IEEE 802.3-2012

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IEEE Standard for Ethernet

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IEEE	2012

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Description

Revision Standard – Superseded. 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	IEEE Std 802.3™-2012, SECTION FIVE Contents
35	56. Introduction to Ethernet for subscriber access networks 56.1 Overview
39	56.1.1 Summary of P2P sublayers 56.1.2 Summary of P2MP sublayers 56.1.2.1 Multipoint MAC Control Protocol (MPCP)
40	56.1.2.2 Reconciliation Sublayer (RS) and media independent interfaces 56.1.3 Physical Layer signaling systems
44	56.1.4 Management 56.1.5 Unidirectional transmission 56.2 State diagrams 56.3 Protocol implementation conformance statement (PICS) proforma
47	57. Operations, Administration, and Maintenance (OAM) 57.1 Overview 57.1.1 Scope 57.1.2 Summary of objectives and major concepts
48	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
49	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
50	57.2.2 Principles of operation 57.2.3 Instances of the MAC data service interface 57.2.4 Responsibilities of OAM client
51	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
52	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
53	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
54	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
55	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
56	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
57	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
58	57.2.10.4 Remote event procedure 57.2.11 OAM remote loopback 57.2.11.1 Initiating OAM remote loopback
59	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
60	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
61	57.3.1 State diagram variables 57.3.1.1 Constants 57.3.1.2 Variables
63	57.3.1.3 Messages
64	57.3.1.4 Counters 57.3.1.5 Timers
65	57.3.2 Control 57.3.2.1 OAM Discovery
66	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
67	57.3.2.2 Transmit 57.3.2.2.1 RESET state 57.3.2.2.2 WAIT_FOR_TX state
68	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
69	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
70	57.3.3.2 TX_FRAME state 57.3.4 Parser 57.3.4.1 Reception of OAMPDU
71	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
72	57.4.2 Structure 57.4.2.1 Flags field
73	57.4.2.2 Code field 57.4.3 OAMPDU descriptions
74	57.4.3.1 Information OAMPDU 57.4.3.2 Event Notification OAMPDU
75	57.4.3.3 Variable Request OAMPDU
76	57.4.3.4 Variable Response OAMPDU 57.4.3.5 Loopback Control OAMPDU
77	57.4.3.6 Organization Specific OAMPDU 57.5 OAM TLVs 57.5.1 Parsing
78	57.5.2 Information TLVs 57.5.2.1 Local Information TLV
81	57.5.2.2 Remote Information TLV 57.5.2.3 Organization Specific Information TLV 57.5.3 Link Event TLVs
82	57.5.3.1 Errored Symbol Period Event TLV
83	57.5.3.2 Errored Frame Event TLV 57.5.3.3 Errored Frame Period Event TLV
84	57.5.3.4 Errored Frame Seconds Summary Event TLV
85	57.5.3.5 Organization Specific Event TLVs
86	57.6 Variables 57.6.1 Variable Descriptors 57.6.2 Variable Containers
87	57.6.2.1 Format of Variable Containers when returning attributes 57.6.2.2 Format of Variable Containers when returning packages and objects
88	57.6.3 Parsing
89	57.6.4 Variable Branch/Leaf examples 57.6.5 Variable Indications
90	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
91	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
94	57.7.3.3 OAMPDUs
95	57.7.3.4 Local Information TLVs 57.7.3.5 Remote Information TLVs
96	57.7.3.6 Organization Specific Information TLVs 57.7.4 Link Event TLVs
97	57.7.5 Variables Descriptors and Containers
99	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
100	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
101	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
102	58.2.1 PMD block diagram 58.2.2 PMD transmit function 58.2.3 PMD receive function
103	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
104	58.3.2 Receiver optical specifications
105	58.4 PMD to MDI optical specifications for 100BASE-BX10 58.4.1 Transmit optical specifications
106	58.4.2 Receiver optical specifications
107	58.5 Illustrative 100BASE-LX10 and 100BASE-BX10 channels and penalties (informative)
108	58.6 Jitter at TP1 and TP4 for 100BASE-LX10 and 100BASE-BX10 (informative) 58.7 Optical measurement requirements
109	58.7.1 Test patterns 58.7.1.1 100BASE-X optical frame-based test pattern
111	58.7.2 Wavelength and spectral width measurements 58.7.3 Optical power measurements 58.7.4 Extinction ratio measurements
112	58.7.5 Optical modulation amplitude (OMA) measurements (informative) 58.7.6 OMA relationship to extinction ratio and power measurements (informative)
113	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
114	58.7.7.3 Test procedure
115	58.7.8 Transmitter optical waveform (transmit eye)
116	58.7.9 Transmitter and dispersion penalty (TDP) measurement
117	58.7.9.1 Reference transmitter requirements 58.7.9.2 Channel requirements
118	58.7.9.3 Reference receiver requirements 58.7.9.4 Test procedure
119	58.7.9.5 Approximate measures of TDP (informative)
120	58.7.10 Receiver sensitivity measurements 58.7.11 Stressed receiver conformance test
121	58.7.11.1 Stressed receiver conformance test block diagram
122	58.7.11.2 Stressed receiver conformance test signal characteristics and calibration
124	58.7.11.3 Stressed receiver conformance test procedure 58.7.11.4 Sinusoidal jitter for receiver conformance test
125	58.7.12 Jitter measurements (informative)
127	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
128	58.9.1 Fiber optic cabling model 58.9.2 Optical fiber and cable
129	58.9.3 Optical fiber connection 58.9.4 Medium Dependent Interface (MDI)
130	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
131	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
132	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
133	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
135	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
136	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
137	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
138	59.2.2 PMD transmit function 59.2.3 PMD receive function 59.2.4 PMD signal detect function
139	59.3 PMD to MDI optical specifications for 1000BASE-LX10 59.3.1 Transmitter optical specifications 59.3.2 Receiver optical specifications
142	59.4 PMD to MDI optical specifications for 1000BASE-BX10-D and 1000BASE-BX10-U 59.4.1 Transmit optical specifications
143	59.4.2 Receiver optical specifications 59.5 Illustrative 1000BASE-LX10 and 1000BASE-BX10 channels and penalties (informative) 59.6 Jitter specifications
145	59.7 Optical measurement requirements 59.7.1 Test patterns
148	59.7.2 Wavelength and spectral width measurements
149	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
150	59.7.10 Transmitter and dispersion penalty (TDP) 59.7.11 Receive sensitivity measurements 59.7.12 Total jitter measurements (informative)
151	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
152	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
153	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
155	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
157	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
158	59.10.3 Major capabilities/options 59.10.3.1 PMD functional specifications
159	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
160	59.10.3.5 Optical Measurement requirements 59.10.3.6 Environmental, safety, and labeling specifications
161	59.10.3.7 Characteristics of the fiber optic cabling 59.10.3.8 Offset-launch mode-conditioning patch cord
163	60. Physical Medium Dependent (PMD) sublayer and medium, type 1000BASE-PX10 and 1000BASE-PX20 (long wavelength passive optical networks) 60.1 Overview
164	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
165	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
166	60.2 PMD functional specifications 60.2.1 PMD block diagram
167	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
168	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
170	60.3.2 Receiver optical specifications 60.4 PMD to MDI optical specifications for 1000BASE-PX20-D and 1000BASE-PX20-U
171	60.4.1 Transmit optical specifications
172	60.4.2 Receiver optical specifications
173	60.5 Illustrative 1000BASE-PX10 and 1000BASE-PX20 channels and penalties (informative)
174	60.6 Jitter at TP1-4 for 1000BASE-PX10 and 1000BASE-PX20 (informative)
176	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
177	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)
178	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
179	60.7.13.1.2 Test specification
180	60.7.13.2 Receiver settling timing measurement (informative) 60.7.13.2.1 Definitions
181	60.7.13.2.2 Test specification
182	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
183	60.9 Characteristics of the fiber optic cabling 60.9.1 Fiber optic cabling model 60.9.2 Optical fiber and cable
184	60.9.3 Optical fiber connection 60.9.4 Medium Dependent Interface (MDI)
185	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
186	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
187	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
188	60.10.4.4 PMD to MDI optical specifications for 1000BASE-PX20-D
189	60.10.4.5 PMD to MDI optical specifications for 1000BASE-PX20-U 60.10.4.6 Optical measurement requirements
190	60.10.4.7 Characteristics of the fiber optic cabling and MDI 60.10.4.8 Environmental specifications
191	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
192	61.1.2 Objectives 61.1.3 Relation of 2BASE-TL and 10PASS-TS to other standards
193	61.1.4 Summary 61.1.4.1 Summary of Physical Coding Sublayer (PCS) specification
194	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
195	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
196	61.1.5.3.1 Addressing PCS and PME instances 61.1.5.3.2 Indicating PME aggregation capability
198	61.1.5.3.3 Setting PME aggregation connection
199	61.1.5.4 Support for handshaking
200	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
201	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
203	61.2.2 PME Aggregation functional specifications
204	61.2.2.1 PAF Enable and Bypass 61.2.2.2 PME Aggregation functions
205	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
206	61.2.2.4.3 PME Aggregation Receive function state diagram 61.2.2.4.4 PME Aggregation Receive function state diagram description
207	61.2.2.5 PME Aggregation restrictions
208	61.2.2.6 PME Aggregation transmit function restrictions
209	61.2.2.7 Error-detecting rules 61.2.2.7.1 Errors during fragment reception
210	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
211	61.2.2.8.3 PME aggregation register functions
212	61.2.2.8.4 PME aggregation discovery register functions 61.2.3 PCS sublayer: Management entity signals
214	61.3 TC sublayer functional specifications
215	61.3.1 The g-interface
216	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
217	61.3.2.3 a(b) OAM flow 61.3.3 TC functions 61.3.3.1 TC encapsulation and coding
220	61.3.3.2 Sync insertion and transmit control
221	61.3.3.3 TC-CRC functions
222	61.3.3.4 Bit ordering
224	61.3.3.5 Sync detection
225	61.3.3.5.1 State diagram variables 61.3.3.5.2 State diagram 61.3.3.6 Receive control
226	61.3.3.7 State diagrams for 64/65-octet encapsulation 61.3.3.7.1 Transmit state diagram
229	61.3.3.7.2 Receive state diagram
232	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
233	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)”
234	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
236	61.4.7.2 PME_Aggregate_register
237	61.4.7.3 Timing and preferred transactions 61.5 Link segment characteristics
238	61.6 MDI specification 61.7 System considerations 61.8 Environmental specifications 61.9 PHY labeling
239	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
240	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
241	61.10.4.2 64/65-octet Encapsulation
242	61.10.4.3 PME Aggregation
248	61.10.4.4 Handshaking
249	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
250	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
251	62.2.3 General exceptions
252	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
253	62.3.2 PMD functional specifications 62.3.3 General exceptions
254	62.3.4 Specific requirements and exceptions 62.3.4.1 Replacement of 8.2.1, “Multi-carrier Modulation”
255	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”
256	62.3.4.5 Changes to 8.2.5, “Constellation encoder” 62.3.4.6 Changes to 8.2.8, “U-interface characteristics”
257	62.3.4.7 Changes to section 10, “Operations and maintenance”
258	62.3.4.8 Changes to 11.1, “VDSL Link State and Timing Diagram”
259	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”
261	62.3.4.9.5 Replacement of 18.4.2, “Handshake – 10PASS-TS-R”
262	62.3.5 Transmission medium interface characteristics
263	62.3.5.1 Transmit signal characteristics 62.3.5.1.1 Wide-band power
264	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
265	62.3.5.4 Output signal balance
266	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
267	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
268	62.4.4.2 MCM-VDSL based PMD
271	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
272	63.1.4.1 a(b)-interface 63.1.4.2 The I-interface 63.1.4.2.1 The I Data Flow
273	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
274	63.2 2BASE-TL PMA functional specifications 63.2.1 General exceptions 63.2.2 Specific requirements and exceptions
275	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
276	63.3 2BASE-TL PMD functional specifications 63.3.1 General exceptions
277	63.3.2 Specific requirements and exceptions 63.3.2.1 Replacement of section 5, “Transport Capacity”
278	63.3.2.2 Changes to section 6, “PMD Layer Functional Characteristics”
279	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
280	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”
281	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
282	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
283	63.4.4.2 SHDSL based PMD
285	64. Multipoint MAC Control 64.1 Overview
286	64.1.1 Goals and objectives 64.1.2 Position of Multipoint MAC Control within the IEEE 802.3 hierarchy
288	64.1.3 Functional block diagram
289	64.1.4 Service interfaces 64.1.5 State diagram conventions 64.2 Multipoint MAC Control operation
290	64.2.1 Principles of Multipoint MAC Control
291	64.2.1.1 Ranging and Timing Process
292	64.2.2 Multipoint transmission control, Control Parser, and Control Multiplexer
295	64.2.2.1 Constants 64.2.2.2 Counters
296	64.2.2.3 Variables
297	64.2.2.4 Functions
298	64.2.2.5 Timers 64.2.2.6 Messages 64.2.2.7 State Diagrams
304	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
305	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
309	64.3.3.1 Constants 64.3.3.2 Variables
310	64.3.3.3 Functions 64.3.3.4 Timers 64.3.3.5 Messages
313	64.3.3.6 State Diagram
318	64.3.4 Report Processing 64.3.4.1 Constants 64.3.4.2 Variables
319	64.3.4.3 Functions 64.3.4.4 Timers 64.3.4.5 Messages
320	64.3.4.6 State Diagram
322	64.3.5 Gate Processing 64.3.5.1 Constants
323	64.3.5.2 Variables
324	64.3.5.3 Functions
325	64.3.5.4 Timers 64.3.5.5 Messages
327	64.3.5.6 State Diagrams
330	64.3.6 MPCPDU structure and encoding
331	64.3.6.1 GATE description
333	64.3.6.2 REPORT description
334	64.3.6.3 REGISTER_REQ description
336	64.3.6.4 REGISTER description
337	64.3.6.5 REGISTER_ACK description
339	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
340	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
341	64.4.4.3 State diagrams
342	64.4.4.4 MPCP
343	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
344	65.1.3 Functional specifications 65.1.3.1 Variables 65.1.3.2 Transmit
345	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
346	65.1.3.3.1 SLD 65.1.3.3.2 LLID
347	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
348	65.2.2 Burst-mode operation 65.2.2.1 Principle of operation
350	65.2.2.2 Detailed functions and state diagrams 65.2.2.2.1 Variables
351	65.2.2.2.2 Functions 65.2.2.2.3 Messages 65.2.2.2.4 Counters
352	65.2.2.3 State Diagrams 65.2.3 Forward error correction
353	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
354	65.2.3.3 FEC sublayer operation 65.2.3.3.1 Principles of operation
355	65.2.3.3.2 Functional block diagram 65.2.3.3.3 Transmission
356	65.2.3.3.4 Reception
357	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
358	65.2.3.4.4 Variables
360	65.2.3.4.5 Functions
361	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
363	65.2.3.5.2 Receive synchronization state diagram
364	65.2.3.5.3 Receive state diagram
365	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
366	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
367	65.3.3 Delay variation requirements
368	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
369	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
370	65.4.4.3 Preamble mapping and replacement 65.4.4.4 Data detection 65.4.4.5 FEC requirements
371	65.4.4.6 FEC State diagrams 65.4.4.7 PMA 65.4.4.8 OLT Receiver 65.4.4.9 Delay variation
373	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
374	66.1.2.3 Far-end fault generate
375	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
376	66.2.2.1 Variables 66.2.2.2 Transmit 66.2.2.3 Transmit state diagram
377	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
378	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
380	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
381	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
382	66.5.4.3 Extensions of the 1000BASE-X PHY 66.5.4.4 Extensions of the 10 Gb/s P2P RS
383	66.5.4.5 Extensions of the 10 Gb/s P2MP RS
385	67. System considerations for Ethernet subscriber access networks 67.1 Overview
386	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
387	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
388	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
389	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
390	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
391	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
392	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
393	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)
396	68.6.5 Transmitter optical waveform—transmitter eye mask 68.6.5.1 Transmitter eye mask acceptable hit count examples (informative)
397	68.6.6 Transmitter waveform and dispersion penalty (TWDP)
398	68.6.6.1 TWDP measurement procedure
400	68.6.6.2 TWDP signal processing algorithm,
402	68.6.7 Transmitter signal to noise ratio
403	68.6.8 Transmitter uncorrelated jitter
404	68.6.9 Comprehensive stressed receiver sensitivity and overload 68.6.9.1 Comprehensive stressed receiver sensitivity and overload test block diagram
405	68.6.9.2 Comprehensive stressed receiver test signal characteristics
406	68.6.9.3 Comprehensive stressed receiver test signal calibration 68.6.9.4 Comprehensive stressed receiver test procedure
409	68.6.10 Simple stressed receiver sensitivity and overload (informative) 68.6.11 Receiver jitter tolerance
410	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)
411	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
412	68.9.3 Single-mode fiber offset-launch mode-conditioning patch cord
413	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
414	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
415	68.10.3.2 Management functions 68.10.3.3 PMD to MDI optical specifications
416	68.10.3.4 Definitions of optical parameters and measurement methods 68.10.3.5 Safety, installation, environment, and labeling
417	68.10.3.6 Characteristics of the fiber optic cabling (channel)
419	69. Introduction to Ethernet operation over electrical backplanes 69.1 Overview 69.1.1 Scope 69.1.2 Objectives
420	69.1.3 Relationship of Backplane Ethernet to the ISO OSI reference model
421	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
422	69.2.4 Auto-Negotiation 69.2.5 Management 69.2.6 Low-Power Idle 69.3 Delay constraints
423	69.4 State diagrams
424	69.5 Protocol implementation conformance statement (PICS) proforma
425	70. Physical Medium Dependent sublayer and baseband medium, type 1000BASE-KX 70.1 Overview 70.2 Physical Medium Dependent (PMD) service interface
426	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
427	70.5 PMD MDIO function mapping 70.6 PMD functional specifications 70.6.1 Link block diagram
428	70.6.2 PMD transmit function 70.6.3 PMD receive function 70.6.4 PMD signal detect function
429	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
430	70.7 1000BASE-KX electrical characteristics 70.7.1 Transmitter characteristics
431	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
432	70.7.1.5 Output amplitude
433	70.7.1.6 Differential output return loss 70.7.1.7 Transition time
434	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
435	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
436	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
437	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
438	70.10.3 Major capabilities/options
439	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
440	70.10.4.2 Management functions 70.10.4.3 Transmitter electrical characteristics
441	70.10.4.4 Receiver electrical characteristics 70.10.4.5 Environmental and safety specifications
443	71. Physical Medium Dependent sublayer and baseband medium, type 10GBASE-KX4 71.1 Overview 71.2 Physical Medium Dependent (PMD) service interface
444	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
445	71.4 Delay constraints 71.5 PMD MDIO function mapping 71.6 PMD functional specifications 71.6.1 Link block diagram
446	71.6.2 PMD Transmit function
447	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
448	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
449	71.7 Electrical characteristics for 10GBASE-KX4 71.7.1 Transmitter characteristics
450	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
451	71.7.1.5 Output return loss
452	71.7.1.6 Differential output template
454	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
455	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
456	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
457	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
458	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
459	71.10.4.2 PMD functional specifications
461	71.10.4.3 Management functions
462	71.10.4.4 Transmitter electrical characteristics
463	71.10.4.5 Receiver electrical characteristics 71.10.4.6 Environmental and safety specifications
465	72. Physical Medium Dependent sublayer and baseband medium, type 10GBASE-KR 72.1 Overview 72.2 Physical Medium Dependent (PMD) service interface
466	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
467	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
468	72.6.2 PMD transmit function 72.6.3 PMD receive function
469	72.6.4 PMD signal detect function 72.6.5 PMD transmit disable function 72.6.6 Loopback mode
470	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
471	72.6.10.2.1 Frame marker 72.6.10.2.2 Control channel encoding 72.6.10.2.3 Coefficient update field
472	72.6.10.2.3.1 Preset 72.6.10.2.3.2 Initialize
473	72.6.10.2.3.3 Coefficient (k) update
474	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
475	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
478	72.6.10.3.2 Timers 72.6.10.3.3 Counters 72.6.10.3.4 Functions
479	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
482	72.6.11 PMD LPI function
483	72.7 10GBASE-KR electrical characteristics 72.7.1 Transmitter characteristics 72.7.1.1 Test fixture
484	72.7.1.2 Test fixture impedance 72.7.1.3 Signaling speed 72.7.1.4 Output amplitude
485	72.7.1.5 Differential output return loss
486	72.7.1.6 Common-mode output return loss
487	72.7.1.7 Transition time 72.7.1.8 Transmit jitter test requirements 72.7.1.9 Transmit jitter
488	72.7.1.10 Transmitter output waveform
489	72.7.1.11 Transmitter output waveform requirements
491	72.7.2 Receiver characteristics
492	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
493	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
494	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
495	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
496	72.10.4.2 PMD functional specifications 72.10.4.3 Management functions
497	72.10.4.4 PMD Control functions
499	72.10.4.5 Transmitter electrical characteristics
501	72.10.4.6 Receiver electrical characteristics 72.10.4.7 Environmental specifications
503	73. Auto-Negotiation for backplane and copper cable assembly 73.1 Auto-Negotiation introduction
504	73.2 Relationship to the ISO/IEC Open Systems Interconnection (OSI) reference model 73.3 Functional specifications
505	73.4 Transmit function requirements 73.5 DME transmission 73.5.1 DME electrical specifications 73.5.2 DME page encoding
506	73.5.3 DME page timing
507	73.5.3.1 Manchester violation delimiter 73.6 Link codeword encoding
508	73.6.1 Selector Field 73.6.2 Echoed Nonce Field 73.6.3 Transmitted Nonce Field
509	73.6.4 Technology Ability Field 73.6.5 FEC capability
510	73.6.6 Pause Ability 73.6.7 Remote Fault 73.6.8 Acknowledge 73.6.9 Next Page
511	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
512	73.7.4.1 Parallel Detection function 73.7.5 Renegotiation function 73.7.6 Priority Resolution function
513	73.7.7 Next Page function
514	73.7.7.1 Next page encodings
515	73.7.7.1.1 Use of Next Pages 73.8 Management register requirements
516	73.9 Technology-Dependent interface 73.9.1 AN_LINK.indication 73.9.1.1 Semantics of the service primitive
517	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
524	73.10.2 State diagram timers
526	73.10.3 State diagram counters
527	73.10.4 .State diagrams
530	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
531	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
532	73.11.4.2 DME transmission
533	73.11.4.3 Link codeword encoding
534	73.11.4.4 Receive function requirements
535	73.11.4.5 Next Page function 73.11.4.6 Management register requirements
536	73.11.4.7 State diagrams and variable definitions 73.11.4.8 Service primitives
537	73.11.4.9 Auto-Negotiation annexes
539	74. Forward Error Correction (FEC) sublayer for BASE-R PHYs 74.1 Overview 74.2 Objectives 74.3 Relationship to other sublayers
540	74.4 Inter-sublayer interfaces
541	74.4.1 Functional Block Diagram for 10GBASE-R PHYs
542	74.4.2 Functional block diagram for 40GBASE-R PHYs 74.4.3 Functional block diagram for 100GBASE-R PHYs
543	74.5 FEC service interface
544	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
545	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
546	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
547	74.5.2 40GBASE-R and 100GBASE-R service primitives 74.6 Delay constraints 74.7 FEC principle of operation
548	74.7.1 FEC code 74.7.2 FEC block format
549	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
550	74.7.4.1.2 Reverse gearbox function for 40GBASE-R and 100GBASE-R 74.7.4.2 FEC Encoder
551	74.7.4.3 FEC transmission bit ordering 74.7.4.4 FEC (2112,2080) encoder
552	74.7.4.4.1 PN-2112 pseudo-noise sequence generator
553	74.7.4.5 FEC decoder
554	74.7.4.5.1 FEC (2112,2080) decoding
555	74.7.4.6 FEC receive bit ordering 74.7.4.7 FEC block synchronization
556	74.7.4.8 FEC rapid block synchronization for EEE (optional) 74.8 FEC MDIO function mapping 74.8.1 FEC capability
557	74.8.2 FEC Enable 74.8.3 FEC Enable Error Indication 74.8.3.1 FEC Error Indication ability
558	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
559	74.10.2 State variables 74.10.2.1 Constants 74.10.2.2 Variables 74.10.2.3 Functions
560	74.10.2.4 Counters 74.10.3 State diagrams
562	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
563	74.11.3 Major capabilities/options
564	74.11.4 Management
565	74.11.5 FEC Requirements
566	74.11.6 FEC Error Monitoring
567	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
568	75.1.4 Power budgets
569	75.1.5 Positioning of PMD sublayer within the IEEE 802.3 architecture 75.2 PMD types
572	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)
573	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
574	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
575	75.3.3 PMD transmit function 75.3.4 PMD receive function
576	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
577	75.4 PMD to MDI optical specifications for 10/10G–EPON and 10/1G–EPON OLT PMDs 75.4.1 Transmitter optical specifications
578	75.4.2 Receiver optical specifications
580	75.5 PMD to MDI optical specifications for 10/10G–EPON and 10/1G–EPON ONU PMDs
581	75.5.1 Transmitter optical specifications
582	75.5.2 Receiver optical specifications
585	75.6 Dual-rate (coexistence) mode
586	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
587	75.7.4 Wavelength and spectral width measurement 75.7.5 Optical power measurements 75.7.6 Extinction ratio measurements
588	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)
589	75.7.10 Transmitter and dispersion penalty (TDP) 75.7.11 Receive sensitivity 75.7.12 Stressed receiver conformance test
590	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
591	75.7.15.2 Test specification
592	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
593	75.9 Characteristics of the fiber optic cabling 75.9.1 Fiber optic cabling model 75.9.2 Optical fiber and cable
594	75.9.3 Optical fiber connection 75.9.4 Medium Dependent Interface (MDI)
595	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
596	75.10.3 Major capabilities/options
597	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
598	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
599	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
600	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
601	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
602	75.10.4.14 Characteristics of the fiber optic cabling and MDI 75.10.4.15 Environmental specifications
603	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
606	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
607	76.2.2.4 Mapping of XGMII and GMII primitives
608	76.2.3 Summary of major concepts 76.2.3.1 Application 76.2.4 GMII structure 76.2.5 XGMII structure
609	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
610	76.2.6.1.3 RS Receive function 76.2.6.1.3.1 SLD 76.2.6.1.3.2 LLID
611	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
612	76.3.1.2 10GBASE-PR PCS 76.3.2 PCS transmit function
613	76.3.2.1 Idle control character deletion 76.3.2.1.1 Constants
614	76.3.2.1.2 Variables
615	76.3.2.1.3 Functions 76.3.2.1.4 Counters 76.3.2.1.5 State diagrams
617	76.3.2.2 64B/66B Encode
618	76.3.2.3 Scrambler 76.3.2.4 FEC encoding 76.3.2.4.1 FEC Algorithm [RS(255,223)]
620	76.3.2.4.2 Parity calculation
622	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)
624	76.3.2.5.2 Constants
625	76.3.2.5.3 Variables
626	76.3.2.5.4 Functions 76.3.2.5.5 Messages 76.3.2.5.6 Counters
627	76.3.2.5.7 State diagrams 76.3.2.6 Gearbox
630	76.3.3 PCS receive Function 76.3.3.1 OLT synchronizer 76.3.3.1.1 Variables
631	76.3.3.1.2 Counters 76.3.3.1.3 Functions
633	76.3.3.1.4 State diagram 76.3.3.2 ONU Synchronizer
635	76.3.3.2.1 Constants 76.3.3.2.2 Variables
636	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
638	76.3.3.3.1 Variables 76.3.3.3.2 Counters
639	76.3.3.3.3 Functions 76.3.3.3.4 State diagrams 76.3.3.4 BER monitor
640	76.3.3.4.1 Variables
641	76.3.3.4.2 Timers 76.3.3.4.3 Counters 76.3.3.4.4 State diagrams
642	76.3.3.5 Descrambler 76.3.3.6 66B/64B Decode
643	76.3.3.7 Idle Insertion 76.3.3.7.1 Constants 76.3.3.7.2 Variables
644	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
646	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
647	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
648	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
649	76.5.4.2 ONU and OLT variables 76.5.4.3 Preamble mapping and replacement
650	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
651	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
653	77. Multipoint MAC Control for 10G–EPON 77.1 Overview
654	77.1.1 Goals and objectives 77.1.2 Position of Multipoint MAC Control within the IEEE 802.3 hierarchy
658	77.1.3 Functional block diagram
659	77.1.4 Service interfaces 77.1.5 State diagram conventions 77.2 Multipoint MAC Control operation
660	77.2.1 Principles of Multipoint MAC Control
661	77.2.1.1 Ranging and timing process
662	77.2.2 Multipoint transmission control, Control Parser, and Control Multiplexer
664	77.2.2.1 Constants
665	77.2.2.2 Counters 77.2.2.3 Variables
668	77.2.2.4 Functions
669	77.2.2.5 Timers 77.2.2.6 Messages 77.2.2.7 State diagrams
675	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
676	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
680	77.3.3.1 Constants 77.3.3.2 Variables
682	77.3.3.3 Functions 77.3.3.4 Timers 77.3.3.5 Messages
685	77.3.3.6 State Diagrams
690	77.3.4 Report Processing 77.3.4.1 Constants 77.3.4.2 Variables
691	77.3.4.3 Functions 77.3.4.4 Timers 77.3.4.5 Messages
692	77.3.4.6 State diagrams
693	77.3.5 Gate Processing
694	77.3.5.1 Constants
695	77.3.5.2 Variables
697	77.3.5.3 Functions
698	77.3.5.4 Timers 77.3.5.5 Messages
699	77.3.5.6 State diagrams
702	77.3.6 MPCPDU structure and encoding
703	77.3.6.1 GATE description
705	77.3.6.2 REPORT description
708	77.3.6.3 REGISTER_REQ description
709	77.3.6.4 REGISTER description
711	77.3.6.5 REGISTER_ACK description 77.4 Discovery Process in dual-rate systems 77.4.1 OLT speed-specific discovery
712	77.4.2 ONU speed-specific registration
715	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
716	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
717	77.5.4.3 State diagrams
718	77.5.4.4 MPCP
719	Annex 57A (normative) Requirements for support of Slow Protocols 57A.1 Introduction and rationale 57A.2 Slow Protocol transmission characteristics 57A.3 Addressing
720	57A.4 Protocol identification
721	57A.5 Handling of Slow Protocol frames
722	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
723	57A.6.2.3 Transmission characteristics 57A.6.2.4 Frame handling
724	Annex 57B (normative) Organization specific slow protocol (OSSP) 57B.1 Transmission and representation of octets 57B.1.1 OSSPDU frame structure
726	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
727	57B.2.2.3 OSSPDU structure
729	Annex 58A (informative) Frame-based testing
731	Annex 61A (informative) EFM Copper examples 61A.1 Purpose and scope 61A.2 Aggregation Discovery example
735	61A.3 Example of 64/65-octet encapsulation
739	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
741	61B.3.2 Level-3 S field codepoints for 2BASE-TL 61B.3.2.1 Training parameter codepoints
751	61B.3.2.2 PMMS parameter codepoints
758	61B.3.2.3 Framing parameter codepoints
759	61B.4 Codepoints for 10PASS-TS 61B.4.1 Level-2 S field codepoints for 10PASS-TS
760	61B.4.2 Level-3 S field codepoints for 10PASS-TS 61B.4.2.1 Used bands in upstream codepoints
761	61B.4.2.2 Used bands in downstream codepoints
762	61B.4.2.3 IDFT/DFT size codepoints 61B.4.2.4 Initial length of CE codepoints
763	61B.4.2.5 MCM RFI band codepoints
765	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
766	61B.5.4 2BASE-TL handshake coding rules
767	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
769	62A.3.2 Bandplan definitions 62A.3.3 PSD mask definitions 62A.3.4 UPBO Reference PSD Profiles
770	62A.3.5 Band Notch Profiles
772	62A.3.6 Payload rate profiles 62A.3.7 Complete profiles 62A.3.8 Default profile
773	62A.4 Register settings
775	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
779	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
781	62B.3.1 Additional tests 62B.4 Deployment guidelines
782	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
783	62B.5.3 Major capabilities/options 62B.5.4 PICS proforma tables for Performance guidelines for 10PASS-TS PMD profiles
785	Annex 62C (informative) 10PASS-TS Examples 62C.1 Introduction 62C.2 Bandplan configuration
788	62C.2.1 Plan A with variable LF region
789	62C.3 PSD mask configuration 62C.3.1 General procedure 62C.3.2 PSD Masks for Plan A with variable LF region
791	Annex 63A (normative) PMD Profiles for 2BASE-TL 63A.1 Introduction and rationale 63A.2 Relationship to other clauses 63A.3 Profile definitions
792	63A.4 Register settings
793	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
794	63A.5.3 Major capabilities/options 63A.5.4 PICS proforma tables for Performance guidelines for 2BASE-TL PMD profiles
795	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.
797	63B.4 Deployment Guidelines
798	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
799	63B.5.3 Major capabilities/options 63B.5.4 PICS proforma tables for Performance guidelines for 2BASE-TL PMD profiles
801	Annex 67A (informative) Environmental characteristics for Ethernet subscriber access networks 67A.1 Introduction 67A.1.1 Terminal deployment scenarios
802	67A.2 Temperature
804	67A.3 Temperature impact on optical components 67A.3.1 Component case temperature recommendations
807	Annex 69A (normative) Interference tolerance testing 69A.1 Introduction 69A.2 Test setup
808	69A.2.1 Pattern generator 69A.2.2 Test channel
809	69A.2.3 Interference generator 69A.2.4 Transmitter control 69A.3 Test methodology
811	Annex 69B (informative) Interconnect characteristics 69B.1 Overview 69B.2 Reference model 69B.3 Characteristic impedance
812	69B.4 Channel parameters 69B.4.1 Overview 69B.4.2 Fitted attenuation
813	69B.4.3 Insertion loss
816	69B.4.4 Insertion loss deviation 69B.4.5 Return loss
817	69B.4.6 Crosstalk 69B.4.6.1 Power sum differential near-end crosstalk (PSNEXT)
818	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)
821	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
822	73A.3 Message code 6—AN device identifier tag code 73A.4 Message code 10—EEE technology message code
825	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
826	74A.3 Output of the FEC (2112,2080) Encoder after scrambling with PN-2112 sequence
827	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)
829	Annex 75A (informative) Dual-rate receiver implementation 75A.1 Overview
833	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
835	75B.2.2 Upstream wavelength allocation
837	Annex 75C (informative) Jitter at TP1–TP8 for PR10, PR20, PR30, PRX10, PRX20, PRX30 75C.1 Overview
839	Annex 76A (informative) FEC Encoding example 76A.1 Introduction and rationale 76A.2 64B/66B block input
841	76A.3 66 bit block input in binary format 76A.4 RS(255,223) input buffer in Binary Format
842	76A.5 RS(255,223) input buffer
843	76A.6 Parity symbol output 76A.7 Parity symbols in binary format
844	76A.8 64B/66B Parity Blocks for Transmit 76A.9 Parity 66 bit blocks in binary format

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Standard Title	IEEE Standard for Ethernet
Published Code	IEEE
Publication Date	2012

IEEE 802.3-2012

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