High-Density Spin–Orbit Torque Magnetic Random Access Memory With Voltage-Controlled Magnetic Anisotropy/Spin-Transfer Torque Assist

IF 2 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Piyush Kumar;Azad Naeemi
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引用次数: 1

Abstract

This article explores an area saving scheme for spin–orbit torque (SOT) magnetic random access memory (MRAM) by sharing the SOT channel and write transistor among multiple magnetic tunnel junctions (MTJs). We use two write mechanisms to selectively write the MTJs, i.e., voltage-controlled magnetic anisotropy (VCMA)-assisted write in the presence of an external magnetic field and field-free spin-transfer torque (STT)-assisted write. Using micromagnetic simulations that are augmented by the rare-event enhancement, we study various trade-offs among write current, time, and energy, write error rate (WER), and the number of MTJs on an SOT channel. We quantify the issue of IR drop on the SOT channel as a function of the SOT layer thickness and number of MTJs. Our results show having more than four MTJs on an SOT channel poses major challenges in terms of IR drop and WER. In addition, we evaluate the impact of the proposed scheme on read performance.
具有电压控制磁各向异性/自旋传递转矩辅助的高密度自旋轨道转矩磁随机存取存储器
本文探讨了一种在多个磁隧道结(MTJs)中共享SOT通道和写晶体管的自旋轨道转矩(SOT)磁随机存储器(MRAM)的节省面积方案。我们使用两种写入机制选择性地写入MTJs,即在外部磁场存在下的电压控制磁各向异性(VCMA)辅助写入和无场自旋传递扭矩(STT)辅助写入。通过微磁模拟,我们研究了写电流、时间和能量、写错误率(WER)和SOT通道上mtj的数量之间的各种权衡。我们将SOT通道上的IR下降问题量化为SOT层厚度和mtj数量的函数。我们的研究结果表明,在SOT通道上有超过四个mtj在IR下降和WER方面构成了重大挑战。此外,我们还评估了该方案对读性能的影响。
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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来源期刊
CiteScore
5.00
自引率
4.20%
发文量
11
审稿时长
13 weeks
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