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Auteur Nathan Woodhouse

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Automated testing method for a radiopharmaceutical cyclotron control program / Nathan Woodhouse

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Titre : Automated testing method for a radiopharmaceutical cyclotron control program
Type de document : Travail de fin d'études
Auteurs : Nathan Woodhouse, Auteur ; Xavier Wilputte, ; Franky De Bruyne
Editeur : ECAM
Année de publication : 2017
Note générale : IBA
Langues : Anglais (eng)
Index. décimale : TFE - Automatique
Résumé : Every update done on an accelerator control program must be validated before deployment on customer sites. To validate a control program, the accelerator follows a consistent testing sequence to ensure the system behaves as expected. The first release goes through all tests, and following releases execute only the relevant tests. The actual validation method is expensive in terms of man-days and machine availability and presents a small risk of regression issues when only part of the control code is tested. The aim of this TFE is to design an automated testing method that could replace up to 75% of the actual validation procedure. The main idea is to use an automated test environment to drive the tests instead of a manual method, and to apply the tests on a simulated cyclotron rather than on the real device. The benefits of such a method is to cut down man-days and machine availability costs, and reduce regression risks since it gives the possibility to proceed to a larger amount of tests for new releases.

Automated testing method for a radiopharmaceutical cyclotron control program [Travail de fin d'études] / Nathan Woodhouse, Auteur ; Xavier Wilputte, ; Franky De Bruyne . - ECAM, 2017.
IBA
Langues : Anglais (eng)
Index. décimale : TFE - Automatique
Résumé : Every update done on an accelerator control program must be validated before deployment on customer sites. To validate a control program, the accelerator follows a consistent testing sequence to ensure the system behaves as expected. The first release goes through all tests, and following releases execute only the relevant tests. The actual validation method is expensive in terms of man-days and machine availability and presents a small risk of regression issues when only part of the control code is tested. The aim of this TFE is to design an automated testing method that could replace up to 75% of the actual validation procedure. The main idea is to use an automated test environment to drive the tests instead of a manual method, and to apply the tests on a simulated cyclotron rather than on the real device. The benefits of such a method is to cut down man-days and machine availability costs, and reduce regression risks since it gives the possibility to proceed to a larger amount of tests for new releases.

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