Design Methodologies for STT-MRAM (Spin-Torque Transfer Magnetic Random Access Memory) Sensing Circuits
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概要
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Spin-torque transfer magnetic random access memory (STT-MRAM) is a promising technology for next generation nonvolatile universal memory because it reduces the high write current required by conventional MRAM and enables write current scaling as technology becomes smaller in size. However, the sensing margin is not improved in STT-MRAM and tends to decrease with technology scaling due to the lowered supply voltage and increased process variation. Moreover, read disturbance, which is an unwanted write in a read operation, can occur in STT-MRAM because its read and write operations use the same path. To overcome these problems, we present a load-line analysis method, which is useful for systematically analyzing the impacts of transistor size and gate voltage of MOSFETs on the sensing margin, and also propose an optimization procedure for the commonly applicable MRAM sensing circuits. This methodology constitutes an effective means to optimize the transistor size and gate voltage of MOSFETs and thus maximizes the sensing margin without causing read disturbance.
著者
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JUNG Seong-Ook
Yonsei University
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YOON Sei-Seung
Qualcomm Incorporation
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KIM Jisu
Yonsei University
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SONG Jee-Hwan
Yonsei University
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KANG Seung-Hyuk
Qualcomm Incorporation
関連論文
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