Title :
Compiler-enhanced incremental checkpointing for OpenMP applications
Author :
Bronevetsky, Greg ; Marques, Daniel ; Pingali, Keshav ; McKee, Sally ; Rugina, Radu
Author_Institution :
Lawrence Livermore Nat. Lab., Livermore, CA, USA
Abstract :
As modern supercomputing systems reach the peta-flop performance range, they grow in both size and complexity. This makes them increasingly vulnerable to failures from a variety of causes. Checkpointing is a popular technique for tolerating such failures, enabling applications to periodically save their state and restart computation after a failure. Although a many automated system-level checkpointing solutions are currently available to HPC users, manual application-level checkpointing remains more popular due to its superior performance. This paper improves performance of automated checkpointing via a compiler analysis for incremental checkpointing. This analysis, which works with both sequential and OpenMP applications, reduces checkpoint sizes by as much as 80% and enables asynchronous checkpointing.
Keywords :
application program interfaces; checkpointing; parallel programming; program compilers; software fault tolerance; OpenMP applications; asynchronous checkpointing; automated system-level checkpointing; compiler analysis; compiler-enhanced incremental checkpointing; fault tolerance; peta-flop performance; supercomputing systems; Application software; Checkpointing; Monitoring; National security; Optimizing compilers; Performance analysis; Read-write memory; Runtime; System software; Yarn;
Conference_Titel :
Parallel & Distributed Processing, 2009. IPDPS 2009. IEEE International Symposium on
Conference_Location :
Rome
Print_ISBN :
978-1-4244-3751-1
Electronic_ISBN :
1530-2075
DOI :
10.1109/IPDPS.2009.5160999
