Article Dans Une Revue IEEE Journal on Exploratory Solid-State Computational Devices and Circuits Année : 2021

Ultra-low-voltage UTBB-SOI-based, pseudo-static storage circuits for cryogenic CMOS applications

Résumé

Operating CMOS circuits at cryogenic temperatures offers advantages of higher mobility, higher ON-current, and better subthreshold characteristics, which can be leveraged to realize high-performance CMOS circuits. However, an ultra-low-voltage operation is necessary to minimize the power consumption and to offset the cooling cost overheads. The MOSFET threshold voltages (Vt) increase at cryogenic temperatures making it challenging to achieve high performance while operating at very low voltage. Ultra-thin body and buried oxide silicon-on-insulator (UTBB-SOI)-based MOSFETs can modulate the transistor threshold voltage using the back-gate bias, unlike conventional FinFETs. This unique UTBB-SOI technology attribute has been leveraged to realize compact pseudo-static storage circuits, namely, embedded dynamic random access memory (DRAM) bitcell and a flip-flop operating at 0.2 V and 77 K. This article presents UTBB-SOI device fabrication details and calibrate experimental device characteristics with BSIM compact models. SPICE simulations suggest the feasibility of three-transistor gain-cell embedded DRAM (eDRAM) capable of reliably storing three distinct voltage levels (1.5 bits/cell) and exhibiting retention time of the order of 10 4 s. Furthermore, a unique pseudo-static flip-flop design is presented, which can lower the clock power by 50%, transistor count by 20%, and static power consumption by 20%.
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cea-04951462 , version 1 (17-02-2025)

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S S Teja Nibhanupudi, Siddhartha Raman Sundara Raman, Mikael Casse, Louis Hutin, Jaydeep P Kulkarni. Ultra-low-voltage UTBB-SOI-based, pseudo-static storage circuits for cryogenic CMOS applications. IEEE Journal on Exploratory Solid-State Computational Devices and Circuits, 2021, 7 (2), pp.201 - 208. ⟨10.1109/jxcdc.2021.3130839⟩. ⟨cea-04951462⟩
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