Quickly learn what the difference is between PMOS and NMOS transistors in their structure and operation, and how CMOS works with the two in combination. Siliwiz, a free, browser-based, ASIC layout ...

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 ...

make use of 300-mm wafers. "Our ongoing research allows us to stay on the forefront of transistor design, which translates into increasingly powerful processors. Transistor technology is the 'engine' ...

Intel's upcoming RibbonFET technology is set to debut in the company's 20A node next year, but already the chip maker is showcasing the next step: 3D stacked CMOS (complementary metal oxide ...

Intel CEO Pat Gelsinger has announced plans to recover the company's chip-making crown by 2025. But the company has shared more details about research that could help it compete even further in the ...

Not so long ago, a computer filled a whole room and radio receivers were as big as washing machines. In recent decades, electronic devices have shrunk considerably in size and this trend is expected ...

(Nanowerk Spotlight) For over fifty years, the relentless miniaturization of silicon transistors has upheld Moore’s Law, delivering exponential leaps in computing power. However, this development ...

Since CMOS has been around for about 50 years, a comprehensive history would be a book. This blog focuses on what I consider the major transitions. Before CMOS, there was NMOS (also PMOS, but I have ...