Combining partial redundancy and checkpointing for HPC
Today's largest High Performance Computing (HPC) systems exceed one Petaflops (10^ 15)
floating point operations per second) and exascale systems are projected within seven …
floating point operations per second) and exascale systems are projected within seven …
[PDF][PDF] Combining Partial Redundancy and Checkpointing for HPC
J Elliott, K Kharbas, D Fiala, F Mueller, K Ferreira… - fiala.me
Abstract Today's largest High Performance Computing (HPC) systems exceed one Petaflops
(1015 floating point operations per second) and exascale systems are projected within …
(1015 floating point operations per second) and exascale systems are projected within …
[PDF][PDF] Combining Partial Redundancy and Checkpointing for HPC
J Elliott, K Kharbas, D Fiala, F Mueller, K Ferreira… - arcb.csc.ncsu.edu
Abstract Today's largest High Performance Computing (HPC) systems exceed one Petaflops
(1015 floating point operations per second) and exascale systems are projected within …
(1015 floating point operations per second) and exascale systems are projected within …
Combining Partial Redundancy and Checkpointing for HPC
J Elliott, K Kharbas, D Fiala, F Mueller… - 2012 IEEE 32nd …, 2012 - computer.org
Abstract Today's largest High Performance Computing (HPC) systems exceed one Petaflops
(10^ 15) floating point operations per second) and exascale systems are projected within …
(10^ 15) floating point operations per second) and exascale systems are projected within …
Combining Partial Redundancy and Checkpointing for HPC
J Elliott, K Kharbas, D Fiala, F Mueller… - Proceedings of the …, 2012 - dl.acm.org
Today's largest High Performance Computing (HPC) systems exceed one Petaflops (10^ 15)
floating point operations per second) and exascale systems are projected within seven …
floating point operations per second) and exascale systems are projected within seven …
Combining Partial Redundancy and Checkpointing for HPC
J Elliott, KH Kharbas, DJ Fiala, F Mueller, KB Ferreira… - 2012 - osti.gov
Today's largest High Performance Computing (HPC) systems exceed one Petaflops (10^ 15
floating point operations per second) and exascale systems are projected within seven …
floating point operations per second) and exascale systems are projected within seven …
[PDF][PDF] Combining Partial Redundancy and Checkpointing for HPC
J Elliott, K Kharbas, D Fiala, F Mueller, K Ferreira… - christian-engelmann.de
Abstract Today's largest High Performance Computing (HPC) systems exceed one Petaflops
(1015 floating point operations per second) and exascale systems are projected within …
(1015 floating point operations per second) and exascale systems are projected within …
[PDF][PDF] Combining Partial Redundancy and Checkpointing for HPC
J Elliott, K Kharbas, D Fiala, F Mueller, K Ferreira… - christian-engelmann.info
Abstract Today's largest High Performance Computing (HPC) systems exceed one Petaflops
(1015 floating point operations per second) and exascale systems are projected within …
(1015 floating point operations per second) and exascale systems are projected within …
[PDF][PDF] Combining Partial Redundancy and Checkpointing for HPC
J Elliott, K Kharbas, D Fiala, F Mueller, K Ferreira… - christian-engelmann.de
Abstract Today's largest High Performance Computing (HPC) systems exceed one Petaflops
(1015 floating point operations per second) and exascale systems are projected within …
(1015 floating point operations per second) and exascale systems are projected within …
[引用][C] Combining Partial Redundancy and Checkpointing for HPC
J Elliott, K Kharbas, D Fiala, F Mueller… - 2012 IEEE 32nd …, 2012 - cir.nii.ac.jp
Combining Partial Redundancy and Checkpointing for HPC | CiNii Research CiNii 国立情報学
研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 検索フォームへ移動 論文・データをさがす 大学 …
研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 検索フォームへ移動 論文・データをさがす 大学 …