SesQ applies surface discretization and a semi-analytical multilayer Green's function to calculate EPR in qubits with roughly 100x faster capacitance extraction and higher precision than volumetric FEM.
Coplanar waveguides for mmic applications: effect of upper shielding, conductor backing, finite-extent ground planes, and line-to-line coupling
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SesQ: A Surface Electrostatic Simulator for Precise Energy Participation Ratio Simulation in Superconducting Qubits
SesQ applies surface discretization and a semi-analytical multilayer Green's function to calculate EPR in qubits with roughly 100x faster capacitance extraction and higher precision than volumetric FEM.