Reversible computing does allow a theoretically much lower power per operation. But, current CMOS operates many orders of magnitude less efficiently than the theoretical limit for non-reversible ...

With the increase in fabrication density over the last few decades, semiconductor technology is being pushed to extreme limits and power dissipation has become a major issue. Researchers have been ...

Quantum computing represents a paradigm shift from classical computation by harnessing inherent quantum phenomena such as superposition and entanglement to perform operations beyond the scope of ...

But if reversible logic can deliver an orders-of-magnitude savings it becomes feasible. Obviously nobody's going to do a custom node when the idea hasn't been proven in the first place so it certainly ...

In many two-dimensional (2D) materials, electrons not only possess charge and spin, but further exhibits an unusual quantum feature known as "valley". Simply speaking, electrons residing in many 2D ...

The reversible logic has received great attention in the past recent years due to its ability in reducing the power dissipation. Owing to its unique technique of one-to-one mapping between the inputs ...