This page provides information about the real-time viewer V-Ray Vision.
V-Ray Vision is a real-time viewer that can be used in any project set up for V-Ray rendering. It is a lightweight “game engine” (rasterizer) that does not currently use any type of ray-tracing. Due to its speed, it can serve as a powerful alternative viewport that provides better lighting and material representation as well as camera animation playback controls.
In addition to its main function as a viewer, V-Ray Vision can produce spherical panoramas and quick output of both still frames and animation sequences. It comes with its very own auto-exposure, tone mapping, and color correction options.
When V-Ray Vision is launched, it automatically loads the current Rhino project and starts an interactive session. This means that while it is running, a live link is established that sends to the viewer all updates made to the Rhino scene.
Stopping the live link, by either clicking the toolbar's V-Ray Vision button or any of V-Ray's Render buttons, ends the connection but does not clear the loaded scene. To stop V-Ray Vision, close its window.
In addition to loading scenes directly from Rhino, V-Ray Vision is able to load .vrscene files directly. In this case, in order for the changes to be displayed, the source file has to be reloaded.
See the V-Ray Vision page or the Tutorials page for more information.
||V-Ray Toolbar|| > V-Ray Vision (left-click) > Starts V-Ray Vision and begins a session.
||V-Ray Toolbar|| > V-Ray Vision (right-click) > Configures V-Ray Vision before starting and beginning a session.
Rhino Menus Ribbon
||V-Ray Toolbar|| > V-Ray Rendering > V-Ray Vision
V-Ray Vision Menu
Indicates whether the live link with V-Ray is currently active.
Click on the button to open the Live link parameters panel:
Sync Camera – Sync vision camera with the host application viewport.
|Selects a .vrscene file to be loaded in the viewer.|
|Shows or hides the information panel and the shortcuts.|
Resolution mode. Click on the button to cycle between the following modes:
Fit in Window – Matches the window size and aspect.
Camera Navigation Mode. Click on the button to cycle between the following modes:
Orbit mode – enables the camera movement based on orbit, pan, and zoom manipulations.
|Enables/disables Auto Exposure.1|
|Enables/disables the Measurement Tool.|
|Opens the Settings panel.|
Opens the Color Corrections panel.
|Opens the Save Options panel.|
Enables the Standalone Application Export.2
Packages and exports the project as a standalone application.
Toolbar Menu Hide Option – An arrow appears upon hovering at the top part of the V-Ray Vision window. This allows for the toolbar to be hidden or expanded.
Enable Proxy LOD – Enables the LOD switching for Proxy Mesh assets. The full mesh is visible up close, whereas the proxy preview mesh is displayed in distance. Note that both share materials.
High quality Cosmos Assets – Displays a high quality version of each Cosmos asset close to the camera. Cosmos assets have multiple levels of detail and by default Vision loads lighter meshes for increased performance. When this option is enabled the highest level will be used when the camera is close to the object. Note that enabling this option might have major impact on performance and loading time depending on the assets used. The scene will be automatically reloaded when the option is changed which might take a while depending on the project's complexity.
Shadows Quality – Controls the quality of Sun, Directional, Omni and Spot lights. From the drop-down you can choose from:
Low – Low quality shadow map filtering is used. Shadow map size is decreased during scene interactions.
Medium – Medium quality shadow map filtering is used. Soft shadows are disabled.
High – High quality shadow map filtering is used. Soft shadows are supported. Changing the Sun size affects the shadow softness.
Temporal Anti-aliasing – Enables a higher quality anti-aliasing method. Note that this is a compute expensive option and needs multiple frames to achieve good-looking results.
Auto Exposure1 – Enables auto exposure.
EV Compensation – Multiplies the exposure value of the camera or the value calculated by the Auto Exposure (when active). This option can store two independent values based on whether Auto Exposure is active.
Depth of Field – When enabled, the DOF configuration in the V-Ray scene affects Vision. Note that Vision is limited in terms of the defocus amount it can display.
Fly Mode – Changes the view navigation mode. Use the W, A, S, D, Q, E keys on the keyboard to move around. Holding down Space temporarily increases the movement speed. Hold the Left Mouse Button to look around.
Free Flight – In free flight the forward movement of the camera is determined by the view direction. When disabled, the vertical camera orientation is ignored and the movement is constrained to the horizontal plane.
Fly Speed (m/s) – The movement speed measured in meters per second. Only has an effect in Fly mode.
Mouse Sensitivity – Changes the mouse speed when looking around in Fly Mode.
Smooth Movement Delay – The time it takes the camera to gradually cease after being moved during Fly Mode. Calculated in seconds.
Automatic IBL Sun – Automatically adds a directional light based on the brightest spot in an HDR image. The option has no effect if the project Sun is enabled. It is not recommended to enable it if there is no single distinct bright spot in the image used for lighting.
Ambient Light Mode – Enables the ambient lighting mode. This mode can be used to remove the blue sky tint from interior renders. When enabled, the project's environment will remain visible in the background but will no longer affect the diffuse indirect illumination and the reflections. An ambient white/gray color will be used as indirect environment. Note that the state of this parameter will not be saved with the project and has to be manually set.
Ambient Light Intensity – Controls the intensity of the ambient lighting. Note that the value of this parameter will not be saved with the project and has to be manually set.
Ambient Light Intensity value between 100 and 200 is sufficient for interior renders when using Sun and Sky.
Tonemapping Curve – Specifies the type of tone mapping applied to the image.
Exposure – Controls the post-exposure value.
Contrast – Controls the post-contrast amount ranging from -100 to 100.
Saturation – Controls the post-contrast amount ranging from -100 to 100.
Temperature – Controls the post color temperature value ranging from -100 to 100.
Tint – Controls the post color tint value ranging from -100 to 100.
Reset – Resets all color corrections values to 0.
Load – Loads color corrections preset file.
Save – Saves the color corrections as a .visioncc file that can be loaded later.
Output Mode - Specifies the type of the exported image. Note that VR Cubemap output in 6 separate files is not available for video export.
Image - Exports a still image.
Image sequence - Exports a sequence of images.
Video - Exports a single video file.
Standard – Uses a standard pinhole camera.
VR Spherical Panorama – Uses a spherical panorama to save the image.
VR Cubemap 6x1 – A cubic/box camera with the cube side arranged in a single row.
VR Cubemap 6 images – A cubic/box camera with the cube sides saved as separate images.
Note that in Image sequence and Video modes only Standard camera and VR Spherical Panorama projection are supported. Some screen-space effects are disabled in Video mode to avoid artifacts.
File - Specifies the output file path.
Image Format - Specifies the output image file type.
From Vision Window - The window size determines the output image size.
From Project - The image size specified in the host application or the V-Ray scene determines the output image size.
Output Resolution - The final output image resolution. Note that the size multiplier value is also take into account.
Size Multiplier - Multiplier for the base resolution. Note that there is a hard limit of 8192px along the long image size to avoid video memory issues.
Animation FPS - Controls the number of frames per second when exporting sequences.
Frame Delay - Specifies the number of frames that each animation frame is rendered for. Some effects need more than one frame to be resolved to final quality. For example, the Temporal Anti-aliasing benefits from longer delays.
Export – Exports a still image if Animation is disabled. Exports an image sequence or video if Animation is enabled.
These shortcuts navigate through V-Ray Vision.
Ctrl + Space or Ctrl + O
|Opens a .vrscene file.|
Ctrl + Backspace or Ctrl + N
Clears the scene.
|Tab||Changes the camera navigation mode.|
|C||Resets the camera.|
|F12||Shows or hides the tollbar.|
|Z/Esc||Activates/deactivates the measurement tool allowing you to measure the distance between two points on your project (select the points by left clicking on the screen). For better results make sure to click inside of the geometry outlines when selecting the points.|
|X + Left-click|
Moves the Sun.
Up/Down – Altitude
|X + Right-click||Up/Down – Changes the sun intensity.|
|X + Middle-Click||Up/Down – Changes the Exposure Compensation value|
|F5||Resets the Sun position and lighting changes to match the original scene.|
Fly Navigation Mode
|W, A, S, D||In Fly Mode, allow for moving around.|
|Left/Right/Middle Click||Look around in Fly Mode.|
|Q/E or Page Up/Down||Move the page up and down in Fly Mode.|
|Space||Temporarily increases the movement speed.|
|Ctr + '+'||In Fly Mode, it increases the movement speed.|
|Ctr + '-'||In Fly Mode, it decreases the movement speed.|
Orbit Navigation Mode
|Shift + Right-click||Pan|
|Alt + Right-click/Mouse scroll||Zoom|
Does V-Ray 6 include Vision?
Yes, Vision is integrated in V-Ray 6 for Rhino. It can be launched directly from the main V-Ray toolbar.
What is the difference between Vision and Chaos Vantage?
How do you see both engines develop in the future?
V-Ray Vision is a feature of V-Ray for SketchUp, Rhino and Revit, while Vantage is a standalone application that can import and render V-Ray data. The technologies used differ quite significantly as well.
Vision is a rasterizer, a game engine meant to be used as a real-time scene viewer. It can also output final images or animations when the quality is sufficient for the project presentation.
Vantage is a real-time ray-tracer which makes it a lot more powerful in some regards. The lighting quality as well as reflections, refractions and other complex effects are calculated with high accuracy. Heavy models (in terms of polygonal count) are also not a problem for Vantage. Also note that Vantage requires a DXR compatible GPU (NVIDIA RTX only), while Vision runs on any GPU that supports DirectX 11 or 12 and Shader Model 5.0 (both NVIDIA and AMD cards can be used).
A common design shared between Vision and Vantage is that they visualize standard V-Ray Lights, materials and other effects. There is no need to modify your scene in order to use one of the engines. Future plans include Vision to be extended in terms of its presentation capabilities, V-Ray effects support and lighting quality while keeping the high framerate a priority.
What is the reason for lighting and material differences between Vision and the production V-Ray render engine?
• The technology used in Vision (rasterization) is fast but limited in quality and number of effects that can be supported.
• Most of the common material parameters used in V-Ray are supported in Vision. Some are still unsupported and hence you’ll see some differences in the way surfaces appear.
• Vision is also still not capable of evaluating the global illumination in the scene. As a result closed interior spaces would be illuminated incorrectly in most cases. Calculating many light bounces is required for better results.
• Chaos' main goal with Vision is to give a real-time experience keeping a high framerate. Vision is in active development, so the supported features are subject to change.
1- Note that when Auto Exposure is enabled, sizeable very dark or light portions of the buffer (e.g. completely black background surrounding a model), might produce an exaggerated exposure value adjustment.
2- To successfully open a standalone executable Vision file on Apple M1 systems, make sure to enable the 'Open using Rosetta' option from the file's info window.
- V-Ray Vision is part of V-Ray for Rhino and does not require additional licensing.
- V-Ray Vision requires hardware capable of running DirectX 11 or DirectX 12 and Shader Model 5.0
- Temporal Anti-aliasing is disabled when spherical panorama images are exported.
- Sun and camera animations from Grasshopper can be rendered in V-Ray Vision both through Live Link or from manually exported .vrscene files. Note that object animations are currently unsupported.