This paper presents an efficient method to analyze power distribution networks in the time-domain. Instead of directly analyzing the integration approximated power/ground networks at each time step as previous methods did, the new method first builds the equivalent models for many series RLC-current chains based on their Norton’s form companion models in the original networks, and then the Precondition Conjugate Gradient (PCG) based iterative method is used to solve the reduced networks. The solutions of the original networks then are back solved from that of the reduced networks. Our contribution is the introduction of an efficiency algorithm for reducing RLC power/ground network complexities by exploitation of the regularities in the powe...
Power networks supply power from the P/G pads on a chip to the circuit modules. With the rapid incre...
Power distribution networks (PDNs) are conducting structures employed in semiconductor systems with ...
grantor: University of TorontoFor the digital time-domain analysis of electromagnetic tra...
Abstract—This paper presents a modeling method for power distribution networks (PDNs) consisting of ...
This paper presents an alternative solution for the power-flow analysis of power systems with distri...
118 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2004.We propose a novel approach t...
Designing a chip to obtain maximum performance and maintaining decent voltage levels with low power ...
This paper presents a stepwise time-domain simulation technique for analysis of power electronics ci...
International audienceThis paper presents an equivalent self-consistent electrothermal circuit model...
A power system is composed of various components such as generators, transformers, transmission line...
Abstract—The analysis and simulation of effects induced by intercon-nects become increasingly import...
As semiconductor devices become more densely integrated on a single chip, complexity of packaging ha...
With the increasing amount of distributed generators at the distribution level, the dynamic behavior...
We present an improved plane-pair partial element equivalent circuit (PEEC) model for power distribu...
With the steadily growing number of transistors on a chip, and constantly tightening voltage budgets...
Power networks supply power from the P/G pads on a chip to the circuit modules. With the rapid incre...
Power distribution networks (PDNs) are conducting structures employed in semiconductor systems with ...
grantor: University of TorontoFor the digital time-domain analysis of electromagnetic tra...
Abstract—This paper presents a modeling method for power distribution networks (PDNs) consisting of ...
This paper presents an alternative solution for the power-flow analysis of power systems with distri...
118 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2004.We propose a novel approach t...
Designing a chip to obtain maximum performance and maintaining decent voltage levels with low power ...
This paper presents a stepwise time-domain simulation technique for analysis of power electronics ci...
International audienceThis paper presents an equivalent self-consistent electrothermal circuit model...
A power system is composed of various components such as generators, transformers, transmission line...
Abstract—The analysis and simulation of effects induced by intercon-nects become increasingly import...
As semiconductor devices become more densely integrated on a single chip, complexity of packaging ha...
With the increasing amount of distributed generators at the distribution level, the dynamic behavior...
We present an improved plane-pair partial element equivalent circuit (PEEC) model for power distribu...
With the steadily growing number of transistors on a chip, and constantly tightening voltage budgets...
Power networks supply power from the P/G pads on a chip to the circuit modules. With the rapid incre...
Power distribution networks (PDNs) are conducting structures employed in semiconductor systems with ...
grantor: University of TorontoFor the digital time-domain analysis of electromagnetic tra...