A Complex Model via Phase-Type Distributions to Study Random Telegraph Noise in Resistive Memories
Metadatos
Mostrar el registro completo del ítemAutor
Ruiz Castro, Juan Eloy; Acal González, Christian José; Aguilera Del Pino, Ana María; Roldán Aranda, Juan BautistaEditorial
Mdpi
Materia
Phase-type distributions Markov processes RRAM Random telegraph noise Statistics
Fecha
2021-02-16Referencia bibliográfica
Ruiz-Castro, J.E.; Acal, C.; Aguilera, A.M.; Roldán, J.B. A Complex Model via Phase-Type Distributions to Study Random Telegraph Noise in Resistive Memories. Mathematics 2021, 9, 390. [https://doi.org/10.3390/math9040390]
Patrocinador
Spanish Ministry of Science, Innovation and Universities (FEDER program) MTM2017-88708-P TEC2017-84321-C4-3-R; Government of Andalusia (Spain) FQM-307; Andalusian Ministry of Economy, Knowledge, Companies and Universities A-TIC-117-UGR18 FPU18/01779Resumen
A new stochastic process was developed by considering the internal performance of
macro-states in which the sojourn time in each one is phase-type distributed depending on time.
The stationary distribution was calculated through matrix-algorithmic methods and multiple interesting
measures were worked out. The number of visits distribution to a determine macro-state
were analyzed from the respective differential equations and the Laplace transform. The mean
number of visits to a macro-state between any two times was given. The results were implemented
computationally and were successfully applied to study random telegraph noise (RTN) in resistive
memories. RTN is an important concern in resistive random access memory (RRAM) operation.
On one hand, it could limit some of the technological applications of these devices; on the other
hand, RTN can be used for the physical characterization. Therefore, an in-depth statistical analysis to
model the behavior of these devices is of essential importance.