Our built-in Finite Element Analysis engine is fully integrated and easy to use:

1. Load your 3D CAD Model and use our built-in model mesh generator. Alternatively, you can upload mesh files directly from third-party platforms (COMSOL, Ansys, Gmsh, etc.).

2. Configure materials, heat sources, and boundary conditions. These can be set as constant, space-dependent, or temperature-dependent.

3. Create a custom mathematical expression to define complex dependencies or to apply scalar/vector fields.

4. One click to simulate steady-state or frequency-domain conditions.

5. Visualize a full 3D thermal solution in seconds, even for complex component geometries.

- Large, complex full-order models→Our MOR engine condenses millions of equations into a handful, creating compact and efficient reduced models.

- Complex multiphysics behavior→The reduced models capture advanced effects such as advection, radiation, nonlinearities, and temperature dependencies defined by the user.

- Inaccurate simulation→The MOR framework preserves the essential physics of full-order simulations, ensuring reliable, high-fidelity results.

- Difficulty to evaluate model accuracy→Model accuracy is validated at both the geometry and frequency levels for dependable performance across conditions.

- Time-consuming thermal modeling→The MOR approach enables scalable, real-time thermal simulations for precise temperature monitoring and optimized current derating.