Add to ORKGWe introduce radial encoding of nanowires (NWs), a new method of differentiating and controlling NWs by a small set of mesoscale wires for use in crossbar memories. We describe methods of controlling these NWs and give efficient manufacturing algorithms. These new encoding and decoding methods do not suffer from the misalignment characteristic of flow-aligned NWs. They achieve comparable effective pitch and resulting memory density with axially encoded NWs, while avoiding potential cases of address ambiguity and simplifying NW preparation. We also explore hybrid axial/radial encodings and show that they offer no net benefit over pure codes
Engineering smart-materials with emergent properties requires designing and characterizing systems w...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
Abstract—Although prone to fabrication error, the nanowire crossbar is a promising candidate compone...
We introduce radial encoding of nanowires (NWs), a new method of differentiating and controlling NWs...
We describe a technique for addressing individual nanoscale wires with microscale control wires with...
Multiple techniques have now been proposed using random addressing to build demultiplexers which int...
Nanowire crossbar circuits are an emerging architectural paradigm that promises a higher integration...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
Technologies are now emerging to construct molecular-scale electronic wires and switches using botto...
Nanowires (NWs) are 1D confined nanostructures; this geometry gives them unique properties that have...
In recent times, deep neural networks (DNNs) have demonstrated great potential in various machine le...
In this paper a method is being proposed to find the optimal dimension of Programmable Gate Macro Bl...
Among recent advancements in technology, nanotechnology is particularly promising. Most researchers ...
Over the past few decades, machine learning has become integral to our daily lives. Deep learning h...
This thesis spotlights the dawn of a promising new nanowire crossbar architecture, the Asynchronous ...
Engineering smart-materials with emergent properties requires designing and characterizing systems w...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
Abstract—Although prone to fabrication error, the nanowire crossbar is a promising candidate compone...
We introduce radial encoding of nanowires (NWs), a new method of differentiating and controlling NWs...
We describe a technique for addressing individual nanoscale wires with microscale control wires with...
Multiple techniques have now been proposed using random addressing to build demultiplexers which int...
Nanowire crossbar circuits are an emerging architectural paradigm that promises a higher integration...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
Technologies are now emerging to construct molecular-scale electronic wires and switches using botto...
Nanowires (NWs) are 1D confined nanostructures; this geometry gives them unique properties that have...
In recent times, deep neural networks (DNNs) have demonstrated great potential in various machine le...
In this paper a method is being proposed to find the optimal dimension of Programmable Gate Macro Bl...
Among recent advancements in technology, nanotechnology is particularly promising. Most researchers ...
Over the past few decades, machine learning has become integral to our daily lives. Deep learning h...
This thesis spotlights the dawn of a promising new nanowire crossbar architecture, the Asynchronous ...
Engineering smart-materials with emergent properties requires designing and characterizing systems w...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
Abstract—Although prone to fabrication error, the nanowire crossbar is a promising candidate compone...