LiveLink™ for AutoCAD®

LiveLink™ for the AutoCAD® CAD system allows you to transfer a 3D geometry from AutoCAD® to COMSOL Multiphysics. The synchronized geometry in the COMSOL model stays associative with the geometry in AutoCAD. This means that settings applied to the geometry, like physics or mesh settings, are retained after subsequent synchronizations. The LiveLink interface is also bidirectional to allow you to initiate a change of the AutoCAD geometry from the COMSOL model. <br><br>All LiveLink for CAD products include all the capabilities of the CAD Import Module. This lets you import and defeature files from all major CAD packages.
LiveLink™ for the AutoCAD® CAD system allows you to transfer a 3D geometry from AutoCAD® to COMSOL Multiphysics. The synchronized geometry in the COMSOL model stays associative with the geometry in AutoCAD. This means that settings applied to the geometry, like physics or mesh settings, are retained after subsequent synchronizations. The LiveLink interface is also bidirectional to allow you to initiate a change of the AutoCAD geometry from the COMSOL model. <br><br>All LiveLink for CAD products include all the capabilities of the CAD Import Module. This lets you import and defeature files from all major CAD packages.
LiveLink™ for the AutoCAD® CAD system allows you to transfer a 3D geometry from AutoCAD® to COMSOL Multiphysics. The synchronized geometry in the COMSOL model stays associative with the geometry in AutoCAD. This means that settings applied to the geometry, like physics or mesh settings, are retained after subsequent synchronizations. The LiveLink interface is also bidirectional to allow you to initiate a change of the AutoCAD geometry from the COMSOL model.

All LiveLink for CAD products include all the capabilities of the CAD Import Module. This lets you import and defeature files from all major CAD packages.
  • ACDC Module for Computational Electromagnetics Modeling

    E-Core Transformer

    The AC/DC Module is used for simulating electric, magnetic, and electromagnetic fields in static and low-frequency applications. Typical applications include capacitors, inductors, insulators, coils, motors, actuators, and sensors, with dedicated tools for extracting parameters such as resistance, capacitance, inductance, impedance, force, and torque...

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