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? What is the best Hardware and best GPU for rendering with Octane, Redhsift3D or VRAY-RT, that is affordable?
Processor
Since GPU-Render Engines use the GPU to render, technically you should go for a max-core-clock CPU like the Intel i7 7700K that clocks at 4,2GHz (4,5Ghz Turbo) or the Intel i7 8700K that clocks at 3,7Ghz (4,7Ghz 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 i7 7700K/8700K has 16 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, the i9 7800X (28 PCIE-Lanes) or the i9 7900X 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 less 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 i7 8700K in 8x PCIE mode, 3x GPUs on an i9 7800X and 5x GPUs on an i9 7900X. (Given the Mainboard supports this configuration)
When actively rendering and your scene has been loaded into the GPU VRAM, it fits nicely in there and nothing has to be swapped out of core, GPU renderers are 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 renderer will need to access your System RAM or even swap to disk, which will considerably slow down the rendering.
Best Graphics Card for Rendering
To use Octane and Redshift you will need a GPU that has CUDA-Cores, meaning you will need a NVIDIA GPU. VRAY-RT additionally supports openCL meaning you could use an AMD card here.
The best bang-for-the-buck NVIDIA cards are 1070 GTX (1920 Cuda Cores, 8GB VRAM), 1080 GTX (2560 Cuda Cores, 8GB VRAM) and the 1080 Ti (3584 Cuda Cores, 11GB VRAM).
On the high-end, the currently highest possible performance is offered by the NVIDIA Quadro P6000, that also comes with 24GB of Video RAM. This Card though has horrible Performance per Dollar (Check the tables further down).
NVIDIAs new Volta architecture, that is being released for consumers soon, will top this performance even more. Note though, that the Render Engines you are using will have to be updated in Order to use the New CUDA 9 Architecture these Volta Cards run on.
GPUs, that have 12GB 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 Custom Partner Card Cooling
Custom Partner Cooling
- PRO: Quieter than Blower Style, Cheaper
- CON: Worse Cooling when stacking cards
Hybrid Cooling
- 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
- CON: Needs lots of extra room in the case for tank and radiators, More Expensive
Power Supply
Be sure to get a strong enough Power supply for your system. Most Cards have a TDP of around 180-250W. CPU of around 100W and any additional Hardware in your case.
I Recommend a 500W for a One-GPU-Build. Add 250W for every additional GPU. Good PSU manufacturers to look out for are beQuiet, Seasonic and Coolermaster (among others)
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:
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 Lanes 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 PCIELanes. 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):
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 bandwith 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!
This List is based off of OctaneBench 3.
(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 |
|---|---|---|---|---|
| GTX 1070 | 8 | 120 | 400 | 0,300 |
| GTX 1070 TI | 8 | 130 | 450 | 0,288 |
| GTX 1060 | 8 | 84 | 300 | 0,280 |
| GTX 1080 TI | 11 | 186 | 700 | 0,265 |
| GTX 1080 | 8 | 137 | 550 | 0,249 |
| TITAN XP | 12 | 191 | 1300 | 0,146 |
| GTX TITAN Z | 12 | 144 | 2999 | 0,048 |
| Quadro P6000 | 24 | 176 | 3849 | 0,045 |
| Quadro GP100 | 16 | 232 | 7000 | 0,033 |
| Tesla P100 | 16 | 230 | 7500 | 0,032 |
Source: OctaneBench
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 |
|---|---|---|---|---|
| GTX 1070 | 8 | 17.11 | 400 | 1,461 |
| GTX 1080 TI | 11 | 11.44 | 700 | 1,248 |
| 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 |
| 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 |
Source: Redshift Forum
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 |
| 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 3x 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 basically just managing decisions.
The solution is the following: When final rendering image sequences, use as few GPUs as possible per task. If you have to render 4 images and have 4 GPUs, let every GPU render one image instead of having 4 GPUs render on every image. This way you will not encounter any slow-down. 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.
What Hardware configurations are you eyeballing with, or have already been able to test? Share your thoughts in the comments!
Hi, Aelx
Can i use 4 GPUs (my preference 1070) with 7700k? for octane.
If can, then which Motherboard to choose.
Thanks
Hey swaroop,
You can, but those 4 cards will only run at 4x pcie speeds, meaning quite a decrease in speed. Although there is almost now drawback in 16x vs 8x pcie, there unfortunately is when running the cards at 4x pcie speeds.
For 4 gpus I recommend getting a i7 6850k that has 40 lanes and you will be able to rund 3x 8 pcie and one in pcie x16.
Also consider getting the 1080 since they have dropped in price quite a bit recently. You could get 3x 1080 in 8x pcie and get a 6800k that has 28 pcie lanes.
At current prices 4x 1070 = ~1600$ and 3x 1080 =~1500$. Both combinations will have roughly the same rendering speed.
Cheers,
Alex
Hi, Aelx
Good Post!
A question if I want to have 4 gtx1080 in a corei7 6800k that would have lost for rendering with octane? Is insignificant? or it would be worth buying 6850k to be able to have the 4 gtx.
And what kind of cooling you recommend for these 4x gtx1080, thank you very much for your time!
Cheers,
Andres
Hey Andres,
Technically you would have 3 1080 at 8x pcie speed and one at 4x pcie speed. Meaning that last card will have some speed drawbacks. That said though, adding cards does not scale the rendering performance linearly, so the last card usually will not give you an added 100% speed but less.
With more GPUs there is also a higher strain on the CPU for managing these, so I would recommend getting the 6850K that has a higher clock-speed.
As for cooling, depending on your budget, you should look at either blower style cards (that stay cooler when stacked), hybrid cards (youll need lots of room in your case for mounting the radiators) or watercooling if you are up to it.
What is your take on noise? 4x Founder Edition Blower style cards will be quite noisy, hybrids a bit better, and the water cooling will be the quietest.
Let me know what you think.
Cheers
Hi Alex,
Thank you for your posts, they are very helpful. Two questions:
1. Regarding the i7-7700K. If I use 1TB Samsung 960 EVO M.2 NVMe PCIe in my build. Would this affect the PCI lanes for the GPU? Or would the GPU still run x16?
2. If I want to run 4 GTX 1080ti at full speeds (x16), would i have to move to the Xenon processors? What mobo should I use?
Thanks Again.
Frank
Hi Frank,
1. There are extra Lanes for the PCH (Platform Controller Hub) that manages all the additional Hardware such as M.2, Sata, USB and so on. This means you can use the 16 Full PCIE Lanes for your GPU(s) and still have extra lanes depending on the mainboard chipset to have M.2 at full speed running (usually x4)
2. You wont be able to run 4 x16 GPUs on a LGA 1151 Board with a i7 7700k CPU, that would require 64 PCIE Lanes. You can run them at x4 Speed, but this would reduce the speed somewhat and yes you should then switch to a 2011-3 x99 Board with a CPU that supports up to 40 PCIE Lanes.
My son has been looking for a new graphics card and I wanted to look up some information about them. That is great news that they have matured quite a fit over the last couple of years. That means my son could probably find exactly what he wants for his computer easier. Thank you for all the information! I will be sure to show my son.
Glad to help!
Hi Alex. Your blog posts have really helped me understand pc builds for working in Cinema 4D. I’m trying to do a build with the i7 7700k and 4x1080ti cards on PCPartpicker. I can’t seem to find information on a motherboard that would support this configuration. Any advice? Thank you in advance!
Hey Polystorm,
If your plan is to GPU render with these 4 1080tis, then you will want to look into getting a different cpu. The i7 7700k supports only 16 PCIE Lanes, meaning your 4x 1080TIs will run in 4x mode. That said though, it seems Intel does not offer support for 4x 4 Cards as you can see on this page in the section PCIE Configuration:
https://ark.intel.com/de/products/97129/Intel-Core-i7-7700K-Processor-8M-Cache-up-to-4_50-GHz
I recommend going the Skylake-X route that offer 28 PCIE Lanes on 7800X and even 44 PCIE Lanes on 7900X Series CPUs.
Cheers
Thanks for the quick response! Interesting. I selected the 7700k on your recommendation for faster viewport speed. If I got the 7900x would overclocking solve that? Also, would the motherboards you recommended allow for 4 gpus?
It is interesting indeed! Unfortunately there is no CPU that satisfies all needs. You will have to make a tradeoff in some apsects. You will have to think about what is most important for you.
The tradeoff in a 8700K (or 7700K) Cpu vs a 7900X in terms of viewport performance is marginally. Considering you are thinking about getting 4 1080TIs that alone cost around 2500+$ I would look into making them run the best they can, even if you loose those 5% in Viewport Speed in heavy scenes, that you might only have rarely.
I don’t think I recommend a Skylake-X mainboard anywhere but it will have to be something like the MSI X299 GAMING PRO CARBON, which has 4x PCIE x16 support.
And you could of course overclock your CPU, but you’ll have to look into decent cooling and good RAM. Then of course you could also overclock a 8700K and get even more single core speed there. 😀
Cheers
Okay thanks again. Time to remortgage!
Hi sir.. im planning to have my first ever cpu.. im planning to have a i7 7700k processor and a gtx 1070 8gb gpu.. and a 16gb ram.. can i have a fast rendering time for vray 3.0 sketchup 2017? Or a ryzen 5 1600 processor due to its 6 cores and 12 thread.. im a bit confuse.
Due to tight budget.. i really need your help for this..
Thank you sir!
Hey Kurt,
Check out this Post for CPU Rendering Speed: https://www.cgdirector.com/best-cpu-for-rendering/
Ryzen 5 1600 has great performance / dollar. The 7700K has very high single Core Speed, though its not as fast for multicore-rendering. If you are on a tight budget, taking the Ryzen route is a good choice. The Problem with the 7700K is, that you cannot upgrade this Socket to a better processor, since the next generation (the 8700K) already needs a new Mainboard and slightly different Socket.
1070 is a great budget choice of GPU.
7700K is the way to go with Sketchup, because it just uses a single core.
Hi Alex
First of all, great post, congrats!
My concern is about GPU’s, i want to build a rendering workstation for 3ds max + Vray 3.6 and in terms of graphic cards i’m planning to use a gtx 1070 for viewport and a gtx 1080 ti for render and add 1 or 2 more gtx 1080 ti in the future.
My doubt is, it is possible to have different cards in the same build? i’m asking this, because all the people that i see building this kind of machines with multiple gpu’s, uses the same cards.
Thank you in advance.
Hey Tiago,
Yes, this is possible. You could just use your 1080Tis for rendering by deselcting the 1070 in the render options. As far as I know octane, redshift and vray have this option.
Or you could have the 1070 render too, but will be limited by the lesser amount of VRAM on this card, also your viewport will get sluggish, if you decide to continue working while rendering.
The 1080Tis will run in headless mode (no monitor connected) meaning they will also have more VRAM free to use for the GPU Render engine.
Hi Alex, first off – thank you so much for all this useful knowledge on this site, learning a lot about how I should go about building my first PC for Octane for Cinema 4D and some Aftereffects motion design.
I am torn between the i7 7700K and the 8700K, I’m planning to buy one GTX 1080Ti and add another one in the near future. If I was to go up to 2, and maybe even 3 or 4 1080Ti’s in the future, which MoBo should I consider?
Hey Jay,
There is no LGA 1151 (v2) Mainboard out there (i7 7700k or 8700k) that would support 4 1080 Tis at full speed (x16) since the CPUs are limited to 16 PCIe Lanes for GPUs. If you want something a bit more future proof in terms of extending it with multiple GPUs you will have to go in a 2066 Socket (and Mobo) Direction with the new Intel i9 type CPUs (that have 44 PCIe Lanes) or in a AMD Threadripper Direction (64 PCIE Lanes)
Alex,
Great info! Question: Have you noted the impact of overclocking (GPU and/or CPU) with respect to the results in your charts? When comparing my configuration results in VRAY Bench to the ones listed on the website, I score in the middle of similarly-configured systems. If I run everything at stock speeds, I’m out in left field. I’d be interested in your take on this, if any.
Druid,
Vray Bench unfortunately does not record the Clock speed of the Hardware. I would suspect that, since there are so many different AIB Companies that all tune their cards a bit differently, and also custom overclocking, this most probably will be the reason for the differences in render time.
Also, I am not sure if the VRAY GPU Bench is the best bench to rely on, since the 1080 performs worse than the 1070 here on average.
What card are you testing and on what system?
Cheers!
Alex,
My system is not typical because I’ve done so much enhancement over the few years I’ve had it. And while it’s several generations older now, it still makes a good workstation for the small projects I do in 3DS Max.
It’s an intel i7-4960X based system on an Asus RIVE Black Edition MoBo. 64Gigs of 2800 DDR3 Memory. Processor overclock at 4.6Ghz (under water) as well as other things overclocked on the MoBo. The graphics cards are: 1-NVIDIA GeForce GTX 1080 Ti, and 2-NVIDIA GeForce GTX 1080’s running x16 / x8 / x8 on the bus. My best score on VRAY Bench is 2:28 CPU and 0:26 GPU. I want to add another 1080 Ti but I need to find a PCIe x8 riser/splitter (1 to 2 or more). MSI’s 1080 Ti card is very fat and makes it so you can’t put another card next to it on my specific MoBo. I’m not going to water-cool these things as I don’t run them that hard. I know it might be difficult, but I’d like to see a chart showing the speed differences in VRAY GPU Bench with 1 card running in a x16, x8, x4 and x1 slot compared. I really like the “Bang for the buck” approach your article features. Again, this is very good info you don’t see everywhere.
Hi Alex,
I’m upgrading my workspace by building up a new render station for Redshift and Octane. My issue is that im torn between wither going the Ryzen route or the new 79xx route. The reason being, I want to run either 3 1o8oti’s or 4 1080s at the best speed possible.
Looking at the require PCIe lanes available, i need your advice or what could potentially work best and still be future proof. I know i will get more PCIe lanes on ryzen i just havent jumped on it before.
Could you recommend some ideal compatible parts for a build for redshift, specifically on the CPU and MOBO side. Im building inside a Corsair Obsidian 900D.
Hi Alex, I was curious if you had seen any testing in regards to the new Titan V with redshift?
Cheers,
Hey Jeremy,
Unfortunately not yet. I am looking forward to these too! Though considering the price and the orientation towards Machine learning I expect the performace / price ratio to be much worse than the 1080ti or a following 1180ti (or what it will be named).
Cheers!
Hi Alex
I recently built a 1950X machine for multiple purposes (VRay RT, AE, Premiere Pro, Audio):
1950X
1080Ti & 1080
64 GGB DDR4
The problem is that I found out now that the 1950X has some problems with the navigation in After Effects (and it has problems with an audio tool I often use). I really want to switch to a 8700K. The only thing that held me back was the thought of not being able to render at the same speed in 3D. But after reading your post, the 8700K would be the better solution for GPU renders anyways (since I’m mainly using VRay RT), am I getting this right?
What’s your recommendation? Should I stick with the 1950X? I don’t think Adobe is going to enable Multicore on AE again soon… oh and I plan to use 3 1080Ti sometime in the future.
Thank You!
Hey Silas,
This is in fact one of the big questions in the 3D Hardware world. Get a high-clocked / low core count CPU to work fast (Good for working in c4d and ae), but CPU render slow, or get a high core count / lower clock speed CPU that usually has more pcie-lanes for more GPUs, that you might work slower on, but you can render fast on the CPU can build in more GPUs, though the many GPUs actually need a higher clock speed.
In a perfect world you would have a 16 Core CPU with 4,5 GHZ on all cores, that supports 64 PCIE Lanes. Since this unfortunately is no option you have to either buy two specialized pcs (one for working and one for rendering) or think about what you will be doing the most of, what time is most valuable to you (working or rendering?).
That said, yes you would be able to run your 2 GPUs on a 8700K on both 8x mode. You do have to check your Mainboard specifications though, because many Mainboards will steal PCIE Lanes for e.g. M.2 Slots or SATA Slots.
I myself have a high-clock cpu (i7 7700K) for working and am using render farms for when the projects get too big to render locally, but am thinking about getting a Threadripper for local CPU Rendering.
In terms of AE Rendering after Adobe pretty much broke the Multi-Frame Rendering: A Tip is to use a render manager such as Thinkbox Deadline, that is free for up to 2 PCs. You can set it up in a way, that your pc renders multiple concurrent tasks and so utilizes all of your cores on the Threadripper. (This only works though when rendering Image sequences, not for Film/Video-Rendering)
As for your future Plans 3x 1080TI: The 8700K only has 16 PCIE-Lanes, so no luck there. You will need a i9 or Threadripper to fully utilize the GPUs.
Cheers!
Hi Alex,
I am looking for a workstation configuration for redshift and octane in combination with C4d. I am planning to go with 4 gtx1080ti’s or free with any other good option. Could you please guide me with the configuration of cpu and motherboard and Gpu’s also.
Thanks in advance
Adam.
Hey Adam,
Look into Blower Style GPUs such as the Asus 1080 TI Turbo. These blow out heat at the back and not on to other cards. If you can swing, get watercooling or hybrid watercooling solutions. CPU either a Threadripper or a 2066 socket type intel CPU with maximum PCIE-Lanes would be best. There is one Asus Sage WS X299 Board that has PLX chips for additional PCIE-Lanes on it. You could use four x16 cards on this one. Lots of other boards have enough pcie Sockets and Lanes for four 8x GPUs. As stated in the article, check the specification info on the manufacturers Website and it’s best to look into the manual too, to be sure!
Cheers!
Hey Alex,
Thank you for the nice article.
As an architect I will use my computer for complex modeling plus rendering and I guess that needs a processor with max of cores (the more the better).
The problem is the more cores the less core-clock CPU.
What do you think and suggest dear Alex?
Best regards,
Zied
Hey Ziee,
You are absolutely right. The more Cores in a CPU the lower it usually clocks. For modeling I would recommend a high clocking (lower core-count) CPU such as the i7 8700K, but for fast rendering you will need as many cores as possible, such as a Threadripper 1950X. This truly is THE question that we all have to think about. What is more valuable for us. The time we actively work or the time it takes to render. Usually it is the time you work on stuff. Then again, its not like you work twice as slow with a Threadripper 1900X vs a i7 8700K. Its marginally snappier, you might notice differences in a range of 5 – 10%. Tough decision, I know! Get two! 🙂
Cheers!
Hello Alex,
Thank you very much for sharing your knowledge. Very usefull.
I would like to ask you one thing, because I’m going crazy and I’m desperate with my computer problems.
I’m recently using a new computer (I bought from a company specialized in 3d work), with x4 1080ti – Windows 10 – Intel Xeon E5-1650… . I’m using Cinema 4d and Octane and some weeks ago I’ve been experimenting a lot of blue screens, screen freezes, render crashes,etc.. I can’t render a scene by night because always crashes.
I’ve noticed in Octane forums that a lot of people have the same problems, but nobody have a strong solution. I’m trying a lot of drivers versions, and the last method I read was to change the TDR values of the registry, changing 8s by 60s… like this manual: https://support.allegorithmic.com/documentation/display/SPDOC/GPU+drivers+crash+with+long+computations
After changing the TDR values my render don’t show “render crash” but it’s worse, because it stays frozen with no feedback…
So my problems persists, and I’m really desperated…
1. I don’t know if it’s a hardware problem, and Octane poblem or Windows problem…what do you think?
2. Do you recommend me to use Windows 7?? I think it’s my last option…
Thank you very much,
Hi Alex,
I’m so grateful for all your help,
Unfortunately i couldn’t find any good mobo which takes 4 gpu’s as x16 in the country i’m living in at moment,
also couldn’t find EVGA 1080ti hybrid,
decided to go with x2 1080ti gpu’s on asus prime x299 delux, with i7-7820x
there are so many 1080ti versions [not hybrid] , do you recommend any alternative than evga hybrid ?
appreciate your time and effort
also why to go for x299, and not z370 ?
Really great article, it’s helped me a lot to start to understand whats what. I’m switching from mac to PC so I need all the help I can get!
Some of the replies here are a little bit old now so I was wondering if there have been any developments in terms of the best CPU to run 4 GPUs? Looking into it it seems like the i9-7900X is a good option and the i7-6850K is maybe even better whilst being cheaper. Is there anything else to consider between these 2 CPUs or another one that you think is currently better suited to the task?
Hi Howie,
The Computex is currently going on and Intel will release some new HEDT CPUs by the end of the year. These though will be quite expensive, so I would say the i9 and Threadrippers are still the best choice for high PCIE-Lane CPUs
cheers
Alex
Thanks for the reply Alex. So if this machine is purely for GPU rendering and C4D, would you say the i9 is better than the i7 6850k?
Enjoying all of your wonderful articles and extremely handy price/performance charts.
Looking for best of both cpu/gpu worlds with high processor speed of the 8700k along with a couple 1080tis running at 8x pcie. I do mostly motion graphics using Cinema 4d and After Effects and have started using Octane as my primary 3d renderer. Does that sounds like the perfect setup? Any other pointers if so/if not would be hugely appreciated. I guess I9 7900x could be better more cores, still 4.5 ghz turbo, and allow for more gpus.
Thank you!!