在元器件或设备生产过程中的系统化测试,测试样品时对样品不产生破坏是强制性条件。
The systematic testing of components or equipment during manufacturing makes this non-destructive condition mandatory when testing a sample.
总之,通过使用自动的单元测试,能够很快地发现系统的缺陷,并且也易于发现这些缺陷,使得测试工作变得更加系统化,因此整体的质量也得以提高。
In summary, by using automated unit tests, defects are found sooner, defects are easier to find, testing can be made more systematic, and thus, overall quality is improved.
本文介绍了以单齿圈牙齿载荷测试为核心内容的系统化的实验研究工作。
In this paper, the author introduces a systematic experiment in which the force testing of single-row teeth be seen as the most important part.
提出了评价测试向量集及其生成算法的系统化方法,运用该方法对现有的并行测试生成算法进行了深入分析。
A new systematic method for evaluating interconnect testing algorithms is presented. Using this method, the parallel testing algorithms proposed in the literature are analyZed in detail.
提出了评价测试向量集及其生成算法的系统化方法,运用该方法对现有的并行测试生成算法进行了深入分析。
A new systematic method for evaluating interconnect testing algorithms is presented. Using this method, the parallel testing algorithms proposed in the literature are analyZed in detail.
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