I am moving 10,000 small div elements in a css3 experiment from the top of the browser viewport to the bottom. For this test I use 2 different approaches:

  1. With GPU acceleration using translate3D(x, y, z) or translateZ(0)
  2. No GPU acceleration by simply adjusting the top property in css

Using NO hardware-acceleration runs fairly smooth on Google Chrome.

If I enable hardware-acceleration performance becomes a lot worse. It's so bad the boxes aren't even spread out evenly anymore:

With GPU/Hardware acceleration:

Without GPU/Hardware acceleration:


Why is that so? Shouldn't using the GPU improve performance?

Demo application




My hardware used for test

  • Apple Macbook Pro 15" 2015 Model
  • CPU 2,8 GHz Intel Core i7
  • 16 GB RAM
  • macOS Big Sur 11.2

Update (2014-11-13): Since this question is still attracting attention I'd like to point out that the problem itself still seems to exist although the mentioned stuttering might not be visible anymore in the provided demo on modern hardware. Older devices might still see performance issues.

*Update II (2021-02-17): The problem still persists but you will have to increase the number of boxes being moved in the demo based on the hardware used. I changed the UI of the demo app so you can now adjust the number of boxes moved to create a stuttering animation for your specific hardware. To replicate the issue I recommend to create enough boxes to see stuttering with GPU/hardware acceleration enabled. Then tick off the box and run the test again without acceleration. The animation should be smoother.

  • 9
    The real question is why some browsers want authors to resort to silly hacks like "null" transforms to activate hardware acceleration. Firefox defers to the GPU as much as possible, while IE chooses to ACCELERATE _ALL_ THE THINGS! But interesting question here nevertheless, as it seems to demonstrate that hacks like this can even backfire sometimes. – BoltClock Apr 9 '12 at 4:38
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    @BoltClock'saUnicorn Basically I agree with you. But hasn't it always been like this with cross-browser issues? :-) – Timo Ernst Apr 9 '12 at 15:38
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    I asked this question quite a while ago but I noticed now that the number of items moved seems to have a big impact on the problem. Moving few big objects is more performant than moving lots of small items when using 3D-acceleration because all the 3D-accelerated layers have to be transferred to the GPU and the way back. So even if the GPU does a good job, the transfer of many objects might be a problem so that using GPU acceleration might not be worth it. – Timo Ernst Mar 22 '13 at 12:53
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    I see no performance difference in the example on any browser and have voted to close as no longer reproducible. – Jason C Nov 11 '14 at 14:24
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    @Timo Just checked on whatever the latest Firefox and Chrome are, and IE11, on Windows 7 64-bit, on a fairly old 2.3 GHz i5 Thinkpad with an nVidia 4200M, both options seem smooth to me. shrug – Jason C Nov 11 '14 at 22:04

The reason animation was slower when you added the null transform hack (translateZ(0)) is that each null 3D transform creates a new layer. When there are too many of these layers, rendering performance suffers because the browser needs to send a lot of textures to the GPU.

The problem was noticed in 2013 on Apple's homepage, which abused the null transform hack. See http://wesleyhales.com/blog/2013/10/26/Jank-Busting-Apples-Home-Page/

The OP also correctly noticed the explanation in their comment:

Moving few big objects is more performant than moving lots of small items when using 3D-acceleration because all the 3D-accelerated layers have to be transferred to the GPU and the way back. So even if the GPU does a good job, the transfer of many objects might be a problem so that using GPU acceleration might not be worth it.

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    I accepted this because it answers the question why the problem is actually happening. However, mddw is providing a great solution to the issue in his answer: stackoverflow.com/a/10133679/286149 – Timo Ernst Feb 17 at 22:36

I always add :

-webkit-backface-visibility: hidden;
-webkit-perspective: 1000;

When working with 3d transform. Even "fake" 3D transforms. Experience tells me that these two lines always improve performances, especially on iPad but also on Chrome.

I did test on your exemple and, as far as I can tell, it works.

As for the "why" part of your question... I don't know. 3D transform are a young standard, so implementation is choppy. That's why it's a prefixed property : for beta testing. Someone could fill a bug report or a question and have the team investigate.

Edit per August 19th 2013:

There's regular activity on this answer, and I just lost an hour finding that IE10 also need this. So don't forget :

backface-visibility: hidden;
perspective: 1000;
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    I did another test. Basically the same as test #1 but this time I let the boxes also rotate around the z-axis via -webkit-transform: rotateZ(360deg); dl.dropbox.com/u/17844821/zeug/hwtest2.html - This time the hardware accelerated version is faster! If I remove rotation, hardware acceleration slows the animation down. If your theory is true then this shouldn't be working (because the only difference is that I added rotateZ(360)). On the other hand, maybe chrome is smart enough to realize that for a rotation around the Z-axis no redrawing of the backside of those tiles is required? – Timo Ernst Apr 13 '12 at 17:05
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    This is no longer the case in iOS6 :-( – Michael Mullany Sep 25 '12 at 4:39
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    @Timo Just a heads up, w3schools is not affiliated with the w3c: w3fools.com – Kyle Robinson Young May 20 '14 at 15:30
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    you should add where to add these lines, not just a general "just add this.." myself I know where, but many wouldn't. – vsync Aug 21 '14 at 9:30
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    Add it to the parent of the elements you are animating. – mddw Jan 27 '15 at 11:07

Interesting. I've tried playing with a few options in about:flags, specifically these ones:

GPU compositing on all pages Uses GPU-accelerated compositing on all pages, not just those that include GPU-accelerated layers.

GPU Accelerated Drawing Enable GPU accelerated drawing of page contents when compositing is enabled.

GPU Accelerated Canvas 2D Enables higher performance of canvas tags with a 2D context by rendering using Graphics Processor Unit (GPU) hardware.

Enabled those, tried it and failed miserably with the tickbox enabled (just like you did). But then I noticed yet another option:

FPS counter Shows a page's actual frame rate, in frames per second, when hardware acceleration is active.

Given the highlight in the flag description, I'd speculate that hardware acceleration was, in fact, on for me even without the ticked checkbox since I saw the FPS counter with the options above turned on!

TL;DR: hardware acceleration is, in the end, a user preference; forcing it with dummy translateZ(0) will introduce redundant processing overhead giving the appearance of lower performance.

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    Well, then check this out. I did another test. Basically the same as test #1 but this time I additionally let the boxes rotate around their own axis by adding -webkit-transform: rotateZ(360deg); dl.dropbox.com/u/17844821/zeug/hwtest2.html - This time the hardware accelerated version is faster! If I remove the rotation, hardware acceleration slows the animation down. – Timo Ernst Apr 12 '12 at 15:01
  • @valmar: are you enabling the fps counter? In this new example I see it regardless of how I set the checkbox meaning that hardware acceleration is still forced. I guess your question boils down to "why is translateZ(0) slower than rotateZ(360deg)" – o.v. Apr 12 '12 at 22:56
  • Actually, no. translateZ(0) is ALWAYS active. It's actually required to trigger 3d acceleration. rotateZ(360deg) just additionally adds the rotation animation. So I'd say the question is: Why is the animation with 3D hardware acceleration smoother with rotateZ(360deg) than without? – Timo Ernst Apr 13 '12 at 12:52
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    can't believe it. Rotation of heavy images is faster without hardware acceleration... – ProblemsOfSumit Nov 6 '13 at 10:35

Check chrome://flags in chrome. It says

"When threaded compositing is enabled, accelerated CSS animations run on the compositing thread. However, there may be performance gains running with accelerated CSS animations, even without the compositor thread."

  • I can't find that option on chrome://flags here. If you turn that feature off, is the hardware-accelerated version then faster then the non-accelerated one for you? – Timo Ernst Apr 9 '12 at 15:43
  • Now this option is in DevTools settings – Dmitry Pashkevich Aug 22 '13 at 19:37

My expericence is that GPUs aren't generally faster for all kind of graphics. For very "basic" graphics they can be slower.

You might have gotten different result if you were rotating an image - that's the kind of thing GPUs are good at

Also consider that translateZ(0) is an operation in 3 dimensions, while changing top or left is a 2 dimensional operation

  • Most likely its an implementation issue. GPUs are much faster for all graphics, as long as you implement it right ;) – scientiaesthete Apr 15 '12 at 23:26
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    translateZ(0) actually does nothing but "activate" 3D hardware acceleration. It's a hack but it works. When adding that css attribute, the selected html element as well as all child elements will get force-calculated by the GPU rather than CPU. – Timo Ernst Apr 16 '12 at 12:34
  • I don't know all the low-level implementation details. I had similar issues with QT - hardware acceleration slowing things down. I don't know at which point (or whether) the computer realizes that translateZ(0) can be ignored, and the transformation can be processed as movement in 2 dimensions. (No perspective, no anti-aliasing, no z += 0 for every pixel) – sabof Apr 16 '12 at 18:37
  • scientiaesthete, GPU is not faster for doing the math for all graphics, since it takes CPU effort to move the commands & memory to the GPU & GPU-memory. There is a breaking-point of complexity for that effort to become worth while. YMMV < prior assembly hand-optimizer here ;) – tomByrer Oct 25 '13 at 9:51
  • GPUs are much faster for the actual computation part. However, all currently available GPUs have pretty heavy setup phase before actual computation can start. For "simple" content, letting the CPU do all the rendering may be faster than GPU setup + GPU computation. A well implemented browser will automatically do the right choice and there's no way any random content author can do better. – Mikko Rantalainen Jul 11 '14 at 12:00

I saw you two demo, I think I know the reason you confused:

  1. The animation elements Do not use the left or top to change the location, try to use the -webkit-transform;
  2. All child elements need to turn on hardware acceleration such as use translateZ () or translate3D;
  3. FPS measure animation fluency, your demo FPS on average only 20FPS.

Above, only a personal opinion, thank you!

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