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  4. Non-Volatile Inverter With 3D Cylindrical Metal-Ferroelectric-Metal Capacitor Realizing Digitized Voltage Output for Computing-In-Memory
 
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2025
Conference Paper
Title

Non-Volatile Inverter With 3D Cylindrical Metal-Ferroelectric-Metal Capacitor Realizing Digitized Voltage Output for Computing-In-Memory

Abstract
A non-volatile Hf<inf>0.5</inf>Zr<inf>0.5</inf>O<inf>2</inf>(HZO)-based Metal-Ferroelectric-Metal (MFM) inverter enabling AND/XNOR operations for Computation-in-Memory CiM) is proposed. Owing to the symmetric threshold voltage V<inf>th</inf>) shift in the nFET and pFET of the MFM inverter, a digitized output after the multiply operation is successfully demonstrated for the first time with non-volatile memory, enabling the high precision CiM. In addition, the MFM inverter has the advantage of a large memory window (MW) because a large partial programming voltage is structurally applied to the MFM capacitor. Moreover, the MW and the endurance were intensively studied to clarify the key factors for reliable operation. Together with the process compatible FeRAM as a working memory, the MFM inverter has the potential to achieve low-power, high-density, and high precision non-volatile CiM systems.
Author(s)
Ota, Kensuke
Sony Semiconductor Solutions Corporation
Okuno, Jun
Sony Semiconductor Solutions Corporation
Yonai, Tsubasa
Sony Semiconductor Solutions Corporation
Ono, Ryo
Sony Semiconductor Solutions Corporation
Shuto, Yusuke
Sony Semiconductor Solutions Corporation
Sakakibara, Masaki
Sony Semiconductor Solutions Corporation
Lederer, Maximilian
Fraunhofer-Institut für Photonische Mikrosysteme IPMS  
Reinig, Peter  
Fraunhofer-Institut für Photonische Mikrosysteme IPMS  
Seidel, Konrad  
Fraunhofer-Institut für Photonische Mikrosysteme IPMS  
Alcala, Ruben
NaMLab GGmbH
Schroeder, Uwe Paul
NaMLab GGmbH
Mikolajick, Thomas
NaMLab GGmbH
Kato, Akihiko
Sony Semiconductor Solutions Corporation
Ueno, Yosuke
Sony Semiconductor Solutions Corporation
Mainwork
51st IEEE European Solid-State Electronics Research Conference, ESSERC 2025. Proceedings  
Conference
European Solid-State Electronics Research Conference 2025  
DOI
10.1109/ESSERC66193.2025.11213963
Language
English
Fraunhofer-Institut für Photonische Mikrosysteme IPMS  
Keyword(s)
  • Computing in Memory

  • Ferroelectric

  • Hf0.5Zr0.5O2

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