程序调试 meaning in Chinese
program debugging
Examples
- In the development part of the firmware , it introduces the idea of program design , the hierarchy , the program design in detail , some key codes and the debugging process
固件开发部分介绍了固件的整体设计思想及其层次结构、各个部分的设计方法、给出了关键部分的源代码和程序流程图、程序调试过程。 - After the hardware and the software of it are carefully debugged and tested many times , my developed high - speed temperature - measuring instrument based on the dsp chip technology meets the request of measuring temperatures at a high speed and works well
最后详细说明了系统的抗干扰设计,印刷电路板设计以及程序调试过程。经过了硬件和软件调试,测温仪工作正常,实现了预期的高速测温的功能。 - Because there is no inner ram in cpu of 8031 single - chip and addresses of program memory and data memory are organized separately , in order to attain the goal of self - developing and to realize self - developing function of single - chip applying system , the address of program memory and data memory should be organized uniformly to be read and written for program memory and be revised for it during debugging , modifying and unloading programs
由于8031单片机的cpu无片内ram ,其程序存储器和数据存储器又是分开编址的,因此,为了达到自开发的目的、实现单片机应用系统的自开发功能,需要对程序存储器和数据存储器进行统一编址,使程序存储器可读写,以便在程序调试、修改、下装过程中修改程序存储器。 - This dissertation grounds on the development of pattern i / o module , some key techniques including the design of a register _ based interface circuit and the data generating and sampling circuit are discussed explicitly . on the basis of virtual instrument software architecture , the programme of the instrument driver and application software are discussed detailedly . and some idea and experience developed by the author in the course of debugging and testing the circuit are discussed also
本文立足于vxi总线自动测试系统图形i / o模块的研制工作,在vxi总线系统体系结构基础上,介绍了vxi总线图形i / o模块接口电路和数据输入输出功能电路的实现方案;在虚拟仪器软件构架visa的基础上,根据测试任务完成了vxi总线图形i / o模块仪器驱动器和应用软件的设计与编写;对驱动程序调试过程中出现的问题,进行了较深入的分析,并提出了实际的解决措施。 - The design of the hardware of this system is discussed in chapter 3 and 4 . especially , what the author have done independently are : ( 1 ) programming with visual basic 6 . 0 for processing and measuring of the image ( shown in chapter 5 ) ; ( 2 ) finding out the factors affecting the measurement and analyzing the errors quantificationally ( shown in chapter 6 ) ; ( 3 ) doing experiment for the actual measurement and error analysis . it is shown that the system has a good stability , and the accuracy of the measurement is in about 0 . 2 m
在进一步的研究中,作者独立完成了: ( 1 )用visualbasic语言进行软件编程和程序调试,实现了显微图像的处理、测量和识别(见第五章) ; ( 2 )针对显微测量这一类特殊的几何量测量,作者给出了影响测量结果的误差因素,并对测量结果进行了细致的精度分析(见第六章) ; ( 3 )对上述实际测量及精度分析部分进行了独立的实验。