This paper presents a new approach to statistically characterize the variability of the steady-state analysis which results due to uncertainty in the design parameters. The new approach is based on the concept of Polynomial Chaos (PC). However, unlike the traditional PC, the proposed approach adopts a new mathematical formulation that decouples the PC problem into several problems with smaller size that can be analyzed much more efficiently
Electromagnetic (EM) structures such as antennas, resonators, are widely used in EM communication sy...
© 2017 Euraap. Electromagnetic (EM) structures such as antennas, resonators, are widely used in EM c...
Advances in manufacturing process technology are key ensembles for the production of integrated circ...
A circuit simulation methodology is presented that allows an efficient statistical assessment of mic...
This paper presents a new approach to statistically characterize the variability of intermodulation ...
One of the major tasks in electronic circuit design is the ability to predict the performance of gen...
This paper presents a new approach aimed at limiting the growth of the computational cost of variabi...
This letter proposes a general and effective decoupled technique for the stochastic simulation of no...
This paper provides an overview of the polynomial chaos (PC) technique applied to the statistical an...
This paper proposes an exact formalism for the inclusion of nonlinear elements with polynomial I-V c...
This communication deals with the uncertainty quantification in high dimensional problems. It introd...
A general method for the analysis of pre-chaotic and chaotic behaviours in lumped-distributed circui...
This letter proposes a general and effective decoupled technique for the stochastic simulation of no...
This paper delivers a considerable improvement in the framework of the statistical simulation of hig...
This paper describes a new approach to extend the variability analysis based on the polynomial chaos...
Electromagnetic (EM) structures such as antennas, resonators, are widely used in EM communication sy...
© 2017 Euraap. Electromagnetic (EM) structures such as antennas, resonators, are widely used in EM c...
Advances in manufacturing process technology are key ensembles for the production of integrated circ...
A circuit simulation methodology is presented that allows an efficient statistical assessment of mic...
This paper presents a new approach to statistically characterize the variability of intermodulation ...
One of the major tasks in electronic circuit design is the ability to predict the performance of gen...
This paper presents a new approach aimed at limiting the growth of the computational cost of variabi...
This letter proposes a general and effective decoupled technique for the stochastic simulation of no...
This paper provides an overview of the polynomial chaos (PC) technique applied to the statistical an...
This paper proposes an exact formalism for the inclusion of nonlinear elements with polynomial I-V c...
This communication deals with the uncertainty quantification in high dimensional problems. It introd...
A general method for the analysis of pre-chaotic and chaotic behaviours in lumped-distributed circui...
This letter proposes a general and effective decoupled technique for the stochastic simulation of no...
This paper delivers a considerable improvement in the framework of the statistical simulation of hig...
This paper describes a new approach to extend the variability analysis based on the polynomial chaos...
Electromagnetic (EM) structures such as antennas, resonators, are widely used in EM communication sy...
© 2017 Euraap. Electromagnetic (EM) structures such as antennas, resonators, are widely used in EM c...
Advances in manufacturing process technology are key ensembles for the production of integrated circ...