Our modelling engine runs directly inside your web browser.
Import native CAD geometry using the STEP format, supported by virtually all CAD software.
Zoom, pan and rotate using familiar camera controls. Use the view cube to align perfectly with any principal axis. Configure the up-axis through the settings.
Select solid volumes or surfaces to easily configure boundary conditions. Modify or remove existing boundary conditions through the project explorer.
Our powerful cloud-based infrastructure is used to execute your meshing and solving requests.
Generate tetrahedral meshes directly from the source CAD geometry. Configure the desired number of elements for finer or coarser fidelity. Select between multiple different 3D meshing algroithms.
Large model can be solved quickly and efficiently using our cloud computing platform. Frequent users may benefit from one of our plans.
Our intelligent estimator uses machine learning to predict the total running time and peak memory consumption. This allows us to automatically select the most appropriate hardware for each simulation.
Write scripts inside our web-based editor. We provide a simple but powerful TypeScript API, allowing users to automate repetitive tasks.
Save and load files in the SLAB format.
Create your own tools and scripts to automate tasks by modifying the project JSON file.
Analyze results through our intuitive interface.
Immediately view the full range of results through the simulation legend.
Cross sections through the mesh allow you to view internal displacements, stresses and strains.
Save a high-quality image of your results.
Apply materials, constraints, forces and pressures.
Choose any material from our standard library or create your own custom materials. Configure properties such as youngs modulus, yield strength, poisson ratio and density. Visually identify existing material assignments.
Apply displacement constraints. Restrain motion in one, two or three directions.
Apply body and surface forces, pressures or add a global gravitational field.
Select between several different result types:
Animate and slice the mesh to understand deformations and optimize designs.