As general purpose components, logic devices are used at different frequencies and power supply voltages in many different varieties of applications. This large diversity has produced the need to ...

As transistors are scaled to smaller dimensions, their static power increases. Combining two-dimensional (2D) channel materials with complementary metal–oxide–semiconductor (CMOS) logic architectures ...

Thanks to an embedded nonvolatile memory core, chip designers can arm themselves with a multiple-time-programmable (MTP) fuse that's manufacturable via standard CMOS logic processes. Unlike several ...

In this column, we consider the evolution of complementary metal-oxide semiconductor (CMOS) technology, which was invented by Frank Wanlass in 1963. In this column, we consider the evolution of ...

Kulim, Kedah -- March 14, 2012 - Malaysian-based wafer foundry SilTerra Malaysia today announced the release of 130nm CMOS Logic Technology with aluminum backend interconnection, CL130AL. This ...

Some people can’t be bothered to read the analog face of a traditional clock. Some people cannot stand the low frequency “hum” of mains current. If you are in either of those categories, you probably ...

Chipmakers continue to scale the CMOS transistor to finer geometries, but the question is for how much longer. The current thinking is that the CMOS transistor could scale at least to the 3nm node in ...