Scientists at the Tokyo Institute of Technology have developed low power, high performance CMOS logic technology that is vital to the future of microprocessors and system-on-chip (SoC) devices for ...

Upgrading CMOS LVT logic was introduced about a decade ago using BiCMOS, which provided enough performance (4ns propagation delay at 3V) and drive (48mA) to move a multitude of signals across a ...

Researchers have developed a series of high-performance, GaN-based CMOS logic circuits, which all display the desired “CMOS-like” characteristics. They project that these circuits could cut ...

CMOS logic defines its logic thresholds as a percentage of supply voltage, which with a 5V supply puts the logic 1 threshold of 70% well above the 3.3V logic 1.

Engineers choose CMOS/biCMOS logic to be “green” and reduce power consumption. CMOS and biCMOS only draw power on transitions, so those circuits run cool at slow speeds. So why is the board hot?

Nottingham-based SFN (Search for the Next) has characterised its novel transistor-based logic, and claims that it matches CMOS performance even when made in older fabs. It would “enable chip designers ...

Innovations in complementary metal-oxide-semiconductor (CMOS) logic are complemented by evolving FinFET architectures, both of which aim to reduce leakage power and improve switching performance.

As you might guess from the name, the clock uses CMOS logic, based around a 12 bit counter, to provide the divider circuits 24 (daily) and 60 (minutes and seconds).

Non-volatile bistable memory circuits being developed by Satoshi Sugahara and his team at Tokyo Tech pave the way for highly energy-efficient CMOS logic systems. The details are described in the ...