Sensitivity analysis of generic on-chip /spl Delta/I-noise simulation methodology

A. Huber, B. Kemmler, E. Klink
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引用次数: 3

Abstract

Power integrity, i.e. providing a stable voltage supply under the condition of rapidly changing current transients, gets increasing attention in the design of electronic packaging. Part of this discussion is the on-chip /spl Delta/I-noise. Various simulation methodologies, e.g. RAPiD, are known for simulation. Characteristic for these simulations is the very time consuming task of collecting and processing the complex input data, in order to optimise the required effort a sensitivity analysis for high-frequency on-chip /spl Delta/I-noise simulation has been carried out. This paper describes the results of this sensitivity analysis. A generic description of the on-chip /spl Delta/I-noise simulation methodology is shown. In particular the required input data is described. The sensitivity analysis quantifies the impact of each simulation parameter on the simulation results. The nominal value of each input parameter has been varied in a range from 0.5x to 2.0x compared to a nominal case. The maximum HF /spl Delta/I-noise is measured and plotted versus the respective input parameter deviation. The input parameters are categorized in high, medium and low impact parameters. This analysis results in guidelines which design parameters most efficiently reduce HF-noise and/or which input parameter need to be accurate in order to obtain accurate simulation results.
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通用片上/声压级δ / i噪声仿真方法的灵敏度分析
电源完整性,即在瞬息万变的电流瞬态条件下提供稳定的电压供应,在电子封装设计中越来越受到重视。这个讨论的一部分是片上/spl δ / i噪声。各种模拟方法,例如RAPiD,都以模拟而闻名。这些模拟的特点是收集和处理复杂的输入数据是非常耗时的任务,为了优化所需的努力,对高频片上/spl Delta/ i噪声模拟进行了灵敏度分析。本文描述了这种敏感性分析的结果。显示了片上/声压级δ / i噪声仿真方法的一般描述。特别地,描述了所需的输入数据。灵敏度分析量化了每个仿真参数对仿真结果的影响。与标称情况相比,每个输入参数的标称值在0.5x到2.0x的范围内变化。测量最大HF /spl δ / i噪声,并绘制相应输入参数偏差。输入参数分为高、中、低影响参数。这种分析得出的指导方针,设计参数最有效地减少高频噪声和/或输入参数需要准确,以获得准确的模拟结果。
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Presentation of a new time domain simulation tool and application to the analysis of advanced interconnect performance dependence on design and process parameters Sensitivity analysis of generic on-chip /spl Delta/I-noise simulation methodology A frequency domain approach for efficient model reduction of mixed VLSI circuits Non-uniform grid (NG) algorithm for fast capacitance extraction Dampening high frequency noise in high performance microprocessor packaging
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