Decoupling-Capacitor Planning and Sizing for Noise and Leakage Reduction

Decoupling capacitors (decaps) are a popular means for reducing power-supply noise in integrated circuits. Since the decaps are usually inserted in the whitespace of the device layer, decap management during the floorplanning stage is desirable. However, a well-known existing work only allows the bl...

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Bibliographic Details
Published in:IEEE transactions on computer-aided design of integrated circuits and systems 2007-11, Vol.26 (11), p.2023-2034
Main Authors: Wong, E., Minz, J.R., Sung Kyu Lim
Format: Article
Language:English
Subjects:
Algorithms
Capacitors
Circuit faults
Decoupling
Decoupling capacitors (decaps)
Devices
floorplanning
Integrated circuit noise
Integrated circuits
Jacobian matrices
Large scale integration
Leakage
Logic
Noise
Noise reduction
Power supplies
power-supply integrity
Sizing
Steady-state
Three dimensional
Wire
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Summary:Decoupling capacitors (decaps) are a popular means for reducing power-supply noise in integrated circuits. Since the decaps are usually inserted in the whitespace of the device layer, decap management during the floorplanning stage is desirable. However, a well-known existing work only allows the blocks to utilize the adjacent whitespace. In order to overcome this limit, we devise the effective-decap-distance model to analyze how functional blocks are affected by nonneighboring decaps. In addition, we propose a generalized network-flow-based algorithm to allocate the whitespace to the blocks and determine the oxide thicknesses for the decaps to be implemented in the whitespace. Experimental results show that our decap allocation and sizing methods can significantly reduce decap budget and leakage power with a small increase in area and wire length when integrated into 2D and 3D floorplanners.
ISSN:0278-0070
1937-4151
DOI:10.1109/TCAD.2007.906463