Computational Electromagnetics (CE)

Modelling and parameter extraction
Discretization and solution methods (FDTD, FIT, FEM, BEM, FDS, TLM, PEEC)
Applications (antennas, microwave, interconnects and on-chip passive structures)

Circuit Simulation and Design (CS)

Modeling and numerical integration techniques
TCAD/EDA tools and techniques
Applications (radio frequency, power electronics, optical networks)

Coupled Problems and Modeling (CP)

Field-circuit coupled problems
Multi-physics (substrate coupling, coupling with electrical, thermal and mechanical problems)
Hybrid modeling: coupling physics-based models with data-driven models or machine learning
Application (co-simulation, electromagnetic compatibility, biomedical engineering)

Mathematical and Computational Methods (CM)

Model order reduction
Inverse problems and optimization
Multi-scale schemes
Differential-Algebraic Equations (DAEs)
High Performance Computing (HPC)
Artificial intelligence (AI)
Machine Learning (ML)
Neural Networks
Combined model-based and data-based modeling

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