Archivio Istituzionale della RicercaAnalog-on-Top Mixed Signal (AMS) Integrated Circuit (IC) design is a time-consuming process predominantly carried out by hand. Within this flow, usually, some area is reserved by the top-level integrator for the placement of digital blocks. Specific features of the area, such as size and shape, have a relevant impact on the possibility of implementing the digital logic with the required functionality. We present a Machine Learning (ML)-based evaluation methodology for predicting the feasibility of digital implementation using a set of high-level features. This approach aims to avoid time-consuming Place-and-Route trials, enabling rapid feedback between Digital and Analog Back-End designers during top-level placement.
Machine Learning-based feasibility estimation of digital blocks in BCD technology / Daghero, Francesco; Faraone, Gabriele; Grosso, Michelangelo; Pagliari, Daniele Jahier; Di Carolo, Nicola; Franchino, Giovanna Antonella; Licastro, Dario; Serianni, Eugenio. - ELETTRONICO. - (2024), pp. 1-6. (Intervento presentato al convegno 2024 IEEE International Conference on Design, Test and Technology of Integrated Systems, DTTIS 2024 tenutosi a Aix-En-Provence, France nel 14-16 October 2024) [10.1109/dttis62212.2024.10780062].
Machine Learning-based feasibility estimation of digital blocks in BCD technology
Daghero, Francesco;Pagliari, Daniele Jahier;
2024
Abstract
Analog-on-Top Mixed Signal (AMS) Integrated Circuit (IC) design is a time-consuming process predominantly carried out by hand. Within this flow, usually, some area is reserved by the top-level integrator for the placement of digital blocks. Specific features of the area, such as size and shape, have a relevant impact on the possibility of implementing the digital logic with the required functionality. We present a Machine Learning (ML)-based evaluation methodology for predicting the feasibility of digital implementation using a set of high-level features. This approach aims to avoid time-consuming Place-and-Route trials, enabling rapid feedback between Digital and Analog Back-End designers during top-level placement.
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https://hdl.handle.net/11583/2999020
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