Customers trust us





Our 3D Digital Products

Foundry
3D Digital Twin of industrial facilities for remote monitoring, optimization and virtual training of workers.

Fitcare
3D Digital Twin of athletes for virtual training, increased performance and improved skills for competition.

FlashCity
3D Digital Twin of a city for urban planning, virtual tour and virtual training of emergency first responders.
3D Digital Twin
Know more about your platform
Design
– 3D laser plant scan.
– Interior walkthrough in 3D.
Animation
– 3D real time animation of production line.
Monitoring
– Detect root cause of production problems.
Optimization
– Plant and process simulation.
Workers
– Ergonomic motion analysis.
Training
– Worker virtual training with VR.
A few things we’re great at
Gamification of production
Easily run production improvement scenarios.
Accuracy
Precise 3D model of plant enables high fidelity optimization.
No capital expenditure
Monthly subscription model.
Fast learning
Accelerated virtual training to plant workers.
Teleworking
Remotely monitor and solve production problems.
Security
Receives sensor data only. Disconnected from all industrial control systems.
Industries we serve

Automotive

Aerospace

Energy

Construction

Home Appliances

Biomedical
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Latest News
What distinguishes Infinite Foundry from competition?
Infinite Foundry uses 3D digital twin technology, which means it scans the facility to get a precise 3D model. From the 3D model it is possible to assist the real time[…]
Read moreDo we do outdoor environments?
Yes, in that case we scan the outdoor environments with the laser scanner mounted on a drone or a car.
Read moreWhat do we really sell? A service or a software?
Infinite Foundry sells a software that processes the data from laser scan to obtain a 3D model of the building and the and production equipment. This 3D model is animated[…]
Read moreContact us
Want to know how our platform can turn your plant more productive and collaborative? Get in touch with us today!
Supported by







This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement Nº 878051