3.3.1 Aggregation status
3400	79.3.3.2 Aggregated port ID 79.3.3.3 Link Aggregation TLV usage rules 79.3.4 Maximum Frame Size TLV 79.3.4.1 Maximum frame size 79.3.4.2 Maximum Frame Size TLV usage rules
3401	79.3.5 EEE TLV 79.3.5.1 Transmit Tw 79.3.5.2 Receive Tw 79.3.5.3 Fallback Tw
3402	79.3.5.4 Echo Transmit and Receive Tw 79.3.5.5 EEE TLV usage rules 79.4 IEEE 802.3 Organizationally Specific TLV selection management 79.4.1 IEEE 802.3 Organizationally Specific TLV selection variable/LLDP Configuration managed object class cross reference 79.4.2 IEEE 802.3 Organizationally Specific TLV/LLDP Local and Remote System group managed object class cross references
3405	79.5 Protocol implementation conformance statement (PICS) proforma for IEEE 802.3 Organizationally Specific Link Layer Discovery Protocol (LLDP) type, length, and value (TLV) information elements 79.5.1 Introduction 79.5.2 Identification 79.5.2.1 Implementation identification 79.5.2.2 Protocol summary
3406	79.5.3 Major capabilities/options 79.5.4 IEEE 802.3 Organizationally Specific TLV 79.5.5 MAC/PHY Configuration/Status TLV
3407	79.5.6 EEE TLV
3408	79.5.7 Power Via MDI TLV
3409	79.5.8 Link Aggregation TLV 79.5.9 Maximum Frame Size TLV
3411	80. Introduction to 40 Gb/s and 100 Gb/s networks 80.1 Overview 80.1.1 Scope 80.1.2 Objectives 80.1.3 Relationship of 40 Gigabit and 100 Gigabit Ethernet to the ISO OSI reference model
3413	80.1.4 Nomenclature 80.1.5 Physical Layer signaling systems
3414	80.2 Summary of 40 Gigabit and 100 Gigabit Ethernet sublayers 80.2.1 Reconciliation Sublayer (RS) and Media Independent Interface 80.2.2 Physical Coding Sublayer (PCS)
3415	80.2.3 Forward Error Correction (FEC) sublayer 80.2.4 Physical Medium Attachment (PMA) sublayer 80.2.5 Physical Medium Dependent (PMD) sublayer 80.2.6 Auto-Negotiation 80.2.7 Management interface (MDIO/MDC) 80.2.8 Management
3416	80.3 Service interface specification method and notation 80.3.1 Inter-sublayer service interface 80.3.2 Instances of the Inter-sublayer service interface
3419	80.3.3 Semantics of inter-sublayer service interface primitives 80.3.3.1 IS_UNITDATA_i.request 80.3.3.1.1 Semantics of the service primitive 80.3.3.1.2 When generated 80.3.3.1.3 Effect of receipt 80.3.3.2 IS_UNITDATA_i.indication 80.3.3.2.1 Semantics of the service primitive
3420	80.3.3.2.2 When generated 80.3.3.2.3 Effect of receipt 80.3.3.3 IS_SIGNAL.indication 80.3.3.3.1 Semantics of the service primitive 80.3.3.3.2 When generated 80.3.3.3.3 Effect of receipt 80.4 Delay constraints
3421	80.5 Skew constraints
3425	80.6 State diagrams 80.7 Protocol implementation conformance statement (PICS) proforma
3427	81. Reconciliation Sublayer (RS) and Media Independent Interface for 40 Gb/s and 100 Gb/s operation (XLGMII and CGMII) 81.1 Overview
3428	81.1.1 Summary of major concepts 81.1.2 Application 81.1.3 Rate of operation 81.1.4 Delay constraints
3429	81.1.5 Allocation of functions 81.1.6 XLGMII/CGMII structure
3430	81.1.7 Mapping of XLGMII/CGMII signals to PLS service primitives 81.1.7.1 Mapping of PLS_DATA.request 81.1.7.1.1 Function 81.1.7.1.2 Semantics of the service primitive 81.1.7.1.3 When generated 81.1.7.1.4 Effect of receipt
3431	81.1.7.2 Mapping of PLS_DATA.indication 81.1.7.2.1 Function 81.1.7.2.2 Semantics of the service primitive 81.1.7.2.3 When generated 81.1.7.2.4 Effect of receipt 81.1.7.3 Mapping of PLS_CARRIER.indication 81.1.7.4 Mapping of PLS_SIGNAL.indication 81.1.7.5 Mapping of PLS_DATA_VALID.indication 81.1.7.5.1 Function 81.1.7.5.2 Semantics of the service primitive
3432	81.1.7.5.3 When generated 81.1.7.5.4 Effect of receipt 81.2 XLGMII/CGMII data stream
3433	81.2.1 Inter-frame 81.2.2 Preamble and start of frame delimiter
3434	81.2.3 Data 81.2.4 End of frame delimiter 81.2.5 Definition of Start of Packet and End of Packet Delimiters 81.3 XLGMII/CGMII functional specifications 81.3.1 Transmit 81.3.1.1 TX_CLK
3435	81.3.1.2 TXC (transmit control) 81.3.1.3 TXD (transmit data)
3437	81.3.1.4 Start control character alignment
3438	81.3.2 Receive 81.3.2.1 RX_CLK (receive clock) 81.3.2.2 RXC (receive control)
3440	81.3.2.3 RXD (receive data)
3441	81.3.3 Error and fault handling 81.3.3.1 Response to error indications by the XLGMII/CGMII
3442	81.3.3.2 Conditions for generation of transmit Error control characters 81.3.3.3 Response to received invalid frame sequences 81.3.4 Link fault signaling
3443	81.3.4.1 Variables and counters 81.3.4.2 State Diagram
3445	81.4 Protocol implementation conformance statement (PICS) proforma for Clause 81, Reconciliation Sublayer (RS) and Media Independent Interface for 40 Gb/s and 100 Gb/s operation 81.4.1 Introduction 81.4.2 Identification 81.4.2.1 Implementation identification 81.4.2.2 Protocol summary
3446	81.4.2.3 Major capabilities/options 81.4.3 PICS proforma tables for Reconciliation Sublayer and Media Independent Interface for 40 Gb/s and 100 Gb/s operation 81.4.3.1 General 81.4.3.2 Mapping of PLS service primitives
3447	81.4.3.3 Data stream structure
3448	81.4.3.4 XLGMII/CGMII signal functional specifications
3449	81.4.3.5 Link fault signaling state diagram
3451	82. Physical Coding Sublayer (PCS) for 64B/66B, type 40GBASE-R and 100GBASE-R 82.1 Overview 82.1.1 Scope 82.1.2 Relationship of 40GBASE-R and 100GBASE-R to other standards
3452	82.1.3 Summary of 40GBASE-R and 100GBASE-R sublayers 82.1.3.1 Physical Coding Sublayer (PCS)
3453	82.1.4 Inter-sublayer interfaces 82.1.4.1 PCS service interface (XLGMII/CGMII) 82.1.4.2 Physical Medium Attachment (PMA) or Forward Error Correction (FEC) service interface 82.1.5 Functional block diagram
3454	82.2 Physical Coding Sublayer (PCS) 82.2.1 Functions within the PCS
3455	82.2.2 Use of blocks
3456	82.2.3 64B/66B transmission code 82.2.3.1 Notation conventions 82.2.3.2 Transmission order
3459	82.2.3.3 Block structure
3460	82.2.3.4 Control codes
3461	82.2.3.5 Valid and invalid blocks 82.2.3.6 Idle (/I/) 82.2.3.7 Start (/S/) 82.2.3.8 Terminate (/T/)
3462	82.2.3.9 ordered_set (/O/) 82.2.3.10 Error (/E/) 82.2.4 Transmit process 82.2.5 Scrambler 82.2.6 Block distribution
3463	82.2.7 Alignment marker insertion
3465	82.2.8 BIP calculations
3466	82.2.9 PMA or FEC Interface
3467	82.2.10 Test-pattern generators 82.2.11 Block synchronization 82.2.12 PCS lane deskew 82.2.13 PCS lane reorder
3468	82.2.14 Alignment marker removal 82.2.15 Descrambler 82.2.16 Receive process 82.2.17 Test-pattern checker
3469	82.2.18 Detailed functions and state diagrams 82.2.18.1 State diagram conventions 82.2.18.2 State variables 82.2.18.2.1 Constants 82.2.18.2.2 Variables
3471	82.2.18.2.3 Functions
3472	82.2.18.2.4 Counters
3473	82.2.18.2.5 Timers 82.2.18.3 State diagrams
3474	82.3 PCS Management 82.3.1 PMD MDIO function mapping
3475	82.4 Loopback 82.5 Delay constraints
3476	82.6 Auto-Negotiation
3482	82.7 Protocol implementation conformance statement (PICS) proforma for Clause 82, Physical Coding Sublayer (PCS) for 64B/66B, type 40GBASE-R and 100GBASE-R 82.7.1 Introduction 82.7.2 Identification 82.7.2.1 Implementation identification 82.7.2.2 Protocol summary
3483	82.7.3 Major capabilities/options
3484	82.7.4 PICS Proforma Tables for PCS, type 40GBASE-R and 100GBASE-R 82.7.4.1 Coding rules 82.7.4.2 Scrambler and Descrambler
3485	82.7.4.3 Deskew and Reordering 82.7.4.4 Alignment Markers 82.7.5 Test-pattern modes
3486	82.7.5.1 Bit order 82.7.6 Management
3487	82.7.6.1 State diagrams
3488	82.7.6.2 Loopback 82.7.6.3 Delay constraints 82.7.6.5 Auto-Negotiation for Backplane Ethernet functions
3489	83. Physical Medium Attachment (PMA) sublayer, type 40GBASE-R and 100GBASE-R 83.1 Overview 83.1.1 Scope 83.1.2 Position of the PMA in the 40GBASE-R or 100GBASE-R sublayers 83.1.3 Summary of functions 83.1.4 PMA sublayer positioning
3492	83.2 PMA interfaces 83.3 PMA service interface
3494	83.4 Service interface below PMA
3495	83.5 Functions within the PMA 83.5.1 Per input-lane clock and data recovery 83.5.2 Bit-level multiplexing
3498	83.5.3 Skew and Skew Variation 83.5.3.1 Skew generation toward SP1 83.5.3.2 Skew tolerance at SP1 83.5.3.3 Skew generation toward SP2 83.5.3.4 Skew tolerance at SP5 83.5.3.5 Skew generation at SP6
3499	83.5.3.6 Skew tolerance at SP6 83.5.4 Delay constraints 83.5.5 Clocking architecture 83.5.6 Signal drivers
3500	83.5.7 Link status 83.5.8 PMA local loopback mode 83.5.9 PMA remote loopback mode (optional)
3501	83.5.10 PMA test patterns (optional)
3502	83.6 PMA MDIO function mapping
3507	83.7 Protocol implementation conformance statement (PICS) proforma for Clause 83, Physical Medium Attachment (PMA) sublayer, type 40GBASE-R and 100GBASE-R 83.7.1 Introduction 83.7.2 Identification 83.7.2.1 Implementation identification 83.7.2.2 Protocol summary
3508	83.7.3 Major capabilities/options
3510	83.7.4 Skew generation and tolerance 83.7.5 Test patterns
3511	83.7.6 Loopback modes
3513	84. Physical Medium Dependent sublayer and baseband medium, type 40GBASE-KR4 84.1 Overview 84.2 Physical Medium Dependent (PMD) service interface
3514	84.3 PCS requirements for Auto-Negotiation (AN) service interface
3515	84.4 Delay constraints 84.5 Skew constraints 84.6 PMD MDIO function mapping 84.7 PMD functional specifications 84.7.1 Link block diagram 84.7.2 PMD transmit function
3517	84.7.3 PMD receive function 84.7.4 Global PMD signal detect function 84.7.5 PMD lane-by-lane signal detect function 84.7.6 Global PMD transmit disable function
3518	84.7.7 PMD lane-by-lane transmit disable function 84.7.8 Loopback mode 84.7.9 PMD_fault function 84.7.10 PMD transmit fault function 84.7.11 PMD receive fault function
3519	84.7.12 PMD control function 84.8 40GBASE-KR4 electrical characteristics 84.8.1 Transmitter characteristics 84.8.1.1 Test fixture 84.8.2 Receiver characteristics 84.8.2.1 Receiver interference tolerance 84.9 Interconnect characteristics 84.10 Environmental specifications 84.10.1 General safety
3520	84.10.2 Network safety 84.10.3 Installation and maintenance guidelines 84.10.4 Electromagnetic compatibility 84.10.5 Temperature and humidity
3521	84.11 Protocol implementation conformance statement (PICS) proforma for Clause 84, Physical Medium Dependent sublayer and baseband medium, type 40GBASE-KR4 84.11.1 Introduction 84.11.2 Identification 84.11.2.1 Implementation identification 84.11.2.2 Protocol summary
3522	84.11.3 Major capabilities/options
3523	84.11.4 PICS proforma tables for Clause 84, Physical Medium Dependent (PMD) sublayer and baseband medium, type 40GBASE-KR4 84.11.4.1 PMD functional specifications
3524	84.11.4.2 Management functions 84.11.4.3 Transmitter electrical characteristics 84.11.4.4 Receiver electrical characteristics
3525	84.11.4.5 Environmental specifications
3527	85. Physical Medium Dependent sublayer and baseband medium, type 40GBASE-CR4 and 100GBASE-CR10 85.1 Overview
3528	85.2 Physical Medium Dependent (PMD) service interface
3529	85.3 PCS requirements for Auto-Negotiation (AN) service interface 85.4 Delay constraints 85.5 Skew constraints
3530	85.6 PMD MDIO function mapping
3532	85.7 PMD functional specifications 85.7.1 Link block diagram
3533	85.7.2 PMD Transmit function 85.7.3 PMD Receive function 85.7.4 Global PMD signal detect function
3534	85.7.5 PMD lane-by-lane signal detect function 85.7.6 Global PMD transmit disable function 85.7.7 PMD lane-by-lane transmit disable function 85.7.8 Loopback mode
3535	85.7.9 PMD_fault function 85.7.10 PMD transmit fault function 85.7.11 PMD receive fault function 85.7.12 PMD control function 85.8 MDI Electrical specifications for 40GBASE-CR4 and 100GBASE-CR10 85.8.1 Signal levels
3536	85.8.2 Signal paths 85.8.3 Transmitter characteristics
3537	85.8.3.1 Transmitter differential output return loss 85.8.3.2 Transmitter noise parameter measurements
3538	85.8.3.3 Transmitter output waveform
3540	85.8.3.3.1 Coefficient initialization 85.8.3.3.2 Coefficient step size 85.8.3.3.3 Coefficient range 85.8.3.3.4 Waveform acquisition 85.8.3.3.5 Linear fit to the waveform measurement at TP2
3541	85.8.3.3.6 Transfer function between the transmit function and TP2
3542	85.8.3.4 Insertion loss TP0 to TP2 or TP3 to TP5
3543	85.8.3.5 Test fixture
3544	85.8.3.6 Test fixture impedance 85.8.3.7 Test fixture insertion loss 85.8.3.8 Data dependent jitter (DDJ) 85.8.3.9 Signaling rate range
3545	85.8.4 Receiver characteristics at TP3 summary 85.8.4.1 Receiver differential input return loss
3546	85.8.4.2 Receiver interference tolerance test 85.8.4.2.1 Test setup
3547	85.8.4.2.2 Test channel 85.8.4.2.3 Test channel calibration
3548	85.8.4.2.4 Pattern generator 85.8.4.2.5 Test procedure 85.8.4.3 Bit error ratio 85.8.4.4 Signaling rate range 85.8.4.5 AC coupling
3549	85.9 Channel characteristics 85.10 Cable assembly characteristics 85.10.1 Characteristic impedance and reference impedance 85.10.2 Cable assembly insertion loss
3551	85.10.3 Cable assembly insertion loss deviation (ILD)
3552	85.10.4 Cable assembly return loss
3553	85.10.5 Cable assembly multiple disturber near-end crosstalk (MDNEXT) loss 85.10.6 Cable assembly multiple disturber far-end crosstalk (MDFEXT) loss
3554	85.10.7 Cable assembly integrated crosstalk noise (ICN)
3556	85.10.8 Cable assembly test fixture 85.10.9 Mated test fixtures
3557	85.10.9.1 Mated test fixtures insertion loss 85.10.9.2 Mated test fixtures return loss
3558	85.10.9.3 Mated test fixtures common-mode conversion loss
3559	85.10.9.4 Mated test fixtures integrated crosstalk noise 85.10.10 Shielding 85.10.11 Crossover function
3560	85.11 MDI specification 85.11.1 40GBASE-CR4 MDI connectors 85.11.1.1 Style-1 40GBASE-CR4 MDI connectors
3561	85.11.1.1.1 Style-1 AC coupling
3562	85.11.1.2 Style-2 40GBASE-CR4 MDI connectors 85.11.1.2.1 Style-2 40GBASE-CR4 Connector pin assignments
3563	85.11.2 100GBASE-CR10 MDI connectors
3565	85.11.2.1 100GBASE-CR10 MDI AC coupling 85.11.3 Electronic keying 85.12 Environmental specifications
3566	85.13 Protocol implementation conformance statement (PICS) proforma for Clause 85, Physical Medium Dependent (PMD) sublayer and baseband medium, type 40GBASE-CR4 and 100GBASE-CR10 85.13.1 Introduction 85.13.2 Identification 85.13.2.1 Implementation identification 85.13.2.2 Protocol summary
3567	85.13.3 Major capabilities/options
3568	85.13.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and baseband medium, type 40GBASE-CR4 and 100GBASE-CR10 85.13.4.1 PMD functional specifications
3569	85.13.4.2 Management functions 85.13.4.3 Transmitter specifications
3570	85.13.4.4 Receiver specifications
3571	85.13.4.5 Cable assembly specifications
3572	85.13.4.6 MDI connector specifications 85.13.4.7 Environmental specifications
3573	86. Physical Medium Dependent (PMD) sublayer and medium, type 40GBASE–SR4 and 100GBASE–SR10 86.1 Overview
3575	86.2 Physical Medium Dependent (PMD) service interface
3576	86.3 Delay and Skew 86.3.1 Delay constraints 86.3.2 Skew and Skew Variation constraints 86.4 PMD MDIO function mapping
3577	86.5 PMD functional specifications 86.5.1 PMD block diagram
3578	86.5.2 PMD transmit function 86.5.3 PMD receive function 86.5.4 PMD global signal detect function
3579	86.5.5 PMD lane-by-lane signal detect function 86.5.6 PMD reset function 86.5.7 PMD global transmit disable function (optional)
3580	86.5.8 PMD lane-by-lane transmit disable function (optional) 86.5.9 PMD fault function (optional) 86.5.10 PMD transmit fault function (optional) 86.5.11 PMD receive fault function (optional) 86.6 Lane assignments 86.7 PMD to MDI specifications for 40GBASE-SR4 or 100GBASE-SR10
3581	86.7.1 Transmitter optical specifications
3582	86.7.2 Characteristics of signal within, and at the receiving end of, a compliant optical channel
3583	86.7.3 40GBASE–SR4 or 100GBASE–SR10 receiver optical specifications
3584	86.7.4 40GBASE–SR4 or 100GBASE–SR10 illustrative link power budget 86.8 Definitions of optical and dual-use parameters and measurement methods 86.8.1 Test points and compliance boards 86.8.2 Test patterns and related subclauses
3587	86.8.2.1 Multi-lane testing considerations 86.8.3 Parameters applicable to both electrical and optical signals 86.8.3.1 Skew and Skew Variation
3588	86.8.3.2 Eye diagrams 86.8.3.2.1 Eye mask acceptable hit count examples 86.8.3.3 Jitter 86.8.3.3.1 J2 Jitter 86.8.3.3.2 J9 Jitter
3589	86.8.4 Optical parameter definitions 86.8.4.1 Wavelength and spectral width 86.8.4.2 Average optical power 86.8.4.3 Optical Modulation Amplitude (OMA) 86.8.4.4 Transmitter and dispersion penalty (TDP) 86.8.4.5 Extinction ratio 86.8.4.6 Transmitter optical waveform (transmit eye)
3590	86.8.4.6.1 Optical transmitter eye mask
3591	86.8.4.7 Stressed receiver sensitivity 86.8.4.8 Receiver jitter tolerance
3592	86.9 Safety, installation, environment, and labeling 86.9.1 General safety 86.9.2 Laser safety 86.9.3 Installation 86.9.4 Environment 86.9.5 PMD labeling 86.10 Optical channel 86.10.1 Fiber optic cabling model
3593	86.10.2 Characteristics of the fiber optic cabling (channel) 86.10.2.1 Optical fiber cable 86.10.2.2 Optical fiber connection
3594	86.10.2.2.1 Connection insertion loss 86.10.2.2.2 Maximum discrete reflectance 86.10.3 Medium Dependent Interface (MDI) 86.10.3.1 Optical lane assignments for 40GBASE-SR4
3595	86.10.3.2 Optical lane assignments for 100GBASE-SR10 86.10.3.3 Medium Dependent Interface (MDI) requirements
3597	86.11 Protocol implementation conformance statement (PICS) proforma for Clause 86, Physical Medium Dependent (PMD) sublayer and medium, type 40GBASE–SR4 and 100GBASE–SR10 86.11.1 Introduction 86.11.2 Identification 86.11.2.1 Implementation identification 86.11.2.2 Protocol summary
3598	86.11.3 Major capabilities/options
3599	86.11.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and medium, types 40GBASE–SR4 and 100GBASE–SR10 86.11.4.1 PMD functional specifications
3600	86.11.4.2 Management functions 86.11.4.3 Optical specifications for 40GBASE–SR4 or 100GBASE–SR10
3601	86.11.4.4 Definitions of parameters and measurement methods 86.11.4.5 Environmental and safety specifications
3602	86.11.4.6 Optical channel and MDI
3603	87. Physical Medium Dependent (PMD) sublayer and medium, type 40GBASE–LR4 87.1 Overview 87.2 Physical Medium Dependent (PMD) service interface
3605	87.3 Delay and Skew 87.3.1 Delay constraints 87.3.2 Skew constraints 87.4 PMD MDIO function mapping 87.5 PMD functional specifications 87.5.1 PMD block diagram
3606	87.5.2 PMD transmit function
3607	87.5.3 PMD receive function 87.5.4 PMD global signal detect function
3608	87.5.5 PMD lane-by-lane signal detect function 87.5.6 PMD reset function 87.5.7 PMD global transmit disable function (optional) 87.5.8 PMD lane-by-lane transmit disable function
3609	87.5.9 PMD fault function (optional) 87.5.10 PMD transmit fault function (optional) 87.5.11 PMD receive fault function (optional) 87.6 Wavelength-division-multiplexed lane assignments 87.7 PMD to MDI optical specifications for 40GBASE–LR4
3610	87.7.1 40GBASE–LR4 transmitter optical specifications
3611	87.7.2 40GBASE–LR4 receive optical specifications 87.7.3 40GBASE–LR4 illustrative link power budget
3612	87.8 Definition of optical parameters and measurement methods 87.8.1 Test patterns for optical parameters 87.8.2 Skew and Skew Variation
3613	87.8.3 Wavelength 87.8.4 Average optical power 87.8.5 Optical Modulation Amplitude (OMA)
3614	87.8.6 Transmitter and dispersion penalty 87.8.6.1 Reference transmitter requirements 87.8.6.2 Channel requirements
3615	87.8.6.3 Reference receiver requirements 87.8.6.4 Test procedure 87.8.7 Extinction ratio 87.8.8 Relative Intensity Noise (RIN20OMA) 87.8.9 Transmitter optical waveform (transmit eye)
3616	87.8.10 Receiver sensitivity 87.8.11 Stressed receiver sensitivity 87.8.11.1 Stressed receiver conformance test block diagram
3617	87.8.11.2 Stressed receiver conformance test signal characteristics and calibration
3619	87.8.11.3 Stressed receiver conformance test signal verification 87.8.11.4 Sinusoidal jitter for receiver conformance test
3620	87.8.11.5 Stressed receiver conformance test procedure for WDM conformance testing
3621	87.8.12 Receiver 3 dB electrical upper cutoff frequency 87.9 Safety, installation, environment, and labeling 87.9.1 General safety 87.9.2 Laser safety
3622	87.9.3 Installation 87.9.4 Environment 87.9.4.1 Electromagnetic emission 87.9.4.2 Temperature, humidity, and handling 87.9.5 PMD labeling requirements
3623	87.10 Fiber optic cabling model 87.11 Characteristics of the fiber optic cabling (channel)
3624	87.11.1 Optical fiber cable 87.11.2 Optical fiber connection 87.11.2.1 Connection insertion loss 87.11.2.2 Maximum discrete reflectance 87.11.3 Medium Dependent Interface (MDI) requirements
3625	87.12 Protocol implementation conformance statement (PICS) proforma for Clause 87, Physical Medium Dependent (PMD) sublayer and medium, type 40GBASE-LR4 87.12.1 Introduction 87.12.2 Identification 87.12.2.1 Implementation identification 87.12.2.2 Protocol summary
3626	87.12.3 Major capabilities/options
3627	87.12.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and medium, type 40GBASE-LR4 87.12.4.1 PMD functional specifications
3628	87.12.4.2 Management functions 87.12.4.3 PMD to MDI optical specifications for 40GBASE-LR4
3629	87.12.4.4 Optical measurement methods 87.12.4.5 Environmental specifications 87.12.4.6 Characteristics of the fiber optic cabling and MDI
3631	88. Physical Medium Dependent (PMD) sublayer and medium, type 100GBASE–LR4 and 100GBASE–ER4 88.1 Overview 88.2 Physical Medium Dependent (PMD) service interface
3633	88.3 Delay and Skew 88.3.1 Delay constraints 88.3.2 Skew constraints 88.4 PMD MDIO function mapping 88.5 PMD functional specifications 88.5.1 PMD block diagram
3635	88.5.2 PMD transmit function 88.5.3 PMD receive function 88.5.4 PMD global signal detect function
3636	88.5.5 PMD lane-by-lane signal detect function 88.5.6 PMD reset function 88.5.7 PMD global transmit disable function (optional) 88.5.8 PMD lane-by-lane transmit disable function
3637	88.5.9 PMD fault function (optional) 88.5.10 PMD transmit fault function (optional) 88.5.11 PMD receive fault function (optional) 88.6 Wavelength-division-multiplexed lane assignments 88.7 PMD to MDI optical specifications for 100GBASE–LR4 and 100GBASE–ER4
3638	88.7.1 100GBASE–LR4 and 100GBASE–ER4 transmitter optical specifications
3640	88.7.2 100GBASE–LR4 and 100GBASE–ER4 receive optical specifications
3641	88.7.3 100GBASE–LR4 and 100GBASE–ER4 illustrative link power budgets 88.8 Definition of optical parameters and measurement methods 88.8.1 Test patterns for optical parameters 88.8.2 Wavelength
3642	88.8.3 Average optical power 88.8.4 Optical Modulation Amplitude (OMA)
3643	88.8.5 Transmitter and dispersion penalty (TDP) 88.8.5.1 Reference transmitter requirements 88.8.5.2 Channel requirements
3644	88.8.5.3 Reference receiver requirements 88.8.5.4 Test procedure 88.8.6 Extinction ratio 88.8.7 Relative Intensity Noise (RIN20OMA) 88.8.8 Transmitter optical waveform (transmit eye)
3645	88.8.9 Receiver sensitivity 88.8.10 Stressed receiver sensitivity 88.8.11 Receiver 3 dB electrical upper cutoff frequency 88.9 Safety, installation, environment, and labeling 88.9.1 General safety 88.9.2 Laser safety
3646	88.9.3 Installation 88.9.4 Environment 88.9.5 Electromagnetic emission 88.9.6 Temperature, humidity, and handling 88.9.7 PMD labeling requirements
3647	88.10 Fiber optic cabling model 88.11 Characteristics of the fiber optic cabling (channel)
3648	88.11.1 Optical fiber cable 88.11.2 Optical fiber connection 88.11.2.1 Connection insertion loss 88.11.2.2 Maximum discrete reflectance 88.11.3 Medium Dependent Interface (MDI) requirements
3649	88.12 Protocol implementation conformance statement (PICS) proforma for Clause 88, Physical Medium Dependent (PMD) sublayer and medium, type 100GBASE–LR4 and 100GBASE–ER4 88.12.1 Introduction 88.12.2 Identification 88.12.2.1 Implementation identification 88.12.2.2 Protocol summary
3650	88.12.3 Major capabilities/options
3651	88.12.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and medium, types 100GBASE–LR4 and 100GBASE–ER4 88.12.4.1 PMD functional specifications
3652	88.12.4.2 Management functions 88.12.4.3 PMD to MDI optical specifications for 100GBASE–LR4 88.12.4.4 PMD to MDI optical specifications for 100GBASE–ER4
3653	88.12.4.5 Optical measurement methods 88.12.4.6 Environmental specifications 88.12.4.7 Characteristics of the fiber optic cabling and MDI
3655	89. Physical Medium Dependent (PMD) sublayer and medium, type 40GBASE-FR 89.1 Overview
3656	89.2 Physical Medium Dependent (PMD) service interface
3657	89.3 Delay and skew 89.3.1 Delay constraints 89.3.2 Skew constraints 89.4 PMD MDIO function mapping
3658	89.5 PMD functional specifications 89.5.1 PMD block diagram 89.5.2 PMD transmit function 89.5.3 PMD receive function
3659	89.5.4 PMD global signal detect function
3660	89.5.5 PMD reset function 89.5.6 PMD global transmit disable function (optional) 89.5.7 PMD fault function (optional) 89.5.8 PMD transmit fault function (optional) 89.5.9 PMD receive fault function (optional) 89.6 PMD to MDI optical specifications for 40GBASE-FR
3661	89.6.1 40GBASE-FR transmitter optical specifications 89.6.2 40GBASE-FR receive optical specifications
3662	89.6.3 40GBASE-FR illustrative link power budget 89.6.4 Comparison of power budget methodology
3663	89.7 Definition of optical parameters and measurement methods 89.7.1 Test patterns for optical parameters
3664	89.7.2 Skew and Skew Variation 89.7.3 Wavelength 89.7.4 Average optical power 89.7.5 Dispersion penalty 89.7.5.1 Channel requirements
3665	89.7.5.2 Reference receiver requirements 89.7.5.3 Test procedure 89.7.6 Extinction ratio
3666	89.7.7 Relative Intensity Noise (RIN20OMA) 89.7.8 Transmitter optical waveform (transmit eye) 89.7.9 Receiver sensitivity 89.7.10 Receiver jitter tolerance 89.7.11 Receiver 3 dB electrical upper cutoff frequency
3667	89.8 Safety, installation, environment, and labeling 89.8.1 General safety 89.8.2 Laser safety 89.8.3 Installation 89.8.4 Environment
3668	89.8.4.1 Electromagnetic emission 89.8.4.2 Temperature, humidity, and handling 89.8.5 PMD labeling requirements 89.9 Fiber optic cabling model 89.10 Characteristics of the fiber optic cabling (channel) 89.10.1 Optical fiber cable
3669	89.10.2 Optical fiber connection 89.10.2.1 Connection insertion loss 89.10.2.2 Maximum discrete reflectance
3670	89.10.3 Medium Dependent Interface (MDI) requirements
3671	89.11 Protocol implementation conformance statement (PICS) proforma for Clause 89, Physical Medium Dependent (PMD) sublayer and medium, type 40GBASE-FR 89.11.1 Introduction 89.11.2 Identification 89.11.2.1 Implementation identification 89.11.2.2 Protocol summary
3672	89.11.3 Major capabilities/options 89.11.4 PICS proforma tables for Physical Medium Dependent (PMD) sublayer and medium, type 40GBASE-FR 89.11.4.1 PMD functional specifications
3673	89.11.4.2 Management functions 89.11.4.3 PMD to MDI optical specifications for 40GBASE-FR
3674	89.11.4.4 Optical measurement methods 89.11.4.5 Environmental specifications 89.11.4.6 Characteristics of the fiber optic cabling and MDI
3675	90. Ethernet support for time synchronization protocols 90.1 Introduction 90.2 Overview 90.3 Relationship with other IEEE standards 90.4 Time Synchronization Service Interface (TSSI) 90.4.1 Introduction
3676	90.4.1.1 Interlayer service interfaces 90.4.1.2 Responsibilities of TimeSync Client
3677	90.4.2 TSSI 90.4.3 Detailed service specification 90.4.3.1 TS_TX.indication primitive 90.4.3.1.1 Semantics 90.4.3.1.2 Condition for generation 90.4.3.1.3 Effect of receipt 90.4.3.2 TS_RX.indication primitive 90.4.3.2.1 Semantics
3678	90.4.3.2.2 Condition for generation 90.4.3.2.3 Effect of receipt 90.5 generic Reconciliation Sublayer (gRS) 90.5.1 TS_SFD_Detect_TX function 90.5.2 TS_SFD_Detect_RX function
3679	90.6 Overview of management features
3680	90.7 Data delay measurement
3682	90.8 Protocol implementation conformance statement (PICS) proforma for Clause 90, Ethernet support for time synchronization protocols 90.8.1 Introduction 90.8.2 Identification 90.8.2.1 Implementation identification 90.8.2.2 Protocol summary
3683	90.8.3 TSSI indication 90.8.4 Data delay reporting
3685	Annex 83A (normative) 40 Gb/s Attachment Unit Interface (XLAUI) and 100 Gb/s Attachment Unit Interface (CAUI) 83A.1 Overview
3686	83A.1.1 Summary of major concepts 83A.1.2 Rate of operation 83A.2 XLAUI/CAUI link block diagram
3687	83A.2.1 Transmitter compliance points
3688	83A.2.2 Receiver compliance points 83A.3 XLAUI/CAUI electrical characteristics 83A.3.1 Signal levels
3689	83A.3.2 Signal paths 83A.3.3 Transmitter characteristics 83A.3.3.1 Output amplitude
3690	83A.3.3.2 Rise/fall time
3691	83A.3.3.3 Differential output return loss 83A.3.3.4 Common-mode output return loss
3692	83A.3.3.5 Transmitter eye mask and transmitter jitter definition
3693	83A.3.4 Receiver characteristics
3694	83A.3.4.1 Bit error ratio 83A.3.4.2 Input signal definition 83A.3.4.3 Differential input return loss
3695	83A.3.4.4 Differential to common-mode input return loss
3696	83A.3.4.5 AC coupling 83A.3.4.6 Jitter tolerance
3697	83A.4 Interconnect characteristics
3698	83A.4.1 Characteristic impedance
3699	83A.5 Electrical parameter measurement methods 83A.5.1 Transmit jitter 83A.5.2 Receiver tolerance
3700	83A.6 Environmental specifications 83A.6.1 General safety 83A.6.2 Network safety 83A.6.3 Installation and maintenance guidelines 83A.6.4 Electromagnetic compatibility 83A.6.5 Temperature and humidity
3701	83A.7 Protocol implementation conformance statement (PICS) proforma for Annex 83A, 40 Gb/s Attachment Unit Interface (XLAUI) and 100 Gb/s Attachment Unit Interface (CAUI) 83A.7.1 Introduction 83A.7.2 Identification 83A.7.2.1 Implementation identification 83A.7.2.2 Protocol summary
3702	83A.7.3 Major capabilities/options 83A.7.4 XLAUI/CAUI transmitter requirements
3703	83A.7.5 XLAUI/CAUI receiver requirements 83A.7.6 Electrical measurement methods 83A.7.7 Environmental specifications
3705	Annex 83B (normative) Chip-module 40 Gb/s Attachment Unit Interface (XLAUI) and 100Gb/s Attachment Unit Interface (CAUI) 83B.1 Overview
3707	83B.2 Compliance point specifications for chip-module XLAUI/CAUI
3709	83B.2.1 Module specifications
3712	83B.2.2 Host specifications
3713	83B.2.3 Host input signal tolerance
3714	83B.3 Environmental specifications 83B.3.1 General safety 83B.3.2 Network safety 83B.3.3 Installation and maintenance guidelines 83B.3.4 Electromagnetic compatibility
3715	83B.3.5 Temperature and humidity
3716	83B.4 Protocol implementation conformance statement (PICS) proforma for Annex 83B, Chip-module 40 Gb/s Attachment Unit Interface (XLAUI) and 100 Gb/s Attachment Unit Interface (CAUI) 83B.4.1 Introduction 83B.4.2 Identification 83B.4.2.1 Implementation identification 83B.4.2.2 Protocol summary
3717	83B.4.3 Major capabilities/options 83B.4.4 Module requirements 83B.4.5 Host requirements
3718	83B.4.6 Environmental specifications
3719	Annex 83C (informative) PMA sublayer partitioning examples 83C.1 Partitioning examples with FEC 83C.1.1 FEC implemented with PCS
3720	83C.1.2 FEC implemented with PMD 83C.2 Partitioning examples without FEC 83C.2.1 Single PMA sublayer without FEC
3721	83C.2.2 Single XLAUI/CAUI without FEC 83C.2.3 Separate SERDES for optical module interface
3723	Annex 85A (informative) 40GBASE-CR4 and 100GBASE-CR10 TP0 and TP5 test point parameters 85A.1 Overview 85A.2 Transmitter characteristics at TP0
3724	85A.3 Receiver characteristics at TP5 85A.4 Transmitter and receiver differential printed circuit board trace loss
3725	85A.5 Channel insertion loss
3726	85A.6 Channel return loss 85A.7 Channel insertion loss deviation (ILD)
3727	85A.8 Channel integrated crosstalk noise (ICN)
3729	Annex 86A (normative) Parallel Physical Interface (nPPI) for 40GBASE-SR4 and 40GBASE-LR4 (XLPPI) and 100GBASE-SR10 (CPPI) 86A.1 Overview 86A.2 Block diagram and test points 86A.3 Lane assignments
3730	86A.4 Electrical specifications for nPPI 86A.4.1 nPPI host to module electrical specifications 86A.4.1.1 Differential return losses at TP1 and TP1a
3731	86A.4.2 nPPI module to host electrical specifications
3733	86A.4.2.1 Differential return losses at TP4 and TP4a
3734	86A.5 Definitions of electrical parameters and measurement methods 86A.5.1 Test points and compliance boards
3735	86A.5.1.1 Compliance board parameters 86A.5.1.1.1 Reference insertion losses of HCB and MCB
3736	86A.5.1.1.2 Electrical specifications of mated HCB and MCB
3738	86A.5.2 Test patterns and related subclauses
3739	86A.5.3 Parameter definitions 86A.5.3.1 AC common-mode voltage 86A.5.3.2 Termination mismatch
3740	86A.5.3.3 Transition time 86A.5.3.4 Data Dependent Pulse Width Shrinkage (DDPWS) 86A.5.3.5 Signal to noise ratio Qsq
3741	86A.5.3.6 Eye mask for TP1a and TP4 86A.5.3.7 Reference impedances for electrical measurements 86A.5.3.8 Host input signal tolerance
3742	86A.5.3.8.1 Introduction 86A.5.3.8.2 Test equipment and setup
3743	86A.5.3.8.3 Stressed eye jitter characteristics
3744	86A.5.3.8.4 Calibration 86A.5.3.8.5 Calibration procedure
3745	86A.5.3.8.6 Test procedure
3746	86A.6 Recommended electrical channel
3747	86A.7 Safety, installation, environment, and labeling 86A.7.1 General safety 86A.7.2 Installation 86A.7.3 Environment 86A.7.4 PMD labeling
3748	86A.8 Protocol implementation conformance statement (PICS) proforma for Annex 86A, Parallel Physical Interface (nPPI) for 40GBASE-SR4 and 40GBASE-LR4 (XLPPI) and 100GBASE-SR10 (CPPI) 86A.8.1 Introduction 86A.8.2 Identification 86A.8.2.1 Implementation identification 86A.8.2.2 Protocol summary
3749	86A.8.3 Major capabilities/options 86A.8.4 PICS proforma tables for Parallel Physical Interface (nPPI) for 40GBASE- SR4 and 40GBASE-LR4 (XLPPI) and 100GBASE-SR10 (CPPI) 86A.8.4.1 PMD functional specifications
3750	86A.8.4.2 Electrical specifications for nPPI 86A.8.4.3 Definitions of parameters and measurement methods
3751	86A.8.4.4 Environmental and safety specifications