Online simulation software for industrial automation

Create digital prototypes of industrial machines, robots and systems

Test control logic and discover potential issues before they arise

Optimize design for increased throughput and reduced costs

Online Simulation Platform

Our next-generation online industrial simulation software runs entirely inside your web browser. Simulate dynamic digital twins of industrial robots, machines and large-scale systems in real-time.
High Performance
Our multi-threaded simulation engine delivers better performance than the most advanced native applications. Simulate models in real-time with over 100K moving objects and 10K dynamic rigid bodies.
Configurable Fidelity
Simulate with greater precision by creating custom physics colliders, increasing the simulation frequency and fine-tuning solver settings. We strive to give you complete control when you need it.
Deterministic Models
Run your model many times with the same initial conditions and the result will be identical. Your simulations are deterministic by default, even across reset events, different web browsers and operating systems.
Simplified Scripting
The integrated scripting environment supports code auto-completion and IntelliSense. Type and syntax errors are detected. Built-in types, functions and properties are intuitive and fully documented.

Simulation Workflow

You have the CAD, now you can bring it to life with ProtoTwin. Creating dynamic physics-based simulations couldn't be easier. No long and costly training courses required!
1

Import CAD

Import your CAD and 3D assets directly from Onshape or by uploading GLTF files.
2

Add Components

Assign built-in behaviours to parts and assemblies at the click of a button.
3

Script Control Logic

Effortlessly implement scripted behaviour directly inside our integrated environment.

Collect & Analyze Results

Reduce risk by proving designs, testing control logic and measuring performance long before your machine is deployed. Discover issues and test potential solutions.
4

Test Control Logic

Prove viability and validate control logic before building physical prototypes.
5

Identify Issues Early

Discover potential issues before they arise on site and design them out.
6

Record Key Metrics

Measure throughput and cycle times. Find bottlenecks and compare designs.

Optimize Performance

Iterate on your designs to improve robustness, eliminate bottlenecks, increase throughput and reduce costs. Once deployed, your simulation model serves as a dynamic digital twin.
7

"What-If" Scenarios

Explore different scenarios to uncover how your design behaves.
8

Increase Throughput

Find ways to increase throughput by iterating on your designs.
9

Reduce Costs

Identify opportunities for capital and operating cost savings.