随着高速图像处理技术的应用领域不断扩大,对图像处理速度的要求也越来越高,当前基于软核处理器的图像处理系统成为研究的热点。
With the development of high speed image processing, the soft-core processing technology of image processing system has become a hotspot of research.
介绍了基于NIOSII软核处理器的SOPC技术,分析了传统方法和基于SOPC技术的方法实现扩频收发机的优劣,详细说明了嵌有双nios II的SOPC技术的方案设计。
Introduce the technique of SOPC with softcore processor NIOS II. Analyze the traditional design and the SOPC design in a Direction-Sequence Spread-Spectrum Receiver and Transmitter system.
可编程片上系统(SOPC)是近期嵌入式系统设计的热点之一,利用成熟的处理器软核是进入这一领域的捷径。
SOPC design is one of hotspots in embedded system fields. Using a mature MCU soft core is a crosscut to enter this field.
本文基于可复用设计方法学,对用途广泛的微处理器80c51IP软核的测试方法和应用技术进行研究。
According to the design reuse methodology, this dissertation focus on the research of widely used 80c51 IP soft core, including the test and application technology.
本文是以Nios软核CPU为核心处理器,在FPGA中构建SOPC,实现原来主要由DSP器件才能完成的图像处理功能。
The thesis construct SOPC system in FPGA based on NIOS soft core CPU to realize the image processing which only could be finished by DSP device.
本文是以Nios软核CPU为核心处理器,在FPGA中构建SOPC,实现原来主要由DSP器件才能完成的图像处理功能。
The thesis construct SOPC system in FPGA based on NIOS soft core CPU to realize the image processing which only could be finished by DSP device.
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