Every assessment is independently validated. Outputs carry stable module codes traceable to the analysis method — suitable for audit trails, regulatory submissions, and ESG reporting.
Physics-validated grid stability, TNUoS/DUoS charge management, and load analysis for energy systems.
Physics-certified efficiency analysis for HVAC systems, heat recovery, and thermal cycle assessment for industrial and data centre operations.
State-evolution analysis for BESS assets, degradation certification, FFR pre-positioning, and dispatch assessment for grid-scale storage.
Nutrient balance certification, biological efficiency analysis, and yield state prediction.
Real-time dispatch, compliance baselines (1/5/10 year), context intelligence, and multi-entity management. Compatible with all certified assessment scopes.
PHYSICS-LAW ENFORCED
Every output passes physics Law validation before generation. Invalid data returns a physics violation code — no assessment is produced from physically inconsistent inputs.
REGULATORY AUDITABILITY
Each result carries a stable module code linking it to the certified physics module that generated it — citable in audit reports and grant applications.
VALIDATED RETURNS
Savings figures are physics-derived — not benchmark averages or model outputs. Every result is independently reproducible.