Aim To study the design and realization of ultra high speed data acquisition and DSP system based on VME computer bus expended for instruments (VXI) bus.
目的研究VME计算机总线扩展的仪器标准总线(VXI)超高速数据采集与DSP系统的设计与实现。
Hardware circuit design of the high speed multi-channel signal acquisition processing system based on VME and the PCI two kind of computers bus is the main part of this thesis.
基于VME和PCI两种计算机总线的高速多通道信号采集处理系统的硬件电路设计是本论文的主要部分。
The design and realization of SHARC parallel process system based on VME bus were studied.
研究基于VME总线SHARC并行处理系统的设计与实现。
This paper presents the design scheme of a real-time signal processing system for airborne SAR imaging, which is based on VME bus.
提出了一种基于VME总线的机载SAR实时成像信号处理系统的设计方案。
The VME bus transferring mechanism is taked as the design object, the overall scheme of the VME bus data collecting system is given in the paper, and each module also is described in detail.
论文以实现VME总线传输机制为设计目标,给出了VME总线数据采集系统的整体方案,并对方案中各个模块进行了详细的阐述。
The VME bus data collecting system is studied in the paper.
本论文旨在研究VME总线数据采集系统。
This testing system is adopted to debug and test the VME modules in the electronic system of BES III(Beijing Spectrometer III), improving the efficiency of electronic hardware development and .
在BESIII的电子学系统VME机箱和插件级设备的调试和检测中采用了该测试系统,提高了硬件研制及调试的效率。
To modify the original CAMAC data acquisition system in high energy physics experiment with VME can increase the data acquisition speed and reduce dead time of system obviously at a small expense.
在高能物理实验数据获取系统中使用VME改造原有CAMAC系统可以在花钱不多的前提下显著提高数据获取速度,减少系统死时间。
To modify the original CAMAC data acquisition system in high energy physics experiment with VME can increase the data acquisition speed and reduce dead time of system obviously at a small expense.
在高能物理实验数据获取系统中使用VME改造原有CAMAC系统可以在花钱不多的前提下显著提高数据获取速度,减少系统死时间。
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