The power density limits of complementary metal???oxide???semiconductor (CMOS) technology could be overcome by moving from a binary to a ternary logic system. However, ternary devices are typically based on multi-threshold voltage schemes, which make the development of power-scalable and mass-producible ternary device platforms challenging. Here we report a wafer-scale and energy-efficient ternary CMOS technology. Our approach is based on a single threshold voltage and relies on a third voltage state created using an off-state constant current that originates from quantum-mechanical band-to-band tunnelling. This constant current can be scaled down to a sub-picoampere level under a low applied voltage of 0.5???V. Analysis of a ternary CMOS i...
For many decades, novel devices demonstrating step-wise current–voltage characteristic at room tempe...
Over the last few decades, CMOS-based digital circuits have been steadily developed. However, becaus...
The embedded systems, IoT (Internet of Things) devices, and portable electronic devices spread very ...
We propose a novel standard ternary inverter (STI) based on nanoscale CMOS technology for a compact ...
We demonstrate ternary CMOS (T-CMOS)-based standard ternary inverter (STI) for compact and powerscal...
We propose a novel standard ternary inverter (STI) based on nanoscale planar CMOS technology for a c...
We propose a novel standard ternary inverter (STI) based on nanoscale planar CMOS technology for a c...
Ternary logic has the lowest cost of complexity, here, we demonstrate a CMOS hardware implementation...
We presented the ternary logic using a threshold switch (TS) that enabled faster operation than the ...
Multiple-Valued Logic systems present significant improvements in terms of energy consumption over b...
We propose the feasible and scalable ternary CMOS (T-CMOS) device platform for a fully CMOS-compatib...
Ternary logic is more power-efficient than binary logic because of lower device count required to pe...
Ternary logic circuit has been studied for several decades because it can provide simpler circuits a...
We propose a logic synthesis methodology with a novel low-power circuit structure for ternary logic....
Ternary logic circuits can reduce circuit power consumption and interconnections. We propose a terna...
For many decades, novel devices demonstrating step-wise current–voltage characteristic at room tempe...
Over the last few decades, CMOS-based digital circuits have been steadily developed. However, becaus...
The embedded systems, IoT (Internet of Things) devices, and portable electronic devices spread very ...
We propose a novel standard ternary inverter (STI) based on nanoscale CMOS technology for a compact ...
We demonstrate ternary CMOS (T-CMOS)-based standard ternary inverter (STI) for compact and powerscal...
We propose a novel standard ternary inverter (STI) based on nanoscale planar CMOS technology for a c...
We propose a novel standard ternary inverter (STI) based on nanoscale planar CMOS technology for a c...
Ternary logic has the lowest cost of complexity, here, we demonstrate a CMOS hardware implementation...
We presented the ternary logic using a threshold switch (TS) that enabled faster operation than the ...
Multiple-Valued Logic systems present significant improvements in terms of energy consumption over b...
We propose the feasible and scalable ternary CMOS (T-CMOS) device platform for a fully CMOS-compatib...
Ternary logic is more power-efficient than binary logic because of lower device count required to pe...
Ternary logic circuit has been studied for several decades because it can provide simpler circuits a...
We propose a logic synthesis methodology with a novel low-power circuit structure for ternary logic....
Ternary logic circuits can reduce circuit power consumption and interconnections. We propose a terna...
For many decades, novel devices demonstrating step-wise current–voltage characteristic at room tempe...
Over the last few decades, CMOS-based digital circuits have been steadily developed. However, becaus...
The embedded systems, IoT (Internet of Things) devices, and portable electronic devices spread very ...