Evaluation and Control of Break-Even Time of Nonvolatile Static Random Access Memory Based on Spin-Transistor Architecture with Spin-Transfer-Torque Magnetic Tunnel Junctions

Yusuke Shuto; Shuuichirou Yamamoto; Satoshi Sugahara

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Evaluation and Control of Break-Even Time of Nonvolatile Static Random Access Memory Based on Spin-Transistor Architecture with Spin-Transfer-Torque Magnetic Tunnel Junctions

机译：基于自旋转矩转矩磁隧道结的自旋晶体管体系结构的非易失性静态随机存取存储器的收支平衡时间评估与控制

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The energy performance of a nonvolatile static random access memory (NV-SRAM) cell for power gating applications was quantitatively analyzed for the first time using the performance index of break-even time (BET). The NV-SRAM cell is based on spin-transistor architecture using ordinary metal-oxide-semiconductor field-effect transistors (MOSFETs) and spin-transfer-torque magnetic tunnel junctions (STT-MTJs), whose circuit representation of spin-transistor is referred to as a pseudo-spin-MOSFET (PS-MOSFET). The cell is configured with a standard six-transistor SRAM cell and two PS-MOSFETs. The NV-SRAM cell basically has a short BET of submicroseconds. Although the write (store) operation to the STT-MTJs causes an increase in the BET, it can be successfully reduced by the proposed power-aware bias-control for the PS-MOSFETs.

机译：首次使用收支平衡时间（BET）的性能指标对用于电源门控应用的非易失性静态随机存取存储器（NV-SRAM）单元的能量性能进行了定量分析。 NV-SRAM单元基于自旋晶体管架构，该晶体管使用普通的金属氧化物半导体场效应晶体管（MOSFET）和自旋传递扭矩磁隧道结（STT-MTJ），其自旋晶体管的电路表示形式被称为作为伪自旋MOSFET（PS-MOSFET）。该单元配置有一个标准的六晶体管SRAM单元和两个PS-MOSFET。 NV-SRAM单元的BET基本上只有几微秒。尽管对STT-MTJ的写（存储）操作会导致BET的增加，但可以通过为PS-MOSFET提出的功率感知偏置控制来成功地降低它。

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《Japanese journal of applied physics》 |2012年第4issue1期|p.040212.1-040212.3|共3页
作者
Yusuke Shuto; Shuuichirou Yamamoto; Satoshi Sugahara;
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Imaging Science and Engineering Laboratory, Tokyo Institute of Technology, Yokohama 226-8502, Japan,CREST, Japan Science and Technology Agency, Kawaguchi, Saitama 332-0012, Japan;

Department of Information Processing, Tokyo Institute of Technology, Yokohama 226-8502, Japan,CREST, Japan Science and Technology Agency, Kawaguchi, Saitama 332-0012, Japan;

Imaging Science and Engineering Laboratory, Tokyo Institute of Technology, Yokohama 226-8502, Japan,Department of Electronics and Applied Physics, Tokyo Institute of Technology, Yokohama 226-8502, Japan,CREST, Japan Science and Technology Agency, Kawaguchi, Saitama 332-0012, Japan;

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1. Nonvolatile Power-Gating Field-Programmable Gate Array Using Nonvolatile Static Random Access Memory and Nonvolatile Flip-Flops Based on Pseudo-Spin-Transistor Architecture with Spin-Transfer-Torque Magnetic Tunnel Junctions [J] . Shuuichirou Yamamoto, Yusuke Shuto, Satoshi Sugahara Japanese journal of applied physics . 2012,第11ISSUE2期

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2. High-Density and Low-Power Nonvolatile Static Random Access Memory Using Spin-Transfer-Torque Magnetic Tunnel Junction [J] . Takashi Ohsawa, Fumitaka Iga, Shoji Ikeda, Japanese journal of applied physics . 2012,第2Issue2期

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机译：使用磁隧道结的非易失性静态随机存取存储器的设计和节能架构
4. Nonvolatile static random access memory based on spin-transistor architecture [C] . Yusuke Shuto, Shuuichirou Yamamoto, Satoshi Sugahara Annual Conference on Magnetism and Magnetic Materials . 2009

机译：基于旋转晶体管架构的非易失性静态随机存取存储器
5. Nanoscale nonvolatile memory circuit design using emerging spin transfer torque magnetic random access memory [D] . Vemula, Lohith Kumar. 2016

机译：纳米级非易失性存储器电路设计使用新出现的自旋转移扭矩磁随机存取存储器
6. Design and fabrication of a perpendicular magnetic tunnel junction based nonvolatile programmable switch achieving 40 less area using shared-control transistor structure [O] . D. Suzuki, M. Natsui, A. Mochizuki, -1

机译：基于垂直磁隧道结的非易失性可编程开关的设计和制造使用共享控制晶体管结构可将面积减少40％
7. Nonvolatile Static Random Access Memory (NV-SRAM) Using Magnetic Tunnel Junctions with Current-Induced Magnetization Switching Architecture [O] . Yamamoto, Shuu'ichirou, Sugahara, Satoshi 2009

机译：使用磁隧道的非易失性静态随机存取存储器（NV-sRam）具有电流感应磁化开关结构的连接点
8. Separate Write and Read Access Architecture for a Magnetic Tunnel Junction. [R] . Katti, R. R. 2004

机译：用于磁隧道结的独立写和读访问架构。

Evaluation and Control of Break-Even Time of Nonvolatile Static Random Access Memory Based on Spin-Transistor Architecture with Spin-Transfer-Torque Magnetic Tunnel Junctions

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