This paper presents a metamodel based on the sparse polynomial chaos approach, well adapted to high dimensional uncertainty quantification problems, applied for the analysis of crosstalk in printed circuit board microstrip traces. It enables to estimate, with a low computational cost compared to Monte Carlo (MC) simulation, statistical quantities and provides a sensitivity analysis of the crosstalk effects considering numerous uncertain variables. The approach is validated against MC simulation and shows a good efficiency and accuracy
Advances in manufacturing process technology are key ensembles for the production of integrated circ...
Polynomial chaos (PC)-based techniques recently became popular alternatives for the stochastic analy...
In this paper, a numerical technique for the computation of polynomial chaos expansion coefficients ...
This paper presents a metamodel based on the sparse polynomial chaos approach, well adapted to high ...
This paper deals with uncertainty propagation applied to the analysis of crosstalk in printed circui...
International audience—This paper deals with uncertainty propagation applied to the analysis of cros...
In this paper, we adopt the so-called sparse polynomial chaos metamodel for the uncertainty quantifi...
International audienceThis communication deals with the uncertainty quantification in high dimension...
Advances in manufacturing process technology are key ensembles for the production of integrated circ...
This paper presents an effective solution for the analysis of long PCB interconnects with the inclus...
In the process of design and fabrication of electronic products, numerical simulation plays a fundam...
This paper addresses the generation of an enhanced transmission line model for the transient analysi...
Advances in manufacturing process technology are key ensembles for the production of integrated circ...
Polynomial chaos (PC)-based techniques recently became popular alternatives for the stochastic analy...
In this paper, a numerical technique for the computation of polynomial chaos expansion coefficients ...
This paper presents a metamodel based on the sparse polynomial chaos approach, well adapted to high ...
This paper deals with uncertainty propagation applied to the analysis of crosstalk in printed circui...
International audience—This paper deals with uncertainty propagation applied to the analysis of cros...
In this paper, we adopt the so-called sparse polynomial chaos metamodel for the uncertainty quantifi...
International audienceThis communication deals with the uncertainty quantification in high dimension...
Advances in manufacturing process technology are key ensembles for the production of integrated circ...
This paper presents an effective solution for the analysis of long PCB interconnects with the inclus...
In the process of design and fabrication of electronic products, numerical simulation plays a fundam...
This paper addresses the generation of an enhanced transmission line model for the transient analysi...
Advances in manufacturing process technology are key ensembles for the production of integrated circ...
Polynomial chaos (PC)-based techniques recently became popular alternatives for the stochastic analy...
In this paper, a numerical technique for the computation of polynomial chaos expansion coefficients ...