Ultra-Fast and High-Reliability SOT-MRAM: From Cache Replacement to Normally-Off Computing

G. Prenat; K. Jabeur; P. Vanhauwaert; G. D. Pendina; F. Oboril; R. Bishnoi; M. Ebrahimi; N. Lamard; O. Boulle; K. Garello; J. Langer; B. Ocker; M. C. Cyrille; P. Gambardella; M. Tahoori; G. Gaudin

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Ultra-Fast and High-Reliability SOT-MRAM: From Cache Replacement to Normally-Off Computing

机译：超快速和高可靠性的SOT-MRAM：从缓存替换到常关计算

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This paper deals with a new MRAM technology whose writing scheme relies on the Spin Orbit Torque (SOT). Compared to Spin Transfer Torque (STT) MRAM, it offers a very fast switching, a quasi-infinite endurance and improves the reliability by solving the issue of “read disturb”, thanks to separate reading and writing paths. These properties allow introducing SOT at all-levels of the memory hierarchy of systems and adressing applications which could not be easily implemented by STT-MRAM. We present this emerging technology and a full design framework, allowing to design and simulate hybrid CMOS/SOT complex circuits at any level of abstraction, from device to system. The results obtained are very promising and show that this technology leads to a reduced power consumption of circuits without notable penalty in terms of performance.

机译：本文研究了一种新的MRAM技术，其写入方案依赖于自旋轨道扭矩（SOT）。与自旋传递扭矩（STT）MRAM相比，由于分开的读写路径，它提供了非常快速的切换，准无限的耐用性并通过解决“读取干扰”的问题提高了可靠性。这些属性允许将SOT引入到系统和处理应用程序的系统内存层次结构的所有级别，而这是STT-MRAM难以实现的。我们介绍了这项新兴技术和完整的设计框架，可以设计和仿真从设备到系统的任何抽象级别的混合CMOS / SOT复杂电路。所获得的结果非常有前途，表明该技术可降低电路的功耗，而性能却不会受到明显影响。

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来源
《Multi-Scale Computing Systems, IEEE Transactions on》 |2016年第1期|49-60|共12页
作者
G. Prenat; K. Jabeur; P. Vanhauwaert; G. D. Pendina; F. Oboril; R. Bishnoi; M. Ebrahimi; N. Lamard; O. Boulle; K. Garello; J. Langer; B. Ocker; M. C. Cyrille; P. Gambardella; M. Tahoori; G. Gaudin;
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作者单位

Univ. Grenoble Alpes, INAC-SPINTEC, F-38000 Grenoble, France;

CNRS, INAC-SPINTEC, F-38000 Grenoble, France;

and CEA, INAC-SPINTEC, F-38000 Grenoble, France;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Gem5; MRAM; NVFF; NVSIM; SOT; Spin Orbit Torque; cache; design flow; leon; multicore; processor; spin orbit torque;

机译：Gem5;MRAM;NVFF;NVSIM;SOT;自旋轨道扭矩;缓存;设计流程;里昂;多核;处理器;自旋轨道扭矩;
入库时间 2022-08-17 23:59:27

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Ultra-Fast and High-Reliability SOT-MRAM: From Cache Replacement to Normally-Off Computing

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