Table of Contents
TL;DR: NVIDIA GeForce RTX 3070, 3080 & 3090 performance in After Effects
For most users, After Effects is going to be CPU bottlenecked long before the performance of your GPU comes into play. However, in certain After Effects workloads, the new GeForce RTX 3070, 3080 and RTX 3090 can be around 6-12% faster than the previous generation RTX 2080 Ti, or 27-35% faster than the AMD Radeon cards that are currently available.
However, there is no appreciable difference between the RTX 3080 and the more expensive RTX 3090, so there is little reason to invest in the more expensive RTX 3090. In fact, there is also only a small 5% difference between the RTX 3080 and RTX 3070, which may prompt many to stick with the RTX 3070 and invest the cost savings into a faster CPU, more RAM, or other system upgrades.
Introduction
On September 1st, NVIDIA launched the new GeForce RTX 30 Series, touting major advancements in performance and efficiency. And while gaming is almost always a major focus during these launches, professional applications like After Effects should see some improvements as well. Ever since version 2015.3, Adobe has been steadily adding support for GPU acceleration in After Effects which has made the video card an increasingly important part of an After Effects workstation.
However, most of After Effects is still limited by the performance of your CPU, so will these new cards have anything to offer for After Effects users?
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If you want to see the full specs for the new GeForce RTX 3070, 3080, and 3090 cards, we recommend checking out NVIDIA's page for the new 30 series cards. But at a glance, here are what we consider to be the most important specs:
| VRAM | CUDA Cores | Boost Clock | Power | MSRP | |
|---|---|---|---|---|---|
| RTX 2070S | 8GB | 2,560 | 1.77 GHz | 215W | $499 |
| RTX 3070 | 8GB | 5,888 | 1.70 GHz | 220W | $499 |
| RTX 2080 Ti | 11GB | 4,352 | 1.55 GHz | 250W | $1,199 |
| RTX 3080 | 10GB | 8,704 | 1.71 GHz | 320W | $699 |
| Titan RTX | 24GB | 4,608 | 1.77 GHz | 280W | $2,499 |
| RTX 3090 | 24GB | 10,496 | 1.73 GHz | 350W | $1,499 |
While specs rarely line up with real-world performance, it is a great sign that NVIDIA has doubled the number of CUDA cores compared to the comparable RTX 20 series cards with only a small drop in the boost clock. At the same time, the RTX 3080 and 3090 are also $500-1000 less expensive than the previous generation depending on which models you are comparing them to.
With the launch of the RTX 3070, we can update our previous Adobe After Effects – NVIDIA GeForce RTX 3080 & 3090 Performance article with results for the 3070.
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Test Setup
Listed below is the specifications of the system we will be using for our testing:
| Test Platform | |
| CPU | AMD TR 3960X 24 Core |
| CPU Cooler | Noctua NH-U14S TR4-SP3 |
| Motherboard | Gigabyte TRX40 AORUS PRO WIFI |
| RAM | 4x DDR4-2933 16GB (64GB total) |
| Video Card | NVIDIA GeForce RTX 3090 24GB Gigabyte GeForce RTX 3080 OC 10GB NVIDIA GeForce RTX 3070 8GB NVIDIA Titan RTX 24GB NVIDIA GeForce RTX 2080 Ti 11GB NVIDIA GeForce RTX 2080 SUPER 8GB NVIDIA GeForce RTX 2070 SUPER 8GB NVIDIA GeForce RTX 2060 SUPER 8GB AMD Radeon RX 5700 XT 8GB AMD Radeon RX Vega 64 8GB |
| Hard Drive | Samsung 960 Pro 1TB |
| Software | Windows 10 Pro 64-bit (Ver. 2004) After Effects 2020 (Ver. 17.1.3) PugetBench for After Effects (Ver. 0.92) |
*All the latest drivers, OS updates, BIOS, and firmware applied as of September 7th, 2020
Big thank you to Gigabyte for providing the GeForce RTX™ 3080 GAMING OC 10G used in our testing!
To test each GPU, we will be using the fastest platform currently available for After Effects – most notably the AMD Threadripper 3960X. Since After Effects utilizes the CPU so heavily, this should minimize the impact of the processor and allow each GPU to perform at their fullest potential.
For the testing itself, we will be using our PugetBench for After Effects benchmark. This tests a number of different projects and includes a dedicated "GPU Stress" test that is meant to put as much load on the GPU as possible while still staying within the realm of what someone might actually do in the real world. If you wish to run our benchmark yourself, you can download the benchmark and compare your results to thousands of user-submitted results in our PugetBench database.
While Adobe has recently released a new update to After Effects (version 17.5), since this is essentially just an update to our previous RTX 3000-series articles, we will be sticking with version 17.1.3 for now. Our current plan is to re-do all our GPU testing with the latest version of After Effects once AMD launches their new Radon 6000-series GPUs in November.
Raw Benchmark Results
While we are going to go through our analysis of the testing in the next section, we always like to provide the raw results for those that want to dig into the details. If there is a specific task you primarily care about, examining the raw results for that task is going to be much more applicable than our more general analysis.
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Overall After Effects Performance Analysis
Since looking at GPU performance in applications like After Effects is often a case of examining extreme situations where the GPU is put under a heavy load, we first wanted to start off by looking at the overall performance we saw from our After Effects benchmark with each GPU. For most users, this is likely to be the most accurate representation of what they would experience in their day-to-day work since even if you use a ton of effects, they will usually be a mix of both CPU and GPU-based effects.
Looking at the overall performance, the new GeForce RTX 3000-series cards do technically top our charts – taking three of the four top spots. However, the difference between them and the other NVIDIA cards is so slight that it won't be noticeable in most situations. In fact, the difference between these new cards and the modest RTX 2060 SUPER is only 3%, which is within the margin of error for this type of real-world testing.
Even if we dive into the RAM preview and rendering results (ignoring tracking as that primarily uses the CPU), there isn't much of a difference between each NVIDIA GPU. There is definitely an advantage to using NVIDIA over AMD, but beyond that, there doesn't appear to be a significant benefit to using a higher-end GPU.
However, if we examine our "GPU Stress" project by itself (which pushes the GPU as much as is realistic in After Effects), we can get a look at the maximum possible performance gain you may encounter with the RTX 3070, 3080 and 3090.
GPU Score Analysis
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Our GPU Score is calculated based on the performance of our "GPU Stress" composition which is designed to put as much load on the GPU as possible while minimizing the CPU as a bottleneck. This test is borderline synthetic since it is rare that you will only use GPU-accelerated effects, but it does a good job of showing the maximum performance delta between different GPUs in After Effects.
In this composition, we actually see a pretty good bump in performance with the new GeForce RTX 3000-series cards. An 6-13% increase in performance over the RTX 2080 Ti may not seem like all that much compared to the performance gains we saw in some of our other articles, but for After Effects that is very respectable.
Keep in mind as well that the RTX 3070 has a MSRP of just $499, compared to the $1,199 for the RTX 2080 Ti. So while it is only 6% faster, it is also less than half the cost!
Something that is very interesting, however, is that the RTX 3080 and RTX 3090 performed within a few percent of each other. So, while the new cards are definitely faster, there is not much of a reason to invest in the RTX 3090 for After Effects alone. Upgrading from the RTX 3070 to the RTX 3080 nets a bit bigger of a performance gain (roughly 5%), but even that may be hard for many users to justify.
How well does the NVIDIA GeForce RTX 3070, 3080 & 3090 perform in After Effects?
For most users, After Effects is going to be CPU bottlenecked long before the performance of your GPU comes into play. But in certain situations, the new GeForce RTX 3070, 3080 and RTX 3090 can be around 6-12% faster than the previous generation RTX 2080 Ti, or 27-35% faster than the AMD Radeon cards that are currently available.
While these cards do give a decent bump in performance, one interesting thing we found is that there is not much of a difference between the RTX 3080 10GB and the more expensive RTX 3090 24GB. The extra VRAM is not necessary for pretty much any workflow in After Effects, so unless you are using another application that can benefit from the additional power or VRAM, you might as well save some money and stick with the RTX 3080. And even that card is only 5% faster than the RTX 3070, so if you are on a budget you might want to stick to the RTX 3070 and invest the savings into a faster CPU, more RAM, etc.
Another factor you may want to keep in mind is how these RTX 3000-series cards perform in rendering engines (we currently have articles up for OctaneRender, V-Ray, and RedShift). Even if you do not use these engines today, After Effects has been indicating a trend towards using them more heavily in the future – especially since RedShift was acquired by Maxon. So, it is likely that you will be using one of them in the near future if you do any 3D work. You may not get excited about the performance gains we saw in After Effects, but the performance of the new RTX 3000-series cards in these rendering engines is absolutely fantastic.
As always, keep in mind that these results are strictly for After Effects. If you have performance concerns for other applications in your workflow, we highly recommend checking out our Hardware Articles (you can filter by "Video Card") for the latest information on how a range of applications perform with the new RTX 3070, 3080 and 3090 GPUs, as well as with different CPUs and other hardware.
Puget Systems offers a range of powerful and reliable systems that are tailor-made for your unique workflow.
Our Labs team is available to provide in-depth hardware recommendations based on your workflow.