Capacitorless 2T-DRAM for Higher Retention Time and Sense Margin
Md. Hasan Raza Ansari, Jawar Singh
Abstract
This article showcases a junctionless (JL)/accumulation mode (AM) transistor connected with an access JL transistor-based capacitorless dynamic random access memory (2T-DRAM) cell. The access transistor (AT) is utilized to reduce the leakage and, thus, improves the retention time (RT) and sense margin (SM) of the proposed capacitorless 2T-DRAM cell. Simulation results reveal that the 2T-DRAM cell achieved a maximum SM of ~4.6 μA/μm with RT of ~6.5 s for a gate length (L <sub xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">g</sub> ) of 100 nm, almost 100 times against the ITRS prediction for modern DRAM cells. Furthermore, 2T-DRAM shows better gate length scalability with a fixed gate length of AT and achieves RT of ~100 and ~10 ms for a scaled gate length of 10 nm at 27 °C and 85 °C, respectively. The proposed 2T-DRAM cell offers better integration density (scalability) and higher energy efficiency that makes it a potential candidate for artificial intelligence (AI)/Internet-of-Things (IoT) applications.