Autonomic management can be used to improve the QoS provided by parallel/distributed applications. We discuss behavioural skeletons introduced in earlier work: rather than relying on programmer ability to design "from scratch" efficient autonomic policies, we encapsulate general autonomic controller features into algorithmic skeletons. Then we leave to the programmer the duty of specifying the parameters needed to specialise the skeletons to the needs of the particular application at hand. This results in the programmer having the ability to fast prototype and tune distributed/parallel applications with non-trivial autonomic management capabilities. We discuss how behavioural skeletons have been implemented in the framework of GCM (the grid component model developed within the CoreGRID NoE and currently being implemented within the GridCOMP STREP project). We present results evaluating the overhead introduced by autonomic management activities as well as the overall behaviour of the skeletons. We also present results achieved with a long running application subject to autonomic management and dynamically adapting to changing features of the target architecture. Overall the results demonstrate both the feasibility of implementing autonomic control via behavioural skeletons and the effectiveness of our sample behavioural skeletons in managing the "functional replication" pattern(s).

Behavioural skeletons in GCM: autonomic management of grid components

ALDINUCCI, MARCO;
2008-01-01

Abstract

Autonomic management can be used to improve the QoS provided by parallel/distributed applications. We discuss behavioural skeletons introduced in earlier work: rather than relying on programmer ability to design "from scratch" efficient autonomic policies, we encapsulate general autonomic controller features into algorithmic skeletons. Then we leave to the programmer the duty of specifying the parameters needed to specialise the skeletons to the needs of the particular application at hand. This results in the programmer having the ability to fast prototype and tune distributed/parallel applications with non-trivial autonomic management capabilities. We discuss how behavioural skeletons have been implemented in the framework of GCM (the grid component model developed within the CoreGRID NoE and currently being implemented within the GridCOMP STREP project). We present results evaluating the overhead introduced by autonomic management activities as well as the overall behaviour of the skeletons. We also present results achieved with a long running application subject to autonomic management and dynamically adapting to changing features of the target architecture. Overall the results demonstrate both the feasibility of implementing autonomic control via behavioural skeletons and the effectiveness of our sample behavioural skeletons in managing the "functional replication" pattern(s).
2008
16th Euromicro Conference on Parallel, Distributed and Network-Based Processing, PDP 2008
Toulouse, France
13-15 February 2008
Proceedings of the 16th Euromicro Conference on Parallel, Distributed and Network-Based Processing, PDP 2008
IEEE
54
63
0769530893
9780769530895
http://ieeexplore.ieee.org/search/wrapper.jsp?arnumber=4457104
autonomic computing; orc; behavioural skeletons; distributed programming; orchestration; adaptive systems
Marco Aldinucci; Sonia Campa; Marco Danelutto; Marco Vanneschi; Patrizio Dazzi; Domenico Laforenza; Nicola Tonellotto; Peter Kilpatrick
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/56546
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