一种鲁棒stream传感斜坡检测新技术

2015 IEEE/ACM International Symposium on Low Power Electronics and Design (ISLPED) Pub Date : 2015-07-22 DOI:10.1109/ISLPED.2015.7273482

Seyedhamidreza Motaman, Swaroop Ghosh, J. Kulkarni

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引用次数: 22

摘要

由于低待机功率和高速度，自旋转矩传输RAM (strtram)是一种很有前途的高密度片上高速缓存技术。然而，磁隧道结(MTJ)和接入晶体管的工艺变化给传感带来了严峻的挑战。无损检测受参考电阻变化的影响，而破坏性检测因数据和参考电流选择不优化而失败。我们提出了一种利用低开销采样保持电路实现MTJ电阻从高状态切换到低状态的斜率检测技术。所提出的传感技术本质上是破坏性的，并且可以与双重采样相结合以提高鲁棒性。模拟结果显示，在工艺变化下，使用单次采样(面积开销为0.2%)的失败率< 0.12%，而使用两次采样(面积开销为0.6%)的失败率< 0.08%。整体感知时间为6.8ns。

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A novel slope detection technique for robust STTRAM sensing

Spin-Torque-Transfer RAM (STTRAM) is a promising technology for high density on-chip cache due to low standby power and high speed. However, the process variation of magnetic tunnel junction (MTJ) and access transistor poses serious challenge to sensing. Nondestructive sensing suffers from reference resistance variation whereas destructive sensing suffers from failures due to unoptimized selection of data and reference currents. We propose a novel slope detection technique to exploit MTJ resistance switching from high to low state using low-overhead sample-and-hold circuit. The proposed sensing technique is destructive in nature and can be combined with double sampling for improved robustness. Simulation results reveal <;0.12% failure under process variation using single sampling (at 0.2% area overhead) and <;0.08% failures with double sampling (at 0.6% area overhead). The overall sense time is found to be 6.8ns.

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2015 IEEE/ACM International Symposium on Low Power Electronics and Design (ISLPED)

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