Dynamic Reference Sensing Scheme for Deeply Scaled STT-MRAM

W. Kang, Tingting Pang, Youguang Zhang, D. Ravelosona, Weisheng Zhao
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引用次数: 9

Abstract

Spin transfer torque magnetic random access memory (STT-MRAM) has been considered as a potential candidate for the next-generation nonvolatile memory. However, as technology continuously scales down, the sensing margin (SM) of STT-MRAM is significantly degraded because of the increased process variations and reduced supply voltage. Meanwhile the critical switching current of magnetic tunnel junction (MTJ) also reduces with technology scaling. The sensing current, which should be limited to prevent read disturbance (RD) during read operations, further degrades the SM. Therefore, the readability becomes a new challenge for the deeply scaled STT-MRAM. To alleviate this problem, various sensing circuits and schemes have recently been proposed. However, it is rather difficult to achieve a good tradeoff among the sensing reliability, latency, power and hardware efficiency etc. This paper presents a dynamic reference cell (DRC) as well as a dynamic reference sensing (DRS) scheme to deal with this problem. Monte-Carlo statistical simulations have been performed to show the superiority of the proposed DRS scheme compared with conventional sensing schemes.
深度缩放STT-MRAM的动态参考感知方案
自旋传递转矩磁随机存取存储器(STT-MRAM)被认为是下一代非易失性存储器的潜在候选者。然而,随着技术的不断缩小,STT-MRAM的传感裕度(SM)由于工艺变化的增加和电源电压的降低而显着下降。同时,磁隧道结的临界开关电流(MTJ)也随着技术的缩放而减小。在读取操作过程中,应该限制传感电流以防止读取干扰(RD),这进一步降低了SM。因此,可读性成为深度规模化STT-MRAM面临的新挑战。为了缓解这个问题,最近提出了各种传感电路和方案。然而,在传感可靠性、延迟、功耗和硬件效率等方面取得良好的平衡是相当困难的。本文提出了一种动态参考单元(DRC)和动态参考感知(DRS)方案来解决这一问题。通过蒙特卡罗统计仿真,证明了所提出的DRS方案与传统传感方案相比的优越性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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