The tables found in this page lists features of Unreal Engine 5 and the rendering paths they support.

Top Rendering Features of UE5 Quick Reference

The following table is a quick reference of selected new Unreal Engine 5 features and their supported rendering paths.

Post Processing

Post Processing enables artists to control the overall look and feel of their scene using placed volumes. Each volume contains lighting and rendering features that affect the look of the scene for things such as type of global illumination and reflections that are used, color grading, amongst other lighting effects.

See Post Process Effects to learn more about the available post-processing options.

Lens

The Lens category contains properties that affect the look of the scene that can be created by a camera lens. For example, things like lens flare, depth of field, exposure, and other similar types of effects.

Color Grading

The Color Grading category enables color styling and color palettes to be applied on top of the rendered scene without making direct changes to the content in the scene itself. Artistic choices can be made to adjust things such as color temperature, saturation, contrast, and more. Color grading can also be used to adjust those highlights, midtones, or even shadows without being destructive to the content in the scene.

See Color Grading to learn more.

Film

The Film category enables artistic choices to map the scene colors to match those of the Academy Color Encoding System (or ACES) standard.

Post Process Global Illumination

The Global Illumination category primarily contains properties for selecting the type of global illumination to use for the Post Process Volume.

For general support of Global Illumination features, see the General Engine Features section of this page.

Post Process Reflections

The Reflections category primarily contains properties for selecting the type of reflections to use for the Post Process Volume.

For general support of Reflections features, see the General Engine Features section of this page.

Rendering Features

The Rendering Features category contains features that are specific to the Post Process Volume, such as controlling motion blur, screen space reflection, and ambient occlusion. It also provides configurable settings for features such as Hardware Ray Tracing and the Path Tracer.

Film Grain

The Film Grain category contains properties that give an intentionally film-like appearance to the scene. Film grain can be a purely visual choice that adds realism to your project with a cinematic look.

General Engine Features

The following are listings of features supported across the various rendering paths available in Unreal Engine.

Anti-Aliasing

Anti-Aliasing techniques are used to smooth or remove the jagged edges in a rendered image. There are multiple anti-aliasing techniques to choose from, with some being better suited for specific hardware and platforms.

Systems and Tools Features

The following are general features of Unreal Engine 5 that work in conjunction with other parts of the engine, for example materials and lighting.

Level of Detail

Level of Detail (or LOD) is an optimization whereby lowering geometric detail of objects at specified distances from the camera has the potential to improve performance. This includes material-based transitions that can reduce the visual switching (or popping that occurs) when swapping between the levels of detail.

Visibility and Occlusion Culling

Different Visibility and Occlusion Culling methods are used to reduce the number of rendered objects in the scene to improve performance. Culling is handled in a few different ways depending on the chosen method: size and distance, and visibility from the player camera. Some methods are only available — even, better suited — for some platforms over others. Some culling methods can be used in conjunction with another method.

See Visibility and Occlusion Culling to learn more about them.

Lighting Features

The following lighting features are supported across Unreal Engine's rendering paths.

To learn more about all of Unreal Engine's lighting features, see Lighting the Environment.

Environmental Lighting and Effects

Lighting for large open worlds requires features that seamlessly work together to create a unified experience. These include components for creating atmosphere, clouds, fog, and fully supported dynamic lighting from the sun and moon.

See Environmental Lighting to learn more about them.

Global Illumination

Global Illumination simulates lighting interactions with geometry and material surfaces to add accurate-looking lighting to a scene. Unreal Engine provides precomputed and dynamic global illumination methods. See Global Illumination to learn more about them.

See Global Illumination to learn more about them.

Shadowing

Shadows enables objects to feel grounded in the world, while providing a sense of depth and space. Unreal Engine provides different methods for shadowing objects in your projects, with some shadowing methods being better suited specific platforms and hardware.

See Shadowing to learn more about them.

Reflections

Reflections are another way to ground objects in the world and add a sense of realism. Reflections start with rough or smooth the materials applied to surfaces are. The smoother a material, the more a surface can reflect light that hits it.

Unreal Engine provides different methods of reflections for materials that include precomputed static reflections and fully dynamic reflections to choose from for your project. Not all reflection systems are exclusive to itself and some can be used together with one another.

See Reflections Environment to learn more about them.

Light Type and Mobility Features

When thinking about how to light your project, you want to consider all the various types of lights you may need and whether they need to be fully, partially static and dynamic, or fully dynamic. When deciding the type of light to use, it is just as important to think about how that light will be used and if it needs to dynamically change or not, which can have an impact on how your project looks and interacts with objects being lit, and with performance.

See Light Types and Their Mobility for more information on using the different types of lights and how their mobility affects them.

Static Lighting

This section includes a breakdown of what types of lights and their common features are supported when using precomputed Static Light Mobility.

For more details, see Static Light Mobility.

Stationary Lighting

This section includes a breakdown of what types of lights and their common features are supported when using Stationary Light Mobility.

For more details, see Stationary Light Mobility.

Movable Lighting

This section includes a breakdown of what types of lights and their common features are supported when using Movable Light Mobility.

For more details, see Movable Light Mobility.

Materials and Textures

Materials and Textures are applied to surfaces to control the visual representation of a surface and typically how it interacts with lighting. There are a variety of material and texture types that can be used in your projects.

See Materials and Textures to learn about them.

Material Domain

The Material Domain defines what the material will be used for in your project.

See Material Properties for more information.

Material Blend Mode

The Blend Mode describes how the output of the current material will blend over what is already being drawn in the background. It allows you to control how the engine will combine this material (source color) with what is already in the frame buffer (destination color) when rendered.

See Material Properties for more information.

Material Shading Model

The Shading Model determines how material inputs are combined to make the final color.

See Shading Models for more information.

Material Inputs

Material Inputs are the inputs being fed data through the Main Material node to define surface properties and how they interact with light. The types of inputs available are determined by the materials set domain, blend mode, and shading model.

See Material Inputs to learn more about them.

Textures

Textures are image assets that are primarily used in Materials but can also be directly applied to components in some situations. For Materials, textures are mapped to surfaces which the material is applied to. Textures can be used for a variety of calculations within a Material, such as a base color, normal map, and mask.

See Textures for more information on using them.

Decals

Decals are Materials that are projected surfaces in your Level. Decals can even be applied to some geometry as a placed mesh decal.