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Transformation of round-trip web application to use AJAXChu, Jason 19 June 2008 (has links)
AJAX is a web application programming technique that allows portions of a web page to be loaded dynamically, separately from other parts of the web page. This gives the user a much smoother experience when viewing the web page. This technique also conserves bandwidth by transmitting only new data relevant to the user, keeping all other content on the web page unchanged. The migration from traditional round-trip web application to AJAX-based web application can be difficult to implement due to the many details required by AJAX.
In this thesis, an approach is presented to automate the process of AJAX conversion using source transformation and backward slicing techniques. The result is an AJAX-based web page that will enhance the user experience and also conserve bandwidth. / Thesis (Master, Electrical & Computer Engineering) -- Queen's University, 2008-06-13 09:43:55.515
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Automatic Generation of Simulation Models from DesignsAxling, Erik January 2007 (has links)
<p>When working with embedded systems, secure and fast applications are desired. To achieve this the applications needs to be analyzed and optimized so that they will not be deadlocked or communicate inefficiently. For this purpose an analysis program that can track communications, deadlocks and response times is needed. Operating System Embedded, OSE, is a wide spread real-time operating system that is used in embedded systems. OSE-applications are excellent candidates for analysis and there exists such a tool, VirtualTime, for that purpose. To analyze an OSE-application a model needs to be written that VirtualTime can analyze. This takes up time and effort as the models can require a lot of work to write.</p><p>In this thesis we have investigated and implemented a prototype that translates OSE-application code into VirtualTime simulation model code. We used the transformation tool TXL to translate communication and timing behaviors. In the translation one needs to preserve the communication and timing behavior and throw away other unnecessary code in the OSE-application. This complicates the translation and sophisticated methods like backward slicing might be necessary. A proposed method in this thesis could help with the problem.</p>
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Automatic Generation of Simulation Models from DesignsAxling, Erik January 2007 (has links)
When working with embedded systems, secure and fast applications are desired. To achieve this the applications needs to be analyzed and optimized so that they will not be deadlocked or communicate inefficiently. For this purpose an analysis program that can track communications, deadlocks and response times is needed. Operating System Embedded, OSE, is a wide spread real-time operating system that is used in embedded systems. OSE-applications are excellent candidates for analysis and there exists such a tool, VirtualTime, for that purpose. To analyze an OSE-application a model needs to be written that VirtualTime can analyze. This takes up time and effort as the models can require a lot of work to write. In this thesis we have investigated and implemented a prototype that translates OSE-application code into VirtualTime simulation model code. We used the transformation tool TXL to translate communication and timing behaviors. In the translation one needs to preserve the communication and timing behavior and throw away other unnecessary code in the OSE-application. This complicates the translation and sophisticated methods like backward slicing might be necessary. A proposed method in this thesis could help with the problem.
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