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DAC
1997
ACM

Power Supply Noise Analysis Methodology for Deep-Submicron VLSI Chip Design

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Power Supply Noise Analysis Methodology for Deep-Submicron VLSI Chip Design
This paper describes a new design methodology to analyze the on-chip power supply noise for high performance microprocessors. Based on an integrated package-level and chip-level power bus model, and a simulated switching circuit model for each functional block, this methodology offers the most complete and accurate analysis of Vdd distribution for the entire chip. The analysis results not only provide designers with the inductive  ¢¡ noise and the resistive ¡¤£ drop data at the same time, but also allow designers to easily identify the hot spots on the chip and  ¦¥ across the chip. Global and local optimization such as buffer sizing, power bus sizing, and on-chip decoupling capacitor placement can then be conducted to maximize the circuit performance and minimize the noise.
Howard H. Chen, David D. Ling
Added 06 Aug 2010
Updated 06 Aug 2010
Type Conference
Year 1997
Where DAC
Authors Howard H. Chen, David D. Ling
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