Resumen de LER and spacing variability on BEOL TDDB using E-field mapping: Impact of field acceleration
D. Kocaay, Ph.J. Roussel, K. Croes, Ivan Ciofi, Y. Saad, I. De Wolf
Abstract Understanding the impact of process variability on TDDB is crucial for assuring robust reliability for current and future technology nodes. This work introduces a lifetime prediction model that considers local field enhancement to assess the combined impact of die-to-die spacing variability and line edge roughness. The model is applied to 16 nm half-pitch BEOL interconnects assuming either the power law or the root-E as field acceleration model and the impact on lifetime reduction is discussed. In comparison with the ideal case of a straight line with a nominal spacing of 16 nm, a 1-sigma spacing variation of 0.6 nm and 1-sigma LER of 1 nm leads to ~ 3 orders of magnitude lifetime reduction when assuming power-law whereas this value is ~ 1 order of magnitude when assuming root-E.
