© 2014 IEEE. Existing state-of-The-Art realizable RC reduction methods may not be suitable for scalable power grid reductions due to the fast growing computational complexity and the large number of ports. In this work, we present a scalable power grid reduction method for reducing large-scale flip-chip power grids based on recent spectral graph sparsification techniques. The first step of the proposed approach aggressively reduces the large power grid blocks into much smaller power grid blocks by properly matching the effective resistances of the original power grid networks. Next, an efficient spectral graph sparsification scheme is introduced to dramatically sparsify the relatively dense power grid blocks that are generated during the pr...
In the past decades, harmonic balance (HB) has been widely used for computing steady-state solutions...
We propose a block-diagonal structured model order reduction (BDSM) scheme for fast power grid analy...
The US power grid is an engineering marvel. However, it was not designed with the consideration of r...
© 2014 IEEE. Realizable power grid reduction becomes a key to efficient design and verification of n...
Realizable power grid reduction becomes key to efficient design and verification of nowadays large-s...
This paper proposes a scalable algorithmic framework for effective-resistance preserving spectral re...
This article presents two fast, sparsity-based power system matrices computation procedures. The fir...
Recent research shows that by leveraging the key spectral properties of eigenvalues and eigenvectors...
Abstract—We propose a block-diagonal structured model or-der reduction (BDSM) scheme for fast power ...
To evaluate and verify the functional correction and reliability of circuit designs, circuit compone...
Harmonic Balance (HB) analysis is key to efficient verification of large post-layout RF and microwav...
The vast size of a modern interconnected power grid precludes controlling and operating it as a sing...
Electrical energy is one of the most common forms of energy these days. Consequently, electric power...
It is increasingly challenging to analyze present day large-scale power delivery networks (PDNs) due...
A controlled islanding strategy should be carefully designed to prevent power systems from overall c...
In the past decades, harmonic balance (HB) has been widely used for computing steady-state solutions...
We propose a block-diagonal structured model order reduction (BDSM) scheme for fast power grid analy...
The US power grid is an engineering marvel. However, it was not designed with the consideration of r...
© 2014 IEEE. Realizable power grid reduction becomes a key to efficient design and verification of n...
Realizable power grid reduction becomes key to efficient design and verification of nowadays large-s...
This paper proposes a scalable algorithmic framework for effective-resistance preserving spectral re...
This article presents two fast, sparsity-based power system matrices computation procedures. The fir...
Recent research shows that by leveraging the key spectral properties of eigenvalues and eigenvectors...
Abstract—We propose a block-diagonal structured model or-der reduction (BDSM) scheme for fast power ...
To evaluate and verify the functional correction and reliability of circuit designs, circuit compone...
Harmonic Balance (HB) analysis is key to efficient verification of large post-layout RF and microwav...
The vast size of a modern interconnected power grid precludes controlling and operating it as a sing...
Electrical energy is one of the most common forms of energy these days. Consequently, electric power...
It is increasingly challenging to analyze present day large-scale power delivery networks (PDNs) due...
A controlled islanding strategy should be carefully designed to prevent power systems from overall c...
In the past decades, harmonic balance (HB) has been widely used for computing steady-state solutions...
We propose a block-diagonal structured model order reduction (BDSM) scheme for fast power grid analy...
The US power grid is an engineering marvel. However, it was not designed with the consideration of r...