Add to ORKGWe address the generation of broadband macromodels of complex linear systems via rational curve fitting. We show that standard approaches may not ensure that the macromodel accuracy is preserved in system-level simulations, under loading conditions that are different from the adopted identification settings. Our main contribution is an automated procedure for the definition of a frequency-dependent norm weighting strategy that tunes the macromodel accuracy for a specific nominal termination network, thus improving model robustness under realistic operatio
This paper presents a comprehensive strategy for fast generation of passive macromodels of linear de...
The so-called Loewner framework has been recently revitalized, providing an alternative approch to t...
Abstract—Rational fitting techniques are often used for the macromodeling of linear systems from tab...
We address the generation of broadband macromodels of complex linear systems via rational curve fitt...
This paper discusses various approaches for tuning the accuracy of rational macromodels obtained via...
This paper discusses various approaches for tuning the accuracy of rational macromodels obtained via...
The electrical performance of Power Distribution Networks (PDNs) is usually assessed by computing fr...
The so-called Loewner framework has been recently revitalized, providing an alternative approch to t...
Rational fitting techniques are often used for the macromodeling of linear systems from tabulated S-...
Rational fitting techniques are often used for the macromodeling of linear systems from tabulated S-...
Rational fitting techniques are often used for the macromodeling of linear systems from tabulated S-...
This paper extends the well-established macromod- eling flows based on rational fitting and passivit...
We propose an algorithm for the identification of guaranteed stable parameterized macromodels from s...
Reduced-order models are widely used to reduce the computational cost required by the numerical asse...
This paper introduces the use of a rational polynomial chaos expansions (PCE) for the stochastic mac...
This paper presents a comprehensive strategy for fast generation of passive macromodels of linear de...
The so-called Loewner framework has been recently revitalized, providing an alternative approch to t...
Abstract—Rational fitting techniques are often used for the macromodeling of linear systems from tab...
We address the generation of broadband macromodels of complex linear systems via rational curve fitt...
This paper discusses various approaches for tuning the accuracy of rational macromodels obtained via...
This paper discusses various approaches for tuning the accuracy of rational macromodels obtained via...
The electrical performance of Power Distribution Networks (PDNs) is usually assessed by computing fr...
The so-called Loewner framework has been recently revitalized, providing an alternative approch to t...
Rational fitting techniques are often used for the macromodeling of linear systems from tabulated S-...
Rational fitting techniques are often used for the macromodeling of linear systems from tabulated S-...
Rational fitting techniques are often used for the macromodeling of linear systems from tabulated S-...
This paper extends the well-established macromod- eling flows based on rational fitting and passivit...
We propose an algorithm for the identification of guaranteed stable parameterized macromodels from s...
Reduced-order models are widely used to reduce the computational cost required by the numerical asse...
This paper introduces the use of a rational polynomial chaos expansions (PCE) for the stochastic mac...
This paper presents a comprehensive strategy for fast generation of passive macromodels of linear de...
The so-called Loewner framework has been recently revitalized, providing an alternative approch to t...
Abstract—Rational fitting techniques are often used for the macromodeling of linear systems from tab...