D. Fuente, Jesús Barba, X. Peña, J. C. López, P. Peñil, P. Sánchez
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Building a dynamically reconfigurable system through a high development flow
Partial Reconfiguration is one of the most attractive features of FPGAs. This feature provides new computing possibilities, such as the reduction of the total area required in a FPGA by means of functioning overlapping, or the modification of the design after its deployment, where a complete configuration is not needed. However, the design of partially reconfigurable systems is still a complex task. This work focuses on facilitating the design process and proposes a new development framework for dynamically configurable systems from high level UML/MARTE models which, starting from dynamically reconfigurable systems high level UML/MARTE models. Simulation and VHDL code are generated from those models, according to the specification requirements of the reconfigurable hardware captured in the specifications. To demonstrate this approach, a edge detection-based use case has been implemented with the developed framework.
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