Model Reduction Inside Ansys

MODEL REDUCTION INSIDE ANSYS

MODEL REDUCTION FOR FASTER CALCULATIONS

SCALABLE REDUCTION OF COMPLEX 3D FEM MODELS WITH MODEL REDUCTION INSIDE ANSYS

The intricate details needed to be considered for analyzing complex Finite Element Analysis (FEA) models is crucial for ensuring the precision representation of the components. To achieve effective dynamic and system level simulations, model reduction represents the leading approach. By utilizing model reduction within Ansys, it is possible to decrease the number of degrees of freedom, thereby making multiphysics system simulations more practical.

FEATURES

Shortened development time through Model Reduction

Coupling of reduced order models at system level with creation of model libraries and automatic generating procedures. Model simplification via Model Reduction inside Ansys is suitable for optimization strategies in component development as well as for integrating compact models into an overall system simulation in the fields of electronics, automotive or microsystems. Despite reduction, the examination parameters are retained, which means fast results can be achieved with regards to designs and system simulations.

Efficient Methods for Automatic Model Generation

Simplify complex simulations with Krylov-based model order reduction, enabling large-scale models with millions of degrees of freedom to be reduced to compact, efficient forms with just hundreds of degrees of freedom. These reduced-order models integrate seamlessly into system simulations such as Ansys Twin Builder or MATLAB/Simulink and can be exported in VHDL-AMS or Spice formats for advanced electronic analysis. Ideal for thermomechanical, thermoelectric, or piezoelectric scenarios, this method allows linear models from Ansys Mechanical to be transferred into Model Reduction inside Ansys, ensuring efficient performance without compromising accuracy.

ติดต่อทีมผู้เชี่ยวชาญ

ด้านการขายและการตลาด

Visidh Anantakulnadhee

A brand of the CADFEM Group

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