Title :
A Bulk Planar SiGe Quantum-Well Based ZRAM with Low Vt Variability
Author :
Dutta, Sangya ; Mittal, Sushant ; Lodha, Saurabh ; Schulze, Jorg ; Ganguly, Udayan
Author_Institution :
Dept. of Electr. Eng., IIT Bombay, Mumbai, India
Abstract :
A planar bulk ZRAM is attractive from a simplicity, cost and scalability perspective - compared to SOI or FinFET based designs. Alternatively, the highly doped p-channel bulk planar ZRAM with electrostatic potential well-based hole-storage is susceptible to random- dopant-fluctuation (RDF) induced VT variability. Here, we propose and evaluate a planar bulk ZRAM device with an intrinsic channel of Si/SiGe/Si hetero-structure epitaxially grown on an n+Si well. TCAD simulations show excellent performance of 660mV VT shift at +/-1.5V operation and IREAD difference of 45μA/μm. In terms of RDF based VT variability, a σVT of 12.8 mV is observed which is estimated to be a small fraction (~51×) of the estimate VT shift (660mV) and 6.47× lower compared to p-doped channel based ZRAM. Initial experiments on MOSCAP devices validate the hole-storage in the SiGe well with a 0.5V VT shift and an excellent read disturb (>1000s).
Keywords :
DRAM chips; Ge-Si alloys; electric potential; electrostatics; elemental semiconductors; epitaxial growth; semiconductor epitaxial layers; semiconductor growth; silicon; FinFET based designs; MOSCAP devices; RDF; SOI; Si; SiGe; TCAD simulations; bulk planar quantum-well based ZRAM; doped p-channel bulk planar ZRAM device; electrostatic potential well-based hole-storage; random-dopant-fluctuation induced voltage threshold variability; voltage 0.5 V; voltage 12.8 mV; voltage 660 mV; zero capacitor DRAM; FinFETs; Logic gates; Random access memory; Resource description framework; Semiconductor process modeling; Silicon; Silicon germanium;
Conference_Titel :
Memory Workshop (IMW), 2015 IEEE International
Conference_Location :
Monterey, CA
Print_ISBN :
978-1-4673-6931-2
DOI :
10.1109/IMW.2015.7150268
