International audience—This paper deals with uncertainty propagation applied to the analysis of crosstalk in printed circuit board microstrip traces. Complex interconnection networks generally are affected by many uncertain parameters and their point-to-point transfer functions are computationally expensive, thus making Monte-Carlo analyses rather inefficient. To overcome this situation, a metamodel is highly desirable. This paper presents a sparse and accelerated polynomial chaos approach, which proves to be well adapted for high-dimensional uncertainty quantification and well suited for the sensitivity analysis of crosstalk effects. We highlight the significant advantage of the advocated approach for the design of microstrip line networks...
This paper presents an effective solution for the transient analysis of long bus-like interconnects ...
This paper presents an improvement of the state-of-the-art polynomial chaos (PC) modeling of high-sp...
This paper focuses on the derivation of enhanced transmission-line models allowing to describe, in t...
International audience—This paper deals with uncertainty propagation applied to the analysis of cros...
This paper deals with uncertainty propagation applied to the analysis of crosstalk in printed circui...
This paper presents a metamodel based on the sparse polynomial chaos approach, well adapted to high ...
International audienceIn this paper, we adopt the so-called sparse polynomial chaos metamodel for th...
This paper presents an alternative modeling strategy for the stochastic analysis of high-speed inter...
International audienceThis communication deals with the uncertainty quantification in high dimension...
This paper addresses the generation of an enhanced transmission line model for the transient analysi...
Variations in material properties, boundary conditions, or the geometry can be expected in most elec...
Abstract—This paper presents an effective solution for the analysis of long PCB interconnects with t...
In this paper, a numerical technique for the computation of polynomial chaos expansion coefficients ...
This paper presents an effective solution for the transient analysis of long bus-like interconnects ...
This paper presents an improvement of the state-of-the-art polynomial chaos (PC) modeling of high-sp...
This paper focuses on the derivation of enhanced transmission-line models allowing to describe, in t...
International audience—This paper deals with uncertainty propagation applied to the analysis of cros...
This paper deals with uncertainty propagation applied to the analysis of crosstalk in printed circui...
This paper presents a metamodel based on the sparse polynomial chaos approach, well adapted to high ...
International audienceIn this paper, we adopt the so-called sparse polynomial chaos metamodel for th...
This paper presents an alternative modeling strategy for the stochastic analysis of high-speed inter...
International audienceThis communication deals with the uncertainty quantification in high dimension...
This paper addresses the generation of an enhanced transmission line model for the transient analysi...
Variations in material properties, boundary conditions, or the geometry can be expected in most elec...
Abstract—This paper presents an effective solution for the analysis of long PCB interconnects with t...
In this paper, a numerical technique for the computation of polynomial chaos expansion coefficients ...
This paper presents an effective solution for the transient analysis of long bus-like interconnects ...
This paper presents an improvement of the state-of-the-art polynomial chaos (PC) modeling of high-sp...
This paper focuses on the derivation of enhanced transmission-line models allowing to describe, in t...