Proceedings of SLIP (System Level Interconnect Prediction) on System Level Interconnect Prediction Workshop 2014
DOI: 10.1145/2633948.2633950
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Worst-Case Noise Area Prediction of On-Chip Power Distribution Network

Xiang Zhang1,
Jingwei Lu
2
,
Yang Liu
3
et al.

Abstract: Abstract-We propose a prediction of the worst-case noise area of the supply voltage on the power distribution network (PDN). Previous works focus on the worst-peak droop to sign off PDN. In this work, we (1) study the behavior of circuit delay over the worst-area noise (2) study the worst-case noise area of a lumped PDN model (3) develop an algorithm to generate the worst-case current for general PDN cases (4) predict the longest delay of a datapath due to power integrity. Experimental results show that the wo… Show more

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Cited by 2 publications
(1 citation statement)
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(24 reference statements)
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“…Placement remains dominant on the overall quality of physical design automation [29,30]. Based on logic synthesis [31], back-end design on timing [45], power [9,44], routability [8,38], variability [3,42] etc. are highly impacted by placement performance.…”
Section: Introductionmentioning
confidence: 99%

ePlace-3D

Lu
1
,
Zhuang
2
,
Kang
3
et al. 2016
Proceedings of the 2016 on International Symposium on Physical Design
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“…Placement remains dominant on the overall quality of physical design automation [29,30]. Based on logic synthesis [31], back-end design on timing [45], power [9,44], routability [8,38], variability [3,42] etc. are highly impacted by placement performance.…”
Section: Introductionmentioning
confidence: 99%

ePlace-3D

Lu
1
,
Zhuang
2
,
Kang
3
et al. 2016
Proceedings of the 2016 on International Symposium on Physical Design
Self Cite
33
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2
0
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On the Optimal Threshold Voltage Computation of On-Chip Noise Sensors

Wang
1
,
Zhang
2
,
Xiong
3
et al. 2016
IEEE Trans. Comput.-Aided Des. Integr. Circuits Syst.
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