Any typical digital design style with CMOS uses complementary pairs of p-type and n-type MOSFETs for logic functions implementation. Naturally, CMOS always ought to provide INVERTED outputs like ...

In a continuing drive to reduce board space, power, and cost, Philips Semiconductors last week unveiled the first multifunction logic device in its PicoGate family. The 74LVC1GX04, designed for ...

Low power design has become a cornerstone of modern integrated circuit development, driven by energy efficiency demands and the challenges of scaling in nanometre technologies. Innovations in ...

A research team led by Prof. Kevin Chen of Department of Electronic and Computer Engineering at The Hong Kong University of Science and Technology (HKUST) has recently inducted a new member, the ...

Current-Mode Logic (CML) and low-power Complementary Metal-Oxide-Semiconductor (CMOS) technology continue to drive significant advances in digital circuit design, particularly in high-speed and energy ...

Abstract: What can be simpler than designing with CMOS and BiCMOS? These technologies are very easy to use but they still require careful design. This tutorial discusses the odd case of circuits that ...

Intel insists it's on track to ship 10-nanometer processors in volume by the end of next year, but what could be even more exciting is what lies beyond the confines of CMOS (complementary ...

A group at Indian Institute of Technology (IIT) Hyderabad has proposed a novel design methodology for constructing an adder logic gate using nanomagnets from magnetic quantum dot cellular automata. At ...

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 ...

Fig 1. A typical CMOS input circuit comprises a “P” and “N” transistor. One is fully “on” for logic high, and the other is “on” for a logic low. Fig 2. When a CMOS input pin is at logic high or low ...