Stick to Compositor-Only Properties and Manage Layer Count

Compositing is where the painted parts of the page are put together for displaying on screen.

Paul Lewis

Compositing is where the painted parts of the page are put together for displaying on screen.

There are two key factors in this area that affect page performance: the number of compositor layers that need to be managed, and the properties that you use for animations.


  • Stick to transform and opacity changes for your animations.
  • Promote moving elements with will-change or translateZ.
  • Avoid overusing promotion rules; layers require memory and management.

Use transform and opacity changes for animations

The best-performing version of the pixel pipeline avoids both layout and paint, and only requires compositing changes:

The pixel pipeline with no layout or paint.

In order to achieve this you will need to stick to changing properties that can be handled by the compositor alone. Today there are only two properties for which that is true - transforms and opacity:

The properties you can animate without triggering layout or paint.

The caveat for the use of transforms and opacity is that the element on which you change these properties should be on its own compositor layer. In order to make a layer you must promote the element, which we will cover next.

Promote elements that you plan to animate

As we mentioned in the "Simplify paint complexity and reduce paint areas" section, you should promote elements that you plan to animate (within reason, don't overdo it!) to their own layer:

.moving-element {
  will-change: transform;

Or, for older browsers, or those that don't support will-change:

.moving-element {
  transform: translateZ(0);

Manage layers and avoid layer explosions

It's perhaps tempting, then, knowing that layers often help performance, to promote all the elements on your page with something like the following:

* {
  will-change: transform;
  transform: translateZ(0);

Which is a roundabout way of saying that you'd like to promote every single element on the page. The problem here is that every layer you create requires memory and management, and that's not free. In fact, on devices with limited memory the impact on performance can far outweigh any benefit of creating a layer. Every layer's textures needs to be uploaded to the GPU, so there are further constraints in terms of bandwidth between CPU and GPU, and memory available for textures on the GPU.

Use Chrome DevTools to understand the layers in your app

The toggle for the paint profiler in Chrome DevTools.

To get an understanding of the layers in your application, and why an element has a layer you must enable the Paint profiler in Chrome DevTools' Timeline:

With this switched on you should take a recording. When the recording has finished you will be able to click individual frames, which is found between the frames-per-second bars and the details:

A frame the developer is interested in profiling.

Clicking on this will provide you with a new option in the details: a layer tab.

The layer tab button in Chrome DevTools.

This option will bring up a new view that allows you to pan, scan and zoom in on all the layers during that frame, along with reasons that each layer was created.

The layer view in Chrome DevTools.

Using this view you can track the number of layers you have. If you're spending a lot time in compositing during performance-critical actions like scrolling or transitions (you should aim for around 4-5ms), you can use the information here to see how many layers you have, why they were created, and from there manage layer counts in your app.