Intel looks beyond silicon to prolong Moore's Law
At IDF, Intel's Justin Rattner and Michael Garner talk about materials and processes that will be used in the next 40 years to increase chip performance and advance production
At IDF, Intel's Justin Rattner and Michael Garner talk about materials and processes that will be used in the next 40 years to increase chip performance and advance production
Chip company's plans to transition its advanced chips to a new production process could be hit by delay of crucial tools.
At the Intel Developer Forum in San Francisco, Intel's Justin Rattner and Michael Garner talk about materials and processes that will be used in the next 40 years to increase chip performance and advance production. Rattner and Garner discuss the future use of CMOS (complementary metal oxide semiconductor) technology and carbon-based devices such as carbon nanotubes.
ZDNet takes a walk on the wild side through Intel's Developer Conference. Watch the video, see the pictures and read the stories on all the upcoming technologies. A ZDNet UK News Focus
IDF: Using current technology Moore's Law could be extended till 2020, but after that things will have to get really interesting
Paulo Gargini, director of technology strategy at Intel, explains where processor technology is headed: It's all carbon nanotubes, MEMS, and stacking chips
The University of South Wales believe they have developed a method to build the smallest transistor possible.
At the Intel Developer Forum in San Francisco, Intel's Justin Rattner and Michael Garner talk about materials and processes that will be used in the next 40 years to increase chip performance and advance production. Rattner and Garner discuss the future use of CMOS (complementary metal oxide semiconductor) technology and carbon-based devices such as carbon nanotubes.
Combining the latest nano materials with a standard chip fab plant gives Nantero a big advantage for universal memory, the company claims
IBM researchers have achieved a breakthrough; the company says will help pave the way for the next era in the evolution of the microprocessor--beyond silicon.