Autor: |
Sad, Christos, Michailidis, Anastasios, Noulis, Thomas, Siozios, Kostas |
Předmět: |
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Zdroj: |
Electronics (2079-9292); Jun2023, Vol. 12 Issue 11, p2428, 27p |
Abstrakt: |
A new methodology for the RF/mmWave analog design process, automation and acceleration, is presented in this work. The proposed framework was implemented so as to accelerate the design cycle of analog/RF circuits by creating a dataset in a fully automated manner and training a combination of machine learning models for the optimal design parameters' prediction. machine learning polynomial regression was adopted to accelerate the design process, predicting the optimal design parameters' values while genetic algorithm optimization was exploited for the dataset creation automation. To evaluate the efficiency of the proposed methodology, the framework was implemented for the design of a common source Low-Noise-Amplifier, using a 65 nm CMOS process node. The proposed methodology successfully tackles the design cycle speed-up, automation, and acceleration, utilizing machine learning prediction for the design parameters and genetic algorithm for the dataset creation automation instead of the classical, simulation-based, standard design methodology. The provided experimental results have shown the effectiveness of the proposed hybrid approach, creating very precise RF matching networks for LNA designs and achieving > 99.9 % wave transmission efficiency while reaching > 99 % accuracy on the parameters' prediction task. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
Externí odkaz: |
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