Trusted by global manufacturing leaders.
Engineering intelligence, on your terms.
Enable the AI‑native product lifecycle to accelerate design, reduce simulation bottlenecks, and drive continuously optimized asset control without sacrificing IP or compliance.
Put AI at the heart of the industrial engineering lifecycle.
Combine physics AI and engineering data intelligence in a continuous loop that improves real-world performance over time.
Bring CAD, PLM, and engineering documentation into a unified context. Teams can generate, iterate, and evaluate more design options within defined engineering constraints using your industrial knowledge. Test more variants faster, catch requirement conflicts earlier, and capture knowledge for reuse across programs.

Add physics AI models to your simulation workflows—from CFD and structural FEM to coupled multi-physics—to reduce iteration time and compute cost. Accelerate FMEA, test planning, and simulation analysis to surface risks earlier, streamline compliance evidence, and shorten the path to certification and launch.

Connect engineering intent to execution across CAD, CAM, planning, and shop‑floor systems. Make faster, better‑grounded decisions when constraints shift, support operators with AI assistants, and improve stability across complex processes.

Bring inspection, sensor, operational, and in-field performance data into a continuous feedback system. Detect anomalies, identify root causes, and feed insights back across design, validation, and production—while enabling predictive maintenance and higher-uptime service models.





Mission-critical AI in practice.
Built to accelerate the next generation of industrial innovation.
Deploy and scale AI systems that understand your engineering data, coordinate complex workflows, and run on private infrastructure built for mission-critical product development.
NeuralWing.
Modify wing geometry to maximize aerodynamic efficiency.
NeuralMould.
Simulate injection moulding across geometries and materials.





