International audienceWe present a novel logic-level circuit transformation technique for the automatic insertion of fault-tolerance properties. The transformations, based on time-redundancy, allow dynamic changes of the level of redundancy without interrupting the computation. The proposed concept of dynamic time redundancy permits adaptive circuits whose fault-tolerance properties can be “on-the-fly” traded-off for throughput. The approach is technologically independent and does not require any specific hardware support. Experimental results on the ITC'99 benchmark suite indicate that the benefits of our method grow with the combinational size of the circuit. Dynamic double and triple time redundant transformations generate circuits 1.7 t...
Fault Tolerance is an increasing challenge for integrated circuits due to semiconductor technology s...
Real-time systems are commonly used in safety-critical applications which require tasks to be comple...
Technology scaling poses an increasing challenge to the reliability of digital circuits. Hardware re...
International audienceWe present a novel logic-level circuit transformation technique for the automa...
Technology shrinking and voltage scaling increase the risk of fault occurrences in digital circuits....
Abstract- Triple Modular Redundancy is widely used in dependable systems design to ensure high relia...
International audienceWe present a language-based approach to certify fault-tolerance techniques for...
Abstract—In this work we present a novel fault-tolerant circuits design method. It combines time and...
Self-reliance capabilities of mission-critical systems gain importance as technology scaling and log...
AbstractThis paper describes research carried out using a quadded logic cell (QLC) structure with th...
Low power fault tolerance design techniques trade reliability to reduce the area cost and the power ...
Static redundancy allocation is inappropriate in hard real-time systems that operate in variable and...
A fault tolerance model called Triple Modular Redundancy with Standby (TMRSB) is developed which com...
The use of Triple Modular Redundancy (TMR) was historically introduced long time ago for improving r...
Low power fault tolerance design techniques trade reliability to reduce the area cost and the power ...
Fault Tolerance is an increasing challenge for integrated circuits due to semiconductor technology s...
Real-time systems are commonly used in safety-critical applications which require tasks to be comple...
Technology scaling poses an increasing challenge to the reliability of digital circuits. Hardware re...
International audienceWe present a novel logic-level circuit transformation technique for the automa...
Technology shrinking and voltage scaling increase the risk of fault occurrences in digital circuits....
Abstract- Triple Modular Redundancy is widely used in dependable systems design to ensure high relia...
International audienceWe present a language-based approach to certify fault-tolerance techniques for...
Abstract—In this work we present a novel fault-tolerant circuits design method. It combines time and...
Self-reliance capabilities of mission-critical systems gain importance as technology scaling and log...
AbstractThis paper describes research carried out using a quadded logic cell (QLC) structure with th...
Low power fault tolerance design techniques trade reliability to reduce the area cost and the power ...
Static redundancy allocation is inappropriate in hard real-time systems that operate in variable and...
A fault tolerance model called Triple Modular Redundancy with Standby (TMRSB) is developed which com...
The use of Triple Modular Redundancy (TMR) was historically introduced long time ago for improving r...
Low power fault tolerance design techniques trade reliability to reduce the area cost and the power ...
Fault Tolerance is an increasing challenge for integrated circuits due to semiconductor technology s...
Real-time systems are commonly used in safety-critical applications which require tasks to be comple...
Technology scaling poses an increasing challenge to the reliability of digital circuits. Hardware re...