The portal's design utilizes the multi-tier software architecture and has been implemented utilizing web 2.0 technologies, such as AJAX, Django, and Memcached, to develop a highly interactive and customizable user interface. The web portal also supports interactive collaborations by providing a collaborative logbook, shared visualization and online instant messaging services. A web portal has been designed to support the experimental activities of DIII-D researchers worldwide by providing multiple services, such as real-time experiment status monitoring, diagnostic data access and interactive data visualization. In order to meet these challenges, the design and implementation of a web portal needs to support high interactivity and user customization. Therefore, the applications and information should be customizable depending on the needs of end users. Another challenge is that the visual output of the web portal must not be overwhelming to the end users, despite the high volume of data generated by fusion experiments. One such challenge is that a web portal needs to be fast and interactive despite the high volume of information and number of tools it presents. However, the design and development of a scientific web portal has its own challenges. When used in a scientific research environment, such as fusion experiments, web portals can present diverse sources of information in a unified interface. In the scientific world, web applications have been deployed in portal environments. The recent advances in web technologies motivated the deployment of interactive web applications with rich features. Web browsers have become a major application interface for participating in scientific experiments such as those in magnetic fusion. International Nuclear Information System (INIS)Ībla, G. Customizable scientific web portal for fusion research
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