We report a modeling study of a conceptual nonvolatile memory cell based on inorganic molecular metal-oxide clusters as a storage media embedded in the gate dielectric of a MOSFET. For the purpose of this paper, we developed a multiscale simulation framework that enables the evaluation of variability in the programming window of a flash cell with sub-20-nm gate length. Furthermore, we studied the threshold voltage variability due to random dopant fluctuations and fluctuations in the distribution of the molecular clusters in the cell. The simulation framework and the general conclusions of our work are transferrable to flash cells based on alternative molecules used for a storage media

Asenov, Asen

Busche, Christoph

Cronin, Leroy

Georgiev, Vihar P.

Markov, Stanislav

Vila-Nadal, Laia

IEEE Transactions on Electron Devices

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Optimization and evaluation of variability in the programming window of a flash cell with molecular metal-oxide storage

Abstract — We report a modeling study of a conceptual nonvolatile memory cell based on inorganic molecular metal– oxide clusters as a storage media embedded in the gate dielectric of a MOSFET. For the purpose of this paper, we developed a multiscale simulation framework that enables the evaluation of variability in the programming window of a flash cell with sub-20-nm gate length. Furthermore, we studied the threshold voltage variability due to random dopant fluctuations and fluctu-ations in the distribution of the molecular clusters in the cell. The simulation framework and the general conclusions of our work are transferrable to flash cells based on alternative molecules used for a storage media. Index Terms — Device variability, molecular electronics, multiscale modeling, nonvolatile memory (NVM), polyoxomet

Vihar P. Georgiev

Stanislav Markov

Laia Vilà-nadal

Christoph Busche

Leroy Cronin

Asen Asenov

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Optimization and Evaluation of Variability in the Programming Window of a Flash Cell With Molecular Metal–Oxide Storage

Laia Vila-Nadal

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We report a modeling study of a conceptual nonvolatile memory cell based on inorganic molecular metal-oxide clusters as a storage media embedded in the gate dielectric of a MOSFET. For the purpose of this paper, we developed a multiscale simulation framework that enables the evaluation of variability in the programming window of a flash cell with sub-20-nm gate length. Furthermore, we studied the threshold voltage variability due to random dopant fluctuations and fluctuations in the distribution of the molecular clusters in the cell. The simulation framework and the general conclusions of our work are transferrable to flash cells based on alternative molecules used for a storage media. © 1963-2012 IEEE.published_or_final_versio

Vilà-Nadal, Laia

HKU Scholars Hub

http://hub.hku.hk/bitstream/10722/221361/1/Content.pdf

Optimization and evaluation of variability in the programming window of a flash cell with molecular metal-oxide storage

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