A Hybrid Mapping-Scheduling Technique for Dynamically Reconfigurable Hardware

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Reconfigurable computing is a promising technology that offers an interesting trade-off between flexibility and performance, which many recent multi-core embedded system applications demand. In order to achieve these objectives, it is necessary to optimize the deployment of the hardware cores on the FPGA platform, trying to reduce the reconfiguration overhead while meeting the desired performance. In this paper, we propose a hybrid mapping and scheduling technique for multi-core applications on reconfigurable devices, which exploits the information about the relationships among the application cores to minimize the overhead due to reconfiguration.

A Hybrid Mapping-Scheduling Technique for Dynamically Reconfigurable Hardware

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