ISBN : 978-1-4244-4822-7International audienceA methodology to evaluate transient-fault effects on synchronous and asynchronous is presented in this work. It is developed by means of fault-injection simulation campaigns on gate-level circuit implementations. The methodology is able to deal with the particularities of asynchronous circuits. Unlike previous works, it permits to compare the sensitivity of circuits designed by synchronous and asynchronous logics. The resultant metrics allow identifying at high-level abstraction what is the logic that makes the circuit more transient-fault sensitive. As a case study, a crypto-processor in versions synchronous and asynchronous was evaluated
ISBN 978-1-4244-7724-1International audienceThe C-element is a fundamental component in asynchronous...
Synchronization has always been an essential feature in electronic circuits, in which functionality ...
This work investigates testability of asynchronous circuits and its relation with signal transition ...
ISBN:1-59593-058-2This paper presents a transient faults sensitivity evaluation for Quasi Delay Inse...
As transient error rates are growing due to smaller feature sizes, designing reliable synchronous ci...
ISBN: 0769521800This paper presents an analysis of the faults sensitivity of Quasi Delay Insensitive...
ISBN: 0769524060This paper presents hardening techniques against transient faults for quasi delay in...
International audienceThe use of deeper-submicron technologies in integrated circuits worsens the ef...
International audienceThis paper presents practical results on the evaluation of fault countermeasur...
International audienceAsynchronous circuits exhibit considerable advantages over their synchronous c...
ISSN: 0018-9340This paper presents hardening techniques against fault attacks and the practical eval...
International audienceAsynchronous circuits are often claimed as being an interesting alternative to...
International audienceThis work introduces a simulation-based method for evaluating the efficiency o...
ISBN : 978-2-84813-156-6Recent deep-submicron technology-based ICs are significantly more vulnerable...
This dissertation is concerned with testing of asynchronous circuits. Asynchronous circuits are attr...
ISBN 978-1-4244-7724-1International audienceThe C-element is a fundamental component in asynchronous...
Synchronization has always been an essential feature in electronic circuits, in which functionality ...
This work investigates testability of asynchronous circuits and its relation with signal transition ...
ISBN:1-59593-058-2This paper presents a transient faults sensitivity evaluation for Quasi Delay Inse...
As transient error rates are growing due to smaller feature sizes, designing reliable synchronous ci...
ISBN: 0769521800This paper presents an analysis of the faults sensitivity of Quasi Delay Insensitive...
ISBN: 0769524060This paper presents hardening techniques against transient faults for quasi delay in...
International audienceThe use of deeper-submicron technologies in integrated circuits worsens the ef...
International audienceThis paper presents practical results on the evaluation of fault countermeasur...
International audienceAsynchronous circuits exhibit considerable advantages over their synchronous c...
ISSN: 0018-9340This paper presents hardening techniques against fault attacks and the practical eval...
International audienceAsynchronous circuits are often claimed as being an interesting alternative to...
International audienceThis work introduces a simulation-based method for evaluating the efficiency o...
ISBN : 978-2-84813-156-6Recent deep-submicron technology-based ICs are significantly more vulnerable...
This dissertation is concerned with testing of asynchronous circuits. Asynchronous circuits are attr...
ISBN 978-1-4244-7724-1International audienceThe C-element is a fundamental component in asynchronous...
Synchronization has always been an essential feature in electronic circuits, in which functionality ...
This work investigates testability of asynchronous circuits and its relation with signal transition ...