I want to compare a GAA TFET Experimental results of Id-Vgs that is normalized to the diameter with a 2D simulation results that is normalized to 1 um. Should I divide the simulated resulted by 2*pi or just multiply experimental results by diameter?
Amira Nabil A careful study of the simulated and experimental data is required to compare a simulated 2D structure with experimental 3D findings of a GAA (germanium-alloy-antimony) TFET (tunnel field-effect transistor).
Here are a few steps you can take:
1. Obtain the experimental and simulated data for the 2D and 3D structures, respectively.
2. Extract useful information from the data, such as electrical qualities (e.g., current-voltage (I-V) characteristics, transfer characteristics, and so on) and structural features (e.g., dimensions, material properties, etc.).
3. To visually compare the simulated and experimental findings, plot the retrieved data in graphs or charts.
4. To assess the degree of resemblance between the simulated and experimental outcomes, use statistical techniques such as regression analysis or t-tests.
5. Analyze the inconsistencies between the simulated and experimental data to determine the cause of any discrepancy.
6. If required, use the comparison results to increase the accuracy of the simulated model.
I hope this was helpful! Please let me know if you have any other questions.
Dear Qamar Ul Islam
Thanks for your answer. But I want to know how to compare the unit of the graphs of both Experimental and simulated results where experimental results is normalized to diameter (Gate all around TFET in 3D) and 2D simulation results that is normalized to length (1 um).
Thanks in advance.
Amira Nabil You must do the following procedures to compare the units of the graphs of experimental and simulated results, where the experimental results are normalized to diameter and the simulated results are standardized to a length:
1. Determine the length and diameter scales that apply to each dataset. This will be the diameter of the 3D gate-all-around (GAA) transistor for the experimental findings. This will be the length of the 1 um 2D transistor in the simulation results.
2. Use the appropriate length or diameter scale to normalize the experimental and simulated data. To obtain the experimental findings, divide each data point by the diameter of the GAA transistor. To get the simulated results, divide each data point by the length.
3. Use the same x- and y-axis scales to plot the normalized experimental and simulated data on the same graph.
4. Consider the form and slope of the graphs, as well as any inconsistencies or variances between the experimental and simulated data, when interpreting the comparative results.
I hope you find this material useful! Please let me know if you have any more inquiries.
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