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引用次数: 13
摘要
单片FPGA实现视觉核心是从PCB设计层面设计快速、紧凑的嵌入式视觉系统的有效途径。研究的范围是完全利用片上FPGA资源设计一种基于FPGA的嵌入式视觉并行架构。我们利用FPGA上的块ram和IO接口来设计它。因此,该系统具有紧凑、快速、灵活的特点。我们使用Xilinx Virtex-2 Pro (XC2VP30) FPGA对该架构进行了几种中级邻域算法的评估。我们的算法使用具有100 MHz系统时钟的视觉核心,支持在128×128像素的低分辨率图像上进行图像处理,每秒高达200张图像。结果是准确的。我们将我们的结果与现有的FPGA实现进行了比较。通过应用足够的并行性,可以大大提高算法的性能。
FPGA-based compact and flexible architecture for real-time embedded vision systems
A single-chip FPGA implementation of a vision core is an efficient way to design fast and compact embedded vision systems from the PCB design level. The scope of the research is to design a novel FPGA-based parallel architecture for embedded vision entirely with on-chip FPGA resources. We designed it by utilizing block-RAMs and IO interfaces on the FPGA. As a result, the system is compact, fast and flexible. We evaluated this architecture for several mid-level neighborhood algorithms using Xilinx Virtex-2 Pro (XC2VP30) FPGA. Our algorithm uses a vision core with a 100 MHz system clock which supports image processing on a low-resolution image of 128×128 pixels up to 200 images per second. The results are accurate. We have compared our results with existing FPGA implementations. The performance of the algorithms could be substantially improved by applying sufficient parallelism.
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