IEEE/ISO/IEC 8802 3:2017/Amd6 2018
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ISO/IEC/IEEE International Standard – Information technology – Telecommunications and information exchange between systems – Local and metropolitan area networks – Specific requirements – Part 3: Standard for Ethernet AMENDMENT 6: Physical layer specifications and management parameters for ethernet passive optical networks protocol over coax
| Published By | Publication Date | Number of Pages |
| IEEE | 2018 | 344 |
– Active. Physical Layer specifications and management parameters for the operation of Ethernet Passive Optical Networks (EPON) Protocol over coaxial media is defined by this amendment to IEEE Std 802.3-2015.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 4 | Blank Page |
| 5 | Title page |
| 7 | Important Notices and Disclaimers Concerning IEEE Standards Documents |
| 10 | Participants |
| 13 | Introduction |
| 15 | Acknowledgments |
| 16 | Contents |
| 29 | 1. Introduction 1.2 Notation 1.2.7 Qm.n number format 1.3 Normative references 1.4 Definitions |
| 30 | 1.5 Abbreviations |
| 32 | 30. Management 30.3 Layer management for DTEs 30.3.2 PHY device managed object class 30.3.2.1 PHY device attributes 30.3.2.1.2 aPhyType 30.3.2.1.3 aPhyTypeList 30.3.5 MPCP managed object class 30.3.5.1 MPCP Aattributes 30.3.5.1.2 aMPCPAdminState |
| 33 | 30.3.5.1.3 aMPCPMode 30.5 Layer management for medium attachment units (MAUs) 30.5.1 MAU managed object class 30.5.1.1 MAU attributes 30.5.1.1.2 aMAUType |
| 34 | 45. Management Data Input/Output (MDIO) Interface 45.2 MDIO Interface Registers 45.2.1 PMA/PMD registers |
| 36 | 45.2.1.4 PMA/PMD speed ability (Register 1.4) 45.2.1.4.b 10GPASS-XR capable (1.4.10) |
| 37 | 45.2.1.6 PMA/PMD control 2 register (Register 1.7) 45.2.1.14aa EPoC PMA/PMD ability register (Register 1.17) 45.2.1.14aa.1 10GPASS-XR-D ability (1.17.1) 45.2.1.14aa.2 10GPASS-XR-U ability (1.17.0) |
| 38 | 45.2.1.130a 10GPASS-XR control and status register (Register 1.1900) 45.2.1.130a.1 Time sync capable (1.1900:13) 45.2.1.130a.2 US rate mismatch (1.1900:12) |
| 39 | 45.2.1.130a.3 DS rate mismatch (1.1900:11) 45.2.1.130a.4 Link up ready (1.1900:10) 45.2.1.130a.5 Continuous pilot scaling factor (1.1900.9:3) 45.2.1.130a.6 CRC40 errored blocks (1.1900.2) 45.2.1.130a.7 PHY Discovery complete (1.1900.1) 45.2.1.130a.8 PHY Discovery enable (1.1900.0) 45.2.1.130b DS OFDM control register (Register 1.1901) |
| 40 | 45.2.1.130b.1 CLT tx mute (1.1901.15) 45.2.1.130b.2 DS OFDM channels (1.1901.14:12) 45.2.1.130b.3 DS time interleaving (1.1901.11:7) 45.2.1.130b.4 DS windowing (1.1901.6:4) 45.2.1.130b.5 DS cyclic prefix (1.1901.3:0) 45.2.1.130c DS OFDM channel frequency control register 1 through 5 (Register 1.1902 through 1.1906) |
| 41 | 45.2.1.130c.1 DS OFDM freq ch 1 (1.1902.15:0) 45.2.1.130c.2 DS OFDM freq ch 2 (1.1903.15:0) 45.2.1.130c.3 DS OFDM freq ch 3 (1.1904.15:0) 45.2.1.130c.4 DS OFDM freq ch 4 (1.1905.15:0) 45.2.1.130c.5 DS OFDM freq ch 5 (1.1906.15:0) |
| 42 | 45.2.1.130d US OFDM control register (Register 1.1907) 45.2.1.130d.1 Random seed (1.1907.15:8) 45.2.1.130d.2 Resource Block size (1.1907.7) 45.2.1.130d.3 US windowing (1.1907.6:4) 45.2.1.130d.4 US cyclic prefix (1.1907.3:0) 45.2.1.130e US OFDM channel frequency control register (Register 1.1908) |
| 43 | 45.2.1.130f US OFDMA pilot pattern register (Register 1.1909) 45.2.1.130f.1 Type 2 repeat (1.1909.14:12) 45.2.1.130f.2 Type 2 start (1.1909.11:8) 45.2.1.130f.3 Type 1 repeat (1.1909.6:4) 45.2.1.130f.4 Type 1 start (1.1909.3:0) |
| 44 | 45.2.1.130g Profile control register (Register 1.1910) 45.2.1.130g.1 US copy in process (1.1910.11) 45.2.1.130g.2 US profile copy (1.1910.10) 45.2.1.130g.3 US configuration ID (1.1910.9:8) |
| 45 | 45.2.1.130g.4 DS copy channel ID (1.1910.6:4) 45.2.1.130g.5 DS copy in process (1.1910.3) 45.2.1.130g.6 DS profile copy (1.1910.2) 45.2.1.130g.7 DS configuration ID (1.1910.1:0) 45.2.1.130h DS PHY Link control register (Register 1.1911) 45.2.1.130h.1 DS PHY Link start (1.1911.11:0) 45.2.1.130i US PHY Link control register (Register 1.1912) 45.2.1.130i.1 US PHY Link modulation (1.1912.15:12) |
| 46 | 45.2.1.130i.2 US PHY Link start (1.1912.11:0) 45.2.1.130j PHY Discovery control registers (Registers 1.1913 and 1.1914) |
| 47 | 45.2.1.130k New CNU control register (Register 1.1915) 45.2.1.130k.1 CNU_ID assigned flag 1 (1.1915.15) 45.2.1.130k.2 Allowed CNU_ID (1.1915.14:0) 45.2.1.130l New CNU info registers 1 through 5 (Registers 1.1916 through 1.1920) |
| 48 | 45.2.1.130l.1 New CNU range (1.1916.15:0) 45.2.1.130l.2 New CNU MAC 0 through 2 (1.1917.15:0 through 1.1919.15:0) 45.2.1.130m DS PHY Link frame counter (Register 1.1921) 45.2.1.130n PMA/PMD timing offset register (Registers 1.1922 and 1.1923) |
| 49 | 45.2.1.130o PMA/PMD power offset register (Register 1.1924) 45.2.1.130o.1 PMA/PMD power offset (1.1924.7:0) 45.2.1.130p PMA/PMD ranging offset registers (Registers 1.1925 and 1.1926) 45.2.1.130q DS PMA/PMD data rate registers (Registers 1.1927, 1.1928 and 1.1929) 45.2.1.130r US PMA/PMD data rate registers (Registers 1.1930, 1.1931 and 1.1932) |
| 50 | 45.2.1.130s 10GPASS-XR FEC codeword counter (Registers 1.1933, 1.1934) |
| 51 | 45.2.1.130t 10GPASS-XR FEC codeword success counter (Registers 1.1935 and 1.1936) 45.2.1.130u 10GPASS-XR FEC codeword fail counter (Registers 1.1937 and 1.1938) 45.2.1.130v PHY Link EPFH counter (Register 1.1939) |
| 52 | 45.2.1.130w PHY Link EPFH error counter (Register 1.1940) 45.2.1.130x PHY Link EPCH counter (Register 1.1941) 45.2.1.130y PHY Link EPCH error counter (Register 1.1942) 45.2.1.130z PHY Link EMB counter (Register 1.1943) |
| 53 | 45.2.1.130z1 PHY Link EMB error counter (Register 1.1944) 45.2.1.130z2 PHY Link FPMB counter (Register 1.1945) |
| 54 | 45.2.1.130z3 PHY Link FPMB error counter (Register 1.1946) 45.2.1.130z4 US PHY Link response time register (Register 1.1947) 45.2.1.130z5 10GPASS-XR modulation ability register (Register 1.1948) |
| 55 | 45.2.1.130z5.1 US modulation ability (1.1948.9:8) 45.2.1.130z5.2 DS OFDM channel ability (1.1948.7:5) 45.2.1.130z5.3 DS modulation ability (1.1948.4:0) 45.2.1.130z6 PHY Discovery Response power control register (Register 1.1949) 45.2.1.130z6.1 PHY Discovery Response power step (1.1949.15:8) 45.2.1.130z6.2 PHY Discover Response initial power (1.1949.7:0) 45.2.1.130z7 US target receive power register (Register 1.1950) |
| 56 | 45.2.1.130z8 DS transmit power registers (Registers 1.1951 through 1.1955) 45.2.1.130z8.1 DS transmit power Ch1 (1.1951.8:0) 45.2.1.130z8.2 DS transmit power Ch2 (1.1952.8:0) |
| 57 | 45.2.1.130z8.3 DS transmit power Ch3 (1.1953.8:0) 45.2.1.130z8.4 DS transmit power Ch4 (1.1954.8:0) 45.2.1.130z8.5 DS transmit power Ch5 (1.1955.8:0) 45.2.1.130z9 US receive power measurement registers (1.1956 through 1.1957) 45.2.1.130z9.1 US receive power valid (1.1956.15) 45.2.1.130z9.2 US receive power measurement (1.1956.8:0) |
| 58 | 45.2.1.130z9.3 US receive power CNU (1.1957.14:0) 45.2.1.130z10 Reported power register (1.1958) 45.2.1.130z10.1 Reported power (1.1958.8:0) 45.2.7a OFDM PMA/PMD registers |
| 59 | 45.2.7a.1 10GPASS-XR DS OFDM channel ID register (Register 12.0) 45.2.7a.1.1 DS OFDM channel ID (12.0.2:0) 45.2.7a.2 10GPASS-XR DS profile descriptor control 1 through 1023 (Registers 12.1 through 12.1023) |
| 60 | 45.2.7a.2.1 DS modulation type SC7 (12.1.15:12) 45.2.7a.2.2 DS modulation type SC6 (12.1.11:8) 45.2.7a.2.3 DS modulation type SC5 (12.1.7:4) 45.2.7a.2.4 DS modulation type SC4 (12.1.3:0) 45.2.7a.3 10GPASS-XR US profile descriptor control 0 through 1023 registers (Registers 12.1024 through 12.2047) |
| 61 | 45.2.7a.3.1 US modulation type SC3 (12.1024.15:12) 45.2.7a.3.2 US modulation type SC2 (12.1024.11:8) 45.2.7a.3.3 US modulation type SC1 (12.1024.7:4) 45.2.7a.3.4 US modulation type SC0 (12.1024.3:0) 45.2.7a.4 10GPASS-XR US pre-equalizer coefficients 0 through 4095 (Registers 12.2048 through 12.10239) |
| 62 | 45.2.7a.4.1 Real pre-equalizer coefficient SC0 (12.2048.15:0) 45.2.7a.4.2 Imaginary pre-equalizer coefficient SC0 (12.2049.15:0) 45.2.7a.5 10GPASS-XR receive MER control registers (Registers 12.10240 and 12.10241) 45.2.7a.5.1 MER measurement valid (12.10240.3) 45.2.7a.5.2 Receive MER Channel ID (12.10240.2:0) 45.2.7a.5.3 Receive MER CNU ID (12.10241.14:0) |
| 63 | 45.2.7a.6 10GPASS-XR receive MER measurement registers (Registers 12.10242 through 12.12287) 45.2.7a.6.1 Receive MER SC5 (12.10242.15:8) 45.2.7a.6.2 Receive MER SC4 (12.10242.7:0) |
| 64 | 45.5 Protocol implementation conformance statement (PICS) proforma for Clause 45, Management Data Input/Output (MDIO) Interface 45.5.3 Major capabilities/options 45.5.3.2 PMA/PMD MMD options 45.5.3.13a OFDM management functions |
| 66 | 56. Introduction to Ethernet for subscriber access networks 56.1 Overview 56.1.2 Summary of P2MP sublayers 56.1.2.1 Multipoint MAC Control Protocol (MPCP) |
| 67 | 56.1.2.2 Reconciliation Sublayer (RS) and media independent interfaces 56.1.3 Physical Layer signaling systems |
| 69 | 56.1.5 Unidirectional transmission |
| 71 | 67. System considerations for Ethernet subscriber access networks 67.1 Overview 67.2 Discussion and examples of EFM P2MP topologies 67.2.1 Trade off between link span and split ratio for P2MP PON architecture |
| 72 | 67.2.2 Single splitter topology for P2MP PON architecture 67.2.3 Tree-and-branch topology for P2MP PON architecture 67.6 Operations, Administration, and Maintenance 67.6.1 Unidirectional links 67.6.3 Link status signaling in P2MP networks |
| 73 | 76. Reconciliation Sublayer, Physical Coding Sublayer, and Physical Media Attachment for 10G-EPON 76.2 Reconciliation Sublayer (RS) for 10G-EPON 76.2.6 Mapping of XGMII and GMII signals to PLS service primitives 76.2.6.1 Functional specifications for multiple MACs 76.2.6.1.3 RS Receive function |
| 74 | 100. Physical Medium Dependent (PMD) sublayer, and medium for coaxial distribution networks, type 10GPASS-XR 100.1 Overview 100.1.1 Terminology and conventions 100.1.2 Positioning of the PMD sublayer within the IEEE 802.3 architecture 100.1.3 PMD types 100.1.4 Mapping of PMD variables |
| 78 | 100.2 PMD functional specification 100.2.1 PMD service interface |
| 79 | 100.2.1.1 PMD_UNITDATA.request 100.2.1.2 PMD_UNITDATA.indication 100.2.1.3 PMD_SIGNAL.request 100.2.2 Delay constraints |
| 80 | 100.2.3 PMD transmit function 100.2.4 PMD receive function 100.2.5 PMD transmit enable function 100.3 PMD operational requirements 100.3.1 CLT and CNU modulation formats |
| 81 | 100.3.2 Data rates 100.3.2.1 Downstream PHY data rate |
| 82 | 100.3.2.2 Upstream PHY data rate |
| 83 | 100.3.2.3 PHY Link managed variables |
| 84 | 100.3.3 CLT transmitter requirements 100.3.3.1 OFDM channel power definitions |
| 85 | 100.3.3.2 CLT output electrical requirements |
| 87 | 100.3.3.2.1 PHY Link managed variables 100.3.3.3 Phase noise requirements 100.3.3.4 Power per OFDM channel for CLT |
| 88 | 100.3.3.5 Out-of-band noise and spurious requirements for the CLT |
| 92 | 100.3.3.6 CLT transmitter output requirements 100.3.4 CNU transmitter requirements 100.3.4.1 Burst timing convention 100.3.4.2 Transmit power requirements |
| 93 | 100.3.4.3 OFDMA transmit power calculations |
| 94 | 100.3.4.3.1 PHY Link managed variables 100.3.4.4 OFDMA fidelity requirements 100.3.4.4.1 Spurious emissions |
| 96 | 100.3.4.4.2 Spurious emissions in the upstream frequency range |
| 98 | 100.3.4.4.3 Adjacent channel spurious emissions |
| 99 | 100.3.4.4.4 Spurious emissions during burst on/off transients 100.3.4.5 Transmit MER requirements |
| 100 | 100.3.4.5.1 Definitions |
| 101 | 100.3.4.5.2 Requirements 100.3.4.6 CNU Transmitter output requirements |
| 102 | 100.3.4.7 CNU RF power amplifier requirements |
| 103 | 100.3.5 CLT receiver requirements 100.3.5.1 CLT receiver input power requirements |
| 104 | 100.3.5.1.1 PHY Link managed variables 100.3.5.2 CLT receiver error performance in AWGN channel |
| 105 | 100.3.5.3 CLT upstream receive modulation error ratio requirements 100.3.5.3.1 PHY Link managed variables |
| 106 | 100.3.6 CNU receiver requirements 100.3.6.1 Input signal characteristics at CNU receiver 100.3.6.2 CNU error performance in AWGN channel |
| 107 | 100.3.6.3 Receive modulation error ratio requirements |
| 109 | 100.3.7 Channel band rules 100.3.7.1 Downstream channel bandwidth rules 100.3.7.2 Downstream exclusion band rules |
| 110 | 100.3.7.3 Upstream channel bandwidth rules 100.3.7.4 Upstream exclusions and unused subcarriers rules 100.4 Test requirements and measurement methods 100.4.1 CLT RF output muting requirement |
| 111 | 100.4.2 CNU receive modulation error ratio testing 100.4.3 Upstream channel power |
| 112 | 100.4.3.1 PHY Link managed variables 100.4.4 Guidelines for verifying compliance with downstream phase noise requirements |
| 113 | 100.4.4.1 Test mode 1 100.4.4.2 Test mode 2 |
| 114 | 100.5 Environmental, safety, and labeling 100.5.1 General safety 100.5.2 Installation 100.5.3 Environment 100.5.4 PMD labeling 100.5.4.1 Frequency plan 100.5.4.1.1 Downstream frequency plan 100.5.4.1.2 Upstream frequency plan 100.6 EEE capability |
| 115 | 100.7 Protocol implementation conformance statement (PICS) proforma for Clause 100, Physical Medium Dependent (PMD) sublayer and medium for coaxial cable distribution networks, type 10GPASS-XR 100.7.1 Identification 100.7.1.1 Implementation identification 100.7.1.2 Protocol summary |
| 116 | 100.7.2 Major capabilities/options |
| 117 | 100.7.3 PICS proforma tables for Physical Medium Dependent (PMD) sublayer for coax cable distribution networks, type 10GPASS-XR 100.7.3.1 PMD functional specifications |
| 120 | 100.7.3.2 Definition of parameters and measurement methods 100.7.3.3 Environmental specifications |
| 121 | 101. Reconciliation Sublayer, Physical Coding Sublayer, and Physical Media Attachment for EPoC 101.1 Overview 101.1.1 Conventions 101.1.2 Constraints for delay through RS, PCS, and PMA 101.1.3 Mapping of PCS, and PMA variables 101.1.4 Functional blocks supporting 10GPASS-XR PCS, PMA, and PMD sublayers |
| 129 | 101.2 Reconciliation Sublayer (RS) for EPoC 101.3 Physical Coding Sublayer (PCS) for EPoC 101.3.1 Overview |
| 131 | 101.3.2 PCS transmit function 101.3.2.1 Idle deletion process 101.3.2.1.1 Constants |
| 132 | 101.3.2.1.2 Variables |
| 133 | 101.3.2.1.3 Counters 101.3.2.1.4 Functions 101.3.2.1.5 State diagrams |
| 135 | 101.3.2.2 64B/66B Encoder |
| 136 | 101.3.2.3 CRC40 101.3.2.4 Low Density Parity Check (LDPC) Forward Error Correction (FEC) codes |
| 137 | 101.3.2.4.1 LDPC matrix definition |
| 138 | 101.3.2.5 FEC Encoder and Data Detector processes 101.3.2.5.1 Data Detector process |
| 140 | 101.3.2.5.2 LDPC encode process 101.3.2.5.3 LDPC codeword transmission order |
| 143 | 101.3.2.5.4 Upstream FEC encoding 101.3.2.5.5 Constants 101.3.2.5.6 Variables |
| 145 | 101.3.2.5.7 Functions |
| 148 | 101.3.2.5.8 State diagrams |
| 150 | 101.3.3 PCS receive function |
| 151 | 101.3.3.1 FEC Decoder 101.3.3.1.1 Upstream FEC decoding 101.3.3.1.2 LDPC decoding process within CNU (downstream) |
| 153 | 101.3.3.1.3 LDPC decoding process within CLT upstream 101.3.3.1.4 Codeword error monitor 101.3.3.1.5 Constants |
| 154 | 101.3.3.1.6 Variables |
| 155 | 101.3.3.1.7 Functions |
| 156 | 101.3.3.1.8 State diagrams |
| 158 | 101.3.3.2 64B/66B Decoder 101.3.3.3 Idle control character insertion process |
| 159 | 101.3.3.3.1 Constants 101.3.3.3.2 Variables |
| 160 | 101.3.3.3.3 Functions 101.3.3.3.4 Messages 101.3.3.3.5 State diagrams |
| 161 | 101.4 10GPASS-XR PMA 101.4.1 Overview |
| 162 | 101.4.2 PMA Service Interface 101.4.2.1 PMA_UNITDATA.request 101.4.2.1.1 Semantics of the service primitive 101.4.2.1.2 When generated |
| 163 | 101.4.2.1.3 Effect of receipt 101.4.2.2 PMA_UNITDATA.indication 101.4.2.2.1 Semantics of the service primitive 101.4.2.2.2 When generated 101.4.2.2.3 Effect of receipt 101.4.3 Downstream PMA transmit function 101.4.3.1 Overview |
| 164 | 101.4.3.2 Time and frequency synchronization |
| 165 | 101.4.3.3 Subcarrier clocking |
| 166 | 101.4.3.4 Subcarrier configuration and bit loading 101.4.3.4.1 Nulled subcarriers 101.4.3.4.2 Continuous pilots 101.4.3.4.3 Bit loaded subcarriers |
| 167 | 101.4.3.4.4 Excluded subcarriers 101.4.3.4.5 PHY Link managed variables |
| 168 | 101.4.3.5 Framing 101.4.3.6 Pilot map |
| 169 | 101.4.3.6.1 Scattered pilots |
| 171 | 101.4.3.6.2 Continuous pilots 101.4.3.6.3 Predefined continuous pilots around the PHY Link 101.4.3.6.4 Continuous pilot placement defined by PHY Link message |
| 173 | 101.4.3.6.5 PHY Link managed variables 101.4.3.7 Scrambler |
| 174 | 101.4.3.8 Symbol mapper 101.4.3.8.1 Introduction |
| 175 | 101.4.3.8.2 Transmitter bit loading for symbol mapping |
| 176 | 101.4.3.8.3 Bit loading |
| 177 | 101.4.3.8.4 FCP calculation |
| 178 | 101.4.3.9 Time and frequency interleaver 101.4.3.9.1 Overview 101.4.3.9.2 Time interleaving |
| 179 | 101.4.3.9.3 Frequency interleaving |
| 182 | 101.4.3.9.4 Interleaving impact on continuous pilots, scattered pilots, PHY Link and excluded spectral region |
| 183 | 101.4.3.9.5 PHY Link managed variables 101.4.3.10 Pilot insertion |
| 184 | 101.4.3.10.1 Pilot boosting 101.4.3.11 Inverse Discrete Fourier Transform (IDFT) 101.4.3.11.1 PHY Link managed variables 101.4.3.12 Cyclic prefix and windowing |
| 188 | 101.4.3.12.1 PHY Link managed variables 101.4.3.13 OFDM channel requirements |
| 189 | 101.4.4 Upstream PMA transmit function 101.4.4.1 Overview 101.4.4.2 Time and frequency synchronization 101.4.4.2.1 OFDM channel frequency accuracy 101.4.4.2.2 OFDM channel timing accuracy 101.4.4.2.3 Modulation timing jitter |
| 190 | 101.4.4.3 Frame timing 101.4.4.3.1 RB Superframe configuration and burst transmission 101.4.4.3.2 OFDMA transmission burst start |
| 191 | 101.4.4.3.3 OFDMA transmission internal to a burst 101.4.4.3.4 OFDMA transmission burst end 101.4.4.3.5 Variables |
| 192 | 101.4.4.3.6 State diagram |
| 193 | 101.4.4.4 Subcarrier configuration and bit loading 101.4.4.4.1 Nulled subcarriers 101.4.4.4.2 Bit loaded subcarriers 101.4.4.4.3 Excluded subcarriers 101.4.4.4.4 PHY Link managed variables |
| 194 | 101.4.4.5 Upstream symbol mapper 101.4.4.5.1 Variables |
| 197 | 101.4.4.5.2 Functions |
| 198 | 101.4.4.5.3 State diagrams |
| 201 | 101.4.4.5.4 Minimum gap time and burst marker overhead 101.4.4.6 Pilot patterns |
| 202 | 101.4.4.6.1 variables 101.4.4.7 Staging and pilot insertion 101.4.4.7.1 Staging |
| 203 | 101.4.4.7.2 Pilot insertion 101.4.4.8 Burst markers 101.4.4.8.1 Introduction 101.4.4.8.2 Burst marker start and stop sequences |
| 205 | 101.4.4.8.3 Burst marker B element encoding |
| 208 | 101.4.4.9 Pre-equalization and Inverse Discrete Fourier Transform (IDFT) 101.4.4.9.1 Pre-equalization coefficients |
| 209 | 101.4.4.9.2 PHY Link managed variables 101.4.4.10 Cyclic prefix and windowing |
| 210 | 101.4.4.10.1 PHY Link managed variables |
| 211 | 101.4.5 Constellation structure and mapping 101.4.5.1 One dimensional Gray mapping for m-tuple binary bits 101.4.5.2 Constellation structure and mapping of BPSK |
| 212 | 101.4.5.3 Constellation structure and mapping of 22n–QAM |
| 213 | 101.4.5.4 Constellation structure and mapping of 22n+1–QAM (n>0) 101.4.5.4.1 Constellation structure and mapping of 8–QAM |
| 214 | 101.4.5.4.2 Constellation structure and mapping of 22n+1–QAM with n > 1 |
| 215 | 101.4.5.5 QAM constellation scaling |
| 216 | 101.4.6 PMA testing 101.4.6.1 Pre-equalization testing |
| 217 | 101.4.6.2 OFDM channel frequency accuracy test 101.5 Applicability of Clause 90 and IEEE Std 802.1AS, Clause 13 for EPoC time transport 101.5.1 CLT PHY asymmetry correction of future time transmitted by the CLT to CNUi 101.5.2 CNU PHY asymmetry correction of future time received by CNUi |
| 219 | 101.6 Protocol implementation conformance statement (PICS) proforma for Clause 101, Reconciliation Sublayer, Physical Coding Sublayer, and Physical Media Attachment for EPoC 101.6.1 Introduction 101.6.2 Identification 101.6.2.1 Implementation identification 101.6.2.2 Protocol summary |
| 220 | 101.6.3 Major capabilities/options 101.6.4 PICS proforma tables for Reconciliation Sublayer, Physical Coding Sublayer, and Physical Media Attachment for EPoC 101.6.4.1 General specifications |
| 221 | 101.6.4.2 Transmission functions 101.6.4.3 OFDM Configuration functions |
| 222 | 101.6.4.4 OFDM Timing |
| 223 | 101.6.4.5 Data Detector functions 101.6.4.6 IDLE insertion and deletion functions |
| 224 | 101.6.4.7 FEC functions 101.6.4.8 Encoding functions |
| 225 | 101.6.4.9 Pilots |
| 226 | 101.6.4.10 Equalization |
| 227 | 102. EPoC PHY Link 102.1 PHY Link overview and architecture 102.1.1 PHY Link frame structure and protocol |
| 229 | 102.1.2 PHY Link block diagram |
| 230 | 102.1.3 PHY Link Message Engine |
| 231 | 102.1.4 PHY Link FEC encoder 102.1.4.1 LDPC (480, 288) mother code 102.1.4.2 LDPC (160, 80) mother code 102.1.4.3 Shortening and puncturing encoders |
| 232 | 102.1.4.3.1 LDPC (384, 288) puncturing encoder 102.1.4.3.2 LDPC (128, 80) puncturing encoder |
| 233 | 102.1.5 PHY Link scrambler 102.1.6 PHY Link symbol map and constellation mapping |
| 234 | 102.1.7 Interleaving 102.1.8 Mapping of PHY Link variables |
| 238 | 102.2 Downstream PHY Link 102.2.1 Downstream PHY Link Physical Layer 102.2.1.1 Resource allocation 102.2.1.2 Downstream PHY Link modulation |
| 239 | 102.2.1.3 Downstream PHY Link subcarrier block interleaving |
| 240 | 102.2.2 Downstream preamble |
| 241 | 102.2.3 Downstream frame |
| 242 | 102.2.3.1 Downstream EPoC PHY Frame Header 102.2.3.1.1 Configuration ID and profile activation 102.2.3.1.2 Response Frame ID |
| 243 | 102.2.3.1.3 PHY Link DA |
| 244 | 102.2.3.1.4 PHY Timestamp 102.2.3.2 EPoC Probe Control Header message block |
| 245 | 102.2.3.2.1 Probe Scheduling type Probe Control fields 102.2.3.2.2 Broadcast PHY Discovery type Probe Control fields 102.2.3.2.3 Unicast PHY Discovery type Probe Control fields |
| 246 | 102.2.3.2.4 PHY Link managed variables 102.2.3.3 Downstream EPoC message block |
| 247 | 102.2.3.4 Downstream padding 102.2.3.5 Downstream FEC Parity message block 102.2.4 Downstream PHY Link FEC 102.2.5 Downstream PHY Link response time. 102.2.6 PHY Link managed variables |
| 248 | 102.2.7 Downstream state diagrams 102.2.7.1 Constants 102.2.7.2 Counters |
| 249 | 102.2.7.3 Variables |
| 251 | 102.2.7.4 Functions 102.2.7.5 State diagrams |
| 253 | 102.3 Upstream PHY Link 102.3.1 Upstream PHY Link Physical Layer 102.3.1.1 Upstream resource allocation 102.3.1.2 Upstream PHY Link modulation 102.3.1.3 Upstream PHY Link transmission 102.3.2 Upstream PHY Link frame 102.3.2.1 Upstream EPoC PHY Frame Header 102.3.2.2 Upstream EPoC message block |
| 255 | 102.3.2.2.1 Padding 102.3.3 Upstream PHY Link FEC 102.3.4 Upstream PHY Link pilot pattern 102.3.5 Upstream state diagrams 102.3.5.1 Constants |
| 256 | 102.3.5.2 Counters 102.3.5.3 Variables |
| 257 | 102.3.5.4 Functions 102.3.5.5 State diagrams |
| 258 | 102.4 PHY Link applications |
| 259 | 102.4.1 PHY Discovery 102.4.1.1 Overview of PHY Discovery 102.4.1.2 PHY Link acquisition |
| 260 | 102.4.1.3 PHY Discovery window opening 102.4.1.4 PHY Link Discovery Response |
| 262 | 102.4.1.5 PHY Discovery preamble |
| 263 | 102.4.1.6 CNU_ID allocation |
| 264 | 102.4.1.7 PHY Discovery completion 102.4.1.8 PHY Link managed variables |
| 265 | 102.4.1.9 PHY Discovery state diagrams 102.4.1.9.1 Constants 102.4.1.9.2 Variables |
| 266 | 102.4.1.9.3 Counters 102.4.1.9.4 Functions |
| 267 | 102.4.1.9.5 State diagrams 102.4.2 Upstream Wideband Probing 102.4.2.1 Introduction |
| 268 | 102.4.2.2 Probing symbol pilots 102.4.2.3 Probing symbol scheduling |
| 270 | 102.4.2.4 Probing sequence |
| 271 | 102.4.2.5 Probe symbol repetition 102.4.2.6 Wide Band Probing state diagrams 102.4.2.6.1 Constants 102.4.2.6.2 Variables |
| 272 | 102.4.2.7 Counters 102.4.2.8 Functions |
| 273 | 102.4.2.9 State diagrams |
| 274 | 102.4.3 Link-up declaration |
| 275 | 102.4.4 Link-down declaration |
| 276 | 102.4.4.1 CNU PHY self declared link-down 102.4.4.2 CLT declared link-down 102.4.4.3 Upper layer declared link-down 102.4.5 OFDM Profile descriptors |
| 277 | 102.4.5.1 PHY Link managed variables |
| 278 | 102.5 Protocol implementation conformance statement (PICS) proforma for Clause 102, EPoC PHY Link 102.5.1 Introduction 102.5.2 Identification 102.5.2.1 Implementation identification 102.5.2.2 Protocol summary |
| 279 | 102.5.3 Major capabilities/options 102.5.4 PICS proforma tables for EPoC PHY Link 102.5.4.1 PHY Link general specifications |
| 281 | 102.5.4.2 PHY Link timing 102.5.4.3 Downstream framing |
| 282 | 102.5.4.4 DS Encoding and transmission 102.5.4.5 Downstream OFDM |
| 283 | 102.5.4.6 Upstream encoding and transmission 102.5.4.7 Upstream framing 102.5.4.8 Upstream OFDM |
| 284 | 102.5.4.9 Communication Protocol 102.5.4.10 PHY Discovery |
| 285 | 102.5.4.11 Probes |
| 286 | 103. Multipoint MAC Control for EPoC 103.1 Overview |
| 288 | 103.1.1 Position of Multipoint MAC Control within the IEEE 802.3 hierarchy |
| 290 | 103.1.2 Functional block diagram |
| 291 | 103.1.3 Service interfaces 103.1.4 State diagram conventions 103.1.5 Other conventions 103.2 Multipoint MAC Control operation 103.2.1 Principles of Multipoint MAC Control 103.2.1.1 Ranging and timing process |
| 292 | 103.2.2 Multipoint transmission control, Control Parser, and Control Multiplexer |
| 294 | 103.2.2.1 Constants |
| 295 | 103.2.2.2 Counters 103.2.2.3 Variables |
| 297 | 103.2.2.4 Functions |
| 299 | 103.2.2.5 Timers 103.2.2.6 Messages 103.2.2.7 State diagrams |
| 306 | 103.3 Multipoint Control Protocol (MPCP) 103.3.1 Principles of Multipoint Control Protocol 103.3.2 Compatibility considerations 103.3.2.1 PAUSE operation 103.3.2.2 Optional Shared LAN emulation 103.3.2.3 Multicast and single copy broadcast support 103.3.2.4 Delay requirements 103.3.3 Discovery processing |
| 308 | 103.3.3.1 Constants 103.3.3.2 Variables |
| 309 | 103.3.3.3 Timers 103.3.3.4 Messages |
| 312 | 103.3.3.5 State diagrams |
| 317 | 103.3.4 Report Processing 103.3.5 Gate Processing 103.3.5.1 Constants 103.3.5.2 Variables |
| 319 | 103.3.5.3 Functions |
| 320 | 103.3.5.4 Timers 103.3.5.5 Messages |
| 321 | 103.3.5.6 State diagrams |
| 325 | 103.3.6 MPCPDU structure and encoding 103.3.6.1 GATE description 103.3.6.2 REPORT description 103.3.6.3 REGISTER_REQ description |
| 326 | 103.3.6.4 REGISTER description |
| 327 | 103.3.6.5 REGISTER_ACK description |
| 328 | 103.4 Protocol implementation conformance statement (PICS) proforma for Clause 103, Multipoint MAC Control for EPoC 103.4.1 Introduction 103.4.2 Identification 103.4.2.1 Implementation identification 103.4.2.2 Protocol summary |
| 329 | 103.4.3 Major capabilities/options 103.4.4 PICS proforma tables for Multipoint MAC Control 103.4.4.1 Compatibility considerations |
| 330 | 103.4.4.2 Multipoint MAC Control |
| 331 | 103.4.4.3 State diagrams |
| 332 | 103.4.4.4 MPCP |
| 334 | Annex A (informative) Bibliography |
| 335 | Annex 31A (normative) MAC Control opcode assignments |
| 336 | Annex 100A (normative) EPoC OFDM channel model 100A.1 Topology |
| 337 | 100A.2 Downstream channel parameters |
| 339 | 100A.3 Upstream channel parameters |
| 342 | 100A.4 Protocol implementation conformance statement (PICS) proforma for Annex 100A, EPoC OFDM channel model 100A.4.1 Introduction 100A.4.2 Identification 100A.4.2.1 Implementation identification 100A.4.2.2 Protocol summary |
| 343 | 100A.4.3 Major capabilities/options |
