Brazil
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Rhino
Minimum hardware required: same as Rhino
Operating system(s): Windows 2000, XP
Most recent version date & number: v2.0 - March 2009
Number of installations:

 

Plug-ins and Renderings for Rhino3D

- Orca3D
- Flamingo
- Bongo
- Penguin
-
T-Splines

 

 
  Description
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High Performance, Integrated Rendering for Rhino 3D

Top artists and designers from every type of industry rely on the Brazil render engine for their most demanding work. Whether showing off the latest designs for a new mobile phone, doing site-accurate visualizations for a new resort-hotel, or generating images of your newest jewelry designs, Brazil can help you create stellar imagery quickly and easily.

Product Design
Brazil can help you visualize your designs in a wide range of styles from high-quality photorealistic renderings, to easy to understand line drawings and illustrations. 
  • Flexible camera settings help achieve realism.
  • Mix and match photorealistic and Illustrative rendering styles.
  • Simulate a vast array of complex materials -- everything from hard reflective materials to soft, translucent plastics. More details...
Jewelry Design
Brazil is the ideal renderer for the hard-surfaces and complex light interaction needed by jewelry designers. 
  • Diffusion in materials along with HDRI lighting create brillance in gemstones.
  • Realistic lighting through caustic photon reflections and refractions.
  • Advanced camera features, like depth-of-field, help show scale and make your renderings look like photographs.
Transportation Design
Sharp rendering and multilevel materials allow Brazil to simulate the complex material finishes needed for planes, trains and automobiles.
  • Simple to use HDRI lighting makes set-up a snap.
  • Accurate reflections communicate surface contours.
  • Accurate shadowing and flexibility in camera lenses help create a sense of scale in your images.
Architectural Design
Brazil's render engine has the performance and flexibility to render all forms of exteriors, interiors and landscaping.
  • Global Illumination and industry standard IES photometric datasets from lighting manufacturers can be used.
  • Sunlighting system allows for site specific daylighting studies.
  • Sophisticated, realistic materials allow you to work equally well whether doing interiors or exteriors.

 
  Capabilities & New features
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Brazil r/s feature list

This image was rendered in Brazil for Rhino, and it shows advanced features that you will not find in simpler rendering platforms:


The five details highlighted in this image represent an advanced feature: (1) Raytracing, (2) Advanced lighting, (3) Toon rendering, (4) Depth of field, (5) Procedural textures.

Raytracing Materials

Brazil's render engine uses the raytracing method. Raytracing has the advantage of simulating the way photons actually behave; although raytracing is not limited to realistic solutions it delivers some of the most photorealistic images available on any platform available today.

Brazil's advanced raytrace engine simulates a wide range of effects due to Brazil's extensive material model :

Along with the Brazil's materials, we are introducing a new interface to edit the materials that includes realtime preview and support of drag and drop material assignment.

Advanced lighting

Rhino supports point, spot, directional, linear, and rectangular light objects with simple properties such as color, hotspot, and shadow casting. Brazil adds about 100 more light properties. The number of light properties can be intimidating, but most of these settings are only needed in a few specific cases.

Brazil light features include :

Brazil will also display focal cones and attenuation spheres for selected lights in the viewport, so you can see the affects of your settings in real-time.

Also included with Brazil is our new Sun control which allows you to accurately place the sun anywhere in the world.
Sun Dockbar

 

Toon and NPR

Brazil includes non-photoreal (NPR) effects such as toon shaders .

(Car)Toon shaders cooperate with photoreal shaders so you can mix glass, brushed metal and toon in a single scene without losing the ability to do indirect-illumination, depth-of-field or any other effect.

You can specify the behaviour of fills and inks including:

  • Multi-level paint fills (discrete colors applied based on luminosity)
  • Gooch type fills, (continuous gradient)

Depth of Field

Depth-of-field (DOF) simulates the imperfect focusing properties of physical lens-systems such as biological eyes and cameras. DOF adds a measure of realism to a rendering by blurring out-of-focus areas. It can also be used to "mask" areas of the scene such as distant surroundings.

The settings for DOF include:

  • Focus distance
  • Radius
  • F-stop
  • Bokeh abberations (the effect over-exposed areas in an image have when they are out of focus)

Depth of Field Details

Rhino viewport screenshot. Brazil materials can be simulated and displayed in the real-time viewport.
Brazil rendering with no DOF effect. Everything is in focus.
Depth of field enabled.
DOF with focal distance aimed at the first glass.
The middle glass is in focus. The depth-of-field effect blurs both objects in front of and behind the field.
The field is centered around the third object.

Procedural Textures

Brazil supports both bitmap and procedural textures. Bitmap textures use images (a grid of colored pixels). Procedural textures, on the other hand, are defined by a mathematical function. Procedural textures do not suffer from resolution or tiling problems, and it is easy to change their behavior. Procedural textures are simulated in the Rhino viewport to make adjustments easy.

Some Brazil built-in functions:

  • Checker
  • Dots
  • Gradient
  • Marble
  • Noise
  • Tile
  • Wrinkled

Advanced definitions can be used to create other realistic materials such as wood and stone.

High Dynamic Range colors

Brazil is a high-dynamic-range (HDR) engine.

With an HDR rendering engine, colors are not limited to the black~white range. Colors can be brighter than white and darker than black. "Brighter-than-white" colors are important even though the computer screen cannot display them, because colors in a rendering are often diluted by partial reflection or refraction.

High-dynamic-range color details

No high-dynamic-range colors. The material on the ball is partially reflective, which means that the residual color after reflection is about one-fourth of what it used to be.

The white planes reflected in the ball have been given a brighter-than-white color.

The planes are ten times brighter than white, so the resulting color is also brighter than white. It is limited by the gamut of the computer screen. A glowing effect would visually enhance the brightness, is not actually possible to display this rendering accurately.

Influence of indirect lighting

Colors can also be diluted through indirect lighting. This scene is lit both directly (through a pointlight to the left, which casts the predominant shadow) and indirectly:

If the brightness of the tube is set to zero, then it will be completely black, and only the direct light emitted from the pointlight object plays a role in this scene.

The brightness of the tube has been set at half the normal brightness, meaning that the purple-to-pink gradient on the tube appears half as dark. However, there is already some indirect pink discoloration on the ground surrounding the tube.

When the brightness is set to 1.0, we see the gradient fwith a substantial amount of indirect pink, especially on the ground inside the tube walls, which is exposed from all directions. At this point, this scene is not yet HDR.

When we boost the brightness of the tube to twice its normal color, the far end of the tube (which is supposed to be pink) has been boosted so far that it becomes brighter than white. It's still pink, but too bright to be represented properly on the screen.

When we boost the brightness to a factor of five, the brighter-than-white boundary is located further towards the dark end of the gradient. Also, the indirect lighting is now predominant on the ground near the tube to the point that some of it has also breached the white barrier.

The brightness is set to one again, but the strength and saturation of the indirect lighting has been boosted. This creates a physically incorrect scene that uses the HDR features of Brazil without specifying HDR colors.

Global Illumination

Global Illumination is a feature you will find in most modern rendering platforms including Brazil.

Global Illumination uses both direct and indirect illumination to generate a realistic image. Direct illumination is the process where light objects cast light onto objects creating bright areas on surfaces that face the light source, darker areas on surfaces that do not face the light source, and shadows when surfaces cannot "see" the light source directly due to some obstruction. After a surface has been lit directly, it emits photons and some of those photons are captured by other surfaces and some of those photons are finally caught by our eyes or a camera. The effect of indirect illumination is relatively small compared to that of direct illumination. Yet, it is very important to the "realistic" quality of the image.

Global Illumination Details

The viewport screenshot of this scene. Three lights with three distinct colours (green, purple and yellow) have been placed around the shapes.
Indirect illumination is enabled. The light has been allowed to bounce one more time, which means that those occluded areas in the image above are now lit indirectly by the vertical surfaces in their vicinity. The image has lost some contrast but is more believable. Only very rarely will you encounter absolute black around you in reality.

The rendered scene with direct illumination only. There are places between the shapes where the shadows of all lights overlap and where there is thus no direct light source "visible". These areas have become completely black.

Diffuse light scattering

This example shows color leaking and luminance in indirect illumination.

This image shows the combined effect of all direct illumination. Instead of a number of light objects, this scene is lit by an unfocused and diffuse white light (monochromatic skydome). Our visual cortex dismisses this image as fake, since the groundplane and the sphere (though touching) have completely different hue and saturation components.

When we enable indirect illumination, the realism of the rendering increases dramatically. Both the groundplane and the sphere are affected by the indirect light.

A close-up of this rendering shows the dissipation of diffuse global illumination, since the effect of an object decreases by distance (things far away are smaller than things nearby), the areas of the groundplane that are closest to the sphere have the most contrast, it is in these regions that we can clearly see the colored bands of the sphere. As we move further away, the orange and green indirect lighting start to mingle.

 



Link to McNeel & Associates

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