International audienceSeveral recent papers have introduced a periodic verification mechanism to detect silent errors in iterative solvers. Chen [PPoPP'13, pp. 167–176] has shown how to combine such a verification mechanism (a stability test checking the orthogonality of two vectors and recomputing the residual) with checkpointing: the idea is to verify every d iterations, and to checkpoint every c × d iterations. When a silent error is detected by the verification mechanism, one can rollback to, and re-execute from, the last checkpoint. In this paper, we also propose to combine checkpointing and verification, but we use ABFT rather than stability tests. ABFT can be used for error detection, but also for error detection and correction, allo...
International audienceFail-stop and silent errors are omnipresent on large-scale platforms. Efficien...
International audienceThis work focuses on resilience techniques at extreme scale. Many papers deal ...
Fail-stop and silent errors are omnipresent on large-scale platforms. Efficient resilience technique...
International audienceSeveral recent papers have introduced a periodic verification mechanism to det...
International audienceSeveral recent papers have introduced a periodic verification mechanism to det...
Several recent papers have introduced a periodic verification mechanism to detect silent errors i...
Several recent papers have introduced a periodic verification mechanism to detect silent errorsin it...
International audienceThis chapter describes a unified framework for the detection and correction of...
Resilience has become a critical problem for high performance computing. Checkpointing protocols are...
International audienceErrors have become a critical problem for high performance computing. Checkpoi...
International audienceIn this paper, we revisit traditional checkpointing and rollback recovery stra...
International audienceFail-stop and silent errors are unavoidable on large-scale platforms. Efficien...
This paper presents a method to protect iterative solvers from Detected and Uncorrected Errors (DUE)...
International audienceFail-stop and silent errors are omnipresent on large-scale platforms. Efficien...
International audienceThis work focuses on resilience techniques at extreme scale. Many papers deal ...
Fail-stop and silent errors are omnipresent on large-scale platforms. Efficient resilience technique...
International audienceSeveral recent papers have introduced a periodic verification mechanism to det...
International audienceSeveral recent papers have introduced a periodic verification mechanism to det...
Several recent papers have introduced a periodic verification mechanism to detect silent errors i...
Several recent papers have introduced a periodic verification mechanism to detect silent errorsin it...
International audienceThis chapter describes a unified framework for the detection and correction of...
Resilience has become a critical problem for high performance computing. Checkpointing protocols are...
International audienceErrors have become a critical problem for high performance computing. Checkpoi...
International audienceIn this paper, we revisit traditional checkpointing and rollback recovery stra...
International audienceFail-stop and silent errors are unavoidable on large-scale platforms. Efficien...
This paper presents a method to protect iterative solvers from Detected and Uncorrected Errors (DUE)...
International audienceFail-stop and silent errors are omnipresent on large-scale platforms. Efficien...
International audienceThis work focuses on resilience techniques at extreme scale. Many papers deal ...
Fail-stop and silent errors are omnipresent on large-scale platforms. Efficient resilience technique...