Distribution-free checkpoint placement algorithms based on min-max principle

Author

Ozaki, Tatsuya ; Dohi, Tadashi ; Okamura, Hiroyuki ; Kaio, Naoto

Author_Institution

Dept. of Inf. Eng., Hiroshima Univ.

Volume

3

Issue

2

fYear

2006

Firstpage

130

Lastpage

140

Abstract

In this paper, we consider two kinds of sequential checkpoint placement problems with infinite/finite time horizon. For these problems, we apply approximation methods based on the variational principle and develop computation algorithms to derive the optimal checkpoint sequence approximately. Next, we focus on the situation where the knowledge on system failure is incomplete, i.e., the system failure time distribution is unknown. We develop the so-called min-max checkpoint placement methods to determine the optimal checkpoint sequence under an uncertain circumstance in terms of the system failure time distribution. In numerical examples, we investigate quantitatively the proposed distribution-free checkpoint placement methods, and refer to their potential applicability in practice

Keywords

approximation theory; checkpointing; fault tolerant computing; infinite horizon; minimax techniques; variational techniques; approximation methods; computation algorithms; distribution-free checkpoint placement; finite time horizon; infinite time horizon; min-max checkpoint placement; optimal checkpoint sequence; sequential checkpoint placement; system failure time distribution; variational principle; Approximation algorithms; Approximation methods; Availability; Checkpointing; Computer Society; Economic forecasting; Environmental economics; Fault tolerance; Maintenance; Predictive models; Checkpoint/restart; fault-tolerance; high availability; incomplete failure information.; maintenance; modeling and prediction; performance evaluation;

fLanguage

English

Journal_Title

Dependable and Secure Computing, IEEE Transactions on

Publisher

ieee

ISSN

1545-5971

Type

jour

DOI

10.1109/TDSC.2006.22

Filename

1632007