Products
Informed risk assessment products for manmade and natural catastrophes, leveraging state of the art analytics at your fingertips
// Products
blastFoam
Multi-component compressible flow solver
blastFoam is Synthetik’s advanced OpenFOAM-based solver, specifically developed for modeling explosive events and blast phenomena. Designed to deliver accurate predictions of shock wave propagation, detonation behavior, and structural interactions, blastFoam leverages high-performance computing techniques, ensuring rapid and robust solutions. Validated extensively against experimental data, blastFoam empowers defense, civil engineering, and security sectors with precise insights, enhancing design safety, risk assessment, and mitigation strategies for explosive and high-impact scenarios.
blastCFD
Multi-component compressible flow solver for explosive & high-energy events
blastCFD provides comprehensive, GPU-accelerated computational modeling capabilities tailored explicitly for explosive events, shock interactions, and high-energy scenarios. Developed to meet the demands of complex defense and industrial applications, blastCFD combines state-of-the-art numerical methods, accuracy, and unprecedented computational efficiency, enabling precise structural response predictions and damage assessment. Trusted and extensively validated, blastCFD delivers actionable insights and accelerates decision-making for clients requiring critical analyses in explosive threat management and mitigation.
SynthShock
GPU-accelerated CFD solver for hypersonic flow simulations
SynthShock is Synthetik’s revolutionary GPU-accelerated computational fluid dynamics solver engineered specifically for hypersonic flow simulations. Delivering exceptional speed and high-fidelity results, SynthShock accurately captures aerodynamic forces, heat transfer, and flow interactions encountered during hypersonic flight. Its advanced numerical modeling capabilities significantly accelerate vehicle design and performance validation, reducing development timelines and enhancing reliability for hypersonic vehicles. SynthShock provides industry-leading computational performance, setting new benchmarks in aerodynamic analysis for aerospace and defense applications.
Segmentastic
Efficient + scalable 3D data annotation
Segmentastic delivers efficient, scalable 3D data annotation by seamlessly integrating advanced machine-assisted techniques with human expertise. This powerful platform rapidly generates precise annotations—semantic voxel masks, bounding boxes, and object labels—with customizable accuracy thresholds. Validated by the Department of Homeland Security for sensitive data handling, Segmentastic significantly accelerates data labeling workflows, reduces annotation costs, and enhances accuracy, empowering industries such as aviation security, healthcare, and e-commerce with high-quality annotated datasets to drive innovation
Insurance Analytics
Next-generation web-based risk analysis tools
Synthetik Insurance Technologies delivers next-generation web‑based modeling tools—such as srccQuantum, AnyBuildingRisk, and CityScape—to empower insurers and brokers with accurate, physics-informed catastrophe risk analysis. From probabilistic SRCC and terrorism exposure modeling to urban-scale blast risk analytics via CityScape (powered by blastFoam), our tools rapidly generate property-level probable maximum loss assessments and per‑scenario damage forecasts. Backed by defense-grade validation and seamless integration, Synthetik enables precise, and scalable exposure quantification workflows.
GeoSynth
Accelerated seismic insights through physics-informed AI and waveform inversion
Synthetik’s advanced seismic analytics technology leverages Physics-informed Neural Networks (PINNs) to accelerate and enhance subterranean mapping, full waveform inversion, and seismic data interpretation. By embedding governing physical equations directly within neural models, our solution significantly reduces computational expense, improves accuracy, and delivers rapid subsurface insights. Ideal for complex seismic exploration challenges in defense, energy, and infrastructure, our PINN-driven approach provides superior speed, precision, and cost-effectiveness compared to traditional seismic processing techniques.
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