Publication | Closed Access
OSSS+R: A framework for application level modelling and synthesis of reconfigurable systems
23
Citations
8
References
2009
Year
Unknown Venue
EngineeringComputer ArchitectureSoftware EngineeringSystem SynthesisSoftware AnalysisApplication Level ModellingSystems EngineeringDynamic Partial ReconfigurationModeling And SimulationSynthesis FlowDesign Space ExplorationDesignComputer EngineeringReconfigurable ArchitectureSoftware DesignReconfigurabilityModel-based System EngineeringReconfigurable SystemsProgram AnalysisProgram SynthesisOsss+r FrameworkSystem SoftwareSystem Specification
Dynamic Partial Reconfiguration (DPR) is a promising technology that enables more flexible and efficient systems, yet current design flows are low‑level, complex, or lack automatic synthesis support. The paper presents a SystemC‑based modelling and synthesis flow using the OSSS+R framework for reconfigurable systems. The approach models reconfiguration at the application level, enabling early exploration and analysis of DPR effects. The flow enables rapid implementation of reconfigurable systems via automatic synthesis, as demonstrated on an educational example.
Dynamic Partial Reconfiguration (DPR) is a promising technology ready for use, enabling the design of more flexible and efficient systems. However, existing design flows for DPR are either low-level and complex or lack support for automatic synthesis. In this paper, we present a SystemC based modelling and synthesis flow using the OSSS+R framework for reconfigurable systems. Our approach addresses reconfiguration already on application level enabling early exploration and analysis of the effects of DPR. Moreover it also allows quick implementation of such systems using our automatic synthesis flow. We demonstrate our approach using an educational example.
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