# B1 Project
Project Title: Nanoscale oscillatory network evolution
PI’s: Prof. Dr. Hermann Kohlstedt, PD. Dr. Karlheinz Ochs
Researcher(s): Bakr Al Beattie, Maximiliane Noll
Dataset Name: Wave digital emulation of an enhanced compact model for RRAM devices with multilevel capability
Dataset Descriptions: Simulated data for figures 5 and 8 as presented in [^1].
Methodology: Wave flow diagram programmed in MATLAB, refer details in setup.
Setup:
:::{figure-md} fig-target
:class: align-center
```{image} ../_static/B1_figure1.png
:alt:
:width: 475px
```
(a) Electrical circuit used for measuring the hysteresis of the RRAM device and (b) Integrator circuit used to solve the RRAM device’s state equation.
:::
:::{figure-md} fig-target
:class: align-center
```{image} ../_static/B1_figure2.png
:alt:
:width: 475px
```
Wave flow diagram programmed under MATLAB to emulate the dynamics of IHP’s RRAM device.
:::
Parameters:
:::{figure-md} fig-target
:class: align-center
```{image} ../_static/B1_figure3.png
:alt:
:width: 475px
```
Physical parameters and constants.
:::
:::{figure-md} fig-target
:class: align-center
```{image} ../_static/B1_figure4.png
:alt:
:width: 475px
```
Parameters specific to the RRAM device.
:::
:::{figure-md} fig-target
:class: align-center
```{image} ../_static/B1_figure5.png
:alt:
:width: 475px
```
Fitting parameters of the Stanford-PKU model.
:::
Click here to download the dataset.
References:
[^1]: Al Beattie, B., Quesada, E. P. B., Uhlmann, M., Pérez, E., Kahmen, G., Solan, E., & Ochs, K. (2023). Wave Digital Emulation of an Enhanced Compact Model for RRAM Devices with Multilevel Capability. IEEE Transactions on Nanotechnology. doi:10.1109/TNANO.2023.3328821