As speed and density of electronic systems continue to increase, uncertainties are becoming significant factors in system performance. This thesis provides an overview of stochastic numerical techniques in the context of electronic package modeling for signal integrity analysis. Examples are provided to demonstrate the efficiency and accuracy of the Stochastic Collocation method, and its application in computer system design optimization. A stochastic Finite Element Method electromagnetic solver is also implemented using Stochastic Collocation to study waveguides with geometric uncertainties
The file attached to this record is the author's final peer reviewed version. The Publisher's final ...
The paper deals with the uncertainty quantification of the transient axial current induced along the...
To quantify waveguide dispersion uncertainty, we propose a stochastic analysis technique based on th...
As speed and density of electronic systems continue to increase, uncertainties are becoming signific...
This thesis presents methodologies for the efficient assessment of the impact of statistical variabi...
This thesis presents a set of tools and methodologies that perform fast stochastic characterization ...
The paper reviews the application of deterministic-stochastic models in some areas of computational ...
The tremendous development of digital computers in the last decades has provided continuous improvem...
The stochastic computation of electromagnetic (EM) problems is a relatively new topic, yet very impo...
Abstract—A fast and parallel Stroud-based stochastic collocation method for statistically characteri...
The objective of electromagnetic compatibility (EMC) is to ensure the peaceful coexistence and the p...
This paper gives an overview of some stochastic optimization strategies, namely, evolution strategie...
The impact of fabrication uncertainties such as random variations in material properties of the medi...
Computational Electromagnetics (CEM) involves the process of modeling the interaction of elec...
Device optimization using metaheuristic methods has been successfully applied to electromagnetic dev...
The file attached to this record is the author's final peer reviewed version. The Publisher's final ...
The paper deals with the uncertainty quantification of the transient axial current induced along the...
To quantify waveguide dispersion uncertainty, we propose a stochastic analysis technique based on th...
As speed and density of electronic systems continue to increase, uncertainties are becoming signific...
This thesis presents methodologies for the efficient assessment of the impact of statistical variabi...
This thesis presents a set of tools and methodologies that perform fast stochastic characterization ...
The paper reviews the application of deterministic-stochastic models in some areas of computational ...
The tremendous development of digital computers in the last decades has provided continuous improvem...
The stochastic computation of electromagnetic (EM) problems is a relatively new topic, yet very impo...
Abstract—A fast and parallel Stroud-based stochastic collocation method for statistically characteri...
The objective of electromagnetic compatibility (EMC) is to ensure the peaceful coexistence and the p...
This paper gives an overview of some stochastic optimization strategies, namely, evolution strategie...
The impact of fabrication uncertainties such as random variations in material properties of the medi...
Computational Electromagnetics (CEM) involves the process of modeling the interaction of elec...
Device optimization using metaheuristic methods has been successfully applied to electromagnetic dev...
The file attached to this record is the author's final peer reviewed version. The Publisher's final ...
The paper deals with the uncertainty quantification of the transient axial current induced along the...
To quantify waveguide dispersion uncertainty, we propose a stochastic analysis technique based on th...