This paper presents a comparative study on the impact of the erase algorithm on flash memory lifetime, to demonstrate how the reduction of overall stress, suffered by memories, will increase their lifetime, thanks to a smart management of erase operations. To this purpose a fixed erase voltage, equal to the maximum value and the maximum time-window, was taken as the reference test; while an algorithm with adaptive voltage levels and the same overall time-window was designed and implemented in order to compare their experimental results. This study was carried out by using an innovative Automated Test Equipment, named Portable-ATE, tailored for Memory Test Chip and designed for performance evaluation at research and development (R&D) level, where testing adaptability, configurability together with capability to get immediate results are the most significant [1-3]. The results show how the adoption of the smart adaptive algorithm allowed to increase the attainable erasing cycles from 750 thousands to a total number well beyond 1 million cycles.
Alieri G., Giaconia G.C., Mistretta L., Rosa F.L., Cimino A.A. (2017). Impact of the erase algorithms on flash memory lifetime. In G.P. Salvatore Pennisi (a cura di), PRIME 2017 - 13th Conference on PhD Research in Microelectronics and Electronics, Proceedings (pp. 357-360). Catania : Institute of Electrical and Electronics Engineers Inc. [10.1109/PRIME.2017.7974181].
Impact of the erase algorithms on flash memory lifetime
Alieri G.Investigation
;Giaconia G. C.Conceptualization
;Mistretta L.Validation
;
2017-06-14
Abstract
This paper presents a comparative study on the impact of the erase algorithm on flash memory lifetime, to demonstrate how the reduction of overall stress, suffered by memories, will increase their lifetime, thanks to a smart management of erase operations. To this purpose a fixed erase voltage, equal to the maximum value and the maximum time-window, was taken as the reference test; while an algorithm with adaptive voltage levels and the same overall time-window was designed and implemented in order to compare their experimental results. This study was carried out by using an innovative Automated Test Equipment, named Portable-ATE, tailored for Memory Test Chip and designed for performance evaluation at research and development (R&D) level, where testing adaptability, configurability together with capability to get immediate results are the most significant [1-3]. The results show how the adoption of the smart adaptive algorithm allowed to increase the attainable erasing cycles from 750 thousands to a total number well beyond 1 million cycles.
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