Modeling and analysis of power distribution networks for gigabit applications

Beyene, W.T.; Yuan, Chuck; Kim, Joong-Ho; Swaminathan, Madhavan

doi:10.1109/isqed.2003.1194737

Cited by 10 publications

(2 citation statements)

References 19 publications

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“…Impedance improvement by inserting a DECAP is one of the most popular methods of solving the problem. [13][14][15][16][17][18][19][20][21][22][23][24][25] Figure 1(a) shows an example of noise generation by current flow in the system without a DECAP. In this system, dynamic current flows from the power pin on the printed circuit board (PCB) to the operating circuitry.…”

Section: Decoupling Technique For Lsismentioning

confidence: 99%

Superior decoupling capacitor for three-dimensional LSI with ultrawide communication bus

Araga

Nagata

Miura

et al. 2017

Jpn. J. Appl. Phys.

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The superior noise reduction performance of an in-stack decoupling capacitor (DECAP) is demonstrated. A three-tier stacked demonstrator is manufactured with an ultrawide data bus that connects a top memory chip and a bottom logic chip. An in-stack evaluation circuitry on a middle tier (Si interposer) captures voltage variation waveforms during chip-to-chip data communication. In-stack DECAPs in arrays on a Si interposer and discrete ceramic capacitors on an organic interposer of a ball-grid array package are compared. Silicon measurements with an in-stack noise monitoring technique show that the DECAPs on the Si interposer more locally shunt out the AC components of power supply current over a wider frequency range than the capacitors on the package interposer.

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Section: Decoupling Technique For Lsismentioning

confidence: 99%

Superior decoupling capacitor for three-dimensional LSI with ultrawide communication bus

Araga

Nagata

Miura

et al. 2017

Jpn. J. Appl. Phys.

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show abstract

“…19 is used in this example. The power distribution network is modeled using similar methods described in [28]- [32]. The top plane, transmitter, and receiver split planes are represented using admittance matrices in this analysis, as shown in Fig.…”

Section: B Examplementioning

confidence: 99%

Applications of Multilinear and Waveform Relaxation Methods for Efficient Simulation of Interconnect-Dominated Nonlinear Networks

Beyene

2008

IEEE Trans. Adv. Packag.

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Applications of multilinear and waveform relaxation methods are presented for efficient transient analysis of interconnect-dominated nonlinear networks. In this paper, two procedures that realize these well-known and fundamental theories in conventional circuit simulation tools are developed by taking advantage of the unique characteristics of interconnect networks. The multilinear theory uses the Volterra functional series to decompose the nonlinear network into multiple linear networks. Then, the solutions of the mildly nonlinear network are obtained from the linear combinations of sequences of responses of the decomposed linear networks. On the other hand, the waveform relaxation technique is used to solve networks with strong nonlinearity. The networks are partitioned into linear and nonlinear subnetworks and each subnetwork is solved iteratively using the waveform relaxation technique. Simplified analysis steps that give good insight into these techniques are also derived analytically. Finally, the accuracy and efficiency of the methods are verified with two examples.

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Generalized analytical model for the design of irregularly shaped power planes and passives in mixed signal applications

McFiggins¹,

Yvanoff²,

Venkataraman³

2004

Euromicro Symposium on Digital System Design, 2004. DSD 2004.

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Modeling and analysis of power distribution networks for gigabit applications

Abstract: As

Cited by 10 publications

References 19 publications

Superior decoupling capacitor for three-dimensional LSI with ultrawide communication bus

Superior decoupling capacitor for three-dimensional LSI with ultrawide communication bus

Applications of Multilinear and Waveform Relaxation Methods for Efficient Simulation of Interconnect-Dominated Nonlinear Networks

Generalized analytical model for the design of irregularly shaped power planes and passives in mixed signal applications

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