This paper presents a unique modeling framework able to describe general linear and passive systems depending on deterministic and stochastic parameters altogether. Once the stochastic macromodel is built, the variability analysis of the system under study can be accurately performed both in the frequency- and time-domain for any nominal value of the parameters considered in a suitable design space
oai:ojs.aemjournal.org:article/6This paper focuses on the derivation of enhanced transmission-line m...
This paper provides and compares two alternative solutions for the simulation of cables and intercon...
To enable an efficient stochastic-based design optimization methodology for multi-scale structures o...
This paper presents a unique modeling framework able to describe general linear and passive systems ...
In this paper, a stochastic modeling approach is proposed for time-domain variability analysis of ge...
We present a novel technique to efficiently perform the variability analysis of electromagnetic syst...
A hierarchical stochastic macromodeling approach is proposed for the efficient variability analysis ...
A novel approach is presented to perform stochastic variability analysis of nonlinear systems. The v...
We present a novel technique to perform variability analysis of multiport systems. The versatility o...
In this paper, a new approach for the time-domain variability analysis of general linear systems ter...
Abstract—A novel approach is presented to perform stochastic variability analysis of nonlinear syste...
This paper introduces the use of a rational polynomial chaos expansions (PCE) for the stochastic mac...
This paper addresses the simulation of the effects on a high-speed data link of external factors due...
This paper presents a comprehensive and modular modeling framework for stochastic signal integrity a...
We present a novel technique to perform the model-order reduction (MOR) of multiport systems under t...
oai:ojs.aemjournal.org:article/6This paper focuses on the derivation of enhanced transmission-line m...
This paper provides and compares two alternative solutions for the simulation of cables and intercon...
To enable an efficient stochastic-based design optimization methodology for multi-scale structures o...
This paper presents a unique modeling framework able to describe general linear and passive systems ...
In this paper, a stochastic modeling approach is proposed for time-domain variability analysis of ge...
We present a novel technique to efficiently perform the variability analysis of electromagnetic syst...
A hierarchical stochastic macromodeling approach is proposed for the efficient variability analysis ...
A novel approach is presented to perform stochastic variability analysis of nonlinear systems. The v...
We present a novel technique to perform variability analysis of multiport systems. The versatility o...
In this paper, a new approach for the time-domain variability analysis of general linear systems ter...
Abstract—A novel approach is presented to perform stochastic variability analysis of nonlinear syste...
This paper introduces the use of a rational polynomial chaos expansions (PCE) for the stochastic mac...
This paper addresses the simulation of the effects on a high-speed data link of external factors due...
This paper presents a comprehensive and modular modeling framework for stochastic signal integrity a...
We present a novel technique to perform the model-order reduction (MOR) of multiport systems under t...
oai:ojs.aemjournal.org:article/6This paper focuses on the derivation of enhanced transmission-line m...
This paper provides and compares two alternative solutions for the simulation of cables and intercon...
To enable an efficient stochastic-based design optimization methodology for multi-scale structures o...