Paper Info
Title
A multiple fault injection methodology based on cone partitioning towards RTL modeling of laser attacks
Abstract
Laser attacks, especially on circuits manufactured with recent deep submicron semiconductor technologies, pose a threat to secure integrated circuits due to the multiplicity of errors induced by a single attack. An efficient way to neutralize such effects is the design of appropriate countermeasures, according to the circuit implementation and characteristics. Therefore tools which allow the early evaluation of security implementations are necessary. Our efforts involve the development of an RTL fault injection approach more representative of laser attacks than random multi-bit fault injections and the utilization and evolution of state of the art emulation techniques to reduce the duration of the fault injection campaigns. This will ultimately lead to the design and validation of new countermeasures against laser attacks, on ASICs implementing cryptographic algorithms.
Year
DOI
Venue
2014
10.7873/DATE.2014.219
Design, Automation and Test in Europe Conference and Exhibition
Keywords
Field
DocType
rtl modeling,fault injection campaign,rtl fault injection approach,cone partitioning,laser attack,cryptographic algorithm,multiple fault injection methodology,random multi-bit fault injection,early evaluation,new countermeasures,appropriate countermeasures,art emulation technique,circuit implementation,asic,registers,integrated circuits,cryptography,semiconductor lasers,security,application specific integrated circuits,logic circuits
Logic gate,Computer science,Cryptography,Application-specific integrated circuit,Real-time computing,Implementation,Emulation,Electronic circuit,Integrated circuit,Fault injection,Embedded system
Conference
ISSN
Citations 
PageRank 
1530-1591
5
0.47
References 
Authors
8
5
Name
Order
Citations
PageRank
Athanasios Papadimitriou1235.24
David Hély28921.91
Vincent Beroulle38621.86
Paolo Maistri424520.35
Régis Leveugle535444.83