本文演示了如何集成网格计算和协作式对等功能,使基于云的自动化测试变得轻松简单。
This article demonstrated how you can integrate grid computing and collaborative peer-to-peer functionality in order to make it easier to automate cloud-based testing.
全部算法实现程序化,只需输入齿轮的基本参数和网格控制参数,就能自动生成沿齿长和齿高均匀分布网格。
The whole programming algorithm could automatically generate the evenly distributed mesh along tooth length and tooth height, inputting the gear basic parameters and the mesh control parameters.
模块适用于MAPGIS环境下地下水计算中各种网格剖分结点插值数据的自动生成与可视化。
The module can be suitable to the automatic formation and visibility of the interpolation data at each mesh cross section point in underground water calculation with MAPGIS environment.
提出了基于四叉树和三角化方法的一种简单、快速且有效的平面结构区域内网格自动生成方法。
A simple, speedy but efficient algorithm for automatic mesh generation over arbitrary polygonal domain is proposed in this paper.
利用映射法生成全四边形网格时存在两个问题:一是网格疏密过渡难,二是自动化程度不高。
There are two problems when using mapping method to generate all quadrilateral meshes: one is difficulty of mesh transition; the other is low degree of automation.
本文提出了一种自动将网格切开并参数化到二维平面域的方法。
In this paper, we propose a method to segment and parameterize the meshes to 2d domain automatically and simultaneously.
该网格结构有助于实现电子商务自动化及基于语义的软件集成。
This grid architecture may facilitate us implementing E-commerce automation and semantic-based system composition.
在网格生成诸方法中,铺路法自动化程度高、生成的单元质量好,是一种很值得研究的方法。
In the methods of mesh generation, the paving method is worthy of studying, which possesses properties of high automatization degree and generating excellent element.
网格环境中面向服务的应用集成要求高度自动化、动态性和智能化。
Services - Oriented application integration within the grid computing environment requires high automatization, dynamic and intellectuality .
地下水运动三维可视化的关键技术是对三维数据模型构造、网格数据的自动生成以及三维数据可视化集成。
The 3D-Visualization key techniques of groundwater movement are the three dimensions data model construction, mesh data automatic creation and three dimensions data visualization integration.
基于区域递归分解算法是一种有效的四边形网格生成算法,能较好地运用于复杂的单连通和多连通图形区域,自动化程度高。
This paper presents an efficient algorithm for creating automatic quadrilateral mesh based on a recursive decomposition domain of quadrilateral elements.
算法具有区域适应性强,边界网格质量高,自动化程度高的优点。
The proposed algorithm has the advantages of adaptation to complicate boundaries, high quality boundary mesh and full automation.
在现有的有限元网格划分技术中,结构化网格能自动生成形状和尺寸合理的有限元网格,并且易于实现网格的调整和细化。
Among the methods of meshing, structured mesh can create rational dimension and good form meshes which are easily adapted and refined.
基于网格的参数自动化技术可以很好的处理传统网格聚类算法对参数敏感的问题;
PAG algorithm can solve the problem that the grid clustering algorithm is sensitive to parameters;
提出了一套较为通用的,完全自动化的非结构混合网格生成方法。
Upwind flux vector splitting scheme for chemical non-equilibrium flows on hybrid meshes and its parallelization;
提出了一套较为通用的,完全自动化的非结构混合网格生成方法。
Upwind flux vector splitting scheme for chemical non-equilibrium flows on hybrid meshes and its parallelization;
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