by Alex ⋮ 
Graphics Card (GPU) based render engines such as Redhift3D, Octane or VRAY-RT have matured quite a bit over the last years and are starting to overtake CPU-based Render-Engines.
But what hardware gives the best-bang-for-the-buck and what do you have to keep in mind when building your GPU-Workstation compared to a CPU Rendering Workstation? Building a 3D Modeling and CPU Rendering Workstation can be somewhat straightforward, but highly optimizing for GPU Rendering is a whole other story.
So what are the best Hardware-Components and best GPU for rendering with Octane, Redhsift3D or VRAY-RT, that also is affordable? Let’s take a look:
Best Hardware for GPU Rendering
Processor
Since GPU-Render Engines use the GPU to render, technically you should go for a max-core-clock CPU like the Intel i9 9900K that clocks at 3,6GHz (5Ghz Turbo) or the AMD Ryzen 9 3900X that clocks at 3,8Ghz (4,6Ghz Turbo).
That said though, there is another factor to consider when choosing a CPU: PCIe-Lanes.
GPUs are attached to the CPU via PCIe-Lanes on the motherboard. Different CPUs support different amounts of PCIe-Lanes and Top-tier GPUs usually need 16x PCIe 3.0 Lanes to run at full performance.
The i9 9900K/3900X have 16 GPU<->CPU PCIe-Lanes, meaning you could use only one GPU at full speed with these type of CPUs.
If you want more than one GPU at full speed you would need a different CPU that supports more PCIe-Lanes like the AMD Threadripper CPUs, that have 64 PCIe-Lanes (e.g. the AMD Threadripper 2950X), the i9 9800X (28 PCIe-Lanes) or the i9 9900X Series CPUs that support 44 PCIe-Lanes.
GPUs, though, can also run in lower speed modes such as 8x PCIe 3.0 Speeds and then also use up fewer PCIe-Lanes (8x). Usually, there is a negligible difference in Rendering Speed when having GPUs run in 8x mode instead of 16x mode.
This would mean you could run 2x GPUs on an i9 9900K in 8x PCIe mode, 3x GPUs on an i9 9800X and 5x GPUs on an i9 9900X. (Given the Mainboard supports this configuration)
CPUs that have a high number of PCIe-Lanes usually fall into the HEDT Platform range and are usually also great for CPU Rendering as they tend to have more cores and therefore better multi-core performance.
When actively rendering and your scene fits nicely into the GPUs VRAM, the speed of GPU Render Engines is of course mainly dependent on GPU performance.
Some processes though that happen before and during rendering rely heavily on the performance of the CPU, Hard-Drive, and network.
For example extracting and preparing Mesh Data to be used by the GPU, loading textures from your Hard-Drive and preparing the scene data.
In very complex scenes, these processing stages will take lots of time and can bottleneck the overall rendering speed, if a low-end CPU, Disk, and RAM are employed.
If your scene is too large for your GPU memory, the GPU Render Engine will need to access your System RAM or even swap to disk, which will considerably slow down the rendering.
Best Memory (RAM) for GPU Rendering
Different kinds of RAM won’t speed up your GPU Rendering all that much. You do have to make sure, that you have enough RAM though, or else your System will crawl to a halt.
I recommend keeping the following rules in mind to optimize performance as much as possible:
- To be safe, your RAM size should be at least 2x your combined VRAM size.
- You can benefit from higher Memory Clocks, but usually at a larger price premium
- You can benefit from more Memory Channels on certain Systems
- Look for lower Latency RAM. CL14, for example, could be slightly faster in some workloads than CL16.
Best Graphics Card for Rendering
To use Octane and Redshift you will need a GPU that has CUDA-Cores, meaning you will need an NVIDIA GPU. VRAY-RT additionally supports OpenCL meaning you could use an AMD card here.
The best bang-for-the-buck NVIDIA cards are the NVIDIA 2070 RTX (2304 CUDA Cores, 8GB VRAM), 2080 RTX (2944 CUDA Cores, 8GB VRAM) and the 2080 Ti (4352 CUDA Cores, 11GB VRAM).
On the high-end, the currently highest possible performance is offered by the NVIDIA Titan V and Titan RTX, that also comes with 24GB of Video RAM.
These Cards though have worse Performance per Dollar as they are targeted at a different audience and VRAM is very expensive but not necessarily needed in such high capacities for GPU Rendering.
GPUs, that have 12GB of Video RAM and more, can handle high-poly scenes with over 200 million unique objects best. Take a look at the performance per dollar tables below, though, to get an overview of how expensive some of these cards can get without offering that much more performance.
GPU Cooling
Founders Edition Blower Style Cooler
- PRO: Better Cooling when stacking more than one card
- CON: Louder than Open-Air Cooling
Open-Air Cooling
- PRO: Quieter than Blower Style, Cheaper
- CON: Worse Cooling when stacking cards
Hybrid AiO Cooling (All-in-One Watercooling Loop with Fans)
- PRO: Best All-In-One Cooling for stacking cards
- CON: More Expensive, needs room for radiators in Case
Watercooling
- PRO: Best temps when stacking cards, Quiet, can use only single slot height
- CON: Needs lots of extra room in the case for tank and radiators, More Expensive
NVIDIA GPUs have a Boosting Technology, that automatically overclocks your GPU to a certain degree, as long as it stays within predefined temperature and power limits. So making sure a GPU stays as cool as possible, will improve the performance.
You can see this effect especially in Laptops, where there is usually not much room for cooling, and the GPUs tend to get very hot and loud and throttle very early. So if you are thinking of Rendering on a Laptop, keep this in mind.
Power Supply
Be sure to get a strong enough Power supply for your system. Most Cards have a Power Draw of around 180-250W. CPU of around 100W and any additional Hardware in your case.
I Recommend a 500W for a Single-GPU-Build. Add 250W for every additional GPU. Good PSU manufacturers to look out for are Corsair, beQuiet, Seasonic, and Coolermaster but you might prefer others.
There is a Wattage-Calculator here that lets you Calculate how strong your PSU will have to be.
Mainboard & PCIe-Lanes
Make sure the Mainboard has the desired amount of PCIe-Lanes and does not share Lanes with SATA or M.2 slots. Also, be careful what PCI-E Configurations the Motherboard supports. Some have 3 or 4 PCI-E Slots but only support one x16 PCI-E Card.
This can get quite confusing. Check the Motherboard manufacturers Website to be sure the Card configuration you are aiming for is supported. Here is what you should be looking for in the Motherboard specifications:
Image-Source: Asus
In the above example, you would be able to use (with a 40 PCIe Lane CPU) 1 GPU in x16 mode. OR 2 GPUs in both x16 mode OR 3 GPUs one in x16 mode and two of those in x8 mode and so on. Beware that 28-PCIe Lane-CPUs in this example would support different GPU configurations than the 40 lane CPU.
Currently, the AMD Threadripper CPUs will give you 64 PCIe Lanes to hook your GPUs up to, if you want more you will have to go the multi-CPU route with Intel Xeons.
To confuse things a bit more, some Mainboards do offer four x16 GPUs (needs 64 PCIe-Lanes) on CPUs with only 44 PCIe Lanes. How is this even possible?
Enter PLX Chips. On some motherboards these chips serve as a type of switch, managing your PCIe-Lanes and leads the CPU to believe fewer Lanes are being used. This way, you can use e.g. 32 PCIe-Lanes with a 16 PCIe-Lane CPU or 64 PCIe-Lanes on a 44-Lane CPU. Beware though, only a few Motherboards have these PLX Chips. The Asus WS X299 Sage is one of them, allowing up to 7 GPUs to be used at 8x speed with a 44-Lane CPU, or even 4 x16 GPUs on a 44 Lanes CPU.
This screenshot of the Asus WS X299 Sage Manual clearly states what type of GPU-Configurations are supported (Always check the manual before buying expensive stuff):
Image-Source: Asus Mainboard Manual
PCIe-Lane Conclusion: For Multi-GPU Setups, having a CPU with lots of PCIe-Lanes is important, unless you have a Mainboard that comes with PLX chips. Having GPUs run in x8 Mode instead of x16, will only marginally slow down the performance. (Note though, the PLX Chips won’t increase your GPU bandwidth to the CPU, just make it possible to have more cards run in higher modes)
Best GPU Performance / Dollar
Ok so here it is. The Lists everyone should be looking at when choosing the right GPU to buy. The best performing GPU per Dollar!
GPU Benchmark Comparison: Octane
This List is based on OctaneBench 4.00.
(It’s quite difficult to get an average Price for some of these cards since crypto-currency mining is so popular right now, so I used MSRP)
| GPU Name | VRAM | OctaneBench | Price $ MSRP | Performance/Dollar |
|---|---|---|---|---|
| RTX 2070 | 8 | 210 | 550 | 0.381 |
| GTX 1070 | 8 | 133 | 400 | 0.333 |
| GTX 1070 Ti | 8 | 153 | 450 | 0.340 |
| GTX 1060 | 8 | 94 | 300 | 0.313 |
| GTX 1080 Ti | 11 | 222 | 700 | 0.317 |
| GTX 1080 | 8 | 148 | 550 | 0.269 |
| RTX 2080 | 8 | 226 | 799 | 0.282 |
| RTX 2080 Ti | 11 | 304 | 1199 | 0.253 |
| TITAN XP | 12 | 250 | 1300 | 0.192 |
| RTX Titan | 24 | 326 | 2700 | 0.120 |
| Titan V | 12 | 396 | 3000 | 0.132 |
| GTX TITAN Z | 12 | 189 | 2999 | 0.063 |
| Quadro P6000 | 24 | 139 | 3849 | 0.036 |
| Quadro GP100 | 16 | 284 | 7000 | 0.040 |
| RTX 2060 | 6 | 170 | 350 | 0.485 |
Source: Complete OctaneBench Benchmark List
GPU Benchmark Comparison: Redshift
The Redshift Render Engine has its own Benchmark and here is a List based off of Redshift Bench. Note how the cards scale (1080TI) [RedshiftBench Mark (Time [min], shorter is better)]:
| GPU Name | VRAM | RedshiftBench | Price $ MSRP | Performance/Dollar |
|---|---|---|---|---|
| RTX 2070 | 8 | 11.35 | 550 | 1.601 |
| GTX 1070 | 8 | 17.11 | 400 | 1.461 |
| GTX 1080 Ti | 11 | 11.44 | 700 | 1.248 |
| RTX 2080 | 8 | 10.59 | 799 | 1.181 |
| 4x GTX 1080 Ti | 11 | 3.07 | 2800 | 1.163 |
| 2x GTX 1080 Ti | 11 | 6.15 | 1400 | 1.161 |
| 8x GTX 1080 Ti | 11 | 1.57 | 5600 | 1.137 |
| GTX 1080 | 8 | 16.00 | 550 | 1.136 |
| RTX 2080 Ti | 11 | 8.38 | 1199 | 0.995 |
| TITAN XP | 12 | 10.54 | 1300 | 0.729 |
| Titan V | 12 | 8.50 | 3000 | 0.392 |
| Quadro P6000 | 24 | 11.31 | 3849 | 0.229 |
| Quadro GP100 | 16 | 9.57 | 7000 | 0.149 |
| 4x RTX 2080 Ti | 11 | 2.28 | 4796 | 0.914 |
Source: Complete Redshift Benchmark Results List
GPU Benchmark Comparison: VRAY-RT
And here is a List based off of VRAY-RT Bench. Note how the GTX 1080 interestingly seems to perform worse than the GTX 1070 in this benchmark:
| GPU Name | VRAM | VRAY-Bench | Price $ MSRP | Performance/Dollar |
|---|---|---|---|---|
| GTX 1070 | 8 | 1:25 min | 400 | 2.941 |
| RTX 2070 | 8 | 1:05 min | 550 | 2.797 |
| GTX 1080 TI | 11 | 1:00 min | 700 | 2.380 |
| 2x GTX 1080 TI | 11 | 0:32 min | 1400 | 2.232 |
| GTX 1080 | 8 | 1:27 min | 550 | 2.089 |
| 4x GTX 1080 TI | 11 | 0:19 min | 2800 | 1.879 |
| TITAN XP | 12 | 0:53 min | 1300 | 1.451 |
| 8x GTX 1080 TI | 11 | 0:16 min | 5600 | 1.116 |
| TITAN V | 12 | 0:41 min | 3000 | 0.813 |
| Quadro P6000 | 24 | 1:04 min | 3849 | 0.405 |
Source: VRAY Benchmark List
Speed up your Multi-GPU Rendertimes
So, unfortunately, GPUs don’t scale linearly. 2 GPUs render an Image about 1,8 times faster. Having 4 GPUs will only render about 3,5x faster. This is quite a bummer, isn’t it? Having multiple GPUs communicate with each other to render the same task, costs so much performance, that one GPU in a 4-GPU rig is mainly just managing decisions.
One solution could be the following: When final rendering image sequences, use as few GPUs as possible per task.
Let’s make an example:
What we usually do in a multi-GPU rig is, have all GPUs work on the same task. A single task, in this case, would be an image in our image sequence.
4 GPUs together render one Image and then move on to the next Image in the Image sequence until the entire sequence has been rendered.
We can speed up preparation time per GPU (when the GPUs sit idly waiting for a task to start) and bypass some of the multi-GPU slow-downs when we have each GPU render on its own task.
Now 4 GPUs are simultaneously rendering 4 Images, but each GPU is rendering its own Image.
Some 3D-Software might have this feature built-in, if not, it is best to use some kind of Render Manager, such as Thinkbox Deadline (Free for up to 2 Nodes/Computers).
Beware though, that you might have to increase your System RAM a bit and have a strong CPU since every GPU-Task needs its amount of RAM and CPU performance.
Buying GPUs
NVIDIA and AMD GPUs are both hard to get by for a reasonable price nowadays since mining is so popular. Graphics Cards are mostly Out of Stock and even when they are available, they are nowhere near MSRP. There is a site called nowinstock that gives you an overview of the most popular places to buy GPUs in your country and notifies you as soon as cards are available.
I put together some Builds in different Price ranges here for you to get a head start in configuring your own dream-build.
Redshift vs. Octane
Another thing I am asked often is if one should go with the Redshift Render Engine or Octane.
As I myself have used both extensively, in my experience, thanks to the Shader Graph Editor and the vast Multi-Pass Manager of Redshift, I like to use the Redshift Render Engine more for doing work that needs complex Material Setups and heavy Compositing.
Octane is great if you want results fast, as it is slightly easier to learn for beginners. But this, of course, is a personal opinion and I would love to hear yours!
Custom PC-Builder
If you want to get the best parts within your budget you should have a look at the Web-Base PC-Builder Tool that I’ve created.
Select the main purpose that you’ll use the computer for and adjust your budget to create the perfect PC with part recommendations that will fit within your budget.
What Hardware do you want to buy?
Hey Alex.
I need some professional advise please!
I just got my hands on two GTX TITAN X (12 GB) gpu’s.
My question is how I best utilize these two babies if I want to ramp up my gpu rendering capabilities?. I’m using 3ds max 2020, Phoenix FD 4.xx and vRay next. I also use After effects and Premiere Pro a lot.
This is my workstation as it stands right now:
MB2011-V3 Asus X99 Gaming ROG STRIX
Intel Core I7-6800K 6x <3.6GHz LGA2011
CPUK Thermalright Macho Rev B
DDR4-2133 8GB Kingston RAM (x4)
SSD Samsung 850 EVO 500GB (SSD)
PSU Corsair RM750x 750W 80+ Gold
Asus DRW-24F DVD burner
CASE Vision X2 Silent Black cabinet
Nvidia Asus GTX1070 8GB STRIX
SSD Samsung 950 PRO 256GB M.2 PCIe x4
I'm not sure if the best and cheapest way to go forward is to make my workstation a 2x Titan machine and put my GTX 1070 gpu on a new cheap render machine on the side, or if I should use the 2x Titan X for the render machine, or if I should make a mix of one Titan X and my GTX 1070 on my workstation?.
I don't have a lot of money right now so I'm looking for the cheapest solution possible for now. I am however considering going for the AMD Ryzen ThreadRipper 1920X – 3.5 GHz – 12-core for my next cpu upgrade but I do fear that it will be too expensive in other upgrades (motherboard etc.) as a result – so please take that into consideration as well please.
Thank you very much in advance!
/Bo
Hey Bo,
Any of those are possible. Personally, I’d put the two gpus into a new rendernode machine with a cheap threadripper cpu like the 1900x or the 1920x.
You will most likely do some preview renders on your work-machine, and wont need final render quality there. Then you can send the frames to your render node for final rendering.
That is how I do it.
That way the render node(s) only need to be on when you have some big final quality jobs to render, which usually is at the end of a project. That way you save on power consumption and noise and can even extend that render node up to 4 gpus.
Also, your x99 motherboard and cpu has a total of 16 pcielanes, so you wouldn’t be able to run the two gpus at full x16 speeds, but only half. This isn’t so bad, but could be better.
Cheers,
Alex
Hey Alex.
Thank you for your quick response – very usefull information!
What parts do I need to look for and do you have suggestions to specific parts that I should look for. As I already said I don’t have a whole lot of cash lying arround so price is really important.
That said I do consider the Threadripper 1920 so what do I need to be aware of?. I. E. How big do my psu need to be for the 1920+2x Titan x gpu’s?. How much ram and what kind do I need to look for? I’m hoping to find the various parts as used so the only new things that I’m hoping on getting is the cpu and maybe the motherboard (if I really really have to). Anny suggestions on the used parts would be really helpful as well.
Thanks a whole bunch!
/Bo
Hey Bo,
1920X is a nice pick. You need a x399 Motherboard such as the Gigabyte Designare ex x399 to be able to estend your gpus to 4 later on.
A 850w PSU will be strong enough for your two titans, but you should upgrade to 1400 or 1600w for 4 gpus.
Look for corsair vengeance RAM, or crucial ballistix, as these are quite cheap. 32gb should do it for the start, but with more gpus you might want more ram too.
A cpu cooler such as the bequiet dark rock pro 4 TR4, and a cheapish ssd such as an adata ssd, will do just fine for a gpu rendernode.
For 4 gpus, of course you will need a large tower case such as the fractal design define xl r2.
Cheers,
Alex
Ok thanx Alex!
Any chance you can recommend a motherboard for 2 gpus only?. It’s getting a little expensive for my wallet…
Thank you!
Hey Bo,
Take a look at the MSI X399 SLI Plus or ASRock X399 Phantom Gaming 6. Those are the cheapest x399 Boards currently on the market. 🙂
Cheers,
Alex
Awesome! I will look at those, thank you very much – this has been most helpful!
/Bo
Hi Alex,
Not sure if you missed my comment so I will past it . Thanks.
“Hi Alex,
I currently have very old system but planning to build a new one .This mainly be for 3 modelling and visualisation in Blender, Photoshop. . If I understand correctly I would need to emphasis my budget towards GPU rather than CPU. I look to spend under $1000/£1000 ( UK based). CGIDirect build tool suggest GTX 1660TI but I know in order to get full card potential on Blender I would have to opt for RTX. In this case I would be ready to buy 2060.
My idea is to build new build in stages. At the first I want to buy graphic card GTX 2060and use it on my Asus P6TD Deluxe. I also run 1st gen i7 920 CPU Do. My question would be if my old system is capable to handle such card and if so would I have anything to adjust.?
Then alter next year I would build system from the scratch and use the new card.
Asus P6TD Deluxe
i7 920 CPU Do
12GB RAM
Antec PSU 650W ( Silver 10 years old)
Man Thanks,
Tomas”
Hi Alex. This info is super useful for me. I am a Mac user. I have an iMac Pro, entry level, I use Arnold for Maya, Physical Render and Pro Render for C4D but I would like try Octane and Redshift, obviously on PC. There are rumors that these will be compatible for Mac soon, but I don’t think that will happen (and they say only for the new Mac Pro, but I don’t know if this will happen for the iMac Pro, which I guess it will if im lucky).
I will read extra carefully your blog in order to get a really (REALLY) good machine for fast rendering using Redshift. I have never build a PC, and I just hope I don’t get a trial and error basis… that would be expensive.
Thanks for sharing your knowledge.
Hey José,
Let me know what your build looks like before you buy it, then I can take a look 🙂
Cheers,
Alex
Hi Alex,
I currently have very old system but planning to build a new one .This mainly be for 3 modelling and visualisation in Blender, Photoshop. . If I understand correctly I would need to emphasis my budget towards GPU rather than CPU. I look to spend under $1000/£1000 ( UK based). CGIDirect build tool suggest GTX 1660TI but I know in order to get full card potential on Blender I would have to opt for RTX. In this case I would be ready to buy 2060.
My idea is to build new build in stages. At the first I want to buy graphic card GTX 2060and use it on my Asus P6TD Deluxe. I also run 1st gen i7 920 CPU Do. My question would be if my old system is capable to handle such card and if so would I have anything to adjust.?
Then alter next year I would build system from the scratch and use the new card.
Asus P6TD Deluxe
i7 920 CPU Do
12GB RAM
Antec PSU 650W ( Silver 10 years old)
Man Thanks,
Tomas
Hey Tomas,
Thanks for asking!
If you plan on using the GPU render engines, then you would have to allot a big portion of your budget for the GPU. That said, if you have your sights set on the RTX 2060 now, you can go ahead and purchase this GPU now since I see no compatibility issues with your Asus P6TD Deluxe motherboard and other components for that matter. You can then just build a new system around this card from scratch once you have the budget for it.
Cheers,
Alex
Hi Alex,
Thanks! It is good news then. In your opinion do I need Ryzen 3600 over 5 2600x paired with RTX2060? Will I actually utilise extra £50 in this case?
It is probably worth to mention that I want my PC to be compact so looking for a micro ATX MoBo. I didn’t see much content on your website. Maybe you could suggest any worth mentioning micro/mini motherboards for around £80-£120?
Thanks,
Tomas
Hey Tomas,
If you have the means, I suggest that you go for the Ryzen 5 3600. That’s not to say that there’s anything wrong with the Ryzen 5 2600X. The 2600X is a fine CPU but the 3600 brings better memory support and performs at a higher level compared to its predecessor as shown in benchmarks.
As for a microATX motherboard, the X570 motherboards are a bit too expensive at the moment but if you need PCIe 4.0 and don’t mind the higher cost, the cheapest X570 microATX motherboard available at the moment is the ASRock X570M PRO4 that can be had for around $179.99.
Now, if you don’t need PCIe 4.0, going for a B450 motherboard is your best bet. Some good options are the MSI B450M Gaming Plus ($79.99), ASRock B450M Steel Legend ($89.99), Gigabyte B450M DS3H ($110.03), and the Asus TUF B450M-Plus Gaming ($118.39).
Cheers,
Alex
Hi Alex,
Thanks. Got the Ryzen 5 3600 next to me 🙂 Motherboard still have to wait a little.
In regards of MoBO either yours recommended ASUS TUF Gaming B450M-PRO or ASUS ROG Strix B450-I Gaming Mini ITX Motherboard, I am tempted to get Mini ATX for the reason I will have even more space in my small Silverstone SG13 case.
Thanks,
Tomas
Hi Alex, thanks for the time and effort that you dedicate to your post and that are undoubtedly a reference on the web … I wanted to ask you about the compatibility of the RTX 2060 Super with Octane, since on their page they make a benchmark of more than 200 but indicate ? in terms of card compatibility for all versions of Octane. It is assumed that if this graphic Card has CUDAs it should be compatible. Can anyone work with the Octane plugin in Cinema4D with RTX 2060 Super ?. With what version of Octane? Thank you.
Hey Salvador,
You need octane 3.08 or above as that version introduced support for Nvidias Turing Graphics cards and the Super series too is built on the turing architecture.
So if you have the current version (4) you will not have any trouble at all just pluggin it in and rendering, given you have current nvidia drivers installed.
Cheers,
Alex
Thank you very much Alex. In fact I have the 3.07 version of Octane (:. So I recon must I actualize?. Thanks. What about Redshift?…
Yes, best to upgrade to octane 4 for some RTX features and better support.
You article is very useful and it is not boring because every line contain useful information. XD
I want to build PC for render blender 2.81 cycle optix.
I use model from game engine so it is not high poly as sculpt model but I use a lot of physic like cloth and hair and other.
I have budget 2400 usd and I want the build like
RTX 2070*2
or
RTX 2080TI*1 and find another RTX 2080ti in next four month
or
RTX 2070*3
but I don’t know which cpu and AIO cooling water I should buy.
Now I use gtx980m SLI to render cycle and it take 10min per picture (Blender 2.8 with addon denoise)
I can’t make animation with this.
I will not save up for 7000 build because I want PC now.
I just want build that can upgrade in future without sale the old one.
How many time it take to render 10min picture with RTX 2070*2 optix?
Is Optix affect only first card or every card that have RTX?
Hey Chick,
Thank you for the kind words!
For your $2,400 budget, you can get a build with specs like the below:
Parts List:
CPU: AMD Ryzen 9 3900X 3.8GHz 12-Core Processor ($495.99)
CPU Cooler: AMD Wraith Prism Cooler (Included with CPU) –
Motherboard: ASUS Prime X470-Pro AM4 ($131.99)
GPU: NVIDIA RTX 2070 SUPER 8GB – MSI Gaming X ($549.99)
GPU: NVIDIA RTX 2070 SUPER 8GB – MSI Gaming X ($549.99)
Memory: 32GB (2 x 16GB) Corsair Vengeance LPX DDR4-3200 CL16 ($129.99)
Storage SSD: Samsung 860 EVO 1TB 2.5″ Solid State Drive ($109.99)
Power Supply: Corsair RMx Series RM650x 650W ATX 2.4 Power Supply ($117.99)
Case: Phanteks Enthoo Pro ATX Full Tower Case ($199.99)
The total of the build comes up to around $2,285.92 but you get a very powerful Ryzen 9 3900X CPU at the heart of your system working with 32GB of RAM to make sure your workflow is always fast and smooth. In addition to that, this build also comes with two (2) RTX 2070 SUPER GPUs which would definitely help a lot in your GPU rendering tasks. No way to tell though just how much time it will take two RTX 2070 SUPER GPUs to render a 10-min picture as this would depend on a lot of factors but Optix render mode can make perfect use of a multi-GPU setup.
Cheers,
Alex
Hi Alex, thank you for your amazing work. I’m digging to find something online about eGPUs and bottleneck issues with them. Maybe you could consider write something about it, please.
Hey Felipe,
Great Idea, this topic comes up quite a lot. I am adding it to the todo list 🙂
Cheers,
Alex
First off, Thank you for all the time you have put into this site which has helped so many of us. I am blown away at the amount of detail you put into helping everyone in the comments. I have recommended this site to a few others who are also in the market for a rig.
CPU: AMD Ryzen 9 3900x
CPU COOLER 240mm Liquid Cooler
GRAPHICS CARD EVGA Geforce RTX 2070 Super EVO Turbo 8GB GDDR6
MEMORY Corsair LPX 32GB (2x16GB) 3200MHz C16 DDR4 DRAM Memory Kit, Black (CMK32GX4M2B3200C16)
STORAGE – BOOT 1TB NVMe SSD Samsung 970 EVO NVMe 1TB M.2
STORAGE – FILES 4 TB 3.5″ HDD 7200RPM (WD Ultrastar 4TB 7200rpm $165.00) (WD Purple 4TB 5400rpm
MOTHERBOARD MSI MEG X570 ACE Gaming Motherboard
POWER SUPPLY 750 W – Fully Modular – 80+ Gold (Thermaltake)
CASE ATX Mid Tower Case (Antec NX400 NX Mid Gaming Case)
I plan on adding another card (same model) I have tried researching and am still a bit confused on PCI Lanes. I think I may have chosen the wrong board. My question is, Will I be able to use both of my GPU’s at full x16 in each of the allowed spots? Or Will I have to use one at x16 and one x8?
My Motherboard (https://www.newegg.com/p/N82E16813144259) says
————PCI Express 4.0 x16
2 x PCIe 4.0/3.0 x16 slots (PCI_E1, PCI_E3)
– 3rd Gen AMD Ryzen support PCIe 4.0 x16/x0, x8/x8 modes
– 2nd Gen AMD Ryzen support PCIe 3.0 x16/x0, x8/x8 modes
– Ryzen with Radeon Vega Graphics and 2nd Gen AMD Ryzen with Radeon Graphics support PCIe 3.0 x8 mode*
1 x PCIe 4.0/3.0 x16 slot (PCI_E5, supports x4 mode)
* PCI_E3 slot is only available for 2nd and 3rd Gen AMD Ryzen processors.
————PCI Express x1
2 x PCIe 4.0/3.0 x1 slots (PCIE_2,PCIE_4)*
* The PCIe x1 slots can not be used simultaneously. PCI_E2 will be unavailable when installing the PCIe card in PCI_E4 slot.
Also, I read what you said about how the cpu needs to have enough Pci lanes available, Does the Ryzen 9 3900x have enough to run 2 GPU’s at full x16 speed? Or will I have to go to the Highest available CPU allowed on the AM4 Socket type Motherboards (Ryzen 9 3950x)?
also would it be ok to run the two GPU’s on the the x16/8 slots and then a smaller cheaper dedicated graphics card to run the monitor/ OS on the PCIe 4.0/3.0 x4 slot? If so, Which cheaper one would you recommend?
Hey Rod,
There are no x570 Motherboard that will let you run two gpus at x16. Best you can do is 1x x16 and 1x x8. Though there is one Board with a PLX chip, the Asus WS, that lets you do 3x x8.
2x x8 isn’t bad at all, as the 2070 SUPER doesn’t even saturate the bandwidth of a pcie 3 x8 port.
All AM4 CPUs (also all Intel LGA 1151 CPUs) have only 16 pcie-lanes available in total for pcie-devices. That’s why the market is called mainstream. If you think you need more than that, you will have to go HEDT (High-End-Desktop market segment) which consists of Threadripper cpus and Intel-X-Series CPUs. Threadripper allows up to 64 in 2nd gen, and even 72 pcie lanes in 3rd gen.
Cheers,
Alex
got it. So in my above specs, I would be able to run both GPU’s x8 x8 that would leave the x4 (PCIE_5) slot open. Can I run a smaller cheaper dedicated graphics card to run the monitor/ OS on the this slot?
If so, Which cheaper one would you recommend? Basically I would want to free up both 2070 supers to be solely dedicated for rendering and not have to share to support my monitors / os.
Looking at the MSI MEG X570 ACE specs sheet this should be possible. Though since the 3rd gpu is not just for displaying but also for doing any necessary viewport calculations (because the monitors are attached to it) it shouldn’t be too weak.
Cheers,
Alex
I see. Thanks for your help !
Hi Alex. It was a very useful article we learnt a lot from it.
We’ve bought a miner rig as a base for our future 3D rendering machine. It contains 7x 1080Ti, 64Gb Mem, Corei7-7700K cpu on an ASUS B250H motherboard.
The video cards expanded by 1x PciE raisers. We tested this setup both octane and redshift.
In octane the render was pretty fast, but it could crash fairly easy. Actually there wasn’t too much times when it works without crashing.
In Redshift it works fine, but too slow. We rendered the same scene another machine (two 1080Ti in 16xPCiE) and we get the same amount of render time on that. We think the reason of the slowness is the 1x PciE raisers. What do you think, what should we do? Is it possible to upgrade this setup without any bigger modifications? If it isn’t, what is the solution for us?
Hey Akosh,
A 7700k CPU only has a maximum of 16 pcie lanes to the gpus available. This of course means you can technically only drive one x16 gpu with that cpu. Or 2 x8 gpus, or 4 x4 gpus or 8 x2 gpus. The less pcie lanes per gpu the lower the bandwidth to the cpu will be. Scenes that are so small and simple that they need no swapping of data between cpu <-> gpus will not take as bad a hit with lower bandwidth, but normal scenes that are a bit more complex will suffer gravely from a low pcie-bandwidth.
Maybe your octane scene is much simpler than your redshift scene.
In general I would not recommend gpu rendering with less than x8 pcielanes per gpu, as render-speed usually suffers greatly below that.
So there really is no way for you on a 7700k system to drive more than 2 GPUs at a good speed. You will need HEDT Threadripper or 2066 Intel CPUs for that (or xeon, epyc)
The riser cables which are x1, as you say, of course decrease the bandwidth even further.
Cheers,
Alex
Thank you for your reply.
So the solution for us if we swap the cpu and the motherboard. Am I right if i think it doesn’t just matter that the processor type has to be LGA 2066 but it has to handle at least 40-44 PCIe lanes in our case? Because we found a fairly cheap LGA 2066 type processor, but it can handle only 16 PCIe Lanes. I think it’s far less than our needs.
The processor what we would like to buy: https://ark.intel.com/content/www/us/en/ark/products/121499/intel-core-i7-7740x-x-series-processor-8m-cache-up-to-4-50-ghz.html
The processor type what we should buy: https://ark.intel.com/content/www/us/en/ark/products/189121/intel-core-i9-9820x-x-series-processor-16-5m-cache-up-to-4-20-ghz.html
What is your opinion?
Another thing is the motherboard but I think it’s a more simplier question. We found these motherboards:
For 5 GPUs:
https://www.asus.com/Motherboards/TUF-X299-MARK-1/specifications/
https://www.asus.com/Motherboards/ROG-STRIX-X299-E-GAMING/specifications/
For 7GPUs:
https://www.asus.com/us/Motherboards/WS-X299-SAGE/
What do you think about that?
Thanks, Akosh
Hey Akosh,
Yes you are exactly right. You need CPUs that support more pcielanes. Intel divides its x-series CPUs, so the cheaper ones have less lanes and the higher tier ones have more lanes.
The WS Sage Motherboard for 7 gpus has a PLX chip. This chip allows you to drive more gpus at high pcielane speeds than the cpu would totally have.
Beware though, that the pcie-slots are spaced very narrowly, so you could only plug in single-slot height gpus directly into the motherboard. You will need risers for 7 gpus. Or you can use 4 double-slot height gpus.
Threadripper too is a great platform for driving lots of gpus. All Threadripper cpus have 64 pcielanes for driving 4 gpus at x16.
Cheers,
Alex
Thank you for your help.
So, It doesn’t matter which type of processor (AMD/Intel) what I use with Nvidia cards for 3D rendering. Because as I saw, the Threadripper is way more cheaper than the 2066 intel CPU-s. However I couldn’t find any motherboard on the market for this type of processor which contains more than 5 PCIe slots. Have you any idea or advice for that?
Thanks,
Akosh
Hey Akosh,
The thing with mainstream consumer Motherboards is, that they usually only support 4 GPUs in normal configurations. Normal meaning when GPUs are double-slot-height, only 4 pcie-slots fit onto a motherboard in double-slot spacing.
If you want to have more GPUs, you either need single-slot height gpus that you can mount on motherboards with more pcie-slots spaced 1-height apart from each other, or you need riser cables and some kind of mining rig.
Of course there are lots of other possibilities in the server space, but they are expensive too.
If you want to go with more than 4 GPUs and use either riser cables OR single slot height gpus, you can go with the asus sage x299 motherboard which has 7 pcie-slots on intel lga 2066.
There currently unfortunately aren’t any Threadripper Motherboards that support more than 5 pcie-slots.
This might change with the upcoming Threadripper Gen though (being released this month)
Cheers,
Alex
Hey Alex,
Thank you for your advice. We’ve decided to buy a motherboard what can handle 7 GPU parallel. So we chose these components:
CPU: https://ark.intel.com/content/www/us/en/ark/products/189121/intel-core-i9-9820x-x-series-processor-16-5m-cache-up-to-4-20-ghz.html
As I see this CPU can handle only 44 PCIe lanes. As you mentioned the PLX chips designed especially this situation, so despite the “low” number of PCIe lanes it could be handle 7 GPU with multiplexing. As you wrote the total amount of PCIe bandwidth isn’t increased by a PCIe switch (PLX chip), because it “just” a time-division multiplexer. Is it sure enough to handle the 7 cards architecture?
We chosed a motherboard too (what you suggested in the article): https://www.asus.com/us/Motherboards/WS-X299-SAGE/
It cointains 2 PLX chip, but as I checked the X299 chipset specs, I read it can handle only 24 PCIe Lanes. Am I right when I think there are Lanes what comes from the CPU directly (i9-9820x – 44 Lanes), and there are lanes handled by the chipset (24 lanes)? And if it’s true, the GPU-s use the 44 Lanes from the CPU trough th PLX chips, and the slots run in x16 x8 x8 x8 x8 x8 x8 mode (of course we have to use 16x risers).
This motherboard can handle maximum 128GB Memory. As you’ve written, the best scenario when the memory size on the moterboard is two times bigger than the total amount of GPU memory (in our case it’s 77GBx2=144GB). What do you think about this?
Thanks,
Akosh
Hey Akosh,
Check the Diagramm in the Motherboard Manual on page 119 to see how the lanes are routed: https://dlcdnets.asus.com/pub/ASUS/mb/Socket2066/WS_X299_SAGE/Manual/E14511_WS_X299_SAGE_UM_V3_WEB.pdf
128gb of Memory will suffice for your 7 GPUs if you render 1 Frame at a time. You can try rendering multiple frames at once split to a certain amount of cards and check if the ram is sufficient.
The 9820x has 44 lanes and is compatible with that board and will work nicely.
Cheers,
Alex
Hi alex , i stumbled upon your website today , great content .
Ive been thinking about jumping to GPU rendering for quite some time, one thing that stops me from doing so is the possibility of a large scene not starting at all even after optimization. I tried to find examples of very large scenes rendered in Gpu, across a few different render engine forums and groups but to no avail (Archviz focused scenes).
I suppose i can still make use of Gpu rendering for faster interior images ( or any small medium scene)…
In that case what would u recommend :
-2 2070 super with the possibility of NVLink em for 15+- vram pool (given the render engine allows it)?
-A 2080 ti .
In both scenarios the monitors would be plugged to a 1070ti.
I use mostly Vray and Ive tried Fstorm and a little bit of Redshift ( the one with the most steep learning curve imo).
Cheers from Mexico.
Hey Evert,
Thanks for asking and thank you for the kind words!
For GPU rendering, having a dual 2070 Super setup is better than a single 2080 Ti. The RTX 2080 Ti may be a beast of a graphics card but GPU rendering in 3D software scales almost linearly with more GPUs. You basically add up the CUDA cores to get the speed so a dual 2070 Super configuration will beat the 2080 Ti for that matter.
https://www.cgdirector.com/octanebench-benchmark-results/
Because most modern gpu render engines have an out of core render capability, they can access the system RAM if their own VRAM is insufficient. I have been rendering very large scenes for a long time in redshift and have never had the problem that a scene wouldn’t start up because of the complexity.
Cheers,
Alex
Hell Alex, On Evert’s question regarding NVLink I believe there is no benefit to running the cards in NVLink mode for rendering but would appreciate your insight.
Hey Boxx Builder,
Cards that are set up for nvlink don’t render any faster per se but can share the VRam Pool between them which gives you pretty much double the VRAM for rendering a scene on them. This of course works only on two GPUs at a time and has to be supported by the drivers and especially the GPU render engine. VRAY has good support, but redshift and octane, last I tested, don’t have this support yet for example.
Although most gpu render engines have out of core rendering making them capable of accessing system RAM in case the scene gets too large, VRAM of course is muchf aster as it resides directly on the gpu and read/writing to from it is much faster than going all the way to the system RAM through pcie.
If your scene fits into the vram of each single gpu, then you will not see any benefit from nvlink. If the scene needs more vram than a single of your gpus has, then you will probably see a speedup in rendering, depending on how much scene info the render engine can then get from the double vram instead of the system ram.
What are your experiences?
Thanks!
Alex
Thank you so much for the clarification and apologies for not replying sooner! Fished the e-mail out of my junk mail and added your address to my book so I will get replies on the threads moving forward.