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As more and more electronic devices get connected together, whole systems get more complicated in terms of development, maintenance and usage. New principles in design are needed to cope with this complexity. That is why we developed the artificial hormone system (AHS). The AHS enables an autonomous and decentralized task‐allocation among a set of processing elements (PEs). The AHS works good in small‐scaled...
This paper deals with the design and evaluation of a reliable middleware for multiple Mixed-Core Sytem-on-Chips. The middleware should thereby be responsible for the distribution of tasks among the processing elements. Additional to the requirement of a decentralized task allocation, the middleware should also use self-x principles of Organic Computing, like self-optimization or self-healing. Therefore,...
This article presents our concept of an artificial hormone system for realizing a completely decentralized selforganizing and real-time capable task control mechanism using self-X properties. Besides the fundamentals of the prior hormone concept and the implementation model, we present latest results of our research: specification and analysis of an accurate timing model according the self-optimization...
This article presents our concept of an artificial hormone system for realizing a completely decentralized self-organizing and real-time capable task control mechanism using self-X properties. Besides the fundamentals of the prior hormone concept and the implementation model, we present latest results of our research: evaluation and superiority analysis of a AHS-controlled SoC towards other approaches...
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