Error mitigation techniques, such as Triple Modular Redundancy, introduce very large overheads. To alleviate this overhead, approximate techniques can be used. In this work we propose a novel approximate error mitigation technique based on using redundant circuits with lower resolution. As a representative case study, the approach is demonstrated for a Fast Fourier Transform, for which an optimized architecture is proposed. The approach is validated through fault injection. Experimental results show that Reduced Resolution Redundancy can significantly reduce the overhead and achieve an excellent error mitigation performance and a low sensitivity to uncorrectable errors.This work was supported in part by the Spanish Ministry of Science and I...
20th IET Irish Signals and Systems Conference (ISSC), Dublin, Ireland, June, 2009A system for soft e...
As we stride toward the exascale era, due to increasing complexity of supercomputers, hard and soft ...
Computing devices have been constantly challenged by resource-hungry applications such as scientific...
Error mitigation techniques, such as Triple Modular Redundancy, introduce very large overheads. To a...
Reduced precision redundancy (RPR) is an alternative to triple modular redundancy (TMR) that reduces...
This article introduces a new fault-tolerant design approach based on approximate computing, called ...
Technology scaling poses an increasing challenge to the reliability of digital circuits. Hardware re...
Reduced-precision redundancy (RPR) has been shown to be a viable alternative to triple modular redun...
This work analyzes the performance of the reduced precision redundancy (RPR) error mitigation techni...
International audienceThis paper presents a novel redundancy technique for software fault tolerance,...
Shrinking of the device feature size allows high complexity systems to be designed and integrated wi...
International audienceUntil recently, Approximate Computing (AxC) was considered to be a trend topic...
International audienceVoltage scaling has been used as a prominent technique to improve energy effic...
Electronic circuits/systems operating in harsh environments such as space are likely to experience f...
Advances in semiconductor technology using smaller sizes of transistors in order to fit more of them...
20th IET Irish Signals and Systems Conference (ISSC), Dublin, Ireland, June, 2009A system for soft e...
As we stride toward the exascale era, due to increasing complexity of supercomputers, hard and soft ...
Computing devices have been constantly challenged by resource-hungry applications such as scientific...
Error mitigation techniques, such as Triple Modular Redundancy, introduce very large overheads. To a...
Reduced precision redundancy (RPR) is an alternative to triple modular redundancy (TMR) that reduces...
This article introduces a new fault-tolerant design approach based on approximate computing, called ...
Technology scaling poses an increasing challenge to the reliability of digital circuits. Hardware re...
Reduced-precision redundancy (RPR) has been shown to be a viable alternative to triple modular redun...
This work analyzes the performance of the reduced precision redundancy (RPR) error mitigation techni...
International audienceThis paper presents a novel redundancy technique for software fault tolerance,...
Shrinking of the device feature size allows high complexity systems to be designed and integrated wi...
International audienceUntil recently, Approximate Computing (AxC) was considered to be a trend topic...
International audienceVoltage scaling has been used as a prominent technique to improve energy effic...
Electronic circuits/systems operating in harsh environments such as space are likely to experience f...
Advances in semiconductor technology using smaller sizes of transistors in order to fit more of them...
20th IET Irish Signals and Systems Conference (ISSC), Dublin, Ireland, June, 2009A system for soft e...
As we stride toward the exascale era, due to increasing complexity of supercomputers, hard and soft ...
Computing devices have been constantly challenged by resource-hungry applications such as scientific...