Jülich Aachen ReRAM Tools (JART)

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11 to 13 of 13 Results

JART VCM v1 Mar 25, 2025 Menzel, Stephan; Bengel, Christopher, 2025, "JART VCM v1", https://doi.org/10.26165/JUELICH-DATA/TQOP7I, Jülich DATA, V1 Short description: The JART VCM v1 model was developed to simulate the switching characteristics of devices based on the valence change mechanism (also called OxRAM). In this model, the ionic defect concentration (oxygen vacancies) in the disc region close to the active electrode...
JART VCM v1b Mar 25, 2025 Menzel, Stephan; Bengel, Christopher, 2025, "JART VCM v1b", https://doi.org/10.26165/JUELICH-DATA/LUA8QY, Jülich DATA, V1 The JART VCM v1b var model represents an extension of the JART VCM v1b model which additionally considers device-to-device and cycle-to-cycle variability. The ECD can be seen in Fig. 1. The physical equations are the same as in the v1b model. Device-to-device variability is achie...
JART VCM v2 Mar 25, 2025 Menzel, Stephan; Bengel, Christopher, 2025, "JART VCM v2", https://doi.org/10.26165/JUELICH-DATA/NFHTAR, Jülich DATA, V1 The JARV VCM v2 model is an extension of the JART VCM v1 model. It includes two different switching locations I and II (see JART VCM v2.jpg). Thus, the model uses two state variables. In addition, diffusion between region I and II is included in this model, enabling the simulatio...

JART VCM v1

Mar 25, 2025

Menzel, Stephan; Bengel, Christopher, 2025, "JART VCM v1", https://doi.org/10.26165/JUELICH-DATA/TQOP7I, Jülich DATA, V1

Short description: The JART VCM v1 model was developed to simulate the switching characteristics of devices based on the valence change mechanism (also called OxRAM). In this model, the ionic defect concentration (oxygen vacancies) in the disc region close to the active electrode...

JART VCM v1b

Mar 25, 2025

Menzel, Stephan; Bengel, Christopher, 2025, "JART VCM v1b", https://doi.org/10.26165/JUELICH-DATA/LUA8QY, Jülich DATA, V1

The JART VCM v1b var model represents an extension of the JART VCM v1b model which additionally considers device-to-device and cycle-to-cycle variability. The ECD can be seen in Fig. 1. The physical equations are the same as in the v1b model. Device-to-device variability is achie...

JART VCM v2

Mar 25, 2025

Menzel, Stephan; Bengel, Christopher, 2025, "JART VCM v2", https://doi.org/10.26165/JUELICH-DATA/NFHTAR, Jülich DATA, V1

The JARV VCM v2 model is an extension of the JART VCM v1 model. It includes two different switching locations I and II (see JART VCM v2.jpg). Thus, the model uses two state variables. In addition, diffusion between region I and II is included in this model, enabling the simulatio...

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