Multiple techniques have now been proposed using random addressing to build demultiplexers which interface between the large pitch of lithographically patterned features and the smaller pitch of self-assembled sublithographic nanowires. At the same time, the relatively high defect rates expected for molecular-sized devices and wires dictate that we design architectures with spare components so we can map around defective elements. To accommodate and mask both of these effects, we introduce a programmable addressing scheme which can be used to provide deterministic addresses for decoders built with random nanoscale addressing and potentially defective wires. We describe how this programmable addressing scheme can be implemented with emerging...
With molecular-scale materials and fabrication techniques recently developed, high-density computing...
A key challenge that will face nanotechnologies will be controlling the uncertainty introduced by st...
Abstract — Nanoscale technology promises dramatically in-creased device density, but also decreased ...
We describe a technique for addressing individual nanoscale wires with microscale control wires with...
Technologies are now emerging to construct molecular-scale electronic wires and switches using botto...
Chemists can now construct wires which are just a few atoms in diameter; these wires can be selectiv...
Chemists can now construct wires which are just a few atoms in diameter; these wires can be selectiv...
How can Programmable Logic Arrays (PLAs) be built without relying on lithography to pattern their sm...
A demultiplexer is an electronic circuit designed to separate two or more combined signals. We repor...
Abstract — This paper proposes a nanoscale content addressable memory (CAM) architecture. The type ...
We introduce a nanowire-based, sublithographic memory ar-chitecture tolerant to transient faults. Bo...
In this article we present an architecture that supports fine-grained sparing and resource matching....
We introduce radial encoding of nanowires (NWs), a new method of differentiating and controlling NWs...
The use of nanowire crossbars to build devices with large storage capabilities is a very promising a...
Advances in our basic scientific understanding at the molecular and atomic level place us on the ver...
With molecular-scale materials and fabrication techniques recently developed, high-density computing...
A key challenge that will face nanotechnologies will be controlling the uncertainty introduced by st...
Abstract — Nanoscale technology promises dramatically in-creased device density, but also decreased ...
We describe a technique for addressing individual nanoscale wires with microscale control wires with...
Technologies are now emerging to construct molecular-scale electronic wires and switches using botto...
Chemists can now construct wires which are just a few atoms in diameter; these wires can be selectiv...
Chemists can now construct wires which are just a few atoms in diameter; these wires can be selectiv...
How can Programmable Logic Arrays (PLAs) be built without relying on lithography to pattern their sm...
A demultiplexer is an electronic circuit designed to separate two or more combined signals. We repor...
Abstract — This paper proposes a nanoscale content addressable memory (CAM) architecture. The type ...
We introduce a nanowire-based, sublithographic memory ar-chitecture tolerant to transient faults. Bo...
In this article we present an architecture that supports fine-grained sparing and resource matching....
We introduce radial encoding of nanowires (NWs), a new method of differentiating and controlling NWs...
The use of nanowire crossbars to build devices with large storage capabilities is a very promising a...
Advances in our basic scientific understanding at the molecular and atomic level place us on the ver...
With molecular-scale materials and fabrication techniques recently developed, high-density computing...
A key challenge that will face nanotechnologies will be controlling the uncertainty introduced by st...
Abstract — Nanoscale technology promises dramatically in-creased device density, but also decreased ...