Our technology
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Our co-pilot automatically builds a digital model of your system starting from input documentation (text, technical drawings, audio).
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Our AI platform performs a step-by-step risk analysis following the method of your choice.
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Our AI models produce advanced statistics and reports in various formats to download and share with the project team.
Building
trust with Explainable AI
Our system makes every step transparent, so domain experts stay in control.
The AI clearly explains its decisions, enabling experts to review results, suggest improvements, and refine outcomes. Confidence indexes highlight areas of uncertainty, guiding users to where their input is most valuable.
This collaborative approach ensures greater detail, accuracy, and alignment with domain standards.
Advantages
Engineering costs reduction
Automation of resource intensive tasks
Advanced risk analysis draft delivered within hours
On-demand generation of risk analysis reports
Complexity management
Multimodal input handling (text-based documentation, technical drawings, audio files)
Leverage existing company knowledge and apply it to new projects
One-click updates of the full risk analysis when new relevant information is available
Improve knowledge management
Indefinite retention of organizational knowledge
Collaborative review of risk analysis results with key stakeholders
Support for training of young engineers
Reliability
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Safety
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Hazards
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Performance
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Reliability . Safety . Hazards . Performance .
Users
Non-experts & beginners
Step-by-step guide — no prior expertise needed.
Intuitive visuals to know exactly where to focus.
Recommended risk mitigation measures and follow-ups tacking.
Experts & specialists
Time-consuming risk analysis tasks handled by our co-pilot.
Full transparent and complete oversight of how results are generated.
Steer the model to prioritize areas of interest and apply your domain expertise.
We are domain-agnostic
INDUSTRIAL MACHINERY
Design, manufacturing, and operation of factory and process machinery
Safety Standards e.g: EU: ISO 12100, ISO 13849, IEC 62061, US: ANSI B11, OSHA regulations, Global: IEC 60204-1
DEFENCE
Military equipment, vehicles, weapons systems, operational support
Safety Standards e.g: US: MIL-STD-882E, UK/EU: DEF STAN 00-56, NATO: AOP-15
OIL & GAS
Exploration, drilling, production, transportation, refining of oil and gas.
Safety Standards e.g: EU/Global: ISO 17776, IEC 61511, US: API RP 754, OSHA PSM (29 CFR 1910.119)
AEROSPACE/AVIONICS
Aircraft, spacecraft, complex avionics systems
Safety Standards e.g US: ARP4761, DO-178C (software), DO-254 (hardware), FAA FAR 25, EU: EASA CS-25, EASA Part 21
CIVIL ENGINEERING
Design, construction, and maintenance of infrastructure (bridges, buildings, tunnels, dams, roads)
Safety Standards e.g EU: Eurocodes (EN 1990–1999), US: ASCE/SEI 7, International Building Code (IBC), Global: ISO 2394
RAILWAYS
Train systems, rail infrastructure, signaling and control
Safety Standards e.g: EU: CENELEC EN 50126, EN 50128, EN 50129, US: FRA regulations, APTA guidelines, Global: IEC 62278
ENERGY
Power generation (non-nuclear), transmission, distribution, and grid systems
Safety Standards e.g: EU: ENTSO-E Operational Handbook, US: NERC CIP, NFPA 70E, Global: IEC 62443 (industrial automation cybersecurity)
NUCLEAR
Power generation/operations with radioactive materials
Safety Standards e.g: Global: IAEA SSR-2/1, IEC 61513, EU: WENRA, EURATOM directives, US: NRC 10 CFR 50/52
AUTOMOTIVE
Vehicle design, manufacturing, operation
Safety Standards e.g.: EU/Global: ISO 26262, US: FMVSS, NHTSA guidelines

