Title :
Nonvolatile Multilevel Resistive Switching Memory Cell: A Transition Metal Oxide-Based Circuit
Author :
Stoliar, P. ; Levy, P. ; Sanchez, Maria Jesus ; Leyva, A.G. ; Albornoz, C.A. ; Gomez-Marlasca, F. ; Zanini, Anibal ; Toro Salazar, C. ; Ghenzi, N. ; Rozenberg, M.J.
Author_Institution :
Escuela de Cienc. y Tecnol., Univ. Nac. de San Martin, San Martin, Argentina
Abstract :
We study the resistive switching (RS) mechanism as a way to obtain multilevel cell (MLC) memory devices. In an MLC, more than 1 b of information can be stored in each cell. Here, we identify one of the main conceptual difficulties that prevented the implementation of RS-based MLCs. We present a method to overcome these difficulties and to implement a 6-b MLC device with a manganite-based RS device. This is done by precisely setting the remnant resistance of the RS device to an arbitrary value. Our MLC system demonstrates that transition metal oxide nonvolatile memory devices may compete with currently available MLCs.
Keywords :
circuit stability; random-access storage; RS based MLC; ReRAM; manganite based RS device; multilevel cell; nonvolatile memory cell; resistive random access memory; resistive switching; transition metal oxide-based circuit; Histograms; Metals; Nonvolatile memory; Resistance; Stability analysis; Switches; Tuning; Multilevel cell (MLC); nonvolatile memory; resistive random access memory (ReRAM); resistive switching (RS);
Journal_Title :
Circuits and Systems II: Express Briefs, IEEE Transactions on
DOI :
10.1109/TCSII.2013.2290921
