Demonstration of Anti-ambipolar Switch and Its Applications for Extremely Low Power Ternary Logic Circuits
Yongsu Lee, Sunmean Kim, Ho‐In Lee, Seung Mo Kim, Soyoung Kim, Kiyung Kim, Heejin Kwon, Hae‐Won Lee, Hyeon Jun Hwang, Seokhyeong Kang, Byoung Hun Lee
Abstract
]thiophene heterojunction structure. The entire device integration was completed at a low thermal budget of less than 200 °C, which makes this AAS device compatible with monolithic 3D integration. A 1-trit ternary full adder designed with this AAS device exhibits excellent power-delay product performance (∼122 aJ) with extremely low power (∼0.15 μW, 7 times lower than the reference circuit) and lower device count than those of other ternary device candidates.
Topics & Concepts
Ambipolar diffusionTernary operationElectronic circuitLogic gateMaterials scienceLogic familyPower (physics)NanotechnologyElectrical engineeringComputer scienceLogic synthesisPhysicsEngineeringElectronProgramming languageQuantum mechanicsAdvanced Memory and Neural ComputingAdvancements in Semiconductor Devices and Circuit DesignQuantum-Dot Cellular Automata