Title :
Probabilistic standard cell modeling considering non-Gaussian parameters and correlations
Author :
Lange, Andre ; Sohrmann, Christoph ; Lorenz, Ingolf ; Schlichtmann, Ulf ; Jancke, Roland ; Haase, Jan
Author_Institution :
Design Autom. Div. Dresden, Fraunhofer-Inst. for Integrated, Dresden, Germany
Abstract :
Variability continues to pose challenges to integrated circuit design. With statistical static timing analysis and high-yield estimation methods, solutions to particular problems exist, but they do not allow a common view on performance variability including potentially correlated and non-Gaussian parameter distributions. In this paper, we present a probabilistic approach for variability modeling as an alternative: model parameters are treated as multi-dimensional random variables. Such a fully mul-tivariate statistical description formally accounts for correlations and non-Gaussian random components. Statistical characterization and model application are introduced for standard cells and gate-level digital circuits. Example analyses of circuitry in a 28 nm industrial technology illustrate the capabilities of our modeling approach.
Keywords :
cellular arrays; integrated circuit design; integrated circuit modelling; probability; gate-level digital circuits; high-yield estimation; industrial technology; integrated circuit design; multidimensional random variables; multivariate statistical description; nonGaussian correlations; nonGaussian parameter distributions; nonGaussian random components; probabilistic approach; probabilistic standard cell modeling; size 28 nm; standard cells; statistical characterization; statistical static timing analysis; variability modeling; Correlation; Integrated circuit modeling; Inverters; Logic gates; Probabilistic logic; Standards; Timing;
Conference_Titel :
Design, Automation and Test in Europe Conference and Exhibition (DATE), 2014
Conference_Location :
Dresden
DOI :
10.7873/DATE.2014.243
