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The rapid growth of Internet-of-Things (IoT) applications necessitates the development of cost-effective solutions and accelerated design cycles. While digital circuit design has witnessed significant automation, analog design still heavily relies on experienced engineers. To bridge this gap, synthesizable solutions that integrate digital and analog design automation are crucial for efficient IoT development. This paper explores the historical context and current challenges in circuit automation and electronic design automation (EDA) tools, specifically focusing on analog and mixed-signal circuits. As successive approximation register (SAR) ADCs play a critical role in IoT applications, it is important to critically examines the state-of-the-art synthesizable SAR ADCs, discussing the strengths and limitations of different design techniques for various circuit blocks. These findings provide valuable insights for researchers and industry practitioners, informing future research directions in the field of synthesizable SAR ADC design automation.

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Understanding Synthesizable Design Methodologies for Mixed-Signal SAR ADC Circuits

FENG YANG, DUY-HIEU BUI, YANG ZHAO, LIANG QI, JINGHUA ZHANG, XUAN-TU TRAN, YONGFU LI

Integrated Circuits and Systems››2024, Vol. 1››Issue (3): 120-126.

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Integrated Circuits and Systems ›› 2024, Vol. 1 ›› Issue (3) : 120-126. DOI: 10.23919/ICS.2024.3482310
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Understanding Synthesizable Design Methodologies for Mixed-Signal SAR ADC Circuits

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{{article.zuoZheEn_L}}.{{article.title_en}}[J]. {{journal.qiKanMingCheng_EN}}, 2024, 1(3): 120-126 https://doi.org/10.23919/ICS.2024.3482310

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