Variation tolerant sensing scheme of spin-transfer torque memory for yield improvement
Spin-Transfer Torque Random Access Memory (STTRAM) demonstrated great potentials as an universal memory for its fast access speed, zero standby power, excellent scalability and simplicity of cell structure. However, large process variations of both magnetic tunneling junction and CMOS process severely limit the yield of STT-RAM chips and prevent the massive production from happening. In this paper, we analyze the impacts of process variations on various sensing schemes of STTRAM. Based on our analysis, we propose a novel voltage-driven non-destructive self-reference sensing scheme (VDRS) to enhance the STT-RAM chip yield by significantly improving sense margin. Monte-Carlo simulations of a 16Kb STT-RAM array shows that VDRS can achieve the same yield as the previous non-destructive self-reference sensing scheme while improving the sense margin by 5.16 times with the similar access performance and power. ©2010 IEEE.
