C. Miccoli, C. Monzio Compagnoni, A. Spinelli, A. Lacaita
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Investigation of the programming accuracy of a double-verify ISPP algorithm for nanoscale NAND Flash memories
This paper presents a detailed investigation of the performance of a double-verify algorithm for accurate programming of deca-nanometer NAND Flash memories. In order to minimize the programmed threshold-voltage distribution width in presence of discrete and statistical electron injection, a weakened programming step is applied to cells if their threshold voltage falls between a low- and a high-program-verify level during incremental step pulse programming. Clear improvements are shown with respect to the single-verify case, with minimal burdens on programming time and complexity.
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