Performance Evaluation and Optimization of the Sampling Process of an Neuropredictive SAR ADC
Spielberger A, Spitzkopf L, Schrotz AM, Pfannenmüller C, Weigel R, Franchi N (2025)
Publication Status: Accepted
Publication Type: Unpublished / Preprint
Future Publication Type: Conference contribution
Publication year: 2025
Event location: Busan
Abstract
The functionality of the sampling process of a neuropredictive SAR ADC is analyzed and the behavior of the Neuromorphic ADC is modeled in a Python simulation and verified through measurements with different parameters. By checking the boundary values of the prediction window, clock cycles can be saved even if the prediction is incorrect. Simulative modeling enables training of the neural networks close to the hardware. The influence of the prediction window is optimized with the help of the simulation to reduce the conversion time. The maximum cycle saving for a noisy ADC is reduced from 60% to 52% for an 16b ADC with an SNR of 70 dB.
Authors with CRIS profile
Alexander Spielberger
Lehrstuhl für Technische Elektronik (LTE)
Albert-Marcel Schrotz
Lehrstuhl für Intelligente Technische Elektronik und Systeme
Christof Pfannenmüller
Lehrstuhl für Intelligente Technische Elektronik und Systeme
Robert Weigel
Technische Fakultät
Norman Franchi
Lehrstuhl für Technische Elektronik (LTE)
How to cite
APA:
Spielberger, A., Spitzkopf, L., Schrotz, A.-M., Pfannenmüller, C., Weigel, R., & Franchi, N. (2025). Performance Evaluation and Optimization of the Sampling Process of an Neuropredictive SAR ADC. (Unpublished, Accepted).
MLA:
Spielberger, Alexander, et al. Performance Evaluation and Optimization of the Sampling Process of an Neuropredictive SAR ADC. Unpublished, Accepted. 2025.
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