* Surface Method of Moments (SMOM) with Adaptive Integration Equation (AIM) accelerator
* Finite Difference (FD) method solution of electrostatic and magnetostatic Laplace/Poisson equations
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The table below compares [[EM.Cube]]'s computational modules and its simulation engines with regards to modeling accuracy, frequency limitations and the type of numerical solution they offer:
| style="width:270px;" | Electric and magnetic currents on surfaces or wires
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The table below compares [[EM.Cube]]'s computational modules with regards to their computational domain type, boundary conditions, mesh type and solver type:
| style="width:140px;" | Wire & surface solvers
|}
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The table below compares [[EM.Cube]]'s computational modules with regards to their material variety, excitation source type and lumped device type:
| style="width:270px;" | Simple passive RLC lumped elements
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The table below compares [[EM.Cube]]'s computational modules with regards to their observable types and the general types of applications they are suitable for: