CuNoC: A dynamic scalable communication structure for dynamically reconfigurable FPGAs |
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| Authors: | S Jovanovi? C Tanougast C Bobda S Weber |
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| Affiliation: | 1. Université Henri Poincaré – Nancy 1 Laboratoire d’instrumentation et électronique (LIEN) 54506 Vandoeuvre lès Nancy, France;2. Department of Computer Science University of Kaiserslautern Gottlieb-Daimler-Strasse 48 67653 Kaiserslautern, Germany;1. Department of Information Technology, Ghent University – iMinds, Ghent, Belgium;2. Department of Electronic and Electrical Engineering, University College London, London, United Kingdom;3. Department of Mathematics and Computer Science, University of Antwerp – iMinds, Antwerp, Belgium;1. Laboratory of Mechanics and Materials, Department of Physics, Faculty of Science, University of Yaoundé I, Box 812, Yaoundé, Cameroon;2. Fundamental Physics Laboratory, Department of Physics, Faculty of Science, University of Douala, Box 24157 Douala, Cameroon;3. Department of Sciences and Technologies and Salerno unit of CNSIM, University of Sannio, Via Port’Arsa 11, I-82100 Benevento, Italy;1. Inserm, UMR 1027, Toulouse, France;2. Université Toulouse III, Toulouse, France;3. CHU Toulouse, Service d’Epidémiologie, Toulouse, France;4. NHMRC Clinical Trials Centre, The University of Sydney, Sydney, Australia;1. Institut Jean Lamour, CNRS, UMR 7198, Université de Lorraine, Vand?uvre-lès-Nancy, France;2. Institute of Nature and Environmental Technology, Kanazawa University, Kanazawa 920-1192, Japan |
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| Abstract: | The growing complexity of integrated circuits imposes to the designers to change and direct the traditional bus-based design concepts towards NoC-based. Networks on-chip (NoCs) are emerging as a viable solution to the existing interconnection architectures which are especially characterized by high level of parallelism, high performances and scalability. The already proposed NoC architectures in the literature are destined to System-on-chip (SoCs) designs. For a FPGA-based system, in order to take all benefits from this technology, the proposed NoCs are not suitable. In this paper, we present a new paradigm called CuNoC for intercommunication between modules dynamically placed on a chip for the FPGA-based reconfigurable devices. The CuNoC is based on a scalable communication unit characterized by unique architecture, arbitration policy base on the priority-to-the-right rule and modified XY adaptive routing algorithm. The CuNoC is namely adapted and suited to the FPGA-based reconfigurable devices but it can be also adapted with small modifications to all other systems which need an efficient communication medium. We present the basic concept of this communication approach, its main advantages and drawbacks with regards to the other main already proposed NoC approaches and we prove its feasibility on examples through the simulations. Performance evaluation and implementation results are also given. |
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