Add to ORKGWe have calculated the maximum useful bit density that may be achieved by the synergy of bad bit exclusion and advanced (BCH) error correcting codes in prospective crossbar nanoelectronic memories, as a function of defective memory cell fraction. While our calculations are based on a particular (“CMOL”) memory topology, with naturally segmented nanowires and an area-distributed nano/CMOS interface, for realistic parameters our results are also applicable to “global ” cross-bar memories with peripheral interfaces. The results indicate that the crossbar memories with a nano/CMOS pitch ratio close to 1/3 (which is typical for the current, initial stage of the nanoelectron-ics development) may overcome purely semiconductor memories in useful bi...
Nano-crossbar arrays have emerged as a strong candidate technology to replace CMOS in near future. T...
Abstract — Nanoscale technology promises dramatically increased device density, but also decreased r...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
We have calculated the minimum chip area overhead, and hence the bit density reduction, that may be ...
Memory Built In Self Repair (BISR) is gaining importance since several years. Because defect densiti...
AbstractWe propose a technique for the analysis of manufacturing yield of nano-crossbar architecture...
Nanotechnology-based devices are believed to be the future possible alternative to CMOS-based device...
Several technologies with sub-lithographic features are targeting the fabrication of crossbar memori...
The semiconductor industry is now facing challenges to keep pace with Moore’s law and this lea...
Among recent advancements in technology, nanotechnology is particularly promising. Most researchers ...
Home2005.htm), scaling of CMOS tech-nology will face several practical and theoretical difficulties ...
We introduce a nanowire-based, sublithographic memory ar-chitecture tolerant to transient faults. Bo...
Crossbar-based memristive arrays are promising candidates for future high-density, low-power memorie...
Abstract — Nanoscale technology promises dramatically in-creased device density, but also decreased ...
Nano-crossbar arrays have emerged as a strong candidate technology to replace CMOS in near future. T...
Abstract — Nanoscale technology promises dramatically increased device density, but also decreased r...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...
We have calculated the minimum chip area overhead, and hence the bit density reduction, that may be ...
Memory Built In Self Repair (BISR) is gaining importance since several years. Because defect densiti...
AbstractWe propose a technique for the analysis of manufacturing yield of nano-crossbar architecture...
Nanotechnology-based devices are believed to be the future possible alternative to CMOS-based device...
Several technologies with sub-lithographic features are targeting the fabrication of crossbar memori...
The semiconductor industry is now facing challenges to keep pace with Moore’s law and this lea...
Among recent advancements in technology, nanotechnology is particularly promising. Most researchers ...
Home2005.htm), scaling of CMOS tech-nology will face several practical and theoretical difficulties ...
We introduce a nanowire-based, sublithographic memory ar-chitecture tolerant to transient faults. Bo...
Crossbar-based memristive arrays are promising candidates for future high-density, low-power memorie...
Abstract — Nanoscale technology promises dramatically in-creased device density, but also decreased ...
Nano-crossbar arrays have emerged as a strong candidate technology to replace CMOS in near future. T...
Abstract — Nanoscale technology promises dramatically increased device density, but also decreased r...
With the recent development of nanoscale materials and assembly techniques, it is envisioned to buil...