cmos -忆阻器集成研究进展

G. Medeiros-Ribeiro, J. Nickel, J. Yang
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引用次数: 10

摘要

简要回顾了过去三年来在记忆电阻器的材料科学、物理和工程方面所取得的快速进展。从材料科学的角度揭示了电铸现象及其对理解新型器件结构的相关重要性,并辅以光谱显微镜和电子显微镜的研究。这些研究被用来证实一个现实的物理模型,该模型允许开发控制器件行为的微分方程,以及SPICE模型和随机分析。最后,我们简要地强调了最近在设备续航能力方面的进展,这超过了FLASH的几个数量级。
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Progress in CMOS-memristor integration
The fast improvements that have been realized over the past 3 years in the understanding of the materials science, physics and engineering of memristors are briefly reviewed. The electroforming phenomena and the associated importance for the understanding of novel device structures has been revealed from a materials science standpoint, complemented with a spectromicroscopy study and electronic microscopy. These studies were utilized to substantiate a realistic physical model that permitted the development of differential equations governing device behavior, as well as SPICE models and stochastic analysis. Finally, we briefly highlight recent progress in device endurance, which surpasses that of FLASH by several orders of magnitude.
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