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?
Alex,
First of all, great article. Kudos.
I am building my first render farm and will be using many of your suggestions. I have built multiple rigs for modeling and rendering but never a rig with multiple GPUs. I will be using (4) 2080Ti and my question is on the install. Do i need to bridge them using an 4-slot NVLink or not?
Thanks in advance.
Hey Jason,
Nope, most render engines don’t use any of the nvlink features (octane, redshift, vray …) so you jsut have to plug them into the pcieslot, add power and thats it! what render engine are you using?
Cheers,
Alex
I have an Nvidia promo code for 500$ off an RTX Titan.. I would be upgrading from a 1080ti and I am using vray. With optix 7 coming out (Ability for vray to take and use the RT cores, would this be a feasible upgrade?
Hey Spencer,
I haven’t seen any RTX Benchmarks using RT Cores for VRAY yet, but I am hearing some great things about that. In Redshift and Octane for example the speed-up should be quite significant.
The RTX Titan of course isn’t all that cheap and I would only recommend it when you need the 24GB of VRAM. If not, I’d go with a 2080Ti, which has better price/performance than the Titan RTX, even with 500$ off.
Cheers,
Alex
Hey Alex, great article!
I have a question. I have RTX 2080 TI and a GTX Titan X, Maxwell architecture gpus. Do you think its a good idea to pair them in the same system, and will it make a difference for the better or the worse?
Thanks a mill,
Darko
Hey Darko,
The best possible way to use multiple GPUs that are not exactly the same is to render individual frames on each of them instead of rendering one frame across all of them. You can do some tests and see what is faster.
That said, the amount of VRAM is very similar, so it shouldn’t give you any trouble when using both at the same time.
Cheers,
Alex
Hi Alex,
I have been going through your reviews and must say: Amazing work! Thanks a lot.
What I wonder is: Why do you not report on Dual CPU motherboards/setups? Or any Setups that handle more than 8 GPUs? Is there anything that makes those options irrelevant for you?
I was looking to find a single machine setup that works with the Amfeltec rigs:
http://amfeltec.com/products/multi-gpu-cluster/
Use 4 of them (getting 16 external GPUs) and maybe even combine them with more internal cards…
Any thoughts on this kind of setup?
Thanks
Sascha
Hey Sascha,
This has been asked a lot. The thing is, although you could physically attach a lot more GPUs to your Motherboard (as is also the case with mining rigs) they are limited by the number of PCIE Slots that are directly attached to the CPU(s). Yes you can have a Quad CPU board that gives you 128 pcie-lanes, but they will most likely only have a max of 8 pcie-slots (server grade boards). If you add more of those external rigs, many of the gpus will share the bandwith.
The other reason is preparation time. Having a lot of GPUs render a single frame is only efficient if that frame will render for hours and hours. As soon as you render img sequences where each individual Frame doesnt take too long, you will lose time because the gpus are sitting idly on each frame until the preparation time finishes which is cpu-clock bound. So with a frame that takes a minute on an 8-gpu rig, you might have a 20second preparation time where meshes and the like are being generated and uploaded to the gpu(s). Here you lose a lot of time, because all of the gpus are waiting to be able to start with the bucket rendering phase. If you had 8 pcs with 1 gpu each, this would be much more efficient (render-time-wise) as the preparation time is done 8 times as fast (in parallel)
Long story short it is much more efficient to have multiple pcs with say, 4 gpus, that can then all render on img sequences individually.
Cheers,
Alex
Hi Alex,
thanks for the super quick answer! I hope you allow me one more set of in-depth questions:
I have 5 old Tower Macs 3.1 – 5.1. Each one has an external GPU rig with 3 GPUs and one internal GPU. So its 4 GPUs per Machine.
I will use them as „render-nodes“.
Now I need one new PC that is configured to work as my super fast creative workstation. Doing Modeling, Animation and look development and then handover to the render nodes to do the final sequences.
Now my questions are:
Network Connection:
Is the ethernet connection between the workstations and render nodes a bottleneck? Should I upgrade from 1Gbit to 10Gbit?
For the new PC:
– I would love to have up to 8 „internal“ GPUs (or 4 if you say that 8 are really a bad choice) on the motherboard to avoid any errors that mostly accure using external GPU rigs. I want those in one machine and not spread them over more new PC machines as I don’t want to spend more on licenses, which are getting very expansive if you always have to buy 6 for each software and each plugin instead of only 1 for one „supercomputer“. Which motherboard setup would you recommend?
– As I am not only using GPUs (Redshift and Octane) for look development I kind of need a big number of CPU Cores (for C4D Standard Renderer) aswell. As they speed up the image generation iteration process in look development. So what would be the best Clock/Corenumber balanced top range CPU to use with an 8 GPU motherboard.
– I just read about Redshift: “*Each instance of Redshift can currently use up to 8 GPUs concurrently. To take advantage of more than 8 GPUs on a single machine, you can launch multiple instances of Redshift each rendering a different job on a different subset of available GPUs.“. Does that solve the „GPU-idle-time-while scene preparation“ problem for “8+ GPU in one machine”-setups? Or will this not help at a all? Or does the PCIe Channel bandwidth problem kicks in here and again renders the 8+ GPU advantage obsolete?
Thank you so much!
Reagrds
Sascha
Hey Sascha,
Yes you can get around this preparation time limitation also by using a render manager such as thinkbox deadline. With such you can start more than one instance and can split your frames onto different gpus. Of course this will increase strain on the cpu and ram usage, as a single machine now has to handle rendering of 4+ scenes at the same time. I currently have two such instances on 4GPU machines set up which is pretty much the sweet spot, so 2 gpus per frame and 2 instances.
The 1Gbit LAN is very rarely the bottleneck, as the scene is usually just copied once to the render node, and the to be saved output images really aren’t that big. This changes if you had 30+ render nodes that all pull from a singloe 1 gbit machine. But with 5, you should have no problems. Sure with 10Gbit you might save a few seconds but I think the investment isn’t worth it at that renderfarm size.
I have Threadripper towers as render nodes, with 2950X and the Gigabyte Designare ex x399 motherboard. Here you can add 4 (double-height) GPUs without a problem. Bew sure to get blower-style gpus and not open-air cooled gpus.
Cheers,
Alex
So in terms of RAM requirements, if I am running 4 x GTX 1080 Ti’s each with 11GB of VRAM I will need at 128GB of system RAM as the combined VRAM is 44GB and you recommend doubling this.
Is that correct?
Hey Jamie,
That is correct. Optimally you have 2x the combined amount of VRAM as RAM. So you would optimally have 88GB+ of RAM. You can of course get away with less, sometimes even 32GB on a 4x GPU System, but it depends heavily on the type of Scenes and their complexity, if that amount of RAM will be enough. Better to be on the safe side, as RAM is currently quite cheap too.
Cheers,
Alex
Working with 64gb at this point and just about to add the final GPU so I will run that for a while and monitor performance closely.
Thanks Alex
hi there,and thank you for sharing your knowledge…i need some help in hardware configuration…im a 3d artist and using these softwares in a daily basis, 3ds max ,sketchup pro autocad designer and Lumion pro 9 and vray and corona render. i have built my pc more than 3 years ago and now i received my new gpu from Nvidia (RTX 2070 Super FE) i want to use it alongside of my old ASUS ROG Matrix GTX 980 Ti 6GB
but here is the question how can i use it for gpu rendering with just a single monitor and how to install it in motherboard PCIE slots with my limited cpu PCIE lanes?
Here is my PC Specs :
Windows 10 pro version 1903 OS Build 18363.239
Motherboard : Asus X99 Deluxe 3.1 Bios 3802
CPU: i7-5820k overclocked to 4.00 Ghz. just 28 lanes
RAM :32 Gb Corsair Veangeance 3200 MHz
GPU : GTX 970 + uninstalled (RTX 2070 super FE)
Case Green X3+ Viper advaned super mid tower
Cpu cololer: Green Glacier GLC-240-A 240mm water cooling (im afaird may have never heard about that) !!!
PSU ; 1200 +80 Green GP1200B-OCDG
SSD: 500 Gb samsung 860 pro
HDD : WD 2TB +Seagate Barracuda 2TB
Monitor: Dell Quad HD 2K U2715H I
This should be fairly easy to answer.
Install the RTX 2070 in the first (TOP) PCIE slot and connect your monitor to this card. Install the GTX 970 in the third PCIE slot. make sure both cards are properly powered by your PSU.
The 2070 will run at x16 and the 970 will run at x8 which in this config will be fine. Octane/Redshift will automatically recognize both cards and allocate workloads across them.
The only thing to be aware of here is that your available VRAM will only be 6GB as you will be bottle-necked by the card with the lowest VRAM.
Thanks, couldn’t have said it better!
Hi,Alex
i plan to collect computer for mostly Redshift and Houdini bind
what you think about this my configuration
POWER Enermax Platimax 1700 Watt, ATX, PFC 14x SATA, 6x 10x PCIe 8
MOTHERBOARD GIGABYTE X399 DESIGNARE EX
CPU AMD Ryzen Threadripper 1920X
cooler Alpenföhn Matterhorn Threadripper
GPU 1 ZOTAC GeForce RTX 2070 Super Twin Fan
GPU 2 ZOTAC GeForce RTX 2070 Super Twin Fan
GPU 3 ZOTAC GeForce RTX 2070 Super Twin Fan
GPU 4 ZOTAC GeForce RTX 2070 Super Twin Fan
RAM Kingston HyperX Fury black 64GB DDR4 K4
Hey Andrej,
Looking good already. One thing you should note though is this: When stacking GPUs you should use blower style gpus such as the ASUS Turbo series or MSI AERO. The reason is that those coolers blow the air out the back of your case and in doing so cool much better when the GPUs are right on top of each other. With open air fans as in the Zotac Twin, the Air just gets blown onto the next Card making them much hotter.
Cheers,
Alex
Hi,
Another question!
I have one of these https://amfeltec.com/products/multi-gpu-cluster/ with 2 x 1080ti, can this be used on the GPU max part picker, so 3 x 2080ti and the 4th slot would have the amfeltec card – so total of 5 GPUs.
Hope that makes sense!
Thanks
Hey James,
That should work, yes. Beware though, that the Cluster (with 3 or 4 gpus) will plug into your pc on only one pcie slot, meaning the bandwidth from the system and cpu to the external gpus, will be heavily limited. This might not make a big impact on small scenes that don’t need much out of core performance but can slow things down when rendering more complex frames.
Cheers,
Alex
Thanks for the info! I will use the Amfeltec machine as the 2nd machine background renderer.
Cheers!
James
Hi Guys, what case could be used for 4 x Gigabyte AORUS GeForce RTX 2080 Ti XTREME WATERFORCE 11G
The hybrid fans are double in size from last years 1080ti!
Thanks!
Hey James,
I am not sure this is even possible with mainstream cases. With double hybrid fans, I would guess the mounting of the cooling at some point is so far away, that the hoses become too short.
Let me know if you find a case that supports this, would be interested myself!
Cheers,
Alex
Hi Alex,
Thanks.
This could be the case but very $$$
Thermaltake Core W200 Super Tower XL ATX Case
What do you reckon?
Hey James,
Hard to tell from the spec sheet. The specs say it has a bunch of room for radiators even up to 600mm, or even 4x 240mm at the top, but I don’t think all of the GPUs hoses will be long enough for top mounting of the radiators. Maybe two top one bottom and one right though..
Alex
Thanks Alex!
I’ll have to try and test it, hope all 4 GPU card hoses will be long enough.
James
Hello Sir, After looking at your PC build post I build my PC in December 2018….
Spec
CPU AMD Ryzen 5 2600
RAM Corsair Vengeance 3000mhz 8GB
GPU Zotac GTX 1060 6gb Amp edition
POWER Corsair 650w SMPS
MOTHERBOARD Gigabyte Aorus B450 Elite
CASE Aorus Mid Tower
My question is…I have been using only Arnold and Redshift Renderes
But now I want to use Octane 3/4
How will it affect performance of my PC
should i increase RAM only say i have only 8gb….if i add 16gb 3000mhz
How processing time of Rendering will affect
and
Aorus b450 has 4 slots for ram expendable upto 64gb
I already have 8gb installed and If i add 16gb on another slot will it be fine, or another 8gb will do the work for me?
I have watched a video of “Andrey lebrov” on youtube…and he tells that Ocatne has some limitation that it cannot go beyond a certain VRAM …does increasing my PC RAM will affects Render time or not?
Please Help me in this regard
Thanks
Aakash
Hey Aakash,
You have to differentiate between VRAM and RAM. VRAM is on your GPU(s) and that is where your scene gets loaded into when rendering on the GPU, such as in redshift or octane.
If your Scene is too big for your VRAM it gets outsourced to your System RAM. This though will slow down the rendering, because VRAM access is much faster for the GPU than RAM access.
That said, you should still have a certain amount of RAM for every GB of VRAM you have, because there are things that are loaded into your RAM even if your Scene fits into your VRAM. Usually it is advised to get 2x the amount of RAM of the combined amount of VRAM you have. So in your case at least 12 GB of RAM.
The thing with Ryzen CPUs though is, they are very picky about RAM. Intel you can more or less just dump in any kind of RAM and timings or combinations of RAM and in most cases it will work just fine. With Ryzen though you have to take special care of RAM combinations and it is best to only put complete RAM kits in, and not combinations of 8GB single kit and 16gb dual kit and so on.
So what you can do is get 16gb of RAM (say 2x 8gb) and add that to your already existing RAM but you have to note that it might not work in combination. You will then have to take out your single 8gb stick and run with only the 16gb (2x 8gb) kit which will definitely work on its own.
I wouldn’t though expect a steep performance increase as RAM only is a performance factor if there is too little. If you have too little things start slowing down, but it does not matter if your have enough or 2x enough 🙂
The best improvement for octane and redshift of course would be to get a second gpu, which will boost your performance 100%. You will need more ram then too, maybe 32GB and a second 1060 GTX.
Cheers,
Alex
Thank you Sir, for replying so quick…..Your guidance has cleared my doubts