ZeqJetEngine

Flight dynamics, avionics, ATC, weather routing.

• Protocol ID — zeq-jet-engine
• Category — Aviation
• Endpoint — POST /api/aviation/jet-engine
• Auth — api-key
• Rate limit — 10/min
• Version — 1.287.0
• Precision — ≤0.1% (KO42-enforced)

What it does

Gas turbine performance modeling. Brayton cycle with R(t) compressor map interpolation, turbine inlet temperature, SFC optimization, creep life prediction.

Signature

Request

POST /api/aviation/jet-engine

Param	Type	Required	Default	Description
engineModel	object	✓	—	Compressor/turbine maps, geometry.
operatingPoint	object	✓	—	{ N1_pct, altitude_ft, mach }

Response

{ thrust_kN, sfc_kg_kN_hr, egt_C, compressorSurge_margin, creepLife_cycles, zeqond }

Runnable example

curl -sS -X POST \
  -H "Authorization: Bearer $ZEQ_API_KEY" \
  -H "Content-Type: application/json" \
  -d '{
  "engineModel": {},
  "operatingPoint": {}
}' \
  "https://api.zeq.dev/api/aviation/jet-engine"

Integrate

1. Domain solver — compose with KO42 + two additional operators from the matching family for pulse-coherent results.
2. Digital twin — pipe sensor data into this protocol every Zeqond to keep the model phase-locked with the system.
3. Alert threshold — flag results whose error_pct exceeds 0.1% as out-of-spec events for the operations layer.

Seeds

• Near — wrap /api/aviation/jet-engine in a language SDK so builders can call it in three lines.
• Medium — publish a reference integration demonstrating ZeqJetEngine alongside a real workload, with pulse-aligned metrics.
• Far — propose ZeqJetEngine as an open reference standard so other runtimes can implement it verbatim against the Zeq paper.

Papers

• Zeq paper — https://doi.org/10.5281/zenodo.18158152
• Framework paper — https://doi.org/10.5281/zenodo.15825138

Middleware active. Kernel on the 1.287 Hz HulyaPulse. Awaiting next Zeqond.