--- layout: banner title: Applications permalink: /applications/ cardTitle: Topics cardDesc: We tackle a broad set of problems relating to the electromagnetic phenomena, from antennas and propagation, to electromagnetic interference/compatiblity, to wireless communication. --- {: .centerHeading } # Engineering Applications ## Full-Wave Field Solvers for Signal Integrity (SI) and EM Interference (EMI) Analysis of Product-Level Integrated Circuits (ICs) and Electronics Ever-increasing complexity in high-speed electronic devices and systems presents significant computational challenges in numerical analysis in terms of desired accuracy, efficiency, and scalable parallelism. We investigate high-resolution, high-performance full-wave field solvers for scalable electromagnetic simulations of product-level integrated circuits (ICs) and electronics. [Read More](/applications/SIEMI/) ![IEMIMotivation](/assets/images/research/Intra-System-EMIEMC/IEMI-2.png) ## Stochastic Wave Model Statistically Replicating Reverberation Chambers We present a novel physics-oriented statistical representation for complex multipath environments, and develop a hybrid deterministic and stochastic formulation incorporating component-specific features. The advancements lead to a stochastic wave model statistically replicating mode-stirred reverberation chambers, and establish an imperative design-under-chaos capability for electronic devices and systems. The research work is evaluated and validated through representative experiments. [Read More](/applications/reverberation-chamber/) ![RCMotivation](/assets/images/research/RC/IC_COE_Cavity_Result2.png) ## Deterministic and Statistical Modeling of Wireless Channel We present a full-wave field-based computational methodology for radio wave propagation in complex urban environments. Both transmitting/receiving antennas and propagation environments are modeled by first-principles calculations. System-level, large scene analysis is enabled by scalable, ultra-parallel algorithms on emerging high-performance computing platforms. The proposed computational framework is verified and validated with semi-analytical models and representative measurements. [Read More](/applications/statistical-channel/) ![Wireless](/assets/images/research/ABQFullWave.png)