Transient solver: The Transient solver is based on the Finite Integration Technique (FIT). and can obtain the entire broadband frequency behavior of the simulated device from a single calculation run. These solvers are remarkably efficient for most high frequency applications such as connectors, transmission lines, filters, antennas etc. Two time domain solvers are available, both based on hexahedral meshes. See Also High Frequency Simulation CST Studio Suite currently offers different kinds of high frequency solver modules. Please refer to the separate solver overview pages of the different solvers to learn more about each solver technology and accuracy. The performance of global optimizers in particular can be greatly improved with the use of distributed computing.Which Solver To Use Which Solver To Use In the following you find a short overview over the different solvers available in CST Studio Suite ® as well as general hints and an accuracy discussion. High-performance computing techniques can be used to speed up simulation and optimization for very complex systems, or problems with large numbers of variables. On the other hand, global optimizers search the entire problem space but typically require more calculations. Local optimizers provide fast convergence but risk converging to a local minimum rather than the overall best solution. They can also adapt material properties to fit measured data.ĬST Studio Suite contains several automatic optimization algorithms, both local and global. Users can find the optimum design parameters to achieve a given effect or fulfill a certain goal. This enables users to study the behavior of a device as its properties change. CST Studio Suite models can be parameterized with respect to their geometrical dimensions or material properties. CST Studio Suite® offers automatic optimization routines for electromagnetic systems and devices.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |