Reflection, self-awareness and self-healing in OpenORB
WOSS '02 Proceedings of the first workshop on Self-healing systems
An Architecture-Based Approach to Self-Adaptive Software
IEEE Intelligent Systems
The Vision of Autonomic Computing
Computer
A Scalable Approach to Network Enabled Servers
ASIAN '02 Proceedings of the7th Asian Computing Science Conference on Advances in Computing Science: Internet Computing and Modeling, Grid Computing, Peer-to-Peer Computing, and Cluster
Dynamic Provisioning of Multi-tier Internet Applications
ICAC '05 Proceedings of the Second International Conference on Automatic Computing
Software—Practice & Experience
Deployment and management of large planar reflectarray antennas simulation on grid
Proceedings of the 7th international workshop on Challenges of large applications in distributed environments
Deployment of a hierarchical middleware
EuroPar'10 Proceedings of the 16th international Euro-Par conference on Parallel processing: Part I
Autonomic energy management in clusters
Proceedings of the 1st Workshop on Green Computing
Power-aware scheduler for virtualized systems
Green Computing Middleware on Proceedings of the 2nd International Workshop
Self-Healing of Operational Workflow Incidents on Distributed Computing Infrastructures
CCGRID '12 Proceedings of the 2012 12th IEEE/ACM International Symposium on Cluster, Cloud and Grid Computing (ccgrid 2012)
Extended scheduler for efficient frequency scaling in virtualized systems
ACM SIGOPS Operating Systems Review
International Journal of Adaptive, Resilient and Autonomic Systems
Two levels autonomic resource management in virtualized IaaS
Future Generation Computer Systems
Self-healing of workflow activity incidents on distributed computing infrastructures
Future Generation Computer Systems
Energy-QoS tradeoffs in J2EE hosting centres
International Journal of Autonomic Computing
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Distributed software environments are increasingly complex and difficult to manage, as they integrate various legacy software with specific management interfaces. Moreover, the fact that management tasks are performed by humans leads to many configuration errors and low reactivity. This is particularly true in medium or large-scale distributed infrastructures. To address this issue, we explore the design and implementation of an autonomic management system. The main principle is to wrap legacy software pieces in components in order to administrate a software infrastructure as a component architecture. However, we observed that the interfaces of a component model are too low-level and difficult to use. Therefore, we introduced higher-level formalisms for the specification of deployment and management policies. This paper overviews these specification facilities that are provided in the Tune autonomic management system.