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[新闻动态] COOLFluiD在Github上的网址

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发表于 2020-8-5 10:25:27 | 显示全部楼层 |阅读模式

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现在叫COOLFluiD3,在Github上的网址如下:
https://github.com/coolfluid/coolfluid3/wiki
这个软件的基本信息如下:
What is COOLFluiD?
COOLFluiD is a simulation environment focused on multi-physics simulations. Its applications vary widely from aerodynamics to structural analysis, from aeroacoustics to heat transfer.
It is focused on high-performace computing in large parallel machines (using MPI) and where it shows very good parallel scalability.
The coolfluid3 is the new open-source generation of the coolfluid2 environment, developed by the Von Karman Institute over the last 10 years.
Aims
COOLFluiD aims to be a flexible yet sufficiently simple environment for complex multi-physics simulations. It enables to pool together expertise from different knowledge fields to build simulations that otherwise would require the involvement of multiple experts.
To achieve this aim we develop a component environment, where each functionality is nicely wrapped within a component which can be reused for different purposes. It is a bit like building Lego(R) - we build complex simulations from simple building blocks.
Component Environment
The environment is based on components which plug into a kernel. Components are solvers, equations, numerical discretizations, functional spaces, etc. For example: the finite volume method, the finite element method, the Navier-Stokes and Magnetohydrodynamics equations, are examples of isolated components that collaborate together to form a simulation.
The Kernel combines the components together like Lego(R) bricks, using the best methodology for each application. This creates high-performant solvers, each dedicated to a specific application, while reusing the same components. This approach differs from typical monolithic solvers which employ only one methodology, and thus are sub-optimal in a variety of applications.
COOLFluiD is very flexible and every Physical Model or Numerical Method is a separate plug-in component which is loaded on demand. Developers contribute with their own components as plug-in's, in the form of numerical solvers, acceleration methods, new physical models, equation terms, etc...
The environment is also a collaborative platform, where diverse research centers join together their developments. Combining each other expertise we provide state-of-the-art solutions to complex multi-disciplinary problems.
Documentation
The documentation is maintained as in doxygen. The latest version can be viewed here: http://coolfluid.github.io/doxygen/
发表于 2020-9-24 10:31:07 | 显示全部楼层
前辈您好! 请问你也在使用coolfluid吗

点评

没有,也是刚刚接触。  详情 回复 发表于 2020-9-26 14:51
 楼主| 发表于 2020-9-26 14:51:12 | 显示全部楼层
liujunCFD 发表于 2020-9-24 10:31
前辈您好! 请问你也在使用coolfluid吗

没有,也是刚刚接触。
 楼主| 发表于 2020-9-26 15:40:23 | 显示全部楼层
主贴最后的文档链接失效,已经改为github上的有效链接。
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