Preference-based multi-objective evolutionary algorithms for power-aware application mapping on NoC platforms |
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| Authors: | Nadia Nedjah,Marcus Viní cius Carvalho da Silva,Luiza de Macedo Mourelle |
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| Affiliation: | a Department of Electronics Engineering and Telecommunication, Faculty of Engineering, State University of Rio de Janeiro, Brazil
b Department of Systems Engineering and Computation, Faculty of Engineering, State University of Rio de Janeiro, Brazil |
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| Abstract: | Network-on-chip (NoC) are considered the next generation of communication infrastructure in embedded systems. In the platform-based design methodology, an application is implemented by a set of collaborative intellectual property (IP) blocks. The selection of the most suited set of IPs as well as their physical mapping onto the NoC infrastructure to implement efficiently the application at hand are two hard combinatorial problems that occur during the synthesis process of Noc-based embedded system implementation. In this paper, we propose an innovative preference-based multi-objective evolutionary methodology to perform the assignment and mapping stages. We use one of the well-known and efficient multi-objective evolutionary algorithms NSGA-II and microGA as a kernel. The optimization processes of assignment and mapping are both driven by the minimization of the required silicon area and imposed execution time of the application, considering that the decision maker’s preference is a pre-specified value of the overall power consumption of the implementation. |
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| Keywords: | Network-on-chip IP assignment IP mapping Multi-objective design |
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