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  • Küçük Resim Yok
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    Reconstructive sensing circuit for complementary resistive switches-based crossbar memories
    (Tubitak Scientific & Technological Research Council Turkey, 2016) Karakulak, Ertugrul; Mutlu, Resat; Ucar, Erdem
    Complementary resistive switches (CRSs) are suggested as an alternative to one-cell memristor memories to decrease leakage currents. However, their sensing is more difficult and complex than one-cell memristor memories. A method has been given for sensing their state using only DC voltages in the literature. However, in this strategy, sensing one of the logic states results in the destruction of the state and the destroyed state must be written again. To the best of our knowledge, a circuit with this sensing strategy does not exist in the literature yet. In this paper, such a circuit employing this method, which is able to read the CRS cells and able to reconstruct their data if the data are destroyed, is given. A new CRS model is also constructed in this paper and used for simulations to verify the operation of the circuit. The circuit is simulated using Simulink. We expect this circuit implementation to find use in the design and testing of CRS cells.
  • Küçük Resim Yok
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    Sneak path current equivalent circuits and reading margin analysis of complementary resistive switches based 3D stacking crossbar memories
    (Soc Microelectronics, Electron Components Materials-Midem, 2014) Karakulak, Ertugrul; Mutlu, Resat; Ucar, Erdem
    Sneak path currents of resistive memories is an important issue. They increase with increasing memory size and should be minimized for a usable resistive memory. The complementary resistive cells have been suggested as an alternative to one-cell resistive memories to decrease leakage currents. In literature, multilayer resistive memory topologies have also been inspected to minimize leakage currents. Recently, feasibility of 3D resistive RAMs is also inspected. However, to the best of our knowledge, no one has given equivalent leakage circuit models for complementary resistive switches based 3D resistive RAMs yet. In this study, equivalent leakage circuit models for different layers of a 3D resistive RAM with complementary resistive cells have been given and their leakage resistance and reading margins are compared to that of one layer crossbar memory. Some interesting and crucial results are obtained. Alternative complementary resistive switches based 3D resistive RAM topologies with insulating layer(s) for minimized leakage currents are suggested.