数据流语言是面向虚拟仪器的可视化编程环境的核心。
Dataflow language (DFL) is the basis of most virtual instrument oriented visual programming environment.
马克斯是一个可视化编程环境,让您可以自定义生成工具和效果。
Max is a visual programming environment which allows you to custom build instruments and effects.
当今有很多并行可视化编程环境,它们都采用不同的可视化模型。
Nowadays there are many parallel visual programming environments which have different parallel visual model.
如今,围绕它已经形成了一个专门的社区,致力于构建各种库以供用这种语言和环境进行动画、可视化、网络编程以及很多其他的应用。
A community has grown around it, building libraries that evolve the language and environment for animation, visualization, vision, network programming, and many other applications.
介绍了该可视化平台的编程环境、为用户提供的功能及其优点。
The programming environment, functions provided to users and advantages of this visual platform are reviewed.
讨论利用网络环境及可视化编程手段,提出实现管理信息和实时数据同步显示的方法。
This paper discussed the method of realizing synchronous display of management information and real-time system data with network environment and visual program.
可视化编程,软件工具与环境,UML建模技术,软件过程,软件项目管理等。
Visual Programming, Software tool& environment, UML modeling technology, Software process, Management of software project.
MATLAB语言以复数矩阵作为基本编程单元,具有强大的数值计算功能、图形表达功能及可视化的仿真环境。
Using plural matrix as basic programming unit, the MATLAB language has powerful numerical calculation function, graph expression function, and visible emulation environment.
该系统提供了一个模块级编程环境,支持用户通过“搭积木”式的方法,从模块库中选取合适的模块,构建可视化流图。
GIVE provides a convenient module-level programming environment. And it supports users to set up a visualization map by selecting appropriate modules from the module Librarian.
它的目的是为自动测试系统提供一个可视化图形编程环境,用户不需要熟悉高级编程语言,利用它便能方便地组建自动测试系统。
Its aim is that it can provide a visual programming environment for users who can build ATS conveniently through the software without knowing advanced programming language.
本文讨论表现卫星网络传输层协议运行的可视化方法,并在MFC编程环境下设计了实现仿真结果二维可视化的软件。
In the article, we discuss various visualization methods that depict the running of satellite network transport layer protocols and provide software to achieve the goal of visualization using MFC.
运用虚拟仪器集成的设计思想,利用可视化图形编程环境,实现了多功能虚拟仪器软面板;
The soft panel of virtual instrument with multi function is obtained by use of the integrated design idea of virtual instrument and of the environment of visualized graphic programming;
运用虚拟仪器集成的设计思想,利用可视化图形编程环境,实现了多功能虚拟仪器软面板;
The soft panel of virtual instrument with multi function is obtained by use of the integrated design idea of virtual instrument and of the environment of visualized graphic programming;
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