COSMOSEMS™ provides the following Features and Benefits:

• An Award-Winning Interface Gives Unparalleled Flexibility and Ease of Use. Through its COSMOSDesignSTAR interface, COSMOSEMS can work with all popular 3D CAD programs giving you full associativity with Autodesk Inventor, Solid Edge and SolidWorks, and allowing you seamless integration of your models without the need to reimport the data with each design modification.
• Multiple Studies Capability. With the ability of defining and carrying out multiple studies, COSMOSEMS gives you the easiest means to conduct your design experiments and what-if scenarios from within a single viewer.
• Electrostatic. The Electrostatic module computes the voltages and electric fields due to voltage and charge excitations for multiple conductors and dielectrics structures. The capacitance matrix and the electrostatic force are deduced from the primary calculations.
• Electric Conduction. The Electric Conduction module computes the voltages and electric fields due to voltage excitations for multiple conducting regions. The electric current density, the resistance, and the power loss are deduced from the primary calculations.
• Magnetostatic. The Magnetostatic module, linear and non-linear, computes magnetic fields due to permanent magnets, steady DC electric currents, and applied voltages. This type of analysis does not consider time-dependent effects such as eddy currents. The inductance, force, torque, and flux linkage are deduced from the primary calculations.
• AC Magnetic. The AC Magnetic module calculates the effects of alternating currents (AC) or voltages in electromagnetic devices. These effects include eddy currents, skin effects, and power loss due to eddy currents. The magnetic field, magnetic flux density, and eddy currents are directly computed from the solution. Auxiliary quantities such as inductance, force, torque, flux linkage, and eddy current losses are deduced from the primary calculations.
• Transient Magnetic. The Transient Magnetic module calculates magnetic fields that vary over time in electromagnetic devices. These fields are typically caused by surges in voltages and currents. This type of analysis can be linear or non-linear. The magnetic field, magnetic flux density, and eddy currents are directly computed from the solution. Auxiliary quantities such as inductance, force, torque, flux linkage, and eddy current losses are deduced from the primary calculations.