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In this paper we propose a design methodology to explore dynamic and partial reconfiguration (DPR) of modern FPGAs. We define a set of rules in order to model DPR by means of UML and design patterns. Our approach targets MPSoPC (Multiprocessor System on Programmable Chip) which allows: a) area optimization through partial reconfiguration without performance penalty and b) increased system flexibility...
This paper introduces an approach for the safe design and modeling of dynamically reconfigurable FPGA based Systems-on-Chip. This approach is carried out in a design framework, GASPARD2, dedicated to high-performance embedded systems modeling using the OMG standard profile UML/MARTE. Information employed by the reconfiguration mechanism is identified to be extracted from MARTE models in order to synthesize...
With the increasing hardware capacity, embedded systems are becoming more and more complex, requiring new design techniques/methods. UML allows higher abstraction level system modeling and MDA techniques allow automatic code generation. In this paper we propose a UML/MDA approach to rapidly model and automatically generate MPSoPC systems. Our approach uses MARTE as extension mechanism in order to...
In this paper we propose a UML/MDA approach, called MoPCoM methodology, to design high quality real-time embedded systems. We have defined a set of rules to build UML models for embedded systems, from which VHDL code is automatically generated by means of MDA techniques. We use the MARTE profile as an UML extension to describe real-time properties and perform platform modeling. The MoPCoM methodology...
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