Learn to use this Early Access feature, but use caution when shipping with it.
This feature is Early Access.
Features available in Early Access give you the opportunity to learn how they work, plan your pipeline, and create test content. You should use caution when using these features in production, as we are still working to get to shipping-quality performance, stability, and platform support. We support backward compatibility for assets, and the APIs for these features are stable.

Real-Time Ray Tracing

RayTracingBanner


Ray tracing techniques have long been used in film, television, and visualization for rendering photo-realistic images for a long time but required powerful computers and time to render each image or frame. For film and television, it can take many hours or even days to render out high-quality image sequences, but the final result can create real-life 3D content that can blend seamlessly with real-life ones. For architectural visualization companies, ray tracing has meant creating beautiful renders for the automotive industry or showing what a densely-filled house or office complex could look like when complete all while achieving realistic-looking results.  

With the power of Unreal Engine 4 (UE4) combined with Real-Time Ray Tracing (RTRT), it’s possible to create interactive experiences with subtle lighting effects comparable with many offline renderers. Real-time ray tracing makes things look more natural producing soft shadowing for area lights, accurate ambient occlusion, interactive global illumination, and more. 

Ray Tracing in Unreal Engine

Ray tracing in UE4 is composed of two techniques:

  • A hybrid Ray Tracer that couples ray tracing capabilities with our existing raster effects.
  • A Path Tracer for generating reference renders.

Ray Tracer

The Ray Tracer enables raytraced results for shadows, ambient occlusion (AO), reflections, interactive global illumination, and translucency all in real-time. It does this by using a low number of samples couples with a denoising algorithm that is perceptually close to the ground truth results. For example, for shadows, this means they will soften based on distance from a receiving surface or light source size and have physically correct contact hardening.

Undenoised Single Sample Per Pixel Shadow

Denoised Single Sample Per Pixel Shadow

Path Tracer

The Path Tracer is an unbiased, physically based path tracer that is good for rendering reference images of your scene. It works similarly to offline renderers by gathering samples over time and, in its current state, is useful for generating ground truth renders of your scene rather than final pixels.

For additional information, see the Path Tracer.

Enabling Ray Tracing in your Project

System Requirements

Follow these steps to enable ray tracing support in your project. 

System Requirements
Operating System Windows 10 RS5 (Build 1809) or later
Verify your Windows build by typing winver in the Windows search bar.
GPU NVIDIA RTX series card with DXR support and the latest device drivers
Unreal Engine Version 4.22 or Later

Enabling DirectX 12 and Ray Tracing

  1. Go to the main menu and use the File menu to open the Project Settings.
  2. Under Platforms > Windows, use the Default RHI dropdown to select DX12
    EnableDX12Mode
  3. Under Engine > Rendering, enable Ray Tracing. ProjectSetting_EnableRT
    To enable Ray Tracing, Support Compute Skincache must be enabled for the project. If it is not already enabled, you’ll receive a message dialogue asking if you would like to enable it now. If so, click Yes.
  4. Restart the Editor to enable Ray Tracing for your project.

Real-Time Ray Tracing Features

Ray Traced Shadows

Ray Traced Shadows simulate soft area lighting effects for objects in the environment. This means that based on the light’s source size or source angle, an object’s shadow will have sharper shadows near the contact surface than farther away where it softens and widens.

Raster Shadows using Shadowmaps

Ray Traced Soft Shadows

For additional information, see Ray Tracing Settings.

Ray Traced Reflections

Ray Traced Reflections (RTR) simulate accurate environment reflections that can support multiple bounces to create inter-reflection for reflective surfaces.

Screen Space Reflections

Ray Traced Reflections

When compared with Screen Space Reflections (SSR), Planar Reflections, or even reflection probes, Ray Traced Reflections captures the entire scene dynamically and is not limited to static captures or objects within the current camera view to be visible in the reflection.

For additional information, see Ray Tracing Settings.

Ray Traced Translucency

Ray Traced Translucency (RTT) accurately represents glass and liquid materials with physically correct reflections, absorption, and refraction on transparent surfaces.

Raster Translucency

Ray Traced Translucency

For additional information, see Ray Tracing Settings.

Ray Traced Ambient Occlusion

Ray Traced Ambient Occlusion (RTAO) accurately shadows areas blocking ambient lighting better grounding objects in the environment, such as shadowing the corners and edges where walls meet or adding depth to the crevices and wrinkles in skin.

Screen Space Ambient Occlusion (SSAO)

Ray Traced Ambient Occlusion (RTAO)

When compared with Screen Space Ambient Occlusion (SSAO), RTAO grounds objects and adds depth to the scene to produce natural looking shadowing in indirectly lit areas.

For additional information, see Ray Tracing Settings.

Ray Traced Global Illumination

Ray Traced Global Illumination (RTGI) adds real-time interactive bounce lighting to areas not directly lit by a given light source.

Sky Light Only

Ray Traced Global Illumination

RTGI is disabled by default and is currently considered experimental. It can be enabled by adding a Post Process Volume to the scene and enabling Ray Traced Global Illumination or by using the console variable r.RayTracing.Globalillumination 1.

For additional information, see Ray Tracing Settings.

Using Ray Tracing Features

Post Process Volume

Use Post Process Volumes to in your scene to control Ray Tracing and Path Tracing features and properties. Volumes can be added to different areas for interiors and exteriors to enable you to apply the features and quality level you want. From these volumes, you can control Ray Traced Reflections, Translucency, Global Illumination, Ambient Occlusion, and the Path Tracer.

  1. From the Modes panel, locate and drag a Post Process Volume into the Level.
    Click image for full size.
  2. With the volume selected, look at the Details panel under Rendering Features to locate the available Ray Tracing and Path Tracing features and properties that can be adjusted.
    Click image for full size.

For additional information, see Ray Tracing Settings.

Lights

The Ray Tracer supports soft area shadows for all types of lights available in UE4.

Ray Traced Shadows: Directional Light | Source Angle: 0.5357

Ray Traced Shadows: Directional Light | Source Angle: 2.0

Control the softness of the shadow by adjusting the following: 

  • On a Directional Light, set the Source Angle.
  • On Point and Spot Lights, set the Source Radius
  • On a Rect Light, set the Barn Door Angle and Barn Door Length to shape and soften the shadow softness.

For additional information, see Ray Tracing Settings.

Sky Lights

On the Sky Light, use SLS Captured Scene or SLS Specified Cubemap with raytraced shadowing to capture the distance parts of the level and apply that to the scene as a light. Check the Cast Raytraced Shadow flag to enable sky lighting in your scene.  

RT_SkyLight

In this scene, a single HDRI is being used to light the scene along with RTGI.
For RTGI to work with the Sky Light, enable RTGI to evaluate the sky's lighting using the experimental console variable r.RayTracing.GlobalIllumination.EvalSkylight.
For additional information, see Ray Tracing Settings.

Ray Tracing Ambient Occlusion

Control Ray Traced Ambient Occlusion using a Post Process Volume in your scene. Under Ambient Occlusion, you can set the Intensity and Radius of the effect to control its size and strength. 

Ray Traced Ambient Occlusion Intensity: 0.75

Ray Traced Ambient Occlusion Intensity: 1.0

Performance and Debugging

Stat GPU

Check relevant Ray Tracing GPU performance by using the console command GPU Stats. You'll find relevant information about enabled Ray Tracing features and how much frame time is being spent to render them in the current view. 

GPUStats1

Stat D3D12RayTracing

Check relevant Ray Tracing resource usage using the console command Stat D3D12RayTracing

StatD3D12RayTracing

Ray Tracing Debug View Modes

Under the Level Viewport, select the View Mode dropdown and select Ray Tracing Debug to select from the available debug view modes. 

Click image for full size.

Evaluating Denoiser Quality

Evaluate the quality of the Denoiser for different raytracing effects by doing the following: 

  • Disable Temporal Anti-Aliasing and Depth of Field
    • Both of these are running in linear color space in Unreal Engine's renderer. They do some HDR color weighting tricks to avoid aliasing between shadows and highlights.
  • Compare the Denoised single sample per pixel with an Undenoised single sample per pixel. 
    • The result will look incorrect due to the energy difference and that the denoiser is darkening the shadows too much. However, a single sample per pixel will look brighter due to the tonemapper's non-linear operation. 
    • For a better comparison, the Denoised single sample per pixel should be tested against an Undenoised multiple samples per pixel.

Denoised Single Sample Per Pixel

Undenoised Multiple Samples Per Pixel

The denoised single sample per pixel will not be perfect due to information loss. However, when compared to undenoised multiple samples per pixel, the results are consistent. 

Also, keep in mind that the Denoiser supports up to four samples per pixel, which improves the quality and more closely matches the undenoised multiple samples per pixel result.

Additional Notes

Materials 

  • Testing Material Costs
    • Complex materials can affect performance of ray tracing features. Use the console command r.RayTracing.EnableMaterials to test performance impact.
  • Ray Tracing Quality Switch Replace Node 
    • This node enables you to replace the material that affects features like RTGI, RT Reflections, and RT Translucency with less complex materials. 
      Click image for full size.

Ray Tracing Features Optimization

  • Setting Reflections and Translucency Maximum Roughness
    • Use Max Roughness to set a threshold for raytraced reflections on Materials. This can be done within the Post Process Volume or using the console command r.RayTracing.Reflections.MaxRoughness. 
  • Setting a Maximum Ray Distance for Global Illumination, Reflections, and Translucency
    • This sets a maximum ray distance for each of these features to lower their cost and contribution in the scene.
    • Use the console to the MaxRayDistance console variable for each of these Ray Traced features. You can find them under r.RayTracing.*.

Geometry Considerations with Ray Tracing

  • Geometry with small holes or lots of little details can impact performance, such as foliage and fences. 
  • Indoor environments are slower to render than outdoors ones.
    • For example, when light enters from outside, areas that are directly lit is faster than points that are indirectly lit. 
    • Also, you have to consider that more ray tracing features are being used, such ass reflections and translucency

Ray Tracing Supported Features

This list is intended to give you an idea of what is currently supported and is not meant to be a comprehensive list of Ray Tracing feature support in Unreal Engine 4.22.

Feature Supported (Y/N/Partially) Additional Notes
Types of Lights
Directional Light Y
Sky Light Y
Point Light Y
Spot Light Y
Rect Light Y
Lighting Features
Emissive Surfaces Partially Supported for reflections on surfaces, but does not emit light or cast shadows.
Light Transmission N The translucent shadow is treated as opaque, meaning no colored shadows or light transmission through the material.
Area Shadowing Y
IES Profiles Partially Not supported in reflections or translucency.
Light Functions N
Volumetric Fog N
Image Based Lighting (IBL) Y Support for HDRI with Sky Light.
Materials: Blend Mode
Opaque Y
Masked Y With 4.22.1 Hotfix, Masked materials are now supported
Translucent Partially Shadow is considered opaque.
Materials: Shading Model
Default Lit Y
Unlit Partially
SubSurface and SubSurface Profile Partially Works but the result isn't correctly raytraced. It uses the raster pipeline.
Preintegrated Skin Partially Works but the result isn't correctly raytraced. It uses the raster pipeline.
Clear Coat Partially Secondary normal cannot be read in reflection and is only available at first intersection through GBuffer data. 
TwoSided Foliage Y
Hair Partially Works but the result isn't correctly raytraced. It uses the raster pipeline.
Cloth Partially Works but the result isn't correctly raytraced. It uses the raster pipeline.
Material Functions Y
Two-Sided Partially Doesn't properly handle Translucent materials yet.
World Position Offset N
Geometry Types
Skeletal Mesh Y
Static Mesh Y
Geometry Cache (Alembic) Y
Landscape N
Hierarchical Instanced Static Mesh (HISM) N
Foliage N
Splines N
Procedural Mesh N
BSP Brushes N
Levels of Detail (LOD) Y Dithered LOD transitions are not yet supported.    
Visual Effects (VFX)
Niagara Partially Only supports Sprites. Ribbons and Meshes are not yet supported.
Cascade N
Platform Support
Virtual Reality (VR) N