This paper presents an efficient model-order reduction approach for computing fast frequency sweeps of system output sensitivities. The proposed framework allows the use of any projection-based order reduction method and renders the dimension of the reduced model independent of the number of parameters. Moreover, a thorough error analysis is presented which also clarifies the convergence properties of existing methods. A numerical experiment validates the authors' findings
Different strategies suitable to compare the performance of different model order reduction techniqu...
Model reduction is a process of approximating higher order original models by comparatively lower or...
Conventional sensitivity analysis based on model-order reduction techniques guarantee the passivity ...
The calculation of broadband macromodels from large tabulated frequency responses can be computation...
We present a technique for Model Order Reduction (MOR) of frequency-domain problems relying on ratio...
We present a technique for Model Order Reduction (MOR) of frequency-domain problems relying on ratio...
AbstractThis paper examines classical Model Order Reduction (MOR) strategies in view of the particul...
Abstract—The increasing operating frequencies in modern de-signs call for broadband macromodeling te...
With the advent of high speed interconnects, signal integrity issues resulting from incident electr...
International audienceIn this paper, a reduced basis approximation-based model order reduction for f...
This paper addresses issues related to the minimization of the computational burden in terms of both...
A reliable reduced-order model (ROM) for fast frequency sweep in time-harmonic Maxwell’s equations b...
Finite elements methods have long made use of model order reduction (MOR), particularly in the conte...
Model-order reduction provides an efficient way of computing frequency sweeps for finite-element mod...
The present thrust in the electronics industry towards integrating multiple functions on a single ch...
Different strategies suitable to compare the performance of different model order reduction techniqu...
Model reduction is a process of approximating higher order original models by comparatively lower or...
Conventional sensitivity analysis based on model-order reduction techniques guarantee the passivity ...
The calculation of broadband macromodels from large tabulated frequency responses can be computation...
We present a technique for Model Order Reduction (MOR) of frequency-domain problems relying on ratio...
We present a technique for Model Order Reduction (MOR) of frequency-domain problems relying on ratio...
AbstractThis paper examines classical Model Order Reduction (MOR) strategies in view of the particul...
Abstract—The increasing operating frequencies in modern de-signs call for broadband macromodeling te...
With the advent of high speed interconnects, signal integrity issues resulting from incident electr...
International audienceIn this paper, a reduced basis approximation-based model order reduction for f...
This paper addresses issues related to the minimization of the computational burden in terms of both...
A reliable reduced-order model (ROM) for fast frequency sweep in time-harmonic Maxwell’s equations b...
Finite elements methods have long made use of model order reduction (MOR), particularly in the conte...
Model-order reduction provides an efficient way of computing frequency sweeps for finite-element mod...
The present thrust in the electronics industry towards integrating multiple functions on a single ch...
Different strategies suitable to compare the performance of different model order reduction techniqu...
Model reduction is a process of approximating higher order original models by comparatively lower or...
Conventional sensitivity analysis based on model-order reduction techniques guarantee the passivity ...