AI Mining

Advanced AI-Powered Geological Intelligence that decodes premier mineral potential with ultra-high accuracy and speed.

AI Geological Analysis

Upload geological sample images for comprehensive AI-powered ore analysis

Sample Images

JPG, PNG, HEIC up to 100MB each

0 images selected (max 10)

Analysis Controls

Analysis Guidelines

Image Quality: Ensure your geological images are well-lit, in focus, and show clear mineral textures and structures.
Key Features: Capture pyrite boxworks, oxidized zones, vein structures, and alteration patterns that indicate mineralization.
Context: Select the appropriate sample type and geological context for more accurate analysis.
Disclaime: This AI tool is a Beta demonstrational feature and may contain errors. It is provided for educational and informational purposes only. Results are not guaranteed accurate, do not constitute professional geological advice, and must not be used for operational or investment decisions. Always consult qualified experts before making mining or exploration decisions.

How AI Diagnostic Works

Our AI system combines advanced computer vision with proprietary geological information to provide comprehensive ore analysis

1. Drag & Drop

Simply drag your geological images into the upload zone

2. AI Analysis

Advanced AI analyzes mineralogy, structure, alteration, and geochemical signatures

3. Detailed Report

Receive comprehensive geological interpretation with annotations and recommendations

AI Analysis Capabilities

Comprehensive geological interpretation based on proprietary data sets

Mineral Identification

Identifies pyrite, arsenopyrite, chalcopyrite, bornite, manganese oxides, hematite, limonite, goethite, carbonates, and alteration minerals

Structural Analysis

Analyzes vein styles, thickness variability, shearing, mylonitic textures, and orientation indicators in Irumide Belt context

Alteration Mapping

Maps silicification, sericitization, chloritization, carbonation, sulphidation, and oxidation intensity

Gold Indicator Detection

Identifies pyrite boxworks, gossans, Mn-oxide traps, Fe-oxide traps, vuggy silica, and arsenic-bearing minerals

Geochemical Assessment

Provides gold potential scoring (G1-G5) with justification based on visual mineralogy, color, texture, and alteration patterns

Paragenesis Reconstruction

Reconstructs mineralization stages: early quartz → main quartz-sulphide → late arsenopyrite → oxidation → supergene enrichment