Conflict Simulation & Forensic Analysis Engine
A physics-based, multi-domain conflict simulation engine built for forensic analysis of real-world conflicts. Model five warfare domains with high-fidelity trajectory physics, layered defense networks, and cross-domain dependency chains.
Unified simulation across all modern warfare domains with cross-domain dependency chains and cascading effects.
Armored vehicles, artillery, air defense, mobile launchers
Fighter aircraft, bombers, UAVs, cruise missiles
Surface combatants, carriers, submarines, torpedoes
Infrastructure attacks, cascading failures, network warfare
Satellite systems, orbital assets, anti-satellite weapons
An extensive library of weapon systems, defense networks, and military platforms modeled with real-world specifications — range, speed, guidance, cost, and operational characteristics.
Ballistic missiles, cruise missiles, hypersonic glide vehicles, loiter munitions, torpedoes, anti-ship missiles, and air-to-air weapons.
Multi-layered defense from strategic anti-ballistic to point defense — modeled with radar coverage, launcher distribution, and magazine capacity.
Aircraft, naval vessels, armored vehicles, mobile launchers, submarines, and UAVs with full operational profiles.
Comprehensive coverage of regional arsenals, defense architectures, and infrastructure across the Levant, Gulf, and North Africa.
Detailed modeling of forces, air defense networks, and critical infrastructure across the conflict zones.
Maritime and land-based systems, integrated air defense, and strategic assets across the Indo-Pacific.
Design custom conflict scenarios from scratch or start from pre-built templates. Place forces, configure terrain, and define objectives — then run the simulation.
Place weapon systems, defense networks, and platforms directly on a real-world map. Configure forces with drag-and-drop.
Adjust system parameters — operational readiness, equipment condition, force composition, and environmental conditions.
Start from curated scenario templates covering asymmetric warfare, naval engagements, multi-domain conflict, and more.
Define multiple factions with their own alliances, capabilities, and objectives. No limit to two-sided conflicts.
Build scenarios on actual terrain with real infrastructure, population centers, and strategic chokepoints.
Watch the simulation unfold on the map in real-time, then review the full forensic timeline of every event.
Grounded in physics and mathematics — not animation. Every trajectory, intercept, and outcome is computed from first principles with real-world parameters.
Ballistic arcs computed with atmospheric drag, Earth curvature, and gravity. Cruise missiles follow terrain-hugging profiles. Hypersonic glide vehicles model skip-glide dynamics and plasma effects at Mach 5+.
Interceptors compute proportional navigation guidance to collision point. Engagement probability accounts for radar cross-section, closing speed, warhead lethality radius, and electronic countermeasures.
Run hundreds of simulation iterations with randomized parameters to distinguish structural advantages from chance. Generate probability distributions, outcome heatmaps, and confidence intervals.
Overpressure modeling with peak-PSI calculations at distance. Casualty estimation based on population density, shelter availability, and warhead yield. Infrastructure damage assessment.
Track per-unit manufacturing and operational costs for every weapon fired and interceptor expended. Calculate cost-exchange ratios to identify economic asymmetries in attrition warfare.
Full API access for building and running scenarios programmatically. Define forces, place assets, configure parameters, stream events, and batch-run simulations — all without the UI.
Access the full platform to build scenarios, run simulations, and analyze conflict outcomes across all five warfare domains.
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