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[904] | 1 | <!-- ******************************************************** --> |
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| 2 | <!-- Docbook Version: For Toolkit Developers Guide --> |
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| 3 | <!-- ******************************************************** --> |
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| 4 | |
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| 5 | <!-- ******************** Top of Section ******************** --> |
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| 6 | <sect1 id="sect.DsgnFuncIntro"> |
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| 7 | <title> |
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| 8 | Introduction |
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| 9 | </title> |
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| 10 | |
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| 11 | <para> |
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| 12 | Geant4 exploits advanced software engineering techniques based on the |
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| 13 | Booch/UML Object Oriented Methodology and follows the evolution of the |
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| 14 | ESA Software Engineering Standards for the development process. The |
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| 15 | "spiral", or iterative, approach has been adopted. User requirements |
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| 16 | were collected in the initial phase and problem domain decomposition, |
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| 17 | object-oriented methods, and CASE tools were used for analysis and design. |
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| 18 | This produced a clear hierarchical structure of sub-domains linked by a |
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| 19 | uni-directional flow of dependencies. This led to a software product |
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| 20 | which is modular and flexible (a toolkit) and in which the physics |
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| 21 | implementation is transparent and open to user validation of physics |
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| 22 | predictions. It allows the user to understand, customize and extend the |
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| 23 | toolkit in all domains. At the same time the modular architecture allows |
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| 24 | the user to load only needed components. |
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| 25 | </para> |
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| 26 | |
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| 27 | </sect1> |
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