使用IVI驱动程序提高测试系统性能

2000 IEEE Autotestcon Proceedings. IEEE Systems Readiness Technology Conference. Future Sustainment for Military Aerospace (Cat. No.00CH37057) Pub Date : 2000-09-18 DOI:10.1109/AUTEST.2000.885616

D. Cheij

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引用次数: 3

摘要

仪表驱动技术在20世纪90年代有了巨大的发展。诸如SCPI和vxi即插即用之类的计划通过标准化的命令消息和高级实用程序功能简化了远程仪器编程。最新的倡议是可互换虚拟仪器(IVI)基金会。IVI定义了仪器驱动器的标准，提供了许多好处，以提供更高的性能。这些好处包括仪器的互换性、仪器模拟和仪器状态缓存。由于仪器驱动程序是现代测试系统的一个组成部分，IVI承诺为开发人员提供工具，以显着提高他们的系统性能。本文回顾了IVI规范和IVI体系结构的技术方面，并描述了IVI如何帮助测试系统开发人员提高性能和降低长期软件维护成本。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Using IVI drivers to increase test system performance

Instrument driver technology has evolved tremendously during 1990s. Initiatives such as SCPI and VXIplug&play have simplified remote instrument programming with standardized command messages and high-level utility functions. The latest such initiative is the Interchangeable Virtual Instrument (IVI) Foundation. IVI defines standards for instrument drivers that offer many benefits to provide higher performance. These benefits include instrument interchangeability, instrument simulation, and instrument state caching. Because instrument drivers are an integral part of a modern test system, IVI promises to provide developers with the tools to increase their system performance significantly. This paper reviews the technical aspects of the IVI specification and the IVI architecture and describes how IVI can help the test system developer improve performance and lower long-term software maintenance costs.

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来源期刊

2000 IEEE Autotestcon Proceedings. IEEE Systems Readiness Technology Conference. Future Sustainment for Military Aerospace (Cat. No.00CH37057)

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