Characterizing Process Variation in Nanometer CMOS. Agarwal, K. & Nassif, S. In 2007 44th ACM/IEEE Design Automation Conference, pages 396–399, June, 2007. abstract bibtex The correlation of a statistical analysis tool to hardware depends on the accuracy of underlying variation models. The models should represent actual process behavior as measured in silicon. In this paper, we present an overview of test structures for characterizing statistical variation of process parameters. We discuss the test structure design and characterization strategy for calibrating random and layout dependent systematic components of process variation. We also show measurement results from several fabricated structures in 65-nm CMOS technologies.
@inproceedings{agarwal_characterizing_2007,
title = {Characterizing {Process} {Variation} in {Nanometer} {CMOS}},
abstract = {The correlation of a statistical analysis tool to hardware depends on the accuracy of underlying variation models. The models should represent actual process behavior as measured in silicon. In this paper, we present an overview of test structures for characterizing statistical variation of process parameters. We discuss the test structure design and characterization strategy for calibrating random and layout dependent systematic components of process variation. We also show measurement results from several fabricated structures in 65-nm CMOS technologies.},
booktitle = {2007 44th {ACM}/{IEEE} {Design} {Automation} {Conference}},
author = {Agarwal, K. and Nassif, S.},
month = jun,
year = {2007},
pages = {396--399}
}
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