High-frequency characterization of power/ground-plane structures
GT Lei, RW Techentin, BK Gilbert - IEEE Transactions on …, 1999 - ieeexplore.ieee.org
In this paper, we describe a strategy to characterize power and ground-plane structures
using a full cavity-mode frequency-domain resonator model. We develop insights into modal …
using a full cavity-mode frequency-domain resonator model. We develop insights into modal …
Nonreflecting boundary conditions for the time-dependent wave equation
We describe a new, efficient approach to the imposition of exact nonreflecting boundary
conditions for the scalar wave equation. We compare the performance of our approach with …
conditions for the scalar wave equation. We compare the performance of our approach with …
[图书][B] Interconnect simulation with asymptotic waveform evaluation
JE Bracken - 1994 - search.proquest.com
Interconnect simulation is becoming increasingly important for today's high-speed circuit
designs. Low-cost CMOS microprocessors are beginning to operate at 100 MHz and above …
designs. Low-cost CMOS microprocessors are beginning to operate at 100 MHz and above …
Circuit and method for suppression of electromagnetic coupling and switching noise in multilayer printed circuit boards
WE McKinzie III, SD Rogers - US Patent 7,215,007, 2007 - Google Patents
Apparatus for Suppressing noise and electromagnetic cou pling in the printed circuit board
of an electronic device includes an upper conductive plate and an array of conduc tive …
of an electronic device includes an upper conductive plate and an array of conduc tive …
A coupled efficient and systematic full-wave time-domain macromodeling and circuit simulation method for signal integrity analysis of high-speed interconnects
This paper presents an accurate and systematic approach for analysis of the signal integrity
of the high-speed interconnects, which couples the full-wave finite difference time domain …
of the high-speed interconnects, which couples the full-wave finite difference time domain …
A simple finite-difference frequency-domain (FDFD) algorithm for analysis of switching noise in printed circuit boards and packages
OM Ramahi, V Subramanian… - IEEE Transactions on …, 2003 - ieeexplore.ieee.org
Simultaneous switching noise (SSN) compromises the integrity of the power distribution
structure on multilayer printed circuit boards (PCB). Several methods have been used to …
structure on multilayer printed circuit boards (PCB). Several methods have been used to …
FDTD modeling of noise in computer packages
In this paper, we discuss the electromagnetic modeling of the components of a computer
package that contribute to noise on the signal lines in computer packages. We obtain …
package that contribute to noise on the signal lines in computer packages. We obtain …
Generalized FDTD-ADI: An unconditionally stable full-wave Maxwell's equations solver for VLSI interconnect modeling
CCP Chen, TW Lee, N Murugesan… - … on Computer Aided …, 2000 - ieeexplore.ieee.org
The finite-difference time-domain (FDTD) method of solving the full-wave Maxwell's
equations has been recently extended to provide accurate and numerically stable operation …
equations has been recently extended to provide accurate and numerically stable operation …
Fast frequency sweep analysis of passive miniature RF circuits based on analytic extension of eigenvalues
A fast frequency sweep approach based on analytic extension of eigenvalues (AEE) is
presented and investigated for an efficient analysis of miniature passive RF circuits. In this …
presented and investigated for an efficient analysis of miniature passive RF circuits. In this …
A novel technique for full-wave modeling of large-scale three-dimensional high-speed on/off-chip interconnect structures
D Jiao, M Mazumder, S Chakravarty… - … on Simulation of …, 2003 - ieeexplore.ieee.org
This paper presents a novel, rigorous, and fast method for full-wave modeling of high-speed
interconnect structures. In this method, the original wave propagation problem is …
interconnect structures. In this method, the original wave propagation problem is …