This paper presents a basic analysis on the application of electro magnetic transient simulation with computer parallel processing technique and describes an algorithm of parallel processing.
对计算机并行处理技术在电磁暂态仿真计算中的应用进行了初步分析,并描绘了一种适合于并行计算的算法。
Theoretical analysis and computer simulations show that the performances of the blind equalization algorithm are superior, and is very useful for practical application.
理论分析和计算机模拟表明,该算法具有较好的性能,是一种很实用的均衡算法。
The disadvantages of the algorithm are that it is not suitable for realtime application and that it requires the computer to assign a large amount of memory to stack in its implementation.
算法的缺点是不适合实时疲劳损伤计算,且算法在实现时需要计算机为其堆栈分配较多的存储器空间。
The feasibility and efficiency of this algorithm has been validated by the application in the virtual experiment system of computer networks.
通过在计算机网络虚拟实验系统中的应用,证明了此算法的可行性和正确性。
The computational load and the number of data memory units of the algorithm can be efficiently reduced. The paper also gives out the application examples and computer simulation…
给出了算法在高分辨率谱估计及数据序列外推中的应用实例和仿真结果,证实了该算法的优良性能。
The computational load and the number of data memory units of the algorithm can be efficiently reduced. The paper also gives out the application examples and computer simulation…
给出了算法在高分辨率谱估计及数据序列外推中的应用实例和仿真结果,证实了该算法的优良性能。
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