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DFT
2004
IEEE

On the Defect Tolerance of Nano-Scale Two-Dimensional Crossbars

14 years 4 months ago
On the Defect Tolerance of Nano-Scale Two-Dimensional Crossbars
Defect tolerance is an extremely important aspect in nano-scale electronics as the bottom-up selfassembly fabrication process results in a significantly higher defect density compared to conventional lithography-based process. Defect tolerance techniques are therefore essential to obtain an acceptable manufacturing yield. In this paper we investigate defect tolerance properties of a two-dimensional (2D) nano-scale crossbar, which is the basic block of various nano architectures which have been recently proposed. Various nano-wire and switch faults are studied and their impact on the routability of a crossbar are investigated. In the presence of defects, it is still possible to utilize a defective crossbar at reduced functionality, i.e. as a smaller defect-free crossbar. Simulation results for different sizes and defect densities are presented. This proposed approach can be utilized by architecture designers to determine the expected size of functional (defect-free) crossbar based on d...
Jing Huang, Mehdi Baradaran Tahoori, Fabrizio Lomb
Added 20 Aug 2010
Updated 20 Aug 2010
Type Conference
Year 2004
Where DFT
Authors Jing Huang, Mehdi Baradaran Tahoori, Fabrizio Lombardi
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