Abstract
Fault-tolerant and robust multigrid methods.Hierarchical finite element compression.Asynchronous checkpointing with local restart. We analyse novel fault tolerance schemes for data loss in multigrid solvers, which essentially combine ideas of checkpoint-restart with algorithm-based fault tolerance. To improve efficiency compared to conventional global checkpointing, we exploit the inherent data compression of the multigrid hierarchy, and relax the synchronicity requirement through a local failure local recovery approach. We experimentally identify the root cause of convergence degradation in the presence of data loss using smoothness considerations. Our resulting schemes form a family of techniques that can be tailored to the expected error probability of (future) large-scale machines. A performance model gives further insight into the benefits and applicability of our techniques.
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