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Next Limit RealFlow 2013 Build 7.0.1.0131 流动液体仿真软件

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Program Name: Next Limit RealFlow 2013 v7.0.1.0131
6 u* K7 C9 p6 S$ g- wProgram Type: Fluid and dynamics simulation tool
; X1 q) a: {; o# O  GDeveloper: Next Limit S.L.
- N9 _+ {: u7 L5 mHomepage: www.realflow.com9 S# D- I9 ^# H" d# D4 h+ `
Release Date: 04.08.2013
, @+ T7 ?+ N0 d& g+ x! IInterface Language: English
- o, M1 x+ C# [) v* j4 NPlatform: Windows XP/Vista/7 | Server 20081 x% D" |8 w5 ?0 o$ U2 ?8 ~2 e2 A
File Size: 292.31Mb
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In brief, RealFlow is a fluid and dynamics simulation tool. With RealFlow you are able to calculate the interactions between individual particles acting like water, for example. On the other hand it is also possible to mimic the behaviour of bodies under the influence of certain forces, like gravity or wind. The dynamics functions in RealFlow also allow collisions and interactions between soft and rigid bodies. Another aspect is wave generation with RealWave. Most of these elements can be combined and merged without limits – it is possible to use fluids with rigid bodies or ductile objects, generate fluid splashes on ocean surfaces, create buoying items, and simulate underwater behaviour. RealFlow remains the definitive tool for the creation of flawlessly realistic simulations, and has been used to create some of the most ground-breaking visual effects ever seen, in movies like "Avatar", "District 9", "2012", "GI Joe", and "The Curious Case of Benjamin Button", as well as countless commercials, TV programs, and game cinematics.
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3 ]7 ~1 \0 E. }RealFlow is available for all major platforms: Microsoft Windows, Mac OS X and Linux. All versions support the 64 bit mode (the OS X version is not available as a 64 bit GUI application, but can be run in command line mode with full 64 bit support). Another addition to the RealFlow product range is the RealFlow Renderkit (RFRK). It is a set of tools that has been designed to facilitate the complex task of rendering RealFlow fluids. The RFRK enables you to generate procedural geometry at render time and also render individual fluid particles. With this interface, fluids can also be rendered as foam and spray.
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RealFlow has gone through lots of major and minor changes. The main features will doubtless attract your attention, but there are also many improvements, which are not immediately visible at first glance. These changes affect the stability, memory efficiency, user-friendliness and speed. Here are some highlights:


/ O" g4 x  u% d% E4 ~* W( DHybrido 2

RealFlow's grid fluid solver has been completely rewritten from scratch. Hybrido 2 provides a very high level of detail and is much faster than its forerunner. We also added sophisticated support for GPU-based simulations and a new mesh engine which is able to catch all the fine structures from the core fluid simulation. You will also find completely new emitters for splashes, foam and mist. Another improvement with Hybrido 2 is that you do not have to define domains anymore: the simulation now happens within an adaptive grid. Experienced users will find our new Hybrido fluid solver extremely easy to handle, because the workflow from previous RealFlow versions remains more-or-less the same. Of course, there are some changes, but they only affect simulation settings, preferences and some basic fluid parameters. We have also overworked the export resources and now, Hybrido 2 will generate much fewer files than before. Hybrido 2 is a cutting-edge technology that combines the latest developments in fluid simulation with our long-time expertise in this field. We have listened closely to our user's demands and suggestions and present you a state-of-the-art solver capable of handling tens of millions of particles.

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Relationship Editor

Relationships, global and exclusive links have always played a very big role in RealFlow: you have been able to exclude certain nodes from a simulation, define which objects should react with each other or will not be taken into consideration at all. These connections had to be controlled with long lists of scene elements and a hierarchy that had to be maintained. This is a thing of the past, because the way you establish and manage these links has completely changed in RealFlow 2013. Now, a node-based workflow with a graphical interface provides full visual control over a project, its elements and relations. A flexible, versatile and clear interface makes it easy to keep track of your project – even with many hundreds of different nodes. The “Relationship Editor” is a fully-featured environment with incredible possibilities to remove and establish connections and change the way the scene's nodes will finally react with each other.

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Visual Programming Interfaces

Scripting is one of RealFlow's core concepts and nearly any node or parameter can be accessed and influenced with a huge set of Python statements and functions. Although scripting opens the door to a whole new world of fantastic possibilities, there is a downside: You have to learn a scripting language, become familiar with the SDK, the concepts of syntax and maybe even object-oriented programming. What if it were possible to simply drag and drop elements to a canvas, create links between them and connect various parameters with each other? This way you would not have to learn a complete language and struggle with Python's specialities and notations. The “Batch Graph” and “Simulation Graph” environment have been developed to assist you and ease your daily programming tasks. All available functions and commands of the Python SDK are now clearly arranged and you can start programming by simply linking nodes and their parameters.

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Alembic File Format

Sometimes there are developments that literally thrill the VXF community: Radiosity and global illumination, unbiased rendering, displacement painting and the HDRI concept, to name but a few. Many of these inventions quickly found their way into the commercially available 3D applications. The Alembic file format, developed by Sony Pictures Imageworks and Industrial Light & Magic, is another example. The Alembic format is a hierarchical sampled data storage format and supports a complete representation of the original scene. It was designed to build a bridge between the wide variety of applications and is already supported by most of the leading 3D packages. RealFlow 2013 provides an implementation of the Alembic format as well and now data exchange is easier and more accurate than ever before.

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OpenVDB File Format

OpenVDB is a flexible and versatile file format for storing volumetric data, for example from some simulations or clouds. Another, very interesting, fact is that it can also hold field data. Fields play an important role with RealFlow's Hybrido solver. Once you have the field data of fluid created and stored then it is no problem to generate a mesh, or better, an iso-surface from this data set. The advanced is that this process is very fast and preview meshes from Hybrido fields can be created within a few seconds. RealFlow's implantation of OpenVDB is full supported by our Graphs engine. There you have the possibility to save and load VDB files and create meshes from volumetric data.

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GPU-based Simulations

Hybrido 2 also supports OpenCL GPU-based simulation – even in collaboration with your computer's CPU(s). With appropriate equipment you will be able to boost simulation speed and finish your fluid tasks in a fraction of the time. Due to the nature of today's graphic cards and hardware standards, we cannot support any existing model or driver, but we settled on up-to-date standards to offer the maximum possible compatibility. Please note that GPU-based simulations are only possible with Hybrido 2, RealFlow's Hybrido solver. Particle fluids, RealWave jobs or rigid/soft body dynamics do not benefit from this feature. Multiple GPUs are supported as well.


7 b0 I  H3 d6 j$ ~# Y/ v. Z0 s$ S# ?* IMaxwell Render Integration

Previews are a very important concept with simulations, because they are the only way to evaluate the results in realtime. Playback from the cached data is often not possible due to the large amount of data. Previously, it was only possible to create OpenGL previews from the simulation window. This is nothing more than a sequence of screenshots taken from each frame that will be assembled into a movie. Now, RealFlow provides Maxwell Render's realtime preview engine, called “FIRE”. With “FIRE” it is possible to create almost photo-realistic renders from the currently loaded simulation. You can even assign different materials and use some features from the RealFlow RenderKit, for example the “MultiPoint” technology for spray and foam rendering. Your previews will be taken to a much higher level with “FIRE” and for the first time you will get a render within RealFlow.


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The “Fracture” tool has experienced a comprehensive update and now supports different modes to easily create broken glass, splinters and other types. You can create impact zones with a higher density of pieces at predefined locations, use supporting geometry to control the fracture process and simulate radial cracks. All these different modes are accessible under a clearly arranged interface.

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Caronte

In this version we have mainly focused on improvements and the new "Fracture" tools. One common issue with RealFlow's dynamics solver was a slight jitter or tremble at the beginning of a simulation. This unwanted effect can now be reduced and even completely removed with an “Anti-jitter” slider. The “Caronte” team has also worked on simulation speed and introduced a new system to improve quality. In RealFlow 2012, quality was determined with a few fixed adjustments, but now the solver's accuracy can be easily changed with a slider. One of the most important improvements to Caronte is that our rigid and soft body dynamics solver is now completely scale-independent.

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General Improvements

You can find many more new parameters for different node types in RealFlow 2013. We have also improved the software's stability and fixed many bugs. The SDKs and APIs for C++ and Python have been updated to provide access to the new functions via programming and scripting. We also added demo scenes for each of RealFlow's main elements, e.g. Hybrido 2, graphs or Caronte body dynamics. You can open them, perform simulations and see how to work with RealFlow's exciting tools and solvers.

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RealFlow UNLIMITED - (For large studios with 50+ VFX artists)* `/ x/ C: n8 N
UNLIMITED RealFlow Standard, Node and RenderKit licenses, upgrades to the latest version and dedicated technical support.6 B- h1 z+ q9 T4 g
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System Requirements
8 \. W4 w  m4 X# [; s  O: c- Windows XP, Windows 7, Windows Vista, or Windows Server 2008- Z5 Z; a  R: Y/ r0 {) F* {
- 2 GHz Intel Pentium 4 processor, Athlon 64 AMD or better
) g! B5 L! _4 X, f. Q8 B7 s4 W( |, g- 2GB RAM minimum, 4GB of RAM memory is highly recommended( Z( ]5 ?' O' Y  o9 g8 ]
- Hardware-Accelerated OpenGL graphics card
* P! V6 V# v: ]7 l9 P  e' V- 400 MB available hard disk space for installation
; |9 Z1 K% O5 n( D9 s  T- 3 button mouse
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Download:
3 Q8 V2 e. x4 }! Hrealflow_v2013_0_0_0124_x86_64.exe
% D' N/ V; K, P! x( m2 hrealflow_v2013_0_1_0131_x86_64.exe
. m+ H# c! C* ?' {. X( A- }' irealflow_v2013_1_2_0147_x86_64.exe+ F- J6 W+ E& F. G4 ^
realflow_v2013_1_3_0152_x86_64.exe
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