Sökning: "runtime system"
Visar resultat 11 - 15 av 139 avhandlingar innehållade orden runtime system.
11. Autonomic Management of System of Systems Security
Sammanfattning : The digitalization of manufacturing industry and the profound reliance on interconnected System of Systems (SoS) is demanding for innovative solutions that can handle production processes, while making use of the new data that is being generated by various connected devices. Innovations based on collecting, evaluating, and using this data can improve existing processes and create new business models. LÄS MER
12. Cooperative user- and system-level scheduling of task-centric parallel programs
Sammanfattning : Emerging architecture designs include tens of processing cores on a single chip die; it is believed that the number of cores will reach the hundreds in not so many years from now. However, most common workloads cannot expose fluctuating parallelism, insufficient to utilize such systems. LÄS MER
13. System-Level Analysis and Design under Uncertainty
Sammanfattning : One major problem for the designer of electronic systems is the presence of uncertainty, which is due to phenomena such as process and workload variation. Very often, uncertainty is inherent and inevitable. If ignored, it can lead to degradation of the quality of service in the best case and to severe faults or burnt silicon in the worst case. LÄS MER
14. Towards unanticipated runtime software evolution
Sammanfattning : For some software systems with high availability requirements, it is not acceptable to have the system shut down when a new version of it is to be deployed. An alternative is to use unanticipated runtime software evolution, which means making changes to the Software system while it is executing. LÄS MER
15. Designing Trustworthy Autonomous Systems
Sammanfattning : The design of autonomous systems is challenging and ensuring their trustworthiness can have different meanings, such as i) ensuring consistency and completeness of the requirements by a correct elicitation and formalization process; ii) ensuring that requirements are correctly mapped to system implementations so that any system behaviors never violate its requirements; iii) maximizing the reuse of available components and subsystems in order to cope with the design complexity; and iv) ensuring correct coordination of the system with its environment. Several techniques have been proposed over the years to cope with specific problems. LÄS MER