P. Weckx, B. Kaczer, P. Raghavan, J. Franco, Marko Simicic, P. Roussel, D. Linten, A. Thean, D. Verkest, F. Catthoor, G. Groeseneken
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Characterization and simulation methodology for time-dependent variability in advanced technologies
This paper describes the implications of Bias Temperature Instability (BTI) related time-dependent threshold voltage distributions on the performance and yield of devices and SRAM cells. We show that nFET and pFET time-dependent variability, in addition to the standard time-zero variability, can be fully characterized and projected using a series of measurements on a large test element group (TEG) fabricated in an advanced technology. The statistical distributions encompassing both time-zero and time-dependent variability and their correlations are discussed. The assumption of Normally distributed threshold voltages, imposed by State-of-the-Art design approaches, is shown to induce inaccuracy which is readily solved by adopting our defect-centric statistical approach.
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