Fault Identification in Reconfigurable Carry Lookahead Adders Targeting Nanoelectronic Fabrics

E
ETS
2006
Eleventh IEEE European Test Symposium (ETS'06)
Abstract - Fault Identification in Reconfigurable Carry Lookahead Adders Targeting Nanoelectronic Fabrics

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Eleventh IEEE European Test Symposium (ETS'06)

Southampton, United Kingdom

May 21-May 21

ISBN: 0-7695-2566-0

	ASCII Text	x
	Wenjing Rao, Alex Orailoglu, Ramesh Karri, "Fault Identification in Reconfigurable Carry Lookahead Adders Targeting Nanoelectronic Fabrics," European Test Symposium, IEEE, pp. 63-68, Eleventh IEEE European Test Symposium (ETS'06), 2006.

	BibTex	x
	@article{ 10.1109/ETS.2006.23, author = {Wenjing Rao and Alex Orailoglu and Ramesh Karri}, title = {Fault Identification in Reconfigurable Carry Lookahead Adders Targeting Nanoelectronic Fabrics}, journal ={European Test Symposium, IEEE}, volume = {0}, year = {2006}, issn = {1530-1877}, pages = {63-68}, doi = {http://doi.ieeecomputersociety.org/10.1109/ETS.2006.23}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - European Test Symposium, IEEE TI - Fault Identification in Reconfigurable Carry Lookahead Adders Targeting Nanoelectronic Fabrics SN - 1530-1877 SP63 EP68 A1 - Wenjing Rao, A1 - Alex Orailoglu, A1 - Ramesh Karri, PY - 2006 KW - null VL - 0 JA - European Test Symposium, IEEE ER -

Wenjing Rao, UC San Diego, USA

Alex Orailoglu, UC San Diego, USA

Ramesh Karri, Polytechnic University

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/ETS.2006.23

Online repair through reconfiguration is a particularly advantageous approach in the nanoelectronic environment since reconfigurability is naturally supported by the devices. However, precise identification of faulty locations is of critical importance for fine-grain repairs.

A CLA is mainly composed of: (1) carry generation blocks and (2) g,p signal generation blocks. In this paper we propose two schemes for fault identification in these two parts correspondingly. For carry generation blocks, an inherently redundant computation path is exploited to identify the faulty block with high precision. As a time redundancy approach, recomputation with rotated operands (RERO) has been utilized in online fault detection for CLA?s [13]. For g,p generation blocks, we exploit the RERO scheme to achieve precise fault identification.

A comprehensive analysis is provided for the aliasing in the proposed fault identification approach. It is shown that both the amount of repair hardware overhead and the fault coverage loss for the proposed scheme are very low. Overall, the proposed scheme can perform fast and precise identification of faults in the CLA components with low area overhead, thus facilitating the development of powerful and efficient fault tolerance schemes through online repair for nanoelectronic systems

Citation:

Wenjing Rao, Alex Orailoglu, Ramesh Karri, "Fault Identification in Reconfigurable Carry Lookahead Adders Targeting Nanoelectronic Fabrics," ets, pp.63-68, Eleventh IEEE European Test Symposium (ETS'06), 2006

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