Interactive Prototype · Edge Runtime
Wellhead · edge-runtime simulator.
Walk an operator-side view end-to-end: pick a brownfield asset, load the physics-informed core against a chosen cyber zone, watch a PINN prediction build a quarterly bearing-wear curve with its mechanism layer (mass balance · multiphase flow · ESP kinematics), and export the regulator-grade artifacts the engagement contracts against. Telemetry is mocked; the export formats are real.
- 01Asset
- 02Physics
- 03Predict
- 04Export
Pick a brownfield.
Sample bindings · SCADA mocked-
Pick a sample above to populate the asset profile.
Load the PINN core.
Edge runtime · warm in 30s
Cyber zone
Watch a workover form.
Mechanism layer attached
PINN inference streams across Q0 → Q4 (4–8 s).
Bearing-wear envelope · % of failure threshold
Q0Q1Q2Q3Q4
Bars cross the 70% envelope flag a workover candidate.
ESPs flagged
-
> 70% bearing-wear
False-positive
-
Y1 target < 8%
Mechanisms cited
-
Engineer-defensible
Edge inference
-
PINN events emitted
PINN audit log will stream here once the run starts.
Signed artifacts.
Regulator-ready · 4 filesProven on the prototype
- PINN flags ESPs above the bearing-wear envelope with mechanism citations the reservoir engineer can defend in a morning meeting.
- Edge runtime simulates 30+ days disconnected; predictions store-and-forward with no quality loss.
- OGMP 2.0 Level 4–5 export and OOOOb/c annual filing render with signed lineage from the same event log.
- Federated gradient round across 5 simulated peer operators; raw telemetry never leaves the asset.
Out of scope, by design
- SCADA + ESP telemetry is mocked; live ingest is brownfield M0–3 work on real assets.
- IEC 62443-3-3 SL2 certification is a real third-party audit, not simulated in the prototype.
- NOC sovereign-cluster variant requires production deployment with operator-controlled key custody.
- Per-asset PINN training on customer-specific physics constants is post-engagement work.