Assessment of distributed-cycling schemes on 45nm NOR flash memory arrays

Assessment of distributed-cycling schemes on 45nm NOR flash memory arrays

This paper investigates the validity of distributed-cycling schemes on scaled Flash memory technologies. These schemes rely on the possibility to emulate on-field device operation by increasing the cycling temperature according to an Arrhenius law, but the assessment of the activation energy that ha...

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Hauptverfasser: Miccoli, C., Monzio Compagnoni, Christian, Chiavarone, L., Beltrami, S., Lacaita, A. L., Spinelli, A. S., Visconti, A.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Fitting
Flash memories
Flash memory
Logic gates
program/erase cycling
Reliability
semiconductor device modeling
semiconductor device reliability
Sensors
Stress
Transient analysis
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Beschreibung
Zusammenfassung:This paper investigates the validity of distributed-cycling schemes on scaled Flash memory technologies. These schemes rely on the possibility to emulate on-field device operation by increasing the cycling temperature according to an Arrhenius law, but the assessment of the activation energy that has to be used on scaled technologies requires a careful control of the experimental tests, preventing spurious second-order effects to emerge. In particular, long gate-stresses required to gather the array threshold voltage (V T ) map are shown to give rise to parasitic V T -drifts, which add to the V T -loss coming from damage recovery during post-cycling bake. When the superposition of the two phenomena is taken into account, the effectiveness of the conventional qualification schemes relying on a 1.1 eV activation energy is fully confirmed at the 45 nm NOR node.
ISSN:1541-7026
1938-1891
DOI:10.1109/IRPS.2012.6241771