The seamless integration of the solvers into one user interface in CST Studio Suite enables the easy selection of the most appropriate simulation method for a given problem class, delivering improved simulation performance and unprecedented simulation reliability through cross-verification. Alongside these are simulation methods available for charged particle dynamics, electronics, and multiphysics problems. These represent the most powerful general purpose solvers for high frequency simulation tasks.Īdditional solvers for specialist high frequency applications such as electrically large or highly resonant structures complement the general purpose solvers.ĬST Studio Suite includes FEM solvers dedicated to static and low frequency applications such as electromechanical devices, transformers or sensors.
CST Studio Suite® gives customers access to multiple electromagnetic (EM) simulation solvers which use methods such as the finite element method ( FEM) the finite integration technique (FIT), and the transmission line matrix method (TLM). Classic applications of the CST Studio Suite ® include simulating and optimizing individual components in high- and maximum-frequency segments (Microwaves and RF/Optical), analyzing PCBs (EDA/Electronics), examining EM compatibility and interference (EMC/EMI) of systems and PCBs, and optimizing electric motors or sensors (Statics/Low Frequency). which has promising applications in multifunctional stealth fields.