In this paper, we present a novel stochastic simulation approach based on extended Krylov subspace method for on-chip power grid analysis. The new method performs the analysis by us-ing random walk in a stochastic manner. But different from the existing random walk method, the moments of the circuits are computed and extended Krylov Subspace (EKS) method is used to calculate the responses in frequency domain. The new method can compute the transient responses in a local manner, which is in contrast to the existing random walk method [12], thus improves the existing frequency-domain random walk method [4] by using extended Krylov subspace method. The resulting method is more numerically stable and faster than ex-isting random walk methods. E...
Traditionally, electric power systems are subject to uncertainties related to equipment availability...
This thesis presents methodologies for the efficient assessment of the impact of statistical variabi...
The trend of higher integration density in VLSI has made the time-domain circuit simulation a bottle...
In this paper, we present a novel stochastic simulation approach based on extended Krylov subspace m...
Abstract—This paper proposes a novel stochastic method for analyzing the voltage drop variations of ...
Fast analysis of power grid networks has been a challenging problem for many years. The huge size re...
University of Minnesota Ph.D. dissertatation. August 2013. Major: Electrical Engineering. Advisor: S...
In this paper, we investigate the impact of interconnect and de-vice process variations on voltage f...
136 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.Power system applications are...
As the technology scales into 90nm and below, process-induced variations become more pronounced. In ...
Power grid design and analysis is a critical part of modern VLSI chip design and demands tools for a...
In this paper, we propose preconditioned Krylov-subspace iterative methods to perform efficient DC a...
This paper presents a linear-time algorithm for the DC analysis of a power grid, based on a random w...
This thesis presents a set of tools and methodologies that perform fast stochastic characterization ...
This dissertation presents stochastics-based methods enabling testing related to three different asp...
Traditionally, electric power systems are subject to uncertainties related to equipment availability...
This thesis presents methodologies for the efficient assessment of the impact of statistical variabi...
The trend of higher integration density in VLSI has made the time-domain circuit simulation a bottle...
In this paper, we present a novel stochastic simulation approach based on extended Krylov subspace m...
Abstract—This paper proposes a novel stochastic method for analyzing the voltage drop variations of ...
Fast analysis of power grid networks has been a challenging problem for many years. The huge size re...
University of Minnesota Ph.D. dissertatation. August 2013. Major: Electrical Engineering. Advisor: S...
In this paper, we investigate the impact of interconnect and de-vice process variations on voltage f...
136 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2001.Power system applications are...
As the technology scales into 90nm and below, process-induced variations become more pronounced. In ...
Power grid design and analysis is a critical part of modern VLSI chip design and demands tools for a...
In this paper, we propose preconditioned Krylov-subspace iterative methods to perform efficient DC a...
This paper presents a linear-time algorithm for the DC analysis of a power grid, based on a random w...
This thesis presents a set of tools and methodologies that perform fast stochastic characterization ...
This dissertation presents stochastics-based methods enabling testing related to three different asp...
Traditionally, electric power systems are subject to uncertainties related to equipment availability...
This thesis presents methodologies for the efficient assessment of the impact of statistical variabi...
The trend of higher integration density in VLSI has made the time-domain circuit simulation a bottle...