TY - GEN
T1 - Evaluation of simple causal message logging for large-scale fault tolerant HPC systems
AU - Meneses, Esteban
AU - Bronevetsky, Greg
AU - Kalé, Laxmikant V.
PY - 2011
Y1 - 2011
N2 - The era of petascale computing brought machines with hundreds of thousands of processors. The next generation of exascale supercomputers will make available clusters with millions of processors. In those machines, mean time between failures will range from a few minutes to few tens of minutes, making the crash of a processor the common case, instead of a rarity. Parallel applications running on those large machines will need to simultaneously survive crashes and maintain high productivity. To achieve that, fault tolerance techniques will have to go beyond checkpoint/restart, which requires all processors to roll back in case of a failure. Incorporating some form of message logging will provide a framework where only a subset of processors are rolled back after a crash. In this paper, we discuss why a simple causal message logging protocol seems a promising alternative to provide fault tolerance in large supercomputers. As opposed to pessimistic message logging, it has low latency overhead, especially in collective communication operations. Besides, it saves messages when more than one thread is running per processor. Finally, we demonstrate that a simple causal message logging protocol has a faster recovery and a low performance penalty when compared to checkpoint/restart. Running NAS Parallel Benchmarks (CG, MG, BT and DT) on 1024 processors, simple causal message logging has a latency overhead below 5%.
AB - The era of petascale computing brought machines with hundreds of thousands of processors. The next generation of exascale supercomputers will make available clusters with millions of processors. In those machines, mean time between failures will range from a few minutes to few tens of minutes, making the crash of a processor the common case, instead of a rarity. Parallel applications running on those large machines will need to simultaneously survive crashes and maintain high productivity. To achieve that, fault tolerance techniques will have to go beyond checkpoint/restart, which requires all processors to roll back in case of a failure. Incorporating some form of message logging will provide a framework where only a subset of processors are rolled back after a crash. In this paper, we discuss why a simple causal message logging protocol seems a promising alternative to provide fault tolerance in large supercomputers. As opposed to pessimistic message logging, it has low latency overhead, especially in collective communication operations. Besides, it saves messages when more than one thread is running per processor. Finally, we demonstrate that a simple causal message logging protocol has a faster recovery and a low performance penalty when compared to checkpoint/restart. Running NAS Parallel Benchmarks (CG, MG, BT and DT) on 1024 processors, simple causal message logging has a latency overhead below 5%.
KW - Causal message logging
KW - Migratable objects
KW - Parallel applications
KW - Pessimistic message logging
UR - http://www.scopus.com/inward/record.url?scp=83455181657&partnerID=8YFLogxK
U2 - 10.1109/IPDPS.2011.307
DO - 10.1109/IPDPS.2011.307
M3 - Contribución a la conferencia
AN - SCOPUS:83455181657
SN - 9780769543857
T3 - IEEE International Symposium on Parallel and Distributed Processing Workshops and Phd Forum
SP - 1533
EP - 1540
BT - 2011 IEEE International Symposium on Parallel and Distributed Processing, Workshops and Phd Forum, IPDPSW 2011
T2 - 25th IEEE International Parallel and Distributed Processing Symposium, Workshops and Phd Forum, IPDPSW 2011
Y2 - 16 May 2011 through 20 May 2011
ER -