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Test forensics: A guide to evaluating TPS transportability

机译:测试取证:评估TPS可运输性的指南

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Test forensics is a systematic approach for evaluating execution results of a Unit Under Test (UUT) over a broad set of criterion. Execution results include the traditional test numbers, measured values and limits, but also include timing relationships and configuration information about the UUT and Automatic Test Equipment (ATE) used while conducting the test. Occasionally a test may pass on station (A) but fail on station (B), even though both stations are identical, and manufactured from the same production line. Finding the root cause of this type of failure is often tedious and time-consuming. The complexity of solving this issue increases significantly if station (B) is a replacement for station (A), containing a different hardware and software architecture, subject only to the requirement of being functionally equivalent. For either the production case or the transportability case, engineering could benefit from automated tools and data collection. Presented in this paper is an approach for collecting data from the early stages of compilation and translation of a test program set (TPS) all the way through TPS execution on the ATE. Test forensics is a design approach of the runtime system coupled with automated tools for analyzing and presenting the data to the operator. This paper will briefly touch on how the test-forensics implementation would benefit net-centric and distributive network efforts to achieve TPS transportability.
机译:测试取证是一种用于评估广泛标准下被测单元(UUT)执行结果的系统方法。执行结果不仅包括传统的测试编号,测量值和极限值,还包括有关进行测试时所用的UUT和自动测试设备(ATE)的时序关系和配置信息。有时测试可能会在站点(A)上通过,但在站点(B)上会失败,即使两个站点都是相同的,并且是由同一条生产线制造的。寻找这种类型故障的根本原因通常是乏味且耗时的。如果站点(B)代替站点(A),包含不同的硬件和软件体系结构,并且仅在功能上等效的要求下,则解决此问题的复杂性将大大增加。对于生产案例或可运输案例,工程可以从自动化工具和数据收集中受益。本文介绍的是一种从ATE的TPS执行一直到测试程序集(TPS)的编译和转换的早期阶段收集数据的方法。测试取证是运行时系统的一种设计方法,结合了用于分析数据并将其呈现给操作员的自动化工具。本文将简要探讨法医测试的实施将如何有益于以网络为中心和分布式网络的工作,以实现TPS的可传输性。

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