High-Availability Scheme Using Data Partitioning for Cluster Systems
Summary :
For cluster systems consisting of multiple nodes and shared servers which consist of an on-line and a backup server, we propose a hot-standby scheme of shared servers. In this scheme for shared servers, the shared servers have user data and control data. The on-line shared server sends only the control data to the backup server when it receives an update command. When the on-line shared server fails, the backup shared server reconstructs the shared data by using the latest control data sent from the on-line server and the user data sent from each node. We evaluated the system recovery time and the performance overhead for the hot-standby scheme. This enables the system recovery time to be shortened to 30 seconds and the performance overhead to be reduced to 2%.
- Publication
- IEICE TRANSACTIONS on Information Vol.E82-D No.11 pp.1457-1465
- Publication Date
- 1999/11/25
- Publicized
- Online ISSN
- DOI
- Type of Manuscript
- PAPER
- Category
- Computer Systems
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Yuzuru MAYA, Akira OHTSUJI, "High-Availability Scheme Using Data Partitioning for Cluster Systems" in IEICE TRANSACTIONS on Information,
vol. E82-D, no. 11, pp. 1457-1465, November 1999, doi: .
Abstract: For cluster systems consisting of multiple nodes and shared servers which consist of an on-line and a backup server, we propose a hot-standby scheme of shared servers. In this scheme for shared servers, the shared servers have user data and control data. The on-line shared server sends only the control data to the backup server when it receives an update command. When the on-line shared server fails, the backup shared server reconstructs the shared data by using the latest control data sent from the on-line server and the user data sent from each node. We evaluated the system recovery time and the performance overhead for the hot-standby scheme. This enables the system recovery time to be shortened to 30 seconds and the performance overhead to be reduced to 2%.
URL: https://global.ieice.org/en_transactions/information/10.1587/e82-d_11_1457/_p
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@ARTICLE{e82-d_11_1457,
author={Yuzuru MAYA, Akira OHTSUJI, },
journal={IEICE TRANSACTIONS on Information},
title={High-Availability Scheme Using Data Partitioning for Cluster Systems},
year={1999},
volume={E82-D},
number={11},
pages={1457-1465},
abstract={For cluster systems consisting of multiple nodes and shared servers which consist of an on-line and a backup server, we propose a hot-standby scheme of shared servers. In this scheme for shared servers, the shared servers have user data and control data. The on-line shared server sends only the control data to the backup server when it receives an update command. When the on-line shared server fails, the backup shared server reconstructs the shared data by using the latest control data sent from the on-line server and the user data sent from each node. We evaluated the system recovery time and the performance overhead for the hot-standby scheme. This enables the system recovery time to be shortened to 30 seconds and the performance overhead to be reduced to 2%.},
keywords={},
doi={},
ISSN={},
month={November},}
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TY - JOUR
TI - High-Availability Scheme Using Data Partitioning for Cluster Systems
T2 - IEICE TRANSACTIONS on Information
SP - 1457
EP - 1465
AU - Yuzuru MAYA
AU - Akira OHTSUJI
PY - 1999
DO -
JO - IEICE TRANSACTIONS on Information
SN -
VL - E82-D
IS - 11
JA - IEICE TRANSACTIONS on Information
Y1 - November 1999
AB - For cluster systems consisting of multiple nodes and shared servers which consist of an on-line and a backup server, we propose a hot-standby scheme of shared servers. In this scheme for shared servers, the shared servers have user data and control data. The on-line shared server sends only the control data to the backup server when it receives an update command. When the on-line shared server fails, the backup shared server reconstructs the shared data by using the latest control data sent from the on-line server and the user data sent from each node. We evaluated the system recovery time and the performance overhead for the hot-standby scheme. This enables the system recovery time to be shortened to 30 seconds and the performance overhead to be reduced to 2%.
ER -
English
