Abstract
Partial bias schemes reduce the disturbance during the writing of crossbar arrays (CBAs). Detailed analysis of two partial bias schemes is presented in this paper: 1) 1/2 bias scheme for low-power operation and 2) 1/3 bias scheme for high-performance (i.e., high $V_{\rm dd})$ operation. With partial bias schemes, a sneak leakage reversal phenomenon may occur due to line-resistance-induced voltage degradation, which provides a measure of voltage driving range along access lines. Voltage dividing effect of selector devices reduces disturbance in CBAs and leads to similar writing voltage margin in both bias schemes. Matching a proper partial bias scheme with the selector device choice optimizes the performance of CBAs.
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