Add to ORKGThis dissertation addresses the fundamental problem of how to build computing systems for the nanoscale. With CMOS reaching fundamental limits, emerging nanomaterials such as semiconductor nanowires, carbon nanotubes, graphene etc. have been proposed as promising alternatives. However, nanoelectronics research has largely focused on a `device-first\u27 mindset without adequately addressing system-level capabilities, challenges for integration and scalable assembly. In this dissertation, we propose to develop an integrated nano-fabric, (broadly defined as nanostructures/devices in conjunction with paradigms for assembly, inter-connection and circuit styles), as opposed to approaches that focus on MOSFET replacement devices as the ultimate go...
This dissertation is a continuation of an earlier work on the theory and fabrication of a massively ...
This thesis explores several novel material systems and innovative device concepts enabled by nanowi...
Abstract -We propose one possible manufacturing pathway for realizing nanodevice based computational...
This dissertation addresses the fundamental problem of how to build computing systems for the nanosc...
As CMOS manufacturing technology approaches fundamental limits, researchers are looking for revoluti...
Nanoscale-computing fabrics based on novel materials such as semiconductor nanowires, carbon nanotub...
As CMOS manufacturing technology approaches fundamental limits, researchers are looking for revoluti...
In contrast to general-purpose programmable fabrics, such as PLAs, we develop nano-fabrics that, whi...
As the scaling of CMOS approaches fundamental limits, revolutionary technology beyond the end of CMO...
Continuous scaling of CMOS has been the major catalyst in miniaturization of integrated circuits (IC...
Abstract -Several nanoscale-computing fabrics based on novel materials such as semiconductor nanowir...
In the context where the traditional CMOS technology approaches its limits, some nanowire-based fabr...
Massive level of integration is making modern multi-core chips all-pervasive in several domains. Hen...
Advances in our basic scientific understanding at the molecular and atomic level place us on the ver...
textFor many decades silicon based CMOS technology has made continual increase in drive current to a...
This dissertation is a continuation of an earlier work on the theory and fabrication of a massively ...
This thesis explores several novel material systems and innovative device concepts enabled by nanowi...
Abstract -We propose one possible manufacturing pathway for realizing nanodevice based computational...
This dissertation addresses the fundamental problem of how to build computing systems for the nanosc...
As CMOS manufacturing technology approaches fundamental limits, researchers are looking for revoluti...
Nanoscale-computing fabrics based on novel materials such as semiconductor nanowires, carbon nanotub...
As CMOS manufacturing technology approaches fundamental limits, researchers are looking for revoluti...
In contrast to general-purpose programmable fabrics, such as PLAs, we develop nano-fabrics that, whi...
As the scaling of CMOS approaches fundamental limits, revolutionary technology beyond the end of CMO...
Continuous scaling of CMOS has been the major catalyst in miniaturization of integrated circuits (IC...
Abstract -Several nanoscale-computing fabrics based on novel materials such as semiconductor nanowir...
In the context where the traditional CMOS technology approaches its limits, some nanowire-based fabr...
Massive level of integration is making modern multi-core chips all-pervasive in several domains. Hen...
Advances in our basic scientific understanding at the molecular and atomic level place us on the ver...
textFor many decades silicon based CMOS technology has made continual increase in drive current to a...
This dissertation is a continuation of an earlier work on the theory and fabrication of a massively ...
This thesis explores several novel material systems and innovative device concepts enabled by nanowi...
Abstract -We propose one possible manufacturing pathway for realizing nanodevice based computational...