As the exascale era approaches, the increasing capacity of high-performance computing (HPC) systems with targeted power and energy budget goals introduces significant …
Future high-performance computing (HPC) systems with ever-increasing resource capacity (such as compute cores, memory and storage) may significantly increase the risks on …
J Liu, G Agrawal - 2016 IEEE 23rd International Conference on …, 2016 - ieeexplore.ieee.org
Silent data corruption (SDC) from soft errors is one of the challenges for Exascale systems as the number of cores is increasing and the feature size is decreasing. In recent years, a …
S Di, E Berrocal, F Cappello - 2015 15th IEEE/ACM …, 2015 - ieeexplore.ieee.org
The silent data corruption (SDC) problem is attracting more and more attentions because it is expected to have a great impact on exascale HPC applications. SDC faults are hazardous …
Next-generation supercomputers are expected to have more components and, at the same time, consume several times less energy per operation. This situation is pushing …
As we move toward exascale platforms, silent data corruptions (SDC) are likely to occur more frequently. Such errors can lead to incorrect results. Attempts have been made to use …
Silent data corruptions (SDCs) pose a significant challenge to the reliable operation of modern microprocessors. As the need for enhanced performance and reliability continues to …
Applications running on future high performance computing (HPC) systems are more likely to experience transient faults due to technology scaling trends with respect to higher circuit …
Next-generation supercomputers are expected to have more components and, at the same time, consume several times less energy per operation. Consequently, the number of soft …