By Chao Huang (auth.), Chao Huang (eds.)
Although complementary metal-oxide semiconductor (CMOS) expertise will proceed dominating the electronic digital circuits for the following 10-15 years, a couple of grand demanding situations have emerged because the transistor measurement scales down. The emerging bills of semiconductor masks and fabrication pose monetary boundaries to lithography. The quantum results and lengthening leakage strength commence surroundings actual limits on non-stop CMOS characteristic measurement shrinking.
The study advances of cutting edge nano-scale units have created nice possibilities to surpass the obstacles confronted through CMOS know-how, which come with nanowires, carbon nanotube transistors, programmable molecular switches, resonant tunneling diodes, quantum dots, etc.
However, the luck of many nanotechnologies depends on the self-assembly fabrication strategy to manufacture circuits. The stochastic self-assembly fabrication, regrettably, has low reliability with disorder densities numerous orders of significance better than traditional CMOS technology.
Robust Nano-Computing specializes in a number of problems with powerful nano-computing, defect-tolerance layout for nano-technology at assorted layout abstraction degrees. It addresses either redundancy- and configuration-based tools in addition to fault detecting concepts throughout the improvement of exact computation versions and instruments. The contents current an insightful view of the continued researches on nano-electronic units, circuits, architectures, and layout equipment, in addition to supply promising instructions for destiny research.