Lund University Publications

Maximizing Level of Confidence for Non-Equidistant Checkpointing

• Mark

Nikolov, Dimitar ^LU and Larsson, Erik ^LU

Abstract

To combat the increasing soft error rates in recent semiconductor technologies, it is important to employ fault tolerance techniques. While these techniques enable correct operation, they introduce a time overhead, which may cause a deadline violation in real-time systems (RTS). Since correct operation for RTS is defined as producing correct outputs while satisfying time constraints (deadlines), it is important to optimize the fault tolerance techniques such that the probability to meet deadlines is maximized. To measure to what extent a deadline is met, the concept of Level of Confidence (LoC), i.e. the probability to meet the deadline, can be used. Previous studies have focused on evaluating the LoC for Roll-back Recovery with... (More)

To combat the increasing soft error rates in recent semiconductor technologies, it is important to employ fault tolerance techniques. While these techniques enable correct operation, they introduce a time overhead, which may cause a deadline violation in real-time systems (RTS). Since correct operation for RTS is defined as producing correct outputs while satisfying time constraints (deadlines), it is important to optimize the fault tolerance techniques such that the probability to meet deadlines is maximized. To measure to what extent a deadline is met, the concept of Level of Confidence (LoC), i.e. the probability to meet the deadline, can be used. Previous studies have focused on evaluating the LoC for Roll-back Recovery with Checkpointing (RRC) with an equidistant distribution of the checkpoints. However, no studies have addressed the problem of evaluating the LoC for a non-equidistant distribution of the checkpoints. In this work, we provide an expression to evaluate the LoC for a non-equidistant checkpointing scheme, and propose a method, i.e. Clustered Checkpointing, to distribute a given number of checkpoints with the goal to maximize the LoC. The results show that the LoC can be improved when a non-equidistant checkpointing scheme is used. (Less)