运行时分析允许开发者精确地找到内存泄漏,发现并修正应用程序的运行瓶颈,使代码的执行流及应用程序线程可视化。
Runtime analysis allows developers to pinpoint memory leaks, find and fix application performance bottlenecks, and visualize the execution flow of code and application threads.
用ANSYS中的命令流apdl把以上分析编写成疲劳分析的后处理程序可以作为相似结构疲劳分析的后处理程序。
This analysis process can be compiled with the command chain APDL in the ANSYS software; it can also serve as the post-process program to some similar structure.
现在大多数的程序设计语言提供了异常处理机制,但程序中的异常结构会影响数据流分析。
Recently, most program languages have provided the exception handling, but the exception handling in the program can affect data flow analysis.
基于对程序源代码的静态分析方法,针对程序中一些常见故障,提出了一种基于控制流图的自动测试方法。
Based on the static analysis method of source codes, the automatic testing method for controlling stream graph was pro-posed to detect the faults in programs.
采用C语言完成了灰度转换、图像差分、中值滤波、光流估计、形心确定、高速球控制等软件模块的程序设计,调试出程序执行时间并做了实时性分析;
Most software module programs are compiled with the language C, and the execution time of the program is debugged and the real-time performance compared as well.
结合理论分析与实测数据,修正了料流轨迹物理计算公式与VB程序中的参数设计,得到了能较好模拟实际情况的计算程序。
Combined with theoretical analysis and experimental data, modified some influential parameters in equation of locus and VB program, then attained a program that can simulate actual situation better.
结合理论分析与实测数据,修正了料流轨迹物理计算公式与VB程序中的参数设计,得到了能较好模拟实际情况的计算程序。
Combined with theoretical analysis and experimental data, modified some influential parameters in equation of locus and VB program, then attained a program that can simulate actual situation better.
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