Title | ||
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Transient voltage noise in charge-recycled power delivery networks for many-layer 3D-IC |
Abstract | ||
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Aside from the benefits it brings, 3D-IC technology inevitably exacerbates the difficulty of power delivery with volumetrically increasing power consumption. Recent work managed to “recycle” current within the 3D stack by linking the different layers' supply/ground nets into a series connection. This charge-recycled (also known as voltage-stacked, or V-S) scheme provides a scalable solution for 3D-IC's power delivery because it supports an arbitrary number of layers with a constant off-chip current demand. Although prior work has studied the circuit implementation of a V-S power delivery network (PDN) and its current-reduction benefits, a whole-system evaluation of V-S PDNs' transient voltage noise and a noise comparison between the V-S PDN and the traditional PDN are missing. In this paper, we build a system-level model to examine voltage-stacked 3D-ICs' transient noise and explore the impact of different PDN design parameters and workload behaviors. Our results show that compared with the traditional PDN scheme, V-S provides stronger isolation for cross-layer noise interference, which in turn grants higher performance benefits for run-time noise mitigation techniques, such as dynamic margin adaptation. We observe that, compared with traditional PDNs, V-S PDNs provide up to 60% lower transient noise in the worst-case scenario. Furthermore, we show that V-S PDNs significantly reduce the packaging cost, because their noise is almost insensitive to the package impedance (e.g., a 300% impedance increase only raises worst-case noise by less than 0.3% Vdd). |
Year | DOI | Venue |
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2015 | 10.1109/ISLPED.2015.7273506 | 2015 IEEE/ACM International Symposium on Low Power Electronics and Design (ISLPED) |
Keywords | Field | DocType |
3D stacking,Power distribution network,Voltage noise,Voltage stacking | Transient voltage suppressor,Low-noise amplifier,Computer science,Noise control,Electrical impedance,Electronic engineering,Three-dimensional integrated circuit,Effective input noise temperature,Series and parallel circuits,Transient noise,Electrical engineering | Conference |
Citations | PageRank | References |
6 | 0.45 | 13 |
Authors | ||
6 |
Name | Order | Citations | PageRank |
---|---|---|---|
Runjie Zhang | 1 | 45 | 5.01 |
Kaushik Mazumdar | 2 | 37 | 4.34 |
Brett H. Meyer | 3 | 194 | 21.57 |
Ke Wang | 4 | 160 | 10.89 |
Kevin Skadron | 5 | 6188 | 384.18 |
Mircea R. Stan | 6 | 3103 | 277.34 |