Surround Gate Transistor With Epitaxially Grown Si Pillar and Simulation Study on Soft Error and Rowhammer Tolerance for DRAM

Surround Gate Transistor With Epitaxially Grown Si Pillar and Simulation Study on Soft Error and Rowhammer Tolerance for DRAM

A new dynamic random access memory (DRAM) memory cell transistor is fabricated, and its soft-error immunity and rowhammer tolerance are studied. The vertical channel is formed by selective epitaxial growth of silicon pillar, and the surround gate forms a fully depleted (FD) channel, which can suppre...

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Veröffentlicht in:IEEE transactions on electron devices 2021-02, Vol.68 (2), p.529-534
Hauptverfasser: Han, Jin-Woo, Kim, Jungsik, Beery, Dafna, Bozdag, K. Deniz, Cuevas, Peter, Levi, Amitay, Tain, Irwin, Tran, Khai, Walker, Andrew J., Palayam, Senthil Vadakupudhu, Arreghini, Antonio, Furnemont, Arnaud, Meyyappan, M.
Format: Artikel
Sprache:eng
Schlagworte:
Alpha rays
Doping
Dynamic random access memory
Epitaxial growth
Error analysis
Floating bodies
Immune system
Immunity
Logic gates
Random access memory
rowhammer
Semiconductor devices
Semiconductor process modeling
Silicon
Soft errors
soft-error
surround gate transistor (SGT)
TCAD simulation
Transistors
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Zusammenfassung:A new dynamic random access memory (DRAM) memory cell transistor is fabricated, and its soft-error immunity and rowhammer tolerance are studied. The vertical channel is formed by selective epitaxial growth of silicon pillar, and the surround gate forms a fully depleted (FD) channel, which can suppress floating-body effects, such as hysteresis. A TCAD simulation study compares this device and conventional bulk saddle FinFET in terms of soft error immunity and rowhammer tolerance. The confined channel limits soft error because of its thin channel volume for charge generation due to alpha and neutron particles. The surround gate device is inherently free from rowhammer attack as each silicon body of any memory cell transistor is fully isolated from neighboring word lines.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2020.3045966