论文信息 - Understanding switching variability and random telegraph noise in resistive RAM

Understanding switching variability and random telegraph noise in resistive RAM

A deeper understanding of the noise and variability sources in resistive switching memory (RRAM) is needed for device improvement and scaling down. To meet this challenge, this work addresses switching statistics and read noise in RRAM. First, an analytical model for resistance variability in set and reset states is presented. Then, random telegraph noise (RTN) is discussed in terms of trap-induced depletion in the conductive filament (CF) The model accounts for size-dependent RTN, while bias-dependent RTN is explained by Poole-Frenkel (PF) transport and Joule heating in atomic-size CFs.

[1] D. Ielmini,et al. Set Variability and Failure Induced by Complementary Switching in Bipolar RRAM , 2013, IEEE Electron Device Letters.

[2] Luca Larcher,et al. RTS noise characterization of HfOx RRAM in high resistive state , 2013 .

[3] S. Balatti,et al. Resistive Switching by Voltage-Driven Ion Migration in Bipolar RRAM—Part II: Modeling , 2012, IEEE Transactions on Electron Devices.

[4] Yu-Syuan Lin,et al. AlGaN/GaN HEMTs on Silicon With Hybrid Schottky–Ohmic Drain for High Breakdown Voltage and Low Leakage Current , 2012, IEEE Electron Device Letters.

[5] Shimeng Yu,et al. On the Switching Parameter Variation of Metal-Oxide RRAM—Part I: Physical Modeling and Simulation Methodology , 2012, IEEE Transactions on Electron Devices.

[6] D. Ielmini,et al. Modeling the Universal Set/Reset Characteristics of Bipolar RRAM by Field- and Temperature-Driven Filament Growth , 2011, IEEE Transactions on Electron Devices.

[7] D. Ielmini,et al. Resistance-dependent amplitude of random telegraph-signal noise in resistive switching memories , 2010 .

[8] Rainer Waser,et al. Probing Cu doped Ge0.3Se0.7 based resistance switching memory devices with random telegraph noise , 2010 .

[9] R. Buhrman,et al. Microscopic study of 1/f noise in metal nanobridges. , 1991, Physical review. B, Condensed matter.