Radeon Pro W6800

AMD Radeon Pro W6800 Review

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Radeon Pro W6800 – This beast of a card is the first pro GPU from AMD with hardware-based ray tracing built in. With a whopping 32 GB of on board memory it’s designed for the most demanding arch viz workflows, writes Greg Corke

I t’s been a long time coming but AMD has finally delivered its first professional GPU with hardware ray tracing built in. And with 32 GB of VRAM, the AMD Radeon Pro W6800 is a beast of a graphics card.

Priced at $2,249, the Radeon Pro W6800 goes head-to-head with the 16 GB Nvidia RTX A4000 ($1,000) and 24 GB Nvidia RTX A5000 ($2,250), both of which also reviewed recently.

In terms of raw performance, the Radeon Pro W6800 sits somewhere between AMD’s ‘consumer’ Radeon RX 6800 and Radeon RX 6800 XT. But as a workstation-class card there are several key differences.

First, it will be certified for a wide range of pro applications, including all the major CAD and Building Information Modelling (BIM) tools. This can be especially significant for enterprise customers.

It can also support up to six displays, which can be important for powerwalls, and features Error Correcting Code (ECC) memory to protect against crashes. And instead of three axial fans that recirculate air inside the machine, it has a single ‘blower’, which draws in cool air from the top of the card and pushes it out the rear of the machine. This design can be particularly beneficial in multi-GPU workstations.

Perhaps most importantly, however, is that the Radeon Pro W6800 has a colossal 32 GB of on-board GDRR6 memory, double that of its consumer counterparts, and more than Nvidia’s pro GPUs at the same price point.


Monster memory

32 GB is a huge amount of memory for a GPU, surpassed only by the 48 GB Nvidia RTX A6000 which costs twice as much. It means the Radeon Pro W6800 can handle some seriously demanding visualisation datasets. This could be a huge multi-disciplinary city-scale model with immense detail or one with less geometry but hyper realistic assets such as 8K textures or detailed vegetation.

It’s a huge step up from its predecessor, the AMD Radeon Pro W5700, which only had 8 GB and highlights AMD’s ambitions for high-end design viz and real-time ray tracing.

The new GPU features enhanced Compute Units (CU) with dedicated ‘Ray Accelerators’. As this is AMD’s first pro GPU with hardware ray tracing, there aren’t currently a huge number of applications that can take advantage of its ‘Ray Accelerators’, but this is changing.

The list currently includes applications that support DirectX Raytracing (DXR), such as Unreal Engine. Also, any that feature Radeon ProRender 2.0, the latest version of AMD’s physicallybased rendering engine. This includes Solidworks Visualize, Acca Software, Autodesk Inventor, Rhino, Autodesk Maya, and Blender.

Looking to the future, it will also extend to any application that supports Vulkan Ray tracing, including those in development at Solidworks (Project Romulan), Autodesk (One Graphics System) and Enscape.

The Radeon Pro W6800 will not accelerate ray tracing in Nvidia RTXenabled applications such as Luxion KeyShot, Chaos V-ray, Chaos Vantage, Enscape 3.0 and others.

Of course, the Radeon Pro W6800 can also be used for many other applications that don’t rely on hardware ray tracing. This includes those that use the OpenGL or DirectX graphics APIs, including real-time design viz tools like Lumion or Twinmotion, Virtual Reality (VR) or photogrammetry software.

The GPU is very much focused on viz and is not optimised for FP64 (Double Precision) code, so applications like engineering simulation will likely to continue to be best served by the AMD Radeon Pro VII ($1,899).

Viewport boost

The Radeon Pro W6800 supports a new pro driver feature called Radeon Pro Viewport Boost, which is designed to reduce latency and boost viewport navigation performance.

It detects when a 3D model is moving quickly in the viewport then automatically drops the resolution in specific areas to reduce the number of pixels the GPU needs to process. Then, as soon as that movement stops, it restores the full pixel count. According to AMD, this can increase Frames Per Second (FPS) dramatically without impacting the visual experience.

AMD Radeon Pro Viewport Boost currently works with Revit, 3ds Max, Twinmotion and Unreal Engine (for packaged projects only, not currently Unreal Engine Editor). Support for other applications is coming soon.

We explore this in more detail here.

AMD Radeon Pro W6800 specs

The AMD Radeon Pro W6800 is the first workstation GPU to be based on AMD’s 7nm RDNA 2 architecture.

AMD states peak FP32 Throughput (Single Precision) as 17.83 Teraflops of Compute Performance. It is not optimised for FP64 (Double Precision).

With six Mini DisplayPort outputs it can drive up to six displays at 5K resolution or up to two displays at 8K resolution.

The board itself is full height, double slot, with a peak power of 250W. It requires a 6-pin and an 8-pin power connector and should fit most mid-sized tower chassis.

The AMD Radeon Pro W6800 is a PCIe 4.0 graphics card. While it is fully compatible with older PCIe 3.0 workstations, it’s designed to work best with PCIe 4.0 workstations. With double the bandwidth of PCIe 3.0, data can theoretically be fed into the GPU much quicker, although it won’t make a difference in all workflows.

Radeon Pro W6800
With a peak power of 250W, the W6800 requires a 6-pin and an 8-pin power connector

PCIe 4.0 compatible CPUs include 11th Generation Intel Core, Intel Xeon W-1300, AMD Ryzen 5000, AMD Ryzen Threadripper 3900X and Threadripper Pro 3900WX series.

The AMD Radeon Pro W6800 is also designed to work better with AMD CPUs with AMD Smart Access Memory. This essentially gives the CPU better access to the GPU’s onboard memory. AMD says it unlocks higher performance for ‘key professional workloads’ but did not elaborate further.

The Radeon Pro W6800 also includes 128 MB of AMD Infinity Cache, a ‘lastlevel’ data cache integrated on the GPU die designed to reduce latency and power consumption.

The Radeon Pro W6800 on test

We put the AMD Radeon Pro W6800 through a series of real-world application benchmarks, for GPU rendering, real-time visualisation and 3D CAD.

All tests were carried out using the AMD Ryzen 5000-based Scan 3XS GWPME A132R workstation (read our full review here). Resolution was set to 4K (3,840 x 2,160) and we used AMD’s enterprise 21.Q1 graphics driver.

The full spec can be seen below.

Scan 3XS GWP-ME A132R

  •     AMD Ryzen 5950X CPU (3.4GHz to 4.9GHz) (16 cores)
  •     64 GB (2 x 32 GB) Corsair Vengeance DDR4 3200MHz memory
  •     2 TB Samsung 980 Pro NVMe PCIe 4.0 SSD system drive
  •     4 TB Samsung 870 Evo SATA SSD storage drive
  •     Asus Pro WS X570-ACE motherboard
  •     Noctua NH-D15 air cooler
  •     750W Corsair RMX, 80PLUS Gold PSU
  •     1GbE NIC Networking
  •     3XS workstation case with tempered glass window
  •     Microsoft Windows 10 Professional 64-bit  

For comparison, we used AMD’s previous generation ‘RDNA’ workstation GPU, the AMD Radeon Pro W5700 (8 GB), plus Nvidia’s brand new ‘Ampere’ workstation GPUs, the Nvidia RTX A4000 (16 GB) and Nvidia RTX A5000 (24 GB), which we review here.

Unreal Engine 4.26

Over the past few years Unreal Engine has established itself as a very prominent tool for design viz, especially in architecture and automotive. It was one of the first applications to use GPU-accelerated real-time ray tracing, which it does through Microsoft DirectX Ray tracing (DXR). It means the AMD Radeon Pro W6800 is fully compatible.

For testing, we used two datasets, both freely available from Epic Games: an arch viz interior of a small apartment and the Automotive Configurator, which features an Audi A5 convertible. Both scenes were tested with ray tracing enabled (DirectX Ray tracing (DXR)) and without (DirectX 12 rasterisation).

The Radeon Pro W6800 did well with DirectX 12 rasterisation, showing a vast improvement over the Radeon Pro W5700, and sitting somewhere between the RTX A4000 and RTX A5000. With real-time ray tracing enabled, however, it fell notably behind both Nvidia GPUs. Without hardware ray tracing built-in, the Radeon Pro W5700 pretty much ground to a halt.

Radeon Pro W6800

AMD Ryzen_Unreal Engine

Lumion 11.5

Lumion is a real-time rendering tool popular with architects. The 11.5 release uses DirectX 12 rasterisation. It does not currently support hardware-based ray tracing.

The software can work with 8K textures and has a vast object library including trees with leaves that move in the wind, all of which can place huge demands on GPU processing and memory.

We tested the GPUs in two ways: one measuring real-time 3D performance in terms of Frame Per Second (FPS) and two, recording the time it takes to render an 8K scene.

Lumion supplied us with two datasets: a standard architectural house with surrounding vegetation, which will fit into 8 GB of GPU memory; and a colossal building model which needs 28 GB, more than the capacity of the Nvidia RTX A4000 (16 GB) and RTX A5000 (24 GB).

It came as no surprise that the AMD Radeon Pro W6800 came out top when testing the 28 GB model as it was the only GPU able to load the entire dataset into memory. The Nvidia RTX A4000 (16 GB) and RTX A5000 (24 GB) really struggled, especially in real-time 3D where it was very hard to navigate the scene.

With the smaller scene, however, the Nvidia RTX A5000 demonstrated a clear lead over the Radeon Pro W6800 and the RTX A4000 also stood up well, edging out the Radeon Pro W6800 when rendering.

Radeon Pro W6800

Radeon Pro W6800

Enscape 3.0

Enscape is a real-time viz and VR tool for architects that delivers very high-quality graphics in the viewport. The software has used elements of ray tracing for some time and version 3.0 is RTX-enabled, so hardware ray tracing is supported on Nvidia RTX GPUs. Later versions will use the more modern Vulkan API and support ray tracing on both Nvidia and AMD GPUs.

For our tests, we used a large scene of a building complex and its surrounding area in Enscape 3.0 (non RTX). At 9.5 GB, the GPU memory requirements of this model are relatively high, but Enscape models can be much larger.

In terms of performance, the Radeon Pro W6800 delivered a very smooth experience at 29 FPS, more than double that of the Radeon Pro W5700. It edged out the Nvidia RTX A4000 but was a bit behind the Nvidia RTX A5000.

Autodesk VRED Professional 2022

Autodesk VRED Professional is an automotive-focused 3D visualisation, virtual prototyping and VR tool. It uses OpenGL and delivers very high-quality visuals in the viewport. It offers several levels of real-time anti-aliasing (AA), which is important for automotive styling, as it smooths the edges of body panels. However, AA calculations use a lot of GPU resources, both in terms of processing and memory. We tested our automotive model with AA set to ‘off’ and ‘ultra-high’.

As we have seen previously with AMD GPUs, the AMD Radeon Pro W6800 did OK with anti-aliasing set to off, but was still significantly behind the RTX A5000. With antialiasing enabled, however, performance dropped considerably, with even the RTX A4000 taking a substantial lead.

Solidworks Visualize 2021 SP3

The name of this GPUaccelerated physically-based renderer is a bit misleading as it works with many more applications than the CAD application of the same name. It can import models from PTC Creo, Solid Edge, Catia and Inventor, as well as several neutral formats.

The software was initially programmed to work with Nvidia Iray and, more recently, Nvidia RTX. However, in the 2020 release, AMD Radeon ProRender was added, so users now have a choice of two rendering engines. Both support denoising, a post-processing technique that filters out noise from unfinished / noisy images and means you can get better looking renders with significantly fewer rendering passes.

We tested both AMD and Nvidia GPUs with Radeon ProRender using the PC model from the SPECapc for Solidworks 2021 benchmark. We rendered at 1,500 x 1,500 resolution with 1,000 passes (denoising disabled) and 100 passes (denoising enabled) with accurate quality. Both settings produced excellent visual results.

With denoising enabled, there was little between the Radeon Pro W6800, and Nvidia’s Ampere GPUs, but the RTX A5000 had a bigger lead with denoising disabled.

Solidworks 2021 SP3

While most CAD applications won’t benefit from any GPU more powerful that the Nvidia Quadro P2200 or AMD Radeon Pro W5500, Solidworks 2021 is an exception. By using OpenGL 4.5, a more modern version of the popular graphics API, more algorithms can be pushed onto the GPU so there is a benefit to higher performance cards.

Even so, the application is still CPU limited to some extent, so the performance benefit of more powerful GPUs isn’t as big as you’d expect from a dedicated real-time viz tool.

Like most CAD tools, the most popular way to view models in Solidworks is in shaded with edges mode. Using the SPECapc for SolidWorks 2021 benchmark we saw a small improvement over the Radeon Pro W5700, although the Radeon Pro W6800 was behind both Nvidia GPUs.

Solidworks also features more realistic display styles for viewing models in real time. Solidworks RealView, which is only supported by pro GPUs, adds realistic materials and supports environment reflections and floor shadows. Meanwhile, ambient occlusion adds more realistic shadows and helps bring out details.

Both viewing styles are more GPUintensive, so performance is less limited by the frequency of the CPU. In our tests, we saw a bigger benefit to the more powerful GPUs when RealView, shadows and ambient occlusion were enabled.

We were unable to test the Nvidia RTX A5000 as Solidworks 2021 Service Pack 3 did not recognise the card. We expect this to be fixed in SP4, out soon.

radeon pro W6800


We also tested with VRMark, a dedicated Virtual Reality benchmark that uses both DirectX 11 and DirectX 12. It’s biased towards 3D games, so not perfect for our needs, but should give a good indication of the performance one might expect in ‘game engine’ viz tools, although all datasets are different.

The Radeon Pro W6800 came out top in the ‘Cyan room’ test which measures DirectX 12 performance. AMD itself has highlighted how its ‘RDNA 2’ architecture performs well in DirectX 12 applications.

The verdict

The Radeon Pro W6800 stands out from the competition due to its substantial 32 GB of memory, surpassed only by the Nvidia RTX A6000 which costs twice as much. But you have to take design viz very seriously to need such a huge amount.

Architectural visualisation studio Beehive certainly does. It pushed the W6800 to its limits in Lumion, while working on ‘Aedas City’, a visualisation project that features six of the international architecture firm’s building designs.

And because the project could be held entirely within GPU memory, it managed to massively reduce render times for a 891 frame video – from 36 hours and 11 mins (with the 24 GB Nvidia Quadro RTX 6000 GPU) to 9 hours and 27 mins (with the Radeon Pro W6800).

There are big benefits for projects like this but this is an extreme example. Most design-centric visualisation workflows require significantly less GPU memory, although with ever increasing demands for realism and resolution, this will likely change in the future. There is also a strong workflow argument for more GPU memory, by not having to worry so much about optimising geometry or textures.

Arch viz studio Beehive pushed the W6800 to its limits in Lumion on ‘Aedas City’, a visualisation project that features six of the international architecture firm’s building designs. It uses 28 GB (yes, 28 GB) of GPU memory

For now, in more mainstream viz workflows, AMD faces very stiff competition from Nvidia. The 16 GB Nvidia RTX A4000, for example, generally offers a little less performance than the Radeon Pro W6800 but costs half as much. Meanwhile, the 24 GB Nvidia RTX A5000 offers parity on price, but has a clear performance lead in some workflows and better software compatibility. One can’t help but wonder if AMD has missed a trick by not pricing the Radeon Pro W6800 more aggressively to make it more competitive in workflows where large memory capacity is less important. Or perhaps there’s room for a Radeon Pro W6700?

Nvidia also appears to have a clear lead in DXR hardware ray tracing, although this is perhaps to be expected. AMD’s ray accelerators are ‘first generation’ and there is also scope for driver improvements.

AMD is innovating in other areas, however. The Radeon Pro Viewport Boost, for example, is an exciting feature that takes a smarter approach to how precious GPU resources are allocated. And this is certainly one to watch for the future.

We also wait with interest to see how the new 8 GB AMD Radeon Pro W6600 shapes up, which launched just as we went to press. At $649 it should hit the sweet spot for CAD users who also want a real-time 3D, ray tracing or VR capability. We will have a full review in the next edition of DEVELOP3D Magazine.

This article is part of DEVELOP3D’s 2021 workstation special report. To read the other articles and reviews in this report click on the links below.

Desktop workstation buyer’s guide
Greg Corke goes back to basics with some general advice for those looking to buy a workstation for product development workflows

Intel Core vs AMD Ryzen
We explore the best CPUs for design-centric workflows from CAD to reality modelling and rendering 

Scan 3XS GWP-ME A132R (AMD Ryzen 9 5000) review
This Ryzen 5000 beast from Scan excels in rendering and extreme multi-tasking

Workstation Specialists WS-184 (11th Gen Intel Core) Review
This 11th Gen Intel Core workstation is ideal for CAD centric workflows

CAD workstation round-up
The latest workstations for CAD-centric workflows

Best lightweight workstation laptops
Ultra-portable mobile workstations to take CAD and design visualisation on the road

AMD Radeon Pro Viewport Boost Review
Pro driver feature dramatically increases 3D performance by dynamically reducing viewport resolution

Nvidia RTX A4000/A5000 GPU’s Review
New pro ‘Ampere’ GPUs slice through real-time 3D, ray tracing and VR workflows

Autodesk graphics engine to ‘radically improve’ in Inventor
New One Graphics System (OGS) will boost viewport performance and add GPU ray tracing

Talking heads: Multicore for CAD
Is there scope for making CAD software more multithreaded, enabling it to use more cores, more efficiently – or does the sequential nature of many operations mean the hands of CAD software developers are tied? We asked the experts to find out more

Hybrid working: What does it mean for design firms?
With many firms re-evaluating office space and working from home policies, we asked Adam Jull of IMSCAD about the role that virtual workstations can play

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