1 · Gamma → uranium, live
Adjust a reading and the conversion recomputes against the running engine. eU₃O₈ is a pre-assay estimate - only chemical assay of core resolves true grade (that is exactly the calibration step after the first holes).
Calibration: net-API → eU via DOE Grand Junction pits (pads PPL 41 / PPH 118 / E2 221 ppm eU). Refs: USGS OFR 2005-1435; IAEA TECDOC-1363. Reference lines shown on the eU bar.
2 · Drill campaign optimiser, live
Rank twin-drill targets from the anomalous legacy holes and fit the highest-priority metres inside a budget - "monetise every metre, misdrill nothing."
What this proves for the data room
- Every number is computed, not asserted - the bars above come straight from the engine's API.
- Calibrated to real standards (DOE-GJ pads) and honest about uncertainty: eU₃O₈ is pre-assay until core confirms it.
- Disequilibrium is first-class - the slider shows how daughter/parent imbalance moves the estimate, the key risk in salt-anticline uranium.
- Drill plan follows the data - budget-bounded, priority-ranked, twin-drilling the highest-confidence legacy holes first.
3 · Engine data - atomic precision, live
A 24/7 government-data engine compounds verified mineral occurrences from USGS (MRDS · USMIN · ARDF · NGDB rock geochem · SGMC geology) plus OpenStreetMap and Chile's open-data portal, then an OCaml overcaml core re-questions every record for atomic precision and concentrates on the unpredicted residual. Every figure is computed - nothing asserted, nothing fabricated.
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→ See the atomic-precision pitch deck: overcaml before/after, the 30× factors, and what we need next