We thus argue that all ReRAM that exhibit a filamentary type of mechanism could possess AR-13324 manufacturer stochastic switching characteristics, though our study only exploits TiO2-based devices. Considering the further ReRAM development, this impact of defect distribution should be carefully considered in device engineering as it could significantly affect the fabrication reproducibility

and the accurate control of the devices’ states, necessitating BMS202 fault-tolerant design paradigms. It is possible to suppress the defects’ broad distribution in TiO2-based pristine devices via annealing [15], although this extra processing step is not always preferable. Acknowledgements This work was supported by EPSRC EP/K017829/1 and the National Nature Science Foundation (61171017). References 1. Strukov DB, Snider GS, Stewart DR, Williams RS: The missing memristor found. Nature 2008, 453:80–83.CrossRef 2. Yang YC, Pan F, Liu Q, Liu M, Zeng F: Fully room-temperature-fabricated nonvolatile resistive memory for ultrafast and high-density memory application. Nano Lett Temozolomide research buy 2009, 9:1636–1643.CrossRef 3. Waser R, Dittmann R, Staikov G, Szot K: Redox‒based resistive switching memories–nanoionic mechanisms, prospects, and challenges. Adv Mater 2009, 21:2632–2663.CrossRef 4. Yang Y, Gao P, Gaba S, Chang T, Pan X, Lu W: Observation of conducting

filament growth in nanoscale resistive memories. Nat Commun 2012, 3:732.CrossRef 5. Yang JJ, Pickett MD, Li X, Ohlberg DA, Stewart DR, Williams

RS: Memristive switching mechanism for metal/oxide/metal nanodevices. Nat Nanotechnol 2008, 3:429–433.CrossRef 6. Salaoru I, Khiat A, Li Q, Berdan R, Papavassiliou C, Prodromakis T: Origin of the OFF state variability in ReRAM cells. J Phys D Appl Phys 2014, 47:145102.CrossRef 7. Ielmini D, Nardi F, Cagli C: Physical models of size-dependent nanofilament formation and rupture in NiO resistive switching memories. Nanotechnology 2011, 22:254022.CrossRef 8. Long S, Lian X, Ye T, Cagli C, Perniola L, Miranda E, Liu M, Sune J: Cycle-to-cycle intrinsic RESET statistics in HfO 2 -based unipolar RRAM devices. Electron Device Lett IEEE 2013, Tau-protein kinase 34:623–625.CrossRef 9. Long S, Lian X, Cagli C, Perniola L, Miranda E, Liu M, Sune J: A model for the set statistics of RRAM inspired in the percolation model of oxide breakdown. Electron Device Lett IEEE 2013, 34:999–1001.CrossRef 10. Chen Y, Chen B, Gao B, Chen L, Lian G, Liu L, Wang Y, Liu X, Kang J: Understanding the intermediate initial state in TiO 2 -δ/La 2/3 Sr 1/3 MnO 3 stack-based bipolar resistive switching devices. Appl Phys Lett 2011, 99:072113–072113–072113.CrossRef 11. Shibuya K, Dittmann R, Mi S, Waser R: Impact of defect distribution on resistive switching characteristics of Sr 2 TiO 4 thin films. Adv Mater 2010, 22:411–414.CrossRef 12.