Identifying the Right Replication Level to Detect and Correct Silent Errors at Scale
Author:
Affiliation:
1. LIP, ENS Lyon, Lyon, France
2. Argonne National Laboratory, Chicago, IL, USA
3. Vanderbilt University, Nashville, TN, USA
4. LIP, ENS Lyon & University of Tennessee, Knoxville, Lyon, France
Publisher
ACM Press
Reference38 articles.
1. Algirdas Avizienis, Jean-Claude Laprie, Brian Randell, and Carl E. Landwehr. 2004. Basic Concepts and Taxonomy of Dependable and Secure Computing. IEEE Trans. Dependable Sec. Comput. 1, 1 (2004), pages 11--33.
2. Anne Benoit, Aurélien Cavelan, Franck Cappello, Padma Raghavan, Yves Robert, and Hongyang Sun. 2017. Identifying the right replication level to detect and correct silent errors at scale. Research report RR-9047. INRIA.
3. George Bosilca, Rémi Delmas, Jack Dongarra, and Julien Langou. 2009. Algorithm-based fault tolerance applied to high performance computing. J. Parallel Distrib. Comput. 69, 4 (2009), pages 410--416.
4. Ron Brightwell, Kurt Ferreira, and Rolf Riesen. 2010. Transparent Redundant Computing with MPI. In EuroMPI. Springer.
5. Franck Cappello, Emil M. Constantinescu, Paul D. Hovland, Tom Peterka, Carolyn Phillips, Marc Snir, and Stefan M. Wil. 2015. Improving the trust in results of numerical simulations and scientific data analytics. White paper MCS-TM-352. ANL.
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