Previous researches have shown some approaches on hardware phase detection. In this work, we propose a new framework based on Xilinx Virtex-6 platform for the implementation of task-optimized coarse-grained reconfiguration that can be reconfigured to adapt to the applications’ behavior. We use MicroBlaze as a general-purpose processor and a ρ-VEX VLIW architecture as reconfigurable cores. A run-time component called supervisor, dynamically monitors the system behavior, and triggers the reconfiguration; we also propose a Profiler component that automatically obtains the phase information. The collected data can be used to guide dynamic reconfiguration on the FPGA.
K., C., Kavvadias, S., Scionti, A., C., S., P., G., Giorgi, R. (2012). Dynamically Reconfiguring through Phase Detection on FPGA. In HiPEAC ACACES-2012 (pp. 149-152). Fiuggi, Italy : Academia Press.
Dynamically Reconfiguring through Phase Detection on FPGA
KAVVADIAS, STAMATIS;SCIONTI, ALBERTO;GIORGI, ROBERTO
2012-01-01
Abstract
Previous researches have shown some approaches on hardware phase detection. In this work, we propose a new framework based on Xilinx Virtex-6 platform for the implementation of task-optimized coarse-grained reconfiguration that can be reconfigured to adapt to the applications’ behavior. We use MicroBlaze as a general-purpose processor and a ρ-VEX VLIW architecture as reconfigurable cores. A run-time component called supervisor, dynamically monitors the system behavior, and triggers the reconfiguration; we also propose a Profiler component that automatically obtains the phase information. The collected data can be used to guide dynamic reconfiguration on the FPGA.
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https://hdl.handle.net/11365/37079
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