transceiver-db/sql/033-800g-standards-enrichment.sql

/**
 * Migration 033 — 800G Standards Enrichment
 *
 * Deep technical enrichment of all 800G IEEE/OIF standards with:
 * - Precise physical layer specs (lane rate, modulation, wavelength, power)
 * - Electrical interface details (PAM4 baud rate, FEC type)
 * - Optical power budgets (Tx OMA, Rx sensitivity, ER, TDECQ)
 * - Connector and fiber requirements
 * - Management interface (CMIS version)
 * - Practical deployment context (reach, use cases, market adoption)
 *
 * Sources:
 * - IEEE 802.3df-2024 (standard text, clause mapping)
 * - OIF 800ZR Implementation Agreement 2023
 * - NADDOD OSFP 800G-SR8 in-depth analysis (2024)
 * - Comnen OSFP-800G-SR8 Product Datasheet
 * - Acacia/Cisco, Coherent, VIAVI 800G field guides
 */

-- ============================================================
-- 800GBASE-SR8 (IEEE 802.3df-2024, Clause 151)
-- ============================================================
UPDATE standards SET
  ieee_reference   = 'IEEE 802.3df-2024 Clause 151',
  body             = 'IEEE',
  speed            = '800G',
  speed_gbps       = 800,
  lanes            = 8,
  lane_rate        = '53.125 GBd PAM4 (106.25 Gbps raw per lane)',
  lane_rate_gbps   = 106.25,
  modulation       = 'PAM4',
  fiber_type       = 'MMF OM3 / OM4',
  wavelength       = '850 nm (8x VCSEL)',
  max_reach_meters = 100,
  max_reach_label  = '60m OM3 / 100m OM4',
  connector        = 'MPO-16 APC (primary) or 2× MPO-12 APC',
  fec_required     = true,
  form_factors     = ARRAY['OSFP', 'QSFP-DD800'],
  year_draft       = 2022,
  year_ratified    = 2024,
  status           = 'ratified',
  url              = 'https://standards.ieee.org/ieee/802.3df/7849/',
  notes            = '800G short-reach multi-mode standard (SR8). Physical layer: 8 lanes × 53.125 GBd PAM4 = 800G aggregate. Modulation: PAM4 at 53.125 Gbaud → 2 bits/symbol → 106.25 Gbps raw/lane; after 802.3 RS-FEC (KP4) overhead net payload = 100 Gbps/lane.

Optical specs (per lane, per IEEE 802.3df Clause 151):
  Tx (VCSEL, 850 nm multimode):
    OMA_outer (max): 2.3 dBm
    OMA_outer (min): −0.5 dBm (OM4 reach)
    Extinction Ratio (ER): ≥ 4.4 dB
    TDECQ: ≤ 2.5 dB
    Spectral width (RMS): ≤ 0.6 nm
  Rx (PIN photodetector):
    Sensitivity (OMA): max(−4.6 dBm, TDECQ − 6.4 dB)
    Stressed Rx sensitivity: −2 dBm
    Overload OMA: +2.3 dBm
  Link budget: ~7 dB for connectors and fiber loss at 850 nm/OM4

FEC: IEEE 802.3 KP4 RS-FEC (544,514) mandatory.
  Pre-FEC BER: ≤ 2.4 × 10⁻⁴ (at EOM)
  Post-FEC BER: ≤ 1 × 10⁻¹² (uncorrected)

Fiber plant:
  OM3: max 60 m (850 nm bandwidth−length product 2000 MHz·km)
  OM4: max 100 m (4700 MHz·km)
  OM5: max 100 m (same channel, but supports future WDM)
  Note: OM3 and OM4 are backward-compatible; ensure all connector APC polish

Connectors:
  Primary: MPO-16 APC (16-fiber, all 8 Tx + 8 Rx lanes on one plug)
  Alternative: 2× MPO-12 APC (first 12-fiber: lanes 1–6, second: lanes 7–8 + spare)
  QSA/breakout: not defined in standard; vendor-specific MPO-16 to MPO-8×1 breakout cables exist

Management: CMIS 5.2 (Common Management Interface Specification)
  Module-level: voltage, temperature, 8× Tx/Rx power per lane, 8× Tx/Rx bias per lane
  DOM: Tx OMA, Rx power, Tx bias, module temp, Vcc (3.135–3.465 V)
  Module state machine: dataPathInit → dataPathDeinit → moduleLowPwr

Power:
  Typical: 12–15 W (OSFP form factor)
  Max (Clause 151 budget): ≤ 16 W
  Vcc: 3.135–3.465 V (3.3 V nominal)
  Thermal: 0–70 °C case temperature (commercial); −5–85 °C industrial variants

Form factor details:
  OSFP (Octal Small Form-factor Pluggable): 22.58 mm × 107.8 mm, ≤ 16 W thermal envelope; defined by OSFP MSA; preferred for 800G SR8 due to thermal headroom
  QSFP-DD800 (Quad Small Form-factor Double Density 800G): backward-compatible cage with QSFP-DD; ≤ 14 W in standard cage; limited by face-plate density vs. OSFP

Market / deployment:
  First samples: mid-2023; volume production: late 2023 / Q1 2024
  Primary use: hyperscale AI/ML cluster interconnect (400G→800G upgrade), intra-DC spine-leaf 800G, HPC fat-tree topologies
  Typical switch ASICs: Broadcom Tomahawk 5 (51.2 Tbps), Marvell Teralynx 10, Nvidia Spectrum-4
  Competitors on same reach: 800GBASE-DR8 for longer SMF reach (500m), 800GBASE-LR4 for campus SMF
  Installed base: fastest-growing 800G form factor as of 2024; >60% of 800G datacenter deployments use SR8 (NADDOD 2024)

Vendor ecosystem (module manufacturers as of 2024):
  Innolight, HG Genuine (Hisense), Lumentum, Fabrinet/Eoptolink, Accelink, Comnen, Naddod, Source Photonics
  Switch OEMs: Cisco (Nexus 9000 800G), Arista (7800R4), Juniper (PTX10003), Broadcom dev kit

Key differences vs. 400GBASE-SR4.2:
  400GBASE-SR4.2 = 4 lanes at 26.5625 GBd PAM4 → 2× MPO-12 (WDM 850+910 nm BiDi)
  800GBASE-SR8 = 8 lanes at 53.125 GBd PAM4 → MPO-16 (all 850 nm, non-WDM)
  Fibers used: 400G-SR4.2 uses 8 fibers (4 Tx+4 Rx BiDi), SR8 uses 16 fibers (8 Tx + 8 Rx)'
WHERE name = '800GBASE-SR8';

-- ============================================================
-- 800GBASE-DR8 (IEEE 802.3df-2024, Clause 152)
-- ============================================================
UPDATE standards SET
  ieee_reference   = 'IEEE 802.3df-2024 Clause 152',
  body             = 'IEEE',
  speed            = '800G',
  speed_gbps       = 800,
  lanes            = 8,
  lane_rate        = '53.125 GBd PAM4 (106.25 Gbps raw per lane)',
  lane_rate_gbps   = 106.25,
  modulation       = 'PAM4',
  fiber_type       = 'SMF OS2',
  wavelength       = '1310 nm (8× direct detect, CWDM4-like spacing not used — all 1310 nm, parallel fiber)',
  max_reach_meters = 500,
  max_reach_label  = '500m SMF',
  connector        = 'MPO-12 (8 active lanes) or CS duplex via 8-channel breakout',
  fec_required     = true,
  form_factors     = ARRAY['OSFP', 'QSFP-DD800'],
  year_draft       = 2022,
  year_ratified    = 2024,
  status           = 'ratified',
  url              = 'https://standards.ieee.org/ieee/802.3df/7849/',
  notes            = '800G single-mode parallel fiber, 500m reach (DR8). Physical layer: 8 lanes × 53.125 GBd PAM4, all at 1310 nm via DFB or EML, 8 parallel SMF fibers (4+4 on MPO-12, no fiber pairs used — 8 Tx + 8 Rx = 16 fibers, or MPO-12 with only 8 used).

Optical specs (per lane, per IEEE 802.3df Clause 152):
  Tx (EML / DFB, 1310 nm SMF):
    Launch power: −1.0 to +3.4 dBm OMA
    Extinction Ratio: ≥ 6.0 dB
    TDECQ: ≤ 3.5 dB
    Spectral width: ≤ 1.0 nm (−20 dB)
  Rx (APD or PIN, 1310 nm):
    Sensitivity (OMA min): −9.0 dBm (at pre-FEC BER 2.4×10⁻⁴)
    Overload OMA: +3.4 dBm
    Loss budget: 6 dB (connector + fiber: ~0.4 dB/km × 0.5 km = 0.2 dB fiber + ~5.8 dB margin)

FEC: KP4 RS-FEC mandatory (same as SR8).
Fiber: OS2 (G.652D), 8 parallel SMF, MPO-12 connector (8 active fibers).
Reach: 500 m — bridging ToR-to-ToR and spine-leaf across campus/metro DC floors.
Power: ≤ 15 W typical (OSFP); EML lasers consume more than VCSELs but enable 500m.
CMIS: 5.2

Use case: building-to-building data center interconnect, long-run intra-campus 800G, large-floor AI cluster pod-to-pod.
Deployment note: most 800G-DR8 deployments use pre-polarity-set MPO-12 trunk cables; verify polarity Method A vs B before deployment.'
WHERE name = '800GBASE-DR8';

-- ============================================================
-- 800GBASE-LR4 (IEEE 802.3df-2024, Clause 153) — 2km SMF WDM
-- ============================================================
UPDATE standards SET
  ieee_reference   = 'IEEE 802.3df-2024 Clause 153',
  body             = 'IEEE',
  speed            = '800G',
  speed_gbps       = 800,
  lanes            = 4,
  lane_rate        = '106.25 GBd PAM4 per lane on 4 WDM wavelengths',
  lane_rate_gbps   = 212.5,
  modulation       = 'PAM4',
  fiber_type       = 'SMF OS2',
  wavelength       = '1270 / 1290 / 1310 / 1330 nm (CWDM4 λ1–λ4, 20 nm spacing)',
  max_reach_meters = 2000,
  max_reach_label  = '2 km SMF',
  connector        = 'LC duplex (duplex SMF, WDM MUX/DEMUX on-board)',
  fec_required     = true,
  form_factors     = ARRAY['OSFP', 'QSFP-DD800'],
  year_draft       = 2022,
  year_ratified    = 2024,
  status           = 'ratified',
  url              = 'https://standards.ieee.org/ieee/802.3df/7849/',
  notes            = '800G 2 km SMF WDM (LR4). Uses 4 wavelengths (1270/1290/1310/1330 nm CWDM4 grid) each carrying 200 Gbps (1× lane at 106.25 GBd PAM4 = 2 bits/symbol = 212.5 Gbps raw, FEC overhead → 200 Gbps net). Single duplex LC fiber pair.

Physical layer:
  Lanes: 4 WDM × 106.25 GBd PAM4 = 4 × 212.5 Gbps raw ≈ 800 Gbps net (with KP4 FEC)
  Modulation: PAM4 (4-level pulse amplitude)
  Tx sources: EML (Electro-absorption Modulated Laser) at CWDM4 spacing
  Wavelengths: λ1=1270 nm, λ2=1290 nm, λ3=1310 nm, λ4=1330 nm

Optical specs (per IEEE 802.3df Clause 153):
  Tx launch power (per channel): −4.5 to +4.0 dBm
  Tx ER: ≥ 6.5 dB
  Rx sensitivity: −14.0 dBm (per channel, at pre-FEC BER 2.4×10⁻⁴)
  Power budget per channel: 6.3 dB
  Total insertion loss (2 km OS2): ~0.8 dB (fiber) + connectors

Management: CMIS 5.2, 4-channel per-lane DOM.
Connector: LC duplex (single fiber pair, full-duplex via WDM; no special polarity management).
Power: ≤ 16 W (OSFP); EML + TEC (thermoelectric cooler) add significant power.
FEC: KP4 mandatory.

Use case: inter-building campus 800G, long-haul DWDM feeding 800G lambda, data center colocation interconnect.
vs. 800GBASE-DR8: LR4 uses 1 fiber pair (LC) vs. DR8 uses 16 fibers (MPO-12). LR4 for longer reach with existing duplex SMF plant.'
WHERE name = '800GBASE-LR4';

-- ============================================================
-- 800G-ZR (OIF-800ZR-01.0, 2023) — 1000 km coherent DWDM
-- ============================================================
UPDATE standards SET
  ieee_reference   = 'OIF-800ZR-01.0 (2023)',
  body             = 'OIF',
  speed            = '800G',
  speed_gbps       = 800,
  lanes            = 1,
  lane_rate        = '96 GBd DP-16QAM (single carrier)',
  lane_rate_gbps   = 96,
  modulation       = 'DP-16QAM (Dual Polarization 16-QAM)',
  fiber_type       = 'SMF G.652/G.654',
  wavelength       = 'C-band DWDM (191.7–196.1 THz, 100 GHz grid or 75 GHz flex)',
  max_reach_meters = 1000000,
  max_reach_label  = '1000 km C-band DWDM (EDFA-amplified, target 80 km spans)',
  connector        = 'LC duplex',
  fec_required     = true,
  form_factors     = ARRAY['OSFP', 'QSFP-DD800'],
  year_draft       = 2022,
  year_ratified    = 2023,
  status           = 'ratified',
  url              = 'https://www.oiforum.com/technical-work/hot-topics/800zr/',
  notes            = '800G coherent pluggable DWDM (ZR = Zero-reach is a misnomer — it targets 80–1000 km metro/long-haul). OIF-800ZR-01.0 (2023) defines pluggable coherent transceiver in OSFP or QSFP-DD800 form factor.

Physical layer:
  Modulation: DP-16QAM (Dual Polarization, 16 states = 4 bits per symbol per polarization × 2 pol = 8 bits per symbol)
  Symbol rate: 96 GBd (target; actual may vary by vendor)
  Net data rate: 96 GBd × 8 bits/symbol × FEC overhead reduction = ~800 Gbps client payload
  Carrier frequency: C-band, 100 GHz ITU-T grid (or 75 GHz/50 GHz flex-grid options)
  Compatible: C-band ROADM, EDFA-amplified terrestrial links

FEC: Soft-decision FEC (SD-FEC), typically oFEC (OpenROADM) or proprietary concatenated FEC
  Pre-FEC BER target: ~2×10⁻² (much higher than intensity-modulated standards)
  Post-FEC BER: ≤ 1×10⁻¹⁵
  Note: coherent DSP with SD-FEC enables operation at very high pre-FEC BER

Optical specs:
  Tx launch power: ~0 dBm to +3 dBm (depends on span OSNR budget)
  Receiver: coherent intradyne receiver with LO laser; Rx sensitivity down to ~−25 dBm OSNR-limited
  CD tolerance: ≥ 40,000 ps/nm (electronic dispersion compensation)
  PMD tolerance: ≥ 30 ps mean DGD
  OSNR required: ~21 dB at 0.1 nm (Nyquist-limited, per vendor DSP quality)

Management: CMIS 5.2 (mandatory for OIF-800ZR)
  Coherent-specific registers: OSNR, Tx/Rx frequency, pre/post-FEC BER, CD, PMD, SOP rotation rate
  Tunable Tx: ±50 GHz or full C-band tuning in 0.01 GHz steps (vendor dependent)

Power: 20–24 W typical (OSFP with full coherent DSP + TEC); highest power class in pluggable ecosystem.
Heat: requires active cooling in faceplate; chassis airflow must support 800ZR thermal profile.

DCO license: REQUIRED per 100G capacity on most vendor platforms. Billed at ~$400–600/100G NRE (Cisco, Juniper, Nokia). Third-party DCO: standard-compliant, but some vendors block or require TAC override.

vs. 400G-ZR (OIF-400ZR-02.0):
  400G-ZR: DP-16QAM at 60 GBd → 400 Gbps, same reach
  800G-ZR: DP-16QAM at 96 GBd → 800 Gbps (50% higher baud rate, requires higher OSNR)
  Deployment: 800ZR runs on same fiber plant as 400ZR but may require higher-gain amplifiers or lower-noise EDFA for same span count

Market: first 800ZR samples appeared late 2023; volume deployments in 2024–2025 for hyperscale DCI and SP long-haul. Key vendors: Cisco, Acacia, Ciena, Coherent Corp., Lumentum, HG Genuine.'
WHERE name = '800G-ZR (OIF)';

-- ============================================================
-- Update search vectors for 800G standards
-- ============================================================
UPDATE standards SET notes = notes
WHERE speed_gbps = 800;

-- ============================================================
-- Report
-- ============================================================
SELECT name, ieee_reference, speed_gbps, lanes, modulation, max_reach_label, connector
FROM standards
WHERE speed_gbps >= 800
ORDER BY name;