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ICCAD
2007
IEEE

Fault-tolerant multi-level logic decoder for nanoscale crossbar memory arrays

14 years 8 months ago
Fault-tolerant multi-level logic decoder for nanoscale crossbar memory arrays
Several technologies with sub-lithographic features are targeting the fabrication of crossbar memories in which the nanowire decoder is playing a major role. In this paper, we suggest a way to reduce the decoder size and keep it defect tolerant by using multiple threshold voltages (VT), which is enabled by our underlying technology. We define two types of multi-valued decoders and model the defects they undergo due to the VT variation. Multi-valued hot decoders yield better area saving than n-ary reflexive codes (NRC), and under severe conditions, NRC enables a non-vanishing part of the code space to recover. There are many combinations of decoder type and number of VT’s yielding equal effective memory capacities. The optimal choice saves area up to 24%. We also show that the precision of the addressing voltages for decoders with unreliable VT’s is a crucial parameter for the decoder design and permits large savings in memory area.
M. Haykel Ben Jamaa, Kirsten E. Moselund, David At
Added 16 Mar 2010
Updated 16 Mar 2010
Type Conference
Year 2007
Where ICCAD
Authors M. Haykel Ben Jamaa, Kirsten E. Moselund, David Atienza, Didier Bouvet, Adrian M. Ionescu, Yusuf Leblebici, Giovanni De Micheli
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