Facebook Instagram Twitter RSS Feed PodBean Back to top on side

A New Concurrent Checkpoint Mechanism for Embeded Multi-Core Systems

In: Computing and Informatics, vol. 31, no. 3
J. Liao
Detaily:
Rok, strany: 2012, 693 - 709
Kľúčové slová:
Concurrent checkpoint, reduced downtime, incremental checkpoint, embedded multi-core systems
O článku:
This paper presents a new transparent, incremental, concurrent checkpoint mechanism for embedded multi-core systems. It allows the checkpointed process (also called checkpointee) to continue running without stopping while checkpoints are set to a large extent. Through tracing TLB misses to block the accesses to target memory pages first time while dumping memory pages (the most time-consuming step when setting a checkpoint). At that time, a kernel thread, called checkpointer, copies the memory access target pages to the designated memory buffer for constructing a consistent state of the checkpointee, and then resumes the memory accesses. From the experimental results, in contrast to a traditional concurrent checkpoint system, the proposed mechanism reduces the downtime of the checkpointed process by more than 10.1 %. Moreover, the incremental checkpointing functionality has been implemented in this new concurrent checkpoint mechanism as well. Compared with full checkpointing, incremental checkpointing can reduce the checkpoint time more than 95.5 % and 89.2 % while the benchmark is the matrix multiplication at the checkpoint intervals of 10 seconds and 20 seconds, respectively.
Ako citovať:
ISO 690:
Liao, J. 2012. A New Concurrent Checkpoint Mechanism for Embeded Multi-Core Systems. In Computing and Informatics, vol. 31, no.3, pp. 693-709. 1335-9150.

APA:
Liao, J. (2012). A New Concurrent Checkpoint Mechanism for Embeded Multi-Core Systems. Computing and Informatics, 31(3), 693-709. 1335-9150.