Radeon Pro

Brand of AMD graphics cards intended for professional use

AMD Radeon Pro
Radeon Pro Logo
Design firmAdvanced Micro Devices
TypeProfessional workstations

Radeon Pro is AMD's brand of professional oriented GPUs. It replaced AMD's FirePro brand in 2016. Compared to the Radeon brand for mainstream consumer/gamer products, the Radeon Pro brand is intended for use in workstations and the running of computer-aided design (CAD), computer-generated imagery (CGI), digital content creation (DCC), high-performance computing/GPGPU applications, and the creation and running of virtual reality programs and games.[1]

The Radeon Pro product line directly competes with Nvidia, i.e. their Quadro (since discontinued) line of professional workstation cards.[2]

Products

Radeon PRO series

Radeon Pro Duo (2016)

The first card to be released under the Radeon Pro name was the dual GPU Radeon Pro Duo in April 2016. The card features 2 liquid cooled R9 Nano cores & was marketed strongly for both the running and creation of virtual reality content with the slogan "For Gamers Who Create and Creators Who Game".[3][4] The aesthetics and marketing of the Pro Duo follow that of the rest of the Fury products in the 300 series.

Radeon Pro Duo (2017)

In April 2017 AMD announced a new version of the Radeon Pro Duo for release the following month.[5] The newer version of the Pro Duo utilizes dual GPUs from the Polaris architecture, using the same GPUs as in the WX7100. While this results a smaller number of compute units and lower theoretical performance, it allows for the inclusion of 32GB GDDR5 SDRAM and a lower board power.

Radeon Pro SSG (Fiji)

Using AMD Radeon's GCN 3 architecture, the Radeon Pro SSG was unveiled in July 2016. SSG stands for Solid State Graphics, and the card will couple AMD's Fiji core with solid-state storage to increase the frame buffer for rendering. This expansion of quick access storage will, therefore, relieve the issue of latency that occurs when a GPU has to retrieve information from a mass storage device via the CPU when a card's limited VRAM is maxed out in heavy workloads.[6] Users will be able to add up to 1TB of PCIe M.2 NAND flash memory to improve render and scrubbing times.[7] AMD demonstrated a 5.3 fold increase in performance on 8K video scrubbing.[8] This SSD storage space can be made available to the operating system or controlled entirely by the GPU.[9] The Fiji-based Radeon Pro SSG card was available as a beta program.[10][11]

Radeon Pro SSG (Vega)

In July 2017, AMD released the Vega-based Radeon Pro SSG.[12] The card utilizes 16GB of second generation ECC high bandwidth memory (HBM2), an upgrade from the Fiji-based card's 4GB of first generation HBM memory. The Vega card also increased the built in solid-state storage to 2TB.

Radeon Vega Frontier Edition

AMD announced in May 2017 the Radeon Vega Frontier Edition, for release in June of that year.[13][14] While not branded as a Pro product, the card is marketed within the Radeon Pro series.[15] The Radeon Vega Frontier Edition uses the new "Next-Gen Compute Unit" and 16GB of HBM2 memory for an expected 13.1 TFLOPs of single precision and 26.2 TFLOPs of half precision performance. Ultimately, two Frontier Edition products were released with either air or liquid cooling.[16] The liquid cooling part supported a higher TDP, and was able to reach and sustain higher clock speeds,[17] but otherwise the two products have similar hardware specifications.

Radeon Pro V series

Radeon Pro WX series

Radeon Pro WX series are graphics cards designed specifically for professional applications used in engineering, design, content creation, and science. The first Radeon Pro cards with the WX prefix to be announced were the WX 7100, the WX 5100 and the WX 4100 in July 2016.[2] These Polaris based cards are once again aimed at the traditional professional market and are set to replace the FirePro Wx100 series and FirePro Wx300 series. These cards, along with the Pro SSG, will use the new, non-toxic and energy efficient YInMn Blue, discovered by Mas Subramanian. This unique aesthetic for the Radeon Pro line will distinguish the professional products from the consumer Radeon series.[18]

The smallest card, the half-height WX 4100, is marketed for use in small form factor workstations.[19] Designed for real-time content engines and CAD and CAM manufacturing, the WX 5100 fits in between the WX 4100 and the WX 7100 in terms of performance, with the latter once again marketed with emphasis on the application of VR and other media creation, while claiming to be "The Most Affordable Workstation Solution".[1]

In June 2017, AMD announced the addition of the lower power WX 2100 and WX 3100 cards to the Radeon Pro WX series.[20] Both cards are based on the Polaris GPU and are rated at 1.25 TFLOPS. The WX 2100 has 2 GB of GDDR5 SDRAM, while the WX 3100 has 4 GB of GDDR5 memory.

In September 2017, AMD launched the WX 9100 based on the Vega architecture. The card features 16 GB of ECC HBM2 memory and is rated at 12.29 TFLOPS.[21] As the new flagship of the WX line, it greatly exceeds the performance of the older WX 7100 which is rated at 5.73 TFLOPS.[22] The WX 9100 has ISV (Independent Software Vendor) certified drivers for professional applications including Siemens NX, PTC Creo, Dassault Systèmes CATIA and 3DExperience Platform, Dassault Systèmes SOLIDWORKS, and Autodesk® Revit®.[21] The WX 9100 is particularly well-suited for mission critical workloads and complex scientific modeling because the ECC memory helps correct "single or double bit error as a result of naturally occurring background radiation."[21]

Radeon Pro 400 series

Mobile Radeon Pro parts were first revealed with the release of the 2016 update to the Apple 15" MacBook Pro.[23] These appear to be Polaris 11 derived parts with 10-16 4th generation GCN compute units, providing between 1 and 1.86 TFLOPS of performance.[24][25]

Radeon Pro 500 series

Released in conjunction with the 2017 Apple iMac refresh, the Radeon Pro 500 series serve as GPUs for the 4K and 5K Retina display iMacs.[26] The 500 series ranges supports 2 to 8 GB of graphics RAM with performance from 1.3 to 5.5 TFLOPS.

Radeon Pro Vega series

The Radeon Pro Vega product line of GPUs were first announced in 2017 as a part of Apple's iMac Pro. The two models, Radeon Pro Vega 56 and 64, support 8 and 16 GB of HBM2 memory, respectively.[27] On October 30, 2018, Apple added graphics upgrade options for their 15-inch MacBook Pro lineup consisting Radeon Pro Vega 16 and 20. Derived from Vega 12 GPU that was only used on Apple laptops, both GPU features a 4GB HBM2 memory stack and performance up to 3.3 TFLOPS.[28]

The second-generation, 7 nm Radeon Pro Vega II was announced in 2019 as part of Apple's third-generation Mac Pro desktop computer. The Pro Vega II supports 32 GB of HBM2 memory, while the Pro Vega II Duo combines two Vega GPUs and supports 64 GB of HBM2 memory. The Mac Pro supports up to two Pro Vega II or Pro Vega II Duo graphics cards, allowing up to four Vega GPUs and 128 GB of HBM2 memory to be used in a system.[29]

Radeon Pro VII series

The Radeon Pro VII was announced in May 2020, as a professional variant of the Radeon VII.[30]

Radeon Pro 5000/5000M series

Released in conjunction with the 2019 Apple 16 inch MacBook Pro.[31] Two models were announced, the 5300M and the 5500M. Both feature GDDR6 memory interfaces, with 192 GB/s bandwidth. The 5500M supports up to 8 GB of GDDR6 and 4.0 TFLOPS.[32] In June 2020, a new 5600M GPU model with 8 GB of HBM2 memory was quietly released.

Radeon Pro W5000/W5000M series

The Radeon Pro W5700, which is based on RDNA Architecture for desktop workstations, was officially released on November 19, 2019.[33] The smaller model Radeon Pro W5500 was released in February 2020.[34]

Radeon Pro W5000X series

Radeon Pro W6000/W6000M series

The first RDNA2 based W6000 series cards were officially announced on June 8, 2021 and launched in Q3 2021, with the AMD Radeon Pro W6800, W6600 and W6600M for mobile.[35] On January 19, 2022, the W6400 was also released.

Radeon Pro W6000X series

Software

Most professional compute is done with the help of the Radeon Open Compute and the GPUOpen platforms.

Project Loom

At an AMD event in 2016 Project Loom was announced as a collaboration between AMD and Radiant Images.[36] The real-time GPU accelerated photo and video stitching program will complement AMD's virtual reality development platform. While traditional photo stitching is not that much of a complex task, Project Loom aims to improve render times when tasked with the heavy workload of stitching together multiple high resolution angles to form a 360 degree VR experience, either to headsets or mobile devices.[37] Using AMD's Direct GMA protocol, the software allows Radeon Pro graphics cards to work directly with video capture hardware to stitch together a 30 fps, 360 degree 4k resolution video from 24, 1080p cameras at 60 fps.[38]

The software is to be competitive with Nvidia's VRWorks 360 Video SDK, and is reportedly set to be made open-source through GPUOpen.[39]

ProRender

The successor to FireRender, Radeon ProRender works with high-end graphics programs as an OpenCL photorealistic offline 3D renderer and raytracing engine.[40] ProRender aims to compete with programs such as NVIDIA's Iray and other expensive, proprietary solutions. However, AMD is making ProRender free and available for all graphics hardware.[37] ProRender was released by AMD in June 2016 with support for Blender, 3D Studio Max, SolidWorks, and Maya.[41]

Driver

API OpenGL 4.5 is supported and 4.6 is in development. API Vulkan 1.0 is supported for all with GCN Architecture. Vulkan 1.1 (GCN 2nd Gen. and higher) will be supported with actual drivers in 2018.[42]

As with other GPU architectures, the floating-point performance is dependent on the precision and the GCN generation:

  • In 4th Gen GCN, FP64 is 1/16 of FP32. Newer gaming cards have better ratios, which should be reflected on newer derivative "Pro" versions:
    • The gaming card Radeon R9 295X2 has it bumped up to 1/8 FP32.
    • The gaming card Radeon VII has it bumped up to 1/4 FP32.
    • The Radeon Pro Vega 20 has the ratio bumped up to 1/2 FP32.
  • In 5th Gen GCN, FP16 is double of FP32. In 1st Gen to 4th it was equal to FP32.

For those requiring higher FP64 performance, a form of FP64 distinct from the IEEE double-precision can be emulated with the much faster FP32 operations. The cost is around a ~1/3 performance compared to FP32, much better than what the native support could provide.[43]

Chipset table

Workstation

Radeon PRO series

Model
(Code name)
Release date
& price
Architecture
fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TBP Bus
interface
Graphic output
ports
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro Duo
(Fiji)[44][45]
Apr 26, 2016
$1,499 USD
GCN 3
TSMC 28 nm
8.9×109
596 mm2
4096:256:64
64 CU
1000 2× 256.0 2× 64.00 2× 8,192 2× 8,192 2× 512.0 2× 4 GB 2× 512 HBM
2× 4096-bit
1000 350 W PCIe 3.0
×16
3× DP 1.2
1× HDMI 1.4a
Radeon Pro Duo
(Polaris 10)[46][47]
Apr 24, 2017
$999 USD
GCN 4
GloFo 14 nm
5.7×109
232 mm2
2304:128:32
36 CU
1243 2× 179.0 2× 39.78 2× 5,728 2× 5,728 2× 358.0 2× 16 GB 2× 224 GDDR5
2× 256-bit
7000 250 W 3× DP 1.4a
HDMI 2.0b
Radeon Pro SSG
(Fiji)[48][49][50]
Jul 26, 2016
prototype only
$9,999 USD
GCN 3
TSMC 28 nm
8.9×109
596 mm2
4096:256:64
64 CU
1050 268.8 67.20 8,601 8,601 537.6 4 GB
+ 1 TB SSD
512 HBM + SSG
4096-bit
1000 200 W 4× DP 1.2?
Radeon Pro SSG
(Vega 10)[51][52][53][54][55]
Aug 8, 2017
$6,999 USD
GCN 5
GloFo 14 nm
12.5×109
495 mm2
4096:256:64
64 CU
1440
1500
368.6
384.0
92.16
96.00
23,593
24,576
11,796
12,288
737.2
768.0
16 GB
+ 2 TB SSD
484 HBM2 + SSG
2048-bit
1890 230 W 6× miniDP 1.4a
Radeon Vega Frontier Edition
(Vega 10)[56][57][58]
Jun 27, 2017
$999 USD
1382
1600
353.8
409.6
88.4
102.4
22,643
26,214
11,321
13,107
707.6
819.2
16 GB HBM2
2048-bit
300 W 3× DP 1.4a
HDMI 2.0b
Radeon Vega Frontier Edition
(Liquid-cooled)
(Vega 10)[59][57][60]
Jun 27, 2017
$1,499 USD
375 W
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro WX x100 series

Model
(Code name)
Release date Price
(USD)
Architecture Fab Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TBP Bus
interface
Graphic output
ports
Ref(s)
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Type Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro
WX 2100
(Polaris 12)
Jun 1, 2017 $149 GCN 4 GloFo
14LP
2.2×109
103 mm2
512:32:16
8 CU
925
1219
29.6
39.0
14.8
19.5
947
1,250
947
1,250
59.2
78
GDDR5 2 GB 48 64-bit 6000 35 W PCIe 3.0
×8
DP 1.4a
miniDP 1.4a
[61][62]
WX 3100
(Polaris 12)
$199 4 GB 96 128-bit 50 W [61][63]
WX 4100
(Polaris 11)
Nov 10, 2016 $399 3.0×109
123 mm2
1024:64:16
16 CU
1125
1201
72
76.9
18
19.2
2,304
2,460
2,304
2,460
144
154
96 7000 miniDP 1.4a [64][65][66]
WX 5100
(Polaris 10)
Nov 18, 2016 $499 5.7×109
232 mm2
1792:112:32
28 CU
713
1086
79.85
121.6
22.8
34.75
2,555
3,892
2,555
3,892
159.7
243.3
8 GB 160 256-bit 5000 75 W PCIe 3.0
×16
DP 1.4a [64][65][67]
WX 7100
(Polaris 10)
Nov 10, 2016 $799 2304:144:32
36 CU
1188
1243
171
179
38
39.78
4,150
5,728
5,474
5,728
342.1
358
224 7000 130 W [65][64]
[68][69]
WX 9100
(Vega 10)
Sep 13, 2017 $2,199 GCN 5 12.5×109
495mm2
4096:256:64
64 CU
1200
1500
307.2
384.0
76.8
96.0
19,660
24,576
9,830
12,288
614.4
768
HBM2 16 GB 484 2048-bit 1890 230 W miniDP 1.4a [70][71]
[72][73]
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro WX x200 series

Model
(Code name)
Release date Price
(USD)
Architecture Fab Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TBP Bus
interface
Graphic
output
ports
Ref(s)
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Type Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro
WX 3200
(Polaris 23)
Jul 2, 2019 $199 GCN 4 GloFo
14LP
2.2×109
103mm2
640:32:16
10 CU
1295 41.44 20.72 1,658 1,658 103.6 GDDR5 4 GB 96 128-bit 6000 50 W PCIe 3.0
×8
mini-DP 1.4a [74]
WX 8200
(Vega 10)
Aug 13, 2018 $999 GCN 5 12.5×109
495mm2
3584:224:64
56 CU
1200
1500
268.8
336.0
76.8
96.00
17,203
21,504
8,601
10,752
537.6
672.0
HBM2 8 GB 512 2048-bit 2000 230 W PCIe 3.0
×16
[75]
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro Vega (for Apple Mac Pro)

Model
(Code name)
Release date Price
(USD)
Architecture fab Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TBP Bus
interface
Graphic output
ports
Ref(s)
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Type Size
(GB)
Bandwidth
(GB/s)
Bus
width
Clock
(MT/s)
Radeon Pro
Vega II
(Vega 20)
Dec 10, 2019 $2,800 GCN 5 TSMC
N7
13.23×109
331 mm2
4096:256:64
64 CU
1720 440.3 110.1 28,180 14,090 880 HBM2 32 GB 1024 4096-bit 2000 475 W PCIe 3.0
×16
4× Thunderbolt 3
(USB-C)
HDMI 2.0b
[76][77]
Vega II Duo
(Vega 20)
$5,600 4096:256:64
64 CU
3440 880.6 220.2 56,360 28,180 1760 64 GB 2048 8192-bit 2000 [78][79]
Radeon Pro VII
(Vega 20 GLXT WS)
May 13, 2020 $1,899 GCN 5 TSMC
N7
3840:240:64
60 CU
1400
1700
408.0 108.8 26,110 13,060 6528 HBM2 16 GB
ECC
1024 4096-bit 2000 250 W PCIe 4.0
×16
Mini-DisplayPort 1.4
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro VII

Model
(Code name)
Release date
& price
Architecture
fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TBP Bus
interface
Graphic output
ports
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro VII
(Vega 20)[80][81]
May 13, 2020
$1,899 USD
GCN 5
TSMC 7 nm
13.23×109
331 mm2
3840:240:64
60 CU
1400
1700
336.0
408.0
89.6
108.8
21,504
26,112
10,752
13,056
5,376
6,528
16 1024 HBM2
4096-bit
2000 250 W PCIe 4.0
×16
miniDP 1.4a
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro 5000 series (for Apple iMac)

Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TDP Bus
interface
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro 5300
(Navi 14)[82][83]
Aug 4, 2020 RDNA
TSMC N7
6.4×109
158 mm2
1280:80:32
20 CU
1000
1650
80
132
32
52.8
5,120
8,448
2,560
4,224
160
264
4 224 GDDR6
128-bit
14000 130 W PCIe 4.0
×8
Radeon Pro 5500 XT
(Navi 14)[82][84]
1536:96:32
24 CU
1187
1757
114
168.7
38
56.2
7,292
10,796
3,646
5,398
227.9
337.3
8
Radeon Pro 5700
(Navi 10)[82][85]
10.3×109
251 mm2
2304:144:64
36 CU
1243
1350
179
194.4
79.6
86.4
11,456
12,442
5,728
6,221
358
388.8
384 GDDR6
256-bit
12000 PCIe 4.0
×16
Radeon Pro 5700 XT
(Navi 10)[82][86]
2560:160:64
40 CU
1243
1499
198.9
239.8
79.6
95.94
12,728
15,350
6,364
7,675
397.8
479.7
16
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro W5000 series

Model
(Code name)
Release date
& price
Architecture
& fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TDP Bus
interface
Graphic output
ports
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro W5500
(Navi 14)[87][88]
Feb 10, 2020
$399 USD
RDNA
TSMC N7
6.4×109
158 mm2
1408:88:32
22 CU
1744
1855
153.4
163.2
55.8
59.36
9,822
10,450
4,911
5,224
306.9
326.5
8 224 GDDR6
128-bit
14000 125 W PCIe 4.0
×8
4× DP 1.4a
Radeon Pro W5700
(Navi 10)[89][90]
Nov 19, 2019
$799 USD
10.3×109
251 mm2
2304:144:64
36 CU
1400
1880
201.6
270.7
89.6
120.3
12,902
17,330
6,451
8,663
403.2
541.4
448 GDDR6
256-bit
205 W PCIe 4.0
×16
5× miniDP 1.4a
1× USB Type-C
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro W5000X series (for Apple Mac Pro)

Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TDP Bus
interface
Graphic output
ports
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro W5500X
(Navi 14)[91][92]
2020 RDNA
TSMC N7
6.4×109
158 mm2
1536:96:32
24 CU

1757

163.2

59.36

11,200

5,600

326.5
8 224 GDDR6
128-bit
14000 130 W PCIe 4.0
×8
 HDMI 2.0b
Radeon Pro W5700X
(Navi 10)[91][93][92]
Dec 11, 2019 10.3×109
251 mm2
2560:160:64
40 CU
1243
1860
198.8
297.6
79.5
119.04
12,728
19,046
6,364
9,523
397.8
595.2
16 448 GDDR6
256-bit
250 W PCIe 4.0
×16
 Thunderbolt 3
 HDMI 2.0b
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro W6000 series

Model
(Code name)
Release date
& price
Architecture
& fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
L3
cache
Memory TDP Bus
interface
Graphic output
ports
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro W6400
(Navi 24)[94][95]
Jan 19, 2022
$229 USD
RDNA 2
TSMC N6
5.4×109
107 mm2
768:48:32:12
12 CU

2331

111.9

74.59

7,161

3,580

223.8
16 MB 4 128 GDDR6
64-bit
14000 50 W PCIe 4.0
×4
DP 1.4a
Radeon Pro W6600
(Navi 23)[96][97]
Jun 8, 2021
$649 USD
RDNA 2
TSMC N7
11.06×109
237 mm2
1792:112:64:28
28 CU
2331
2903
261.1
325.1
149.2
185.8
16,709
20,809
8,354
10,404
522.1
650.3
32 MB 8 224 GDDR6
128-bit
130 W PCIe 4.0
×8
DP 1.4a
Radeon Pro W6800
(Navi 21)[98][99]
Jun 8, 2021
$2,249 USD
26.8×109
520 mm2
3840:240:96:60
60 CU
2075
2320
498.0
556.8
199.2
222.7
31,872
35,635
15,936
17,818
996.0
1,114
128 MB 32 512 GDDR6
256-bit
16000 250 W PCIe 4.0
×16
miniDP 1.4a
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units : Ray accelerators and Compute units (CU)

Radeon Pro W6000X series (for Apple Mac Pro)

Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
L3
cache
Memory TDP Bus
interface
Graphic output
ports
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro W6600X
(Navi 23)[100][101]
Mar 8, 2022 RDNA 2
TSMC N7
11.06×109
237 mm2
2048:124:64:32
32 CU

2479

307.3

158.6

19,673

9,837

614.8
32 MB 8 256 GDDR6
128-bit
14000 ? PCIe 4.0
×8
 HDMI 2.1
Radeon Pro W6800X
(Navi 21)[100][102]
Aug 3, 2021 26.8×109
520 mm2
3840:240:96:60
60 CU
1800
2087
432.0
500.8
172.8
200.3
27,648
32,056
13,824
16,028
864.0
1,002
128 MB 32 512 GDDR6
256-bit
16000 400 W PCIe 4.0
×16
 Thunderbolt 3
 HDMI 2.1
Radeon Pro W6800X Duo
(Navi 21)[100][103]
26.8×109
520 mm2
3840:240:96:60
60 CU
1800
1979
432.0
474.9
172.8
189.9
27,648
30,397
13,824
15,199
864.0
949.9
 32  512 GDDR6
 256-bit
400 W
Radeon Pro W6900X
(Navi 21)[100][104]
26.8×109
520 mm2
5120:320:128:80
80 CU
1825
2171
584.0
694.7
233.6
277.8
37,376
44,462
18,688
22,231
1,168
1,389
32 512 GDDR6
256-bit
300 W
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units : Ray accelerators and Compute units (CU)

Mobile Workstation

Radeon Pro WX x100 Mobile series

  • Half Precision Power (FP16) is equal single precision power (FP32) in 4th GCN Generation (in 5th Gen: Half Precision (FP16) = 2x SP (FP32))
Model
(Code name)
Release
date
Architecture
fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TDP Bus
interface
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro WX 2100 (Mobile)
(Polaris 12)[105][106][107]
Mar 1, 2017 GCN 4
Samsung/GloFo
14LPP[108]
2.2×109
103 mm2
512:32:16
8 CU
925
1219
29.60
39.01
14.80
19.50
947.2
1,250
59.20
78.02
2 48 GDDR5
64-bit
6000 35 W PCIe 3.0
×16
Radeon Pro WX 3100 (Mobile)
(Polaris 12)[109][110][111]
4 96 GDDR5
128-bit
50 W
Radeon Pro WX 4130 (Mobile)
(Polaris 11)[112][113]
3.0×109
123 mm2
640:40:16
10 CU
1002
1053
40.08
42.12
16.03
16.85
1,282
1,348
80.16
84.24
50 W
Radeon Pro WX 4150 (Mobile)
(Polaris 11)[114][115]
896:56:16
14 CU
1002
1053
56.11
58.97
16.03
16.85
1,796
1,887
112.2
117.9
45-50 W
Radeon Pro WX 4170 (Mobile)
(Polaris 11)[116][117]
1024:64:16
16 CU
1002
1201
64.12
76.86
16.03
19.22
2,052
2,460
128.3
153.7
112 50-60 W
Radeon Pro WX 7100 (Mobile)
(Polaris 10)[118][119]
5.7×109
232 mm2
2304:144:32
36 CU
1188
1243
171.1
179.0
38.0
39.78
5,474
5,728
342.1
358.0
8 160 GDDR5
256-bit
5000 100-130 W
Radeon Pro WX 7130 (Mobile)
(Polaris 10)[120][121]
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units (TMUs) multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units (ROPs) multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro 400 series (for Apple MacBook Pro)

Model
(Code name)
Release date Architecture
fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TDP Bus
interface
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro 450
(Polaris 11)[122][123][124][125][126][127]
Oct 30, 2016 GCN 4
GloFo 14 nm
3.0×109
123 mm2
640:40:16
10 CU
800 32.00 12.80 1,024 1,024 64.00 2 80 GDDR5
128-bit
5000 35 W PCIe 3.0
×8
Radeon Pro 455
(Polaris 11)[122][123][124][128][129]
768:48:16
12 CU
855 41.04 13.68 1,313 1,313 82.08
Radeon Pro460
(Polaris 11)[122][123][124][130][131]
1024:64:16
16 CU
850
907
54.40
58.05
13.60
14.51
1,741
1,858
1,741
1,858
108.8
116.1
4
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro 500 series (for Apple iMac & MacBook Pro)

Model
(Code name)
Release
date
Architecture
fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TDP Bus
interface
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro 555
(Polaris 21)[132][133][134][135]
Jun 6, 2017 GCN 4
GloFo 14 nm
3.0×109
123 mm2
768:48:16
12 CU
850 40.80 13.60 1,306 1,306 81.60 2 81.60 GDDR5
128-bit
5100 50 W PCIe 3.0
×16
Radeon Pro 555X
(Polaris 21)[132][133][134][136]
Jul 16, 2018 907 43.54 14.51 1,393 1,393 87.07 4 94.08 5900 50 W
Radeon Pro 560
(Polaris 21)[132][133][134][137]
Jun 6, 2017 1024:64:16
16 CU
907 58.05 14.51 1,858 1,858 116.1 81.28 5100 50 W
Radeon Pro 560X
(Polaris 21)[132][133][134][138]
Jul 16, 2018 1004 64.26 16.06 2,056 2,056 128.5 94.08 5900 75 W
Radeon Pro 570
(Polaris 20)[132][133][134][139]
Jun 6, 2017 5.7×109
232 mm2
1792:112:32
28 CU
1000
1105
112.0
123.8
32.00
35.36
3,584
3,960
3,584
3,960
224.0
247.5
217.0 GDDR5
256-bit
6800 120 W
Radeon Pro 570X
(Polaris 20)[140][141]
Mar 18, 2019 217.6 150 W
Radeon Pro 575
(Polaris 20)[132][133][134][142]
Jun 6, 2017 2048:128:32
32 CU
1096 140.3 35.07 4,489 4,489 280.6 217.0 120 W
Radeon Pro 575X
(Polaris 20)[140][143]
Mar 18, 2019 217.6 150 W
Radeon Pro 580
(Polaris 10)[132][133][134][144]
Jun 6, 2017 2304:144:32
36 CU
1100
1200
158.4
172.8
35.2
38.4
5,069
5,530
5,069
5,530
316.8
345.6
8 217.0 150 W
Radeon Pro 580X
(Polaris 10)[140][145]
Mar 18, 2019 218.9 185 W
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro WX x200 Mobile series

Model
(Code name)
Release
date
Architecture
fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TDP Bus
interface
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro WX 3200 (Mobile)
(Polaris 23)[146][147]
Mar 1, 2017 GCN 4
GloFo 14 nm
2.2×109
103 mm2
640:32:16
10 CU
1082
1295
34.62
41.44
17.31
20.72
1,385
1,658
1,385
1,658
86.56
103.6
4 64 GDDR5
128-bit
4000 65 W PCIe 3.0
×8
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro Vega series (for Apple iMac & MacBook Pro)

Model
(Code name)
Release
date
Architecture
& fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TDP Bus
interface
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro Vega 16
(Vega 12)[148][149][150]
Nov 14, 2018 GCN 5
GloFo 14 nm
? 1024:64:32
16 CU
815
1190
52.16
76.16
26.08
38.08
3,338
4,874
1,669
2,437
104.3
152.3
4 307.2 HBM2
1024-bit
2400 50 W PCIe 3.0
×16
Radeon Pro Vega 20
(Vega 12)[148][149][151]
1280:80:32
20 CU
815
1283
65.20
102.6
26.08
41.06
4,173
6,569
2,086
3,285
130.4
205.3
189.4 1480 50 W
Radeon Pro Vega 48
(Vega 10)[152][153]
Mar 19, 2019 12.5×109
495 mm2
3072:192:64
48 CU

1200

230.4

76.80

14,746

7,373

460.8
8 402.4 HBM2
2048-bit
1572 ?
Radeon Pro Vega 56
(Vega 10)[154][155][156]
Aug 17, 2017 3584:224:64
56 CU
1138
1250
254.9
280.0
72.83
80.00
16,314
17,920
8,157
8,960
509.8
560.0
120 W
Radeon Pro Vega 64
(Vega 10)[154][155][157]
Jun 17, 2017 4096:256:64
64 CU
1250
1350
320.0
345.6
80.00
86.40
20,480
22,118
10,240
11,059
640.0
691.2
16 ?
Radeon Pro Vega 64X
(Vega 10)[154][158]
Mar 19, 2019 4096:256:64
64 CU
1250
1468
320.0
375.8
80.00
93.95
20,480
24,051
10,240
12,026
640.0
751.6
512.0 2000
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro 5000M series (for Apple MacBook Pro)

Model
(Code name)
Release date Architecture
& fab
Transistors
 die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TDP Bus
interface
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro 5300M
(Navi 14)[159][160]
Nov 13, 2019 RDNA
TSMC N7
6.4×109
158 mm2
1280:80:32
20 CU
1000
1250
80.00
100.0
32.00
40.00
5,120
6,400
2,560
3,200
160.0
200.0
4 192 GDDR6
128-bit
12000 50 W PCIe 4.0
×8
Radeon Pro 5500M
(Navi 14)[159][161]
1536:96:32
24 CU
1000
1300
96.00
124.8
32.00
41.60
6,144
8,908
3,072
4,454
192.0
278.4
4
8
Radeon Pro 5600M
(Navi 12)[159][162]
Jun 15, 2020 ? 2560:160:64
40 CU
1000
1035
160.0
165.6
64.00
66.24
10,240
10,598
5,120
5,299
320.0
331.2
8 394 HBM2
2048-bit
1540 PCIe 4.0
×16
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro W5000M series

Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
Memory TDP Bus
interface
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro W5500M
(Navi 14)[163][164]
Feb 10, 2020 RDNA
TSMC N7
6.4×109
158 mm2
1408:88:32
22 CU
1000
1700
88.00
149.6
32.00
54.40
5,632
9,574
2,816
4,787
176.0
299.2
4 224 GDDR6
128-bit
14000 65-85 W PCIe 4.0
×8
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Radeon Pro W6000M series

Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d]
(GFLOPS)
L3
cache
Memory TDP Bus
interface
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro W6300M
(Navi 24)[165][166]
Jan 19, 2022 RDNA 2
TSMC N6
5.4×109
107 mm2
768:48:32:12
12 CU

2214

106.3

70.8

6,801

3,401

212.5
8 MB 2 64 GDDR6
32-bit
14000 25 W PCIe 4.0
×4
Radeon Pro W6500M
(Navi 24)[167][168]
1024:64:32:16
16 CU

2588

165.6

82.8

10,478

5,239

327.4
16 MB 4 128 GDDR6
64-bit
35-50 W
Radeon Pro W6600M
(Navi 23)[169][170][171]
Jun 8, 2021 RDNA 2
TSMC N7
11.06×109
237 mm2
1792:112:64:28
28 CU
2200
2900
246.4
324.8
140.8
185.6
15,770
20,787
7,885
10,394
492.8
649.6
32 MB 8 224 GDDR6
128-bit
65-90 W PCIe 4.0
×16
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units : Ray accelerators and Compute units (CU)

Data Center GPUs

Radeon Pro V series

Model
(Code name)
Release
date
Architecture
fab
Transistors
& die size
Core Fillrate[a][b][c] Processing power[a][d] (GFLOPS) L3
cache
Memory TDP Bus
interface
Graphic output
ports
Config[e] Clock[a]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro V320
(Vega 10)[172]
Jun 29, 2017
custom sku[173][174]
GCN 5
GF 14LPP
12.5×109
495 mm2
4096:256:64:-
64 CU
852
1000
218.1
256.0
54.52
64.00
13,959
16,384
6,979
8,192
436.2
512.0
8/16? 484 HBM2
2048-bit
1890 230 W PCIe 3.0
×16
Radeon Pro V340
(Vega 10)[175][176][177][178]
Aug 26, 2018
12.5×109
495 mm2
3584:224:64:-
56 CU
852
1500
190.8
336.0
54.52
96.00
12,214
21,504
6,107
10,752
381.7
672.0
2× 16 2× 484 HBM2
2× 2048-bit
300 W 1× miniDP 1.4a
Radeon Pro V520
(Navi 12)[179][180]
Dec 1, 2020 RDNA
TSMC N7
? 2304:144:64:-
36 CU
1000
1600
144.0
230.4
64.00
102.4
9,216
14,746
4,608
7,373
288.0
460.8
8 512 HBM2
2048-bit
2000 225 W PCIe 4.0
×16
Radeon Pro V620
(Navi 21)[181][182]
Nov 4, 2021 RDNA 2
TSMC N7
26.8×109
520 mm2
4608:288:128:72
72 CU
1825
2200
525.6
633.6
233.6
281.6
33,638
40,550
16,819
20,275
1,051
1,267
128 MB 32 GDDR6
256-bit
16000 300 W
  • v
  • t
  • e
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units : Ray accelerators and Compute units (CU)

See also

References

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External links

  • AMD Radeon Pro Graphics
  • AMD Radeon Pro Graphics (archived July 29, 2016)
  • AMD Radeon ProRender
  • AMD Software: PRO Edition
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List of GPUs (GPU features template) and List of APUs (APU features template)
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