基于伪自旋mosfet的新型非易失SRAM单元的静态噪声裕度和功率门控效率分析

Y. Shuto, S. Yamamoto, S. Sugahara
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引用次数: 12

摘要

对基于伪自旋- mosfet (PS-MOSFET)结构的非易失性SRAM (NV-SRAM)电池的静态噪声裕度(SNMs)和功率门控效率进行了计算分析。NV-SRAM单元具有与优化的6T-SRAM单元相同的snm。我们还评估了其他最近提出的使用STT-MTJs的NV-SRAM细胞的SNMs,发现它们的SNMs由于STT-MTJs成分的影响而恶化。利用ps - mosfet分析了NV-SRAM电池的盈亏平衡时间(BET)和功率效率。通过控制电池的偏置,可以成功地将BET降至最低。通过执行功率门控(PG)可以有效地降低平均功耗,并且通过引入睡眠模式可以进一步降低功耗。
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Analysis of static noise margin and power-gating efficiency of a new nonvolatile SRAM cell using pseudo-spin-MOSFETs
Static noise margins (SNMs) and power-gating efficiency were computationally analyzed for our proposed nonvolatile SRAM (NV-SRAM) cell based on pseudo-spin-MOSFET (PS-MOSFET) architecture using spin-transfer-torque MTJs (STT-MTJs). The NV-SRAM cell has the same SNMs as an optimized 6T-SRAM cell. SNMs for other recently-proposed NV-SRAM cells using STT-MTJs were also evaluated, and we showed that their SNMs were deteriorated owing to the effect of the constituent STT-MTJs. Break-even time (BET) and power efficiency were analyzed for the NV-SRAM cell using PS-MOSFETs. The BET can be successfully minimized by controlling the bias of the cell. The average power dissipation can be effectively reduced by power-gating (PG) executions, and the further reduction is made possible by introducing a sleep mode.
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