Workflow Enactment Based on a Chemical Metaphor

 

 

Executing workflows on large-scale heterogeneous distributed computing systems is a challenging task. Albeit, there have been many well elaborated approaches, they are often motivated by a certain class of applications and focus on some implementation specific problems. The work presented in this paper aimed at establishing a highly abstract coordination model for distributed workflow enactment where decentralized control, autonomy, adaptation to high dynamics and partial lack of information are of primary concerns. The model is based on a nature metaphor and envisioned as a chemical reaction where molecules react autonomously according to local and actual conditions. The execution model of such chemical workflow enactment is formalized using the gamma-calculus. In the gamma-calculus control, scheduling, dependencies, errors and the state of the computation are all represented in a single uniform declarative formalism that has a mathematically founded clear semantics. The paper shows that the abstract coordination model expressed in gamma-calculus is able to grasp all aspects of such a chemical enactment, provides a more complex and adaptive framework than most current approaches, and actual realizations may be founded on it. [via]
http://www.lpds.sztaki.hu/~zsnemeth/pub/sefm0...

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Tags: Tag chemical metaphor, Tag workflow, Tag paper, Tag coordination model, Tag gamma calculus, Tag nature inspired distributed computing, Tag chemical paradigm, ...

 

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Workflow Enactment Based on a Chemical Metaphor

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