views Novel electronic devices are actively sought to complement and eventually replace complementary metal–oxide– semiconductor (CMOS) technology. Carbon nanotubes1 and silicon nanowires2 may extend the life of conventional transistor structures by reducing the feature size to a few nanometres, whereas spintronic and other unconventional devices have the potential to further enhance the performance and energy efficiency of electronic circuits in the ‘beyond CMOS’ era3. None of these devices, however, require a radically different computing architecture. As a result, circuits and systems built from such devices will be likely t
Abstract. The advancement of device technology and the growth of the electronics market were intertw...
Some of the new candidates include: molecular generator/ semiconductor electronics, one-dimensional ...
The six articles in this special section provide a broad perspective on future computing paradigms b...
International audienceThe demand for more and ever smaller portable electronic devices has driven me...
The evolution of computing has lead to very different realizations to cope with performance and ener...
With the complementary metal-oxide-semiconductor (CMOS) technology approaching its scaling limit, ma...
ScienceDaily (May 3, 2012) — Traditional silicon-based integrated circuits are found in many applic...
Initiated by the first single-walled carbon nanotube (SWCNT) transistors [1,2], and reinvigorated wi...
Silicon is used in making transistors conventionally but scaling of silicon if getting difficult wit...
Relentless efforts for miniaturization of traditional complementary metal oxide semiconductor (CMOS)...
The dawn of the silicon nanoelectronics was seen when the physical gate length of high-performance o...
The demand for more and ever smaller portable electronic devices has driven metal oxide semiconducto...
O ne of the great hopes of nanotechnology is that molecules can be connected together to make predes...
International audienceThis book offers a comprehensive review of the state-of-the-art in innovative ...
Abstract — Carbon Nanotubes seem to be one of the most promising candidates for nanoelectronic devi...
Abstract. The advancement of device technology and the growth of the electronics market were intertw...
Some of the new candidates include: molecular generator/ semiconductor electronics, one-dimensional ...
The six articles in this special section provide a broad perspective on future computing paradigms b...
International audienceThe demand for more and ever smaller portable electronic devices has driven me...
The evolution of computing has lead to very different realizations to cope with performance and ener...
With the complementary metal-oxide-semiconductor (CMOS) technology approaching its scaling limit, ma...
ScienceDaily (May 3, 2012) — Traditional silicon-based integrated circuits are found in many applic...
Initiated by the first single-walled carbon nanotube (SWCNT) transistors [1,2], and reinvigorated wi...
Silicon is used in making transistors conventionally but scaling of silicon if getting difficult wit...
Relentless efforts for miniaturization of traditional complementary metal oxide semiconductor (CMOS)...
The dawn of the silicon nanoelectronics was seen when the physical gate length of high-performance o...
The demand for more and ever smaller portable electronic devices has driven metal oxide semiconducto...
O ne of the great hopes of nanotechnology is that molecules can be connected together to make predes...
International audienceThis book offers a comprehensive review of the state-of-the-art in innovative ...
Abstract — Carbon Nanotubes seem to be one of the most promising candidates for nanoelectronic devi...
Abstract. The advancement of device technology and the growth of the electronics market were intertw...
Some of the new candidates include: molecular generator/ semiconductor electronics, one-dimensional ...
The six articles in this special section provide a broad perspective on future computing paradigms b...