Co-processing with dynamic reconfiguration on heterogeneous MPSoC: practices and design tradeoffs (abstract only)

Reconfiguration technique has been considered as one of the most promising electronic design automation (EDA) technologies in MPSoC design paradigms. However, due to the unavoidable latency in the reconfiguration procedure, it still poses a significant challenge to efficiently analyze the trade-offs for the software/hardware execution, static reconfiguration and dynamic reconfiguration. In this paper we first present a heterogeneous MPSoC middleware to support state-of-the-art dynamic partial reconfigurable technologies. Furthermore, we evaluate the reconfiguration latency and analyze the trade-off for the dynamic partial reconfiguration technologies. As a practical study, a heterogeneous MPSoC prototype with JPEG application has been developed on Xilinx Zynq FPGA with state-of-the-art static/dynamic partial reconfigurable technologies. Experimental results on the JPEG case studies demonstrated the leverage among the software execution, hardware execution, and static/dynamic reconfiguration. For the quantitative approach, we have demonstrated the execution time for the different configuration of the hardware steps in JPEG, and the quantitative impact of the dynamic reconfiguration execution. The dynamic reconfiguration could gain the performance benefits for large scale (larger than a certain threshold) computational tasks. Furthermore, overheads and HWICAP hardware utilization have been measured discussed. This work was supported by the NSFC grants No. 61379040, No. 61272131 and No. 61202053.