混合CMOS/磁性工艺设计套件及其在高性能非易失性逻辑电路设计中的应用

G. Prenat, B. Dieny, J. Nozieres, G. D. Pendina, K. Torki
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引用次数: 6

摘要

自旋电子学(或自旋电子学)是磁学和电子学融合的一个不断发展的研究和发展领域。它旨在利用电子的量子特性,即自旋,来创造新的功能和新的器件。自旋电子器件包括磁性层,磁性层用作自旋极化器或分析仪,由非磁性层隔开,自旋极化电子通过非磁性层传输。通常,它们依赖于磁阻(MR)效应,它由电阻对磁结构的依赖组成。这些器件可用于构思创新的非易失性存储器,高性能逻辑电路,射频振荡器或场/电流传感器。本文描述了一个完整的磁过程设计套件(MPDK),允许有效地设计这种CMOS/磁混合电路。后者可以帮助规避仅cmos微电子的一些限制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hybrid CMOS/Magnetic Process Design Kit and application to the design of high-performances non-volatile logic circuits
Spintronics (or spin-electronics) is a continuously expending area of research and development at the merge between magnetism and electronics. It aims at taking advantage of the quantum characteristic of the electrons, i.e. its spin, to create new functionalities and new devices. Spintronic devices comprise magnetic layers which serve as spin polarizers or analyzers separated by non-magnetic layers through which the spin-polarized electrons are transmitted. Typically, they rely on the Magneto Resistive (MR) effects, which consists in a dependence of the electrical resistance upon the magnetic configuration. These devices can be used to conceive innovative non-volatile memories, high-perfomances logic circuits, RF oscillators or field/current sensors. This paper describes a full Magnetic Process Design Kit (MPDK) allowing to efficiently design such CMOS/magnetic hybrid circuits. The latter can help circumventing some of the limits of CMOS-only microelectronics.
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