Moore\u27s Law speculated a trend in computation technology in terms of number of transistors per unit area that would double roughly every two years. Even after 40 years of this prediction, current technologies have been following it successfully. There are however, certain physical limitations of current CMOS that would result in fundamental obstructions to continuation of Moore\u27s Law. Although there is a debate amongst experts on how much time it would take for this to happen, it is certain that some entirely new paradigms for semiconductor electronics would be needed to replace CMOS and to delay the end of Moore\u27s Law. Silicon nanowires (SiNW) and Carbon nanotubes (CNT) possess significant promise to replace current CMOS --Abstrac...
IEEE Transactions on Emerging Topics in Computing ( Early Access Journal article )Unlike conventiona...
Several alternative building blocks have been proposed to replace planar transistors, among which a ...
In this article we present an architecture that supports fine-grained sparing and resource matching....
Among recent advancements in technology, nanotechnology is particularly promising. Most researchers ...
Nanotechnology-based devices are believed to be the future possible alternative to CMOS-based device...
ACM Comput. Surv. Volume 50, issue 6 (November 2017)Nano-crossbar arrays have emerged as a promisin...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
This is a conference paper.Nano-crossbar arrays have emerged as a strong candidate technology to re...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
AbstractWe propose a technique for the analysis of manufacturing yield of nano-crossbar architecture...
Nano-crossbar arrays have emerged as a strong candidate technology to replace CMOS in near future. T...
The semiconductor industry is now facing challenges to keep pace with Moore’s law and this lea...
This work proposes a Built-in Self Test (BIST) approach to test crossbars for a defined set of fault...
Home2005.htm), scaling of CMOS tech-nology will face several practical and theoretical difficulties ...
The challenge of extending Moore\u27s Law past the physical limits of the present semiconductor tech...
IEEE Transactions on Emerging Topics in Computing ( Early Access Journal article )Unlike conventiona...
Several alternative building blocks have been proposed to replace planar transistors, among which a ...
In this article we present an architecture that supports fine-grained sparing and resource matching....
Among recent advancements in technology, nanotechnology is particularly promising. Most researchers ...
Nanotechnology-based devices are believed to be the future possible alternative to CMOS-based device...
ACM Comput. Surv. Volume 50, issue 6 (November 2017)Nano-crossbar arrays have emerged as a promisin...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
This is a conference paper.Nano-crossbar arrays have emerged as a strong candidate technology to re...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
AbstractWe propose a technique for the analysis of manufacturing yield of nano-crossbar architecture...
Nano-crossbar arrays have emerged as a strong candidate technology to replace CMOS in near future. T...
The semiconductor industry is now facing challenges to keep pace with Moore’s law and this lea...
This work proposes a Built-in Self Test (BIST) approach to test crossbars for a defined set of fault...
Home2005.htm), scaling of CMOS tech-nology will face several practical and theoretical difficulties ...
The challenge of extending Moore\u27s Law past the physical limits of the present semiconductor tech...
IEEE Transactions on Emerging Topics in Computing ( Early Access Journal article )Unlike conventiona...
Several alternative building blocks have been proposed to replace planar transistors, among which a ...
In this article we present an architecture that supports fine-grained sparing and resource matching....