Abstract: For highly scalable NAND flash memory applications, a compact (4F2/cell) nonvolatile memory architecture is proposed and investigated via threedimensional device simulations. The back-channel program/erase is conducted independently from the front-channel read operation as information is stored in the form of charge at the backside of the channel, and hence, read disturbance is avoided. The memory cell structure is essentially equivalent to that of the fully-depleted transistor, which allows a high cell read current and a steep subthreshold slope, to enable lower voltage operation in comparison with conventional NAND flash devices. To minimize memory cell disturbance during programming, a charge depletion method using appropriate biasing of a buried back-gate line that runs parallel to the bit line is introduced. This design is a new candidate for scaling NAND flash memory to sub-20 nm lateral dimensions.
Publication Year: 2015
Publication Date: 2015-04-30
Language: en
Type: article
Indexed In: ['crossref']
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Cited By Count: 6
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