On the Optimum Checkpoint Interval
Journal of the ACM (JACM)
Performance of rollback recovery systems under intermittent failures
Communications of the ACM
A first order approximation to the optimum checkpoint interval
Communications of the ACM
Performance Measures for Multiprocessor Controllers
Performance '83 Proceedings of the 9th International Symposium on Computer Performance Modelling, Measurement and Evaluation
Performance analysis of checkpointing strategies
SIGMETRICS '83 Proceedings of the 1983 ACM SIGMETRICS conference on Measurement and modeling of computer systems
Processor tradeoffs in distributed real-time systems
IEEE Transactions on Computers
Computing Optimal Checkpointing Strategies for Rollback and Recovery Systems
IEEE Transactions on Computers - Fault-Tolerant Computing
Performance evaluation of global reading of entire databases
DPDS '88 Proceedings of the first international symposium on Databases in parallel and distributed systems
Recovery Point Selection on a Reverse Binary Tree Task Model
IEEE Transactions on Software Engineering
On the Optimal Checkpointing of Critical Tasks and Transaction-Oriented Systems
IEEE Transactions on Software Engineering
On the availability of a distributed computer system with failing components
SIGMETRICS '85 Proceedings of the 1985 ACM SIGMETRICS conference on Measurement and modeling of computer systems
Checkpointing strategies for database systems
CSC '87 Proceedings of the 15th annual conference on Computer Science
A Variational Calculus Approach to Optimal Checkpoint Placement
IEEE Transactions on Computers
On-the-fly, incremental, consistent reading of entire databases
VLDB '85 Proceedings of the 11th international conference on Very Large Data Bases - Volume 11
On the checkpointing strategy in desktop grids
IDCS'12 Proceedings of the 5th international conference on Internet and Distributed Computing Systems
Hi-index | 48.22 |
Mean response time and availability as optimization criteria for checkpoint placement are better replaced by workable formulas that calculate the ratio between the marginal gain accrued to users who experience system failure and the (presumably slight) loss suffered on average by all users.