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Disturbance Characteristics of 1T DRAM Arrays Consisting of Feedback Field-Effect Transistors

Juhee Jeon, Kyoungah Cho, Sangsig Kim

2023Micromachines14 citationsDOIOpen Access PDF

Abstract

Challenges in scaling dynamic random-access memory (DRAM) have become a crucial problem for implementing high-density and high-performance memory devices. Feedback field-effect transistors (FBFETs) have great potential to overcome the scaling challenges because of their one-transistor (1T) memory behaviors with a capacitorless structure. Although FBFETs have been studied as 1T memory devices, the reliability in an array must be evaluated. Cell reliability is closely related to device malfunction. Hence, in this study, we propose a 1T DRAM consisting of an FBFET with a p+–n–p–n+ silicon nanowire and investigate the memory operation and disturbance in a 3 × 3 array structure through mixed-mode simulations. The 1T DRAM exhibits a write speed of 2.5 ns, a sense margin of 90 μA/μm, and a retention time of approximately 1 s. Moreover, the energy consumption is 5.0 × 10−15 J/bit for the write ‘1’ operation and 0 J/bit for the hold operation. Furthermore, the 1T DRAM shows nondestructive read characteristics, reliable 3 × 3 array operation without any write disturbance, and feasibility in a massive array with an access time of a few nanoseconds.

Topics & Concepts

DramDynamic random-access memoryTransistorStatic random-access memoryReliability (semiconductor)Array data structureComputer scienceSense amplifierMemory controllerScalingElectronic engineeringElectrical engineeringSemiconductor memoryComputer hardwareOptoelectronicsMaterials scienceEngineeringVoltagePhysicsPower (physics)MathematicsGeometryQuantum mechanicsSemiconductor materials and devicesAdvancements in Semiconductor Devices and Circuit DesignFerroelectric and Negative Capacitance Devices
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