List of AMD graphics processing units

The following is a list that contains general information about GPUs and video cards by AMD, including those by ATI Technologies before 2006, based on official specifications in table-form.

Field explanations

The headers in the table listed below describe the following:

  • Model – The marketing name for the GPU assigned by AMD/ATI. Note that ATI trademarks have been replaced by AMD trademarks starting with the Radeon HD 6000 series for desktop and AMD FirePro series for professional graphics.
  • Codename – The internal engineering codename for the GPU.
  • Launch – Date of release for the GPU.
  • Architecture – The microarchitecture used by the GPU.
  • Fab – Fabrication process. Average feature size of components of the GPU.
  • TransistorsNumber of transistors on the die.
  • Die size – Physical surface area of the die.
  • Core config – The layout of the graphics pipeline, in terms of functional units.
  • Core clock – The reference base and boost (if available) core clock frequency.
  • Fillrate
    • Pixel - The rate at which pixels can be rendered by the raster operators to a display. Measured in pixels/s.
    • Texture - The rate at which textures can be mapped by the texture mapping units onto a polygon mesh. Measured in texels/s.
  • Performance
    • Shader operations - How many operations the pixel shaders (or unified shaders in Direct3D 10 and newer GPUs) can perform. Measured in operations/s.
    • Vertex operations - The amount of geometry operations that can be processed on the vertex shaders in one second (only applies to Direct3D 9.0c and older GPUs). Measured in vertices/s.
  • Memory
    • Bus type – Type of memory bus utilized.
    • Bus width – Maximum bit width of the memory bus utilized.
    • Size – Size of the graphics memory.
    • Clock – The reference memory clock frequency.
    • Bandwidth – Maximum theoretical memory bandwidth based on bus type and width.
  • TDP (Thermal design power) – Maximum amount of heat generated by the GPU chip, measured in Watt.
  • TBP (Typical board power) – Typical power drawn by the total board, including power for the GPU chip and peripheral equipment, such as Voltage regulator module, memory, fans, etc., measured in Watt.
  • Bus interface – Bus by which the graphics processor is attached to the system (typically an expansion slot, such as PCI, AGP, or PCIe).
  • API support – Rendering and computing APIs supported by the GPU and driver.

Due to conventions changing over time, some numerical definitions such as core config, core clock, performance and memory should not be compared one-to-one across generations. The following tables are for reference use only, and do not reflect actual performance.

Video codec acceleration

Features overview

The following table shows features of AMD/ATI's GPUs.

Name of GPU series Wonder Mach 3D Rage Rage Pro Rage 128 R100 R200 R300 R400 R500 R600 RV670 R700 Evergreen Northern
Islands
Southern
Islands
Sea
Islands
Volcanic
Islands
Arctic
Islands
/Polaris
Vega Navi 1x Navi 2x Navi 3x
Released 1986 1991 Apr
1996
Mar
1997
Aug
1998
Apr
2000
Aug
2001
Sep
2002
May
2004
Oct
2005
May
2007
Nov
2007
Jun
2008
Sep
2009
Oct
2010
Jan
2012
Sep
2013
Jun
2015
Jun 2016, Apr 2017, Aug 2019 Jun 2017, Feb 2019 Jul
2019
Nov
2020
Dec
2022
Marketing Name Wonder Mach 3D
Rage
Rage
Pro
Rage
128
Radeon
7000
Radeon
8000
Radeon
9000
Radeon
X700/X800
Radeon
X1000
Radeon
HD 2000
Radeon
HD 3000
Radeon
HD 4000
Radeon
HD 5000
Radeon
HD 6000
Radeon
HD 7000
Radeon
200
Radeon
300
Radeon
400/500/600
Radeon
RX Vega, Radeon VII
Radeon
RX 5000
Radeon
RX 6000
Radeon
RX 7000
AMD support Ended Current
Kind 2D 3D
Instruction set architecture Not publicly known TeraScale instruction set GCN instruction set RDNA instruction set
Microarchitecture TeraScale 1
(VLIW)
TeraScale 2
(VLIW5)
TeraScale 2
(VLIW5)

up to 68xx
TeraScale 3
(VLIW4)

in 69xx [1][2]
GCN 1st
gen
GCN 2nd
gen
GCN 3rd
gen
GCN 4th
gen
GCN 5th
gen
RDNA RDNA 2 RDNA 3
Type Fixed pipeline[lower-alpha 1] Programmable pixel & vertex pipelines Unified shader model
Direct3D 5.0 6.0 7.0 8.1 9.0
11 (9_2)
9.0b
11 (9_2)
9.0c
11 (9_3)
10.0
11 (10_0)
10.1
11 (10_1)
11 (11_0) 11 (11_1)
12 (11_1)
11 (12_0)
12 (12_0)
11 (12_1)
12 (12_1)
11 (12_1)
12 (12_2)
Shader model 1.4 2.0+ 2.0b 3.0 4.0 4.1 5.0 5.1 5.1
6.5
6.7
OpenGL 1.1 1.2 1.3 2.1[lower-alpha 2][3] 3.3 4.5 (on Linux: 4.5 (Mesa 3D 21.0))[4][5][6][lower-alpha 3] 4.6 (on Linux: 4.6 (Mesa 3D 20.0))
Vulkan 1.0
(Win 7+ or Mesa 17+)
1.2 (Adrenalin 20.1.2, Linux Mesa 3D 20.0)
1.3 (GCN 4 and above (with Adrenalin 22.1.2, Mesa 22.0))
1.3
OpenCL Close to Metal 1.1 (no Mesa 3D support) 1.2+ (on Linux: 1.1+ (no Image support on clover, with by rustiCL) with Mesa 3D, 1.2+ on GCN 1.Gen) 2.0+ (Adrenalin driver on Win7+)
(on Linux ROCM, Linux Mesa 3D 1.2+ (no Image support in clover, but in rustiCL with Mesa 3D, 2.0+ and 3.0 with AMD drivers or AMD ROCm), 5th gen: 2.2 win 10+ and Linux RocM 5.0+
2.2+ and 3.0 windows 8.1+ and Linux ROCM 5.0+ (Mesa 3D rustiCL 1.2+ and 3.0 (2.1+ and 2.2+ wip)) [7] [8][9]
HSA / ROCm Yes ?
Video decoding ASIC Avivo/UVD UVD+ UVD 2 UVD 2.2 UVD 3 UVD 4 UVD 4.2 UVD 5.0 or 6.0 UVD 6.3 UVD 7 [10][lower-alpha 4] VCN 2.0 [10][lower-alpha 4] VCN 3.0 [11] VCN 4.0
Video encoding ASIC VCE 1.0 VCE 2.0 VCE 3.0 or 3.1 VCE 3.4 VCE 4.0 [10][lower-alpha 4]
Fluid Motion [lower-alpha 5] No Yes No ?
Power saving ? PowerPlay PowerTune PowerTune & ZeroCore Power ?
TrueAudio Via dedicated DSP Via shaders
FreeSync 1
2
HDCP[lower-alpha 6] ? 1.4 2.2 2.3 [12]
PlayReady[lower-alpha 6] 3.0 No 3.0
Supported displays[lower-alpha 7] 1–2 2 2–6 ?
Max. resolution ? 2–6 ×
2560×1600
2–6 ×
4096×2160 @ 30 Hz
2–6 ×
5120×2880 @ 60 Hz
3 ×
7680×4320 @ 60 Hz [13]

7680×4320 @ 60 Hz PowerColor
7680x4320

@165 HZ

/drm/radeon[lower-alpha 8] Yes
/drm/amdgpu[lower-alpha 8] Experimental [14] Yes
  1. The Radeon 100 Series has programmable pixel shaders, but do not fully comply with DirectX 8 or Pixel Shader 1.0. See article on R100's pixel shaders.
  2. R300, R400 and R500 based cards do not fully comply with OpenGL 2+ as the hardware does not support all types of non-power of two (NPOT) textures.
  3. OpenGL 4+ compliance requires supporting FP64 shaders and these are emulated on some TeraScale chips using 32-bit hardware.
  4. The UVD and VCE were replaced by the Video Core Next (VCN) ASIC in the Raven Ridge APU implementation of Vega.
  5. Video processing for video frame rate interpolation technique. In Windows it works as a DirectShow filter in your player. In Linux, there is no support on the part of drivers and / or community.
  6. To play protected video content, it also requires card, operating system, driver, and application support. A compatible HDCP display is also needed for this. HDCP is mandatory for the output of certain audio formats, placing additional constraints on the multimedia setup.
  7. More displays may be supported with native DisplayPort connections, or splitting the maximum resolution between multiple monitors with active converters.
  8. DRM (Direct Rendering Manager) is a component of the Linux kernel. AMDgpu is the Linux kernel module. Support in this table refers to the most current version.

API overview

The following table shows the graphics and compute APIs support across AMD GPU micro-architectures. Note that a branding series might include older generation chips.

Chip series Micro­architecture Fab Supported APIs AMD support Year introduced Introduced with
Rendering Computing / ROCm
Vulkan[15] OpenGL[16] Direct3D HSA OpenCL
Wonder Fixed-pipeline[lower-alpha 1] 1000 nm
800 nm
Ended 1986
Mach 800 nm
600 nm
1991
3D Rage 500 nm 5.0 1996 3D Rage
Rage Pro 350 nm 1.1 6.0 1997 Rage Pro
Rage 128 250 nm 1.2 1998 Rage 128 GL/VR
R100 180 nm
150 nm
1.3 7.0 2000 Radeon
R200 Programmable
pixel & vertex
pipelines
150 nm 8.1 2001 Radeon 8500
R300 150 nm
130 nm
110 nm
2.0[lower-alpha 2] 9.0
11 (FL 9_2)
2002 Radeon 9700
R420 130 nm
110 nm
9.0b
11 (FL 9_2)
2004 Radeon X800
R520 90 nm
80 nm
9.0c
11 (FL 9_3)
2005 Radeon X1800
R600 TeraScale 1 80 nm
65 nm
3.3 10.0
11 (FL 10_0)
ATI Stream 2007 Radeon HD 2900 XT
RV670 55 nm 10.1
11 (FL 10_1)
ATI Stream APP[17] Radeon HD 3850/3870
RV770 55 nm
40 nm
1.0 2008 Radeon HD 4850/4870
Evergreen TeraScale 2 40 nm 4.5
(Linux 4.2)
[18][19][20][lower-alpha 3]
11 (FL 11_0) 1.2 2009 Radeon HD 5850/5870
Northern Islands TeraScale 2
TeraScale 3
2010 Radeon HD 6850/6870
Radeon HD 6950/6970
Southern Islands GCN 1st gen 28 nm 1.0 4.6 11 (FL 11_1)
12 (FL11_1)
Yes 1.2
2.0 possible
2012 Radeon HD 7950/7970
Sea Islands GCN 2nd gen 1.2 11 (FL 12_0)
12 (FL 12_0)
2.0
(1.2 in MacOS, Linux)
2.1 Beta in Linux ROCm
2.2 possible
2013 Radeon HD 7790
Volcanic Islands GCN 3rd gen 2014 Radeon R9 285
Polaris GCN 4th gen 14 nm 1.2

1.3 (GCN 4)

Current 2016 Radeon RX 480
Vega GCN 5th gen 14 nm
7 nm
1.3 11 (FL 12_1)
12 (FL 12_1)
2017 Radeon Vega Frontier Edition
Navi RDNA 7 nm 2019 Radeon RX 5700 (XT)
Navi 2X RDNA 2 7 nm
6 nm
11 (FL 12_1)
12 (FL 12_2)
2020 Radeon RX 6800 (XT)
Navi 3X RDNA 3 6 nm
5 nm
 ?  ? 2022 Radeon RX 7900 XT(X)
  1. Radeon 7000 Series has programmable pixel shaders, but do not fully comply with DirectX 8 or Pixel Shader 1.0. See article on R100's pixel shaders.
  2. These series do not fully comply with OpenGL 2+ as the hardware does not support all types of non-power-of-two (NPOT) textures.
  3. OpenGL 4+ compliance requires supporting FP64 shaders and these are emulated on some TeraScale chips using 32-bit hardware.

[21][22][23]

Desktop GPUs

Wonder series

Model Launch Fab (nm) Bus interface Memory
Size (KiB) Bus type Bus width (bit)
Wonder MDA/CGA 1986 1000 PC/XT 64 DRAM 8
Wonder EGA 1987 PC/XT 256
Wonder VGA 1987 1000, 800 PC/XT, ISA 256, 512
1024
8, 16

Mach series

Model Launch Fab (nm) Bus interface Memory
Size (KiB) Bus type Bus width (bit)
Mach 8 1991 800 ISA, MCA 512, 1024 DRAM, VRAM 32
Mach 32 1992 ISA, EISA, VLB, PCI, MCA 1024, 2048 DRAM, VRAM 64
Mach 64 CX 1994 700 ISA, VLB, PCI 1024, 2048, 4096 DRAM, VRAM
Mach 64 GX
Mach 64 CT 1995 600 PCI DRAM, VRAM, EDO
Mach 64 VT (264VT)
Mach 64 VT2 (264VT2) 1996 EDO
Mach 64 VT4 (264VT4) 1998 2048, 4096 EDO, SGRAM

Rage series

Model Launch GPU arch Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory API compliance
MOperations/s MPixels/s MTexels/s MVertices/s Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
3D Rage April 1996[24] Mach64 500 PCI 40 40 1:0:1:1 40 40 40 0 2 0.32 EDO 64 5.0 None2
3D Rage II September 1996 Mach64 (Rage2 for Rage IIc) AGP 1× (Rage IIc only), PCI 60 83 (66 MHz with EDO) 60 60 60 2, 4, 8 0.664 EDO, SGRAM, SDR
Rage Pro March 1997 Rage 3 350 AGP 1x, AGP 2×, PCI 75 75 75 75 75 4, 8, 16 0.6 6.0 1.1
Rage XL[25][26][27][28] August 1998 250 AGP 2×, PCI 83 125 83 83 83 8 1.0 SDR
Rage 128 VR Rage 4 80 120 2:0:2:2 160 160 160 8, 32 0.96 1.2
Rage 128 GL 103 103 206 206 206 16, 32 1.648 SGRAM, SDR 128
Rage 128 Pro August 1999 AGP 4×, PCI 125 143 250 250 250 2.288
Rage 128 Ultra 130 130 260 260 260 16, 32, 64 2.088 SDR
Rage Fury MAXX October 1999 AGP 4× 125 143 2:0:2:2 ×2 500 500 500 32 ×2 4.576 128 ×2

1 Pixel pipelines : Vertex shaders : Texture mapping units : Render output units
2 OpenGL 1.0 (Generic 2D) is provided through software implementations.

Radeon 7000 series

  • All models include Direct3D 7.0 and OpenGL 1.3
  • The R100 cards were originally launched without any numbering as Radeon SDR, DDR, LE and VE; these products were later "rebranded" to their names within the numbered naming scheme, when the Radeon 8000 series was introduced.
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory
MOperations/s MPixels/s MTexels/s MVertices/s Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit)
Radeon VE / Radeon 7000 February 19, 2001 RV100 (piglet) 180 AGP 4x, PCI 150/166/183 150/166/183 1:0:3:1 183 (max) 336 (max) 549 (max) 0 32, 64 2.688 (max) DDR 64
Radeon LE / Radeon 7100 (OEM) April 6, 2001[29] Rage 6 / R100 AGP 4x 150 150 2:1:6:2 296 296 888 37.5 32 4.736 128
Radeon SDR / Radeon 7200 (SDR) June 1, 2000 AGP 4x, PCI 166 166 333 333 996 41.5 2.656 SDR
Radeon DDR / Radeon 7200 (DDR) April 1, 2000 AGP 4x 166/183A 166/183A 333/366A 333/366A 966/1098A 41.5/45.75A 32, 64 5.312/5.856A DDR
Radeon DDR / Radeon 7200 VIVO 2001 AGP 4x, PCI 166/183B 166/183B 333/366B 333/366B 966/1098B 41.5/45.75B 64 5.312/5.856B
Radeon DDR / Radeon 7500 VIVO "SE" 200 200 400 400 1200 50.0 6.400
Radeon 7500 LE RV200 (morpheus) 150 250 175 500 500 1500 62.5 32, 64 5.600 64
128
Radeon 7500 August 14, 2001 RV200 (morpheus) 290 230 580 580 1740 72.5 32, 64, 128[30] 7.360 128

1 Pixel pipelines : Vertex shaders : Texture mapping units : Render output units

A First number indicates cards with 32MB of memory. Second number indicates cards with 64MB of memory.
B First number indicates OEM cards. Second number indicates Retail cards.

IGP (3xx series)

  • All models are manufactured with a 180 nm fabrication process
  • All models include Direct3D 7.0 and OpenGL 1.3
  • Based on the Radeon VE
Model Launch Code name Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory
MOperations/s MPixels/s MTexels/s MVertices/s Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit)
Radeon 320 May 2002 A3 FSB 160 200, 266 1:0:3:1 160 160 480 0 ? 1.6, 2.128 DDR 64
Radeon 330 2002 RS200L (wilma) 150 150 150 450
Radeon 340 RS200 (wilma) 183 183 183 549

1 Pixel pipelines : Vertex shaders : Texture mapping units : Render output units

Radeon 8000 and 9000 series

  • All models are manufactured with a 150 nm fabrication process
  • All models include Direct3D 8.1 and OpenGL 1.4
Model Launch Code name Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory
MOperations/s MPixels/s MTexels/s MVertices/s Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit)
Radeon 8500 August 14, 2001 R200 (chaplin) AGP 4×, PCI 275 275 4:2:8:4 1100 1100 2200 137.5 64, 128 8.8 DDR 128
Radeon 8500 LE October 30, 2001 250 250 1000 1000 2000 125 8
Radeon 9000 August 1, 2002 RV250 (iris) 200 4:1:4:4 1000 50 6.4
Radeon 9000 Pro 275 275 1100 1100 1100 68.75 8.8
Radeon 9100 April 1, 2003 R200 (chaplin) 250 250 4:2:8:4 1000 1000 2000 125 8.0

4.0

128

64

Radeon 9200 RV280 (argus) AGP 8×, PCI 200 4:1:4:4 1000 62.5 64, 128, 256 6.4 128
Radeon 9200 SE March 1, 2003 200 166 800 800 800 50 2.67 64
Radeon 9250 March 1, 2004 240 200 960 960 960 60 3.2, 6.4 64, 128
Radeon 9250 SE 2004 AGP 8x 64

1 Pixel shaders : Vertex shaders : Texture mapping units : Render output units

IGP (9000 series)

  • All models are manufactured with a 150 nm fabrication process
  • All models include Direct3D 8.1 and OpenGL 1.4
  • Based on the Radeon 9200
Model Launch Code name Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory
MOperations/s MPixels/s MTexels/s MVertices/s Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit)
Radeon 9000 2003 RC350 FSB 300 400 4:1:2:2 600 600 600 75 16 - 128 3.2 DDR 64
Radeon 9100 RS300 (superman) 6.4 128
Radeon 9100 Pro May 3, 2004 RS350

1 Pixel shaders : Vertex shaders : Texture mapping units : Render output units

AGP (9000 series, X1000 series)

  • All models include Direct3D 9.0 and OpenGL 2.0
  • All models use an AGP 8x interface
Model Launch Code name Fab (nm) Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory
MOperations/s MPixels/s MTexels/s MVertices/s Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit)
Radeon 9500 October 24, 2002 R300 (Khan) 150 275 270 4:4:4:4 1100 1100 1100 275 64, 128 8.64

17.28

DDR 128

256

Radeon 9500 Pro 8:4:8:8 2200 2200 2200 128 8.64 128
Radeon 9550 2004 RV350 (Shivah) 130 250 200 4:2:4:4 1000 1000 1000 125 64, 128, 256 6.4
Radeon 9550 SE 3.2 64
Radeon 9600 2003 325 1300 1300 1300 162.5 128, 256 6.4 128
Radeon 9600 Pro March 6, 2003 400 300 1600 1600 1600 200 9.6
Radeon 9600 SE 2003 325 200 1300 1300 1300 162.5 64, 128, 256 3.2 64
Radeon 9600 XT September 30, 2003 RV360 500 300 2000 2000 2000 250 128, 256 9.6 128
Radeon 9600 TX 2003 (Medion OEM) R300 (Khan) 150 297 270 8:4:8:8 2376 2376 2376 287 128 8.6
Radeon 9700 TX 2002 (Dell OEM) 263 263 2104 2104 2104 275 16.83 256
Radeon 9700 October 24, 2002 275 270 2200 2200 2200 17.28
Radeon 9700 Pro July 18, 2002 325 310 2600 2600 2600 325 19.84
Radeon 9800 2003 R350
Radeon 9800 XL 350 2800 2800 2800 350
Radeon 9800 XXL[31] October 1, 2003 R360 390 338 3120 3120 3120 390 21.60 256[31]
Radeon 9800 Pro (R350) March 1, 2003[32] R350 380 340 (128 MB)

350 (256 MB)

3040 3040 3040 380 128

256

21.76

22.40

DDR

GDDR2

256
Radeon 9800 Pro (R360) 2003 R360 340 128 21.76 DDR
Radeon 9800 SE[33] March 1, 2003[34] R350 325

380[33]

270

340[33]

4:4:4:4[34] 1300

1520[33]

1300

1520[33]

1300

1520[33]

325

380[33]

128

256

8.64

21.76[33]

DDR 128

2562[33]

Radeon 9800 XT September 9, 2003 R360 412 365 8:4:8:8 3296 3296 3296 412 256 23.36 256
Radeon X1050 AGP December 7, 2006 RV350 (Shivah) 130 250 200 4:2:4:4 1000 1000 1000 125 128, 256 6.4 128
Model Launch Code name Fab (nm) Core clock (MHz) Memory clock (MHz) Core config1 MOperations/s MPixels/s MTexels/s MVertices/s Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit)
Fillrate Memory

1 Pixel shaders : Vertex Shaders : Texture mapping units : Render output units
2 The 256-bit version of the 9800 SE when unlocked to 8-pixel pipelines with third party driver modifications should function close to a full 9800 Pro.[35]

PCI-E (X3xx, X5xx, X6xx, X1000 series)

  • All models include Direct3D 9.0 and OpenGL 2.0
  • All models use a PCI-E ×16 interface
Model Launch Code name Fab (nm) Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory
MOperations/s MPixels/s MTexels/s MVertices/s Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit)
Radeon X300 September 1, 2004 RV370 (hari) 110 325 200 4:2:4:4 1300 1300 1300 162.5 64, 128 6.4 DDR 128
Radeon X300 LE
Radeon X300 SE 3.2 64
Radeon X300 SE HyperMemory April 4, 2005 300 32, 64, 128 onboard + up to 128 system
Radeon X550 June 21, 2005 400 250 1600 1600 1600 200 128, 256 8

4

128

64

Radeon X550 HyperMemory 128, 256 onboard + up to 512 system
Radeon X600 SE September 1, 2004 325 1300 1300 1300 162.5 128, 256 4 64
Radeon X600 400 1600 1600 1600 200 8 128
Radeon X600 Pro (RV370) 300 9.6
Radeon X600 Pro (RV380) RV380 (vishnu) 130
Radeon X600 XT 500 370 2000 2000 2000 250 11.84
Radeon X1050 (RV370) December 7, 2006 RV370 (hari) 110 400 250
333
1600 1600 1600 200 5.328 DDR
DDR2
64
128

1 Pixel shaders : Vertex Shaders : Texture mapping units : Render output units

IGP (X2xx, 11xx series)

  • All models include Direct3D 9.0 and OpenGL 2.0
  • Based on the Radeon X300
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory
MOperations/s MPixels/s MTexels/s MVertices/s Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit)
Radeon Xpress X200 November 8, 2004 RS480 (metallo) 130 HT 300 200-400 (DDR), 200 (sideport) 4:2:2:2 600 600 600 0 16-128 system + 16 sideport 1.6-6.4 system + 0.8 sideport DDR 64, 128
Radeon Xpress 1100 (originally Xpress 200) 2005 RS482 (grayskull) 110 HT 300 200-400 (DDR), 400-800 (DDR2) 16-128 system 1.6-

12.8 system

DDR, DDR2
Radeon Xpress 1150 (originally Xpress 200 for Intel) March 11, 2005 (Intel), May 23, 2006 (AMD) RC400, RC410, RS400, RS415, RS485 HT, FSB 400 800 800 800 1.6-12.8

1Pixel shaders : Vertex Shaders : Texture mapping units : Render output units

AGP (X7xx, X8xx)

  • All models include AGP
  • All models include Direct3D 9.0b and OpenGL 2.0
Model Launch Code name Fab (nm) Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory
MOperations/s MPixels/s MTexels/s MVertices/s Size (MB) Bandwidth (GB/s) Bus type Bus width (bit)
Radeon X700 Mar 2005 RV410 (alto) 110 400 350 8:6:8:8 3200 3200 3200 600 128, 256 11.2 DDR 128
Radeon X700 Pro Mar 1, 2005 425 432 3400 3400 3400 637.5 13.824 GDDR3
Radeon X800 SE Oct 2004 R420 (loki) 130 400 6800 256 25.6 256
Radeon X800 GT December 6, 2005 475 490 8:6:8:16 3800 7600 3800 712.5 31.36
Radeon X800 Dec. 2004 R430 110 400 350 12:6:12:16 4800 6400 4800 600 22.4
Radeon X800 GTO December 6, 2005 R420 (loki) 130 490 31.36
Radeon X800 Pro May 5, 2004 475 450 5700 7600 5700 712.5 28.8
Radeon X800 XL February 2, 2005 R430 110 400 490 16:6:16:16 6400 6400 6400 600 31.36
Radeon X800 XT May 4, 2004 R420 (loki) 130 500 500 8000 8000 8000 750 32
Radeon X800 XT PE 520 560 8320 8320 8320 780 35.84
Radeon X850 Pro February 28, 2005 R481 507 520 12:6:12:16 6084 8112 6084 760.5 33.28
Radeon X850 XT 520 540 16:6:16:16 8320 8320 8320 780 34.56
Radeon X850 XT PE 540 590 8640 8640 8640 810 37.76

1 Pixel shaders : Vertex shaders : Texture mapping units : Render output units

PCI-E (X5xx, X7xx, X8xx, X1000 series)

  • All models include PCI-E ×16
  • All models include Direct3D 9.0b and OpenGL 2.0
Model Launch Code name Fab (nm) Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory
MOperations/s MPixels/s MTexels/s MVertices/s Size (MB) Bandwidth (GB/s) Bus type Bus width (bit)
Radeon X550 XT January 24, 2007 RV410 (alto) 110 400 300 4:6:4:8 1600 3200 1600 600 128 4.8

9.6

DDR

GDDR3

64

128

Radeon X550 XTX 8:6:8:8 3200 3200
Radeon X700 SE April 1, 2005 200
250
4:6:4:8 1600 1600 128 3.2 DDR 64
Radeon X700 LE December 21, 2004 250 8:6:8:8 3200 3200 128 4
Radeon X1050 (RV410) Jan, 25, 2008 200 128, 256 6.4 128
Radeon X700 Sept. 2005 250
350
8
11.2
Radeon X700 Pro December 21, 2004 425 432 3400 3400 3400 637.5 128, 256 13.824 GDDR3
Radeon X700 XT Never Released 475 525 3800 3800 3800 712.5 128, 256 16.8
Radeon X740 XL March 7, 2005 (Medion OEM) 425 450 3400 3400 3400 637.5 128 14.4
Radeon X800 GT 128MB August 1, 2005 R423
R480 (thor)
130 475 175 8:6:8:16 3800 7600 3800 712.5 128 22.4 DDR 256
Radeon X800 GT 256MB 490 256 31.36 GDDR3
Radeon X800 December 1, 2004 R430 (thor) 110 392 350 12:6:12:16 4704 6272 4704 588 128, 256 22.4
Radeon X800 GTO 128MB September 15, 2005 R423
R480
R430 (thor)
130
110
400 4800 6400 4800 600 128 22.4
Radeon X800 GTO 256MB 490 256 31.36
Radeon X800 Pro May 5, 2004 R423 (thor) 130 475 450 5700 7600 5700 712.5 28.8
Radeon X800 XL December 1, 2004 (256 MB)
May 4, 2005 (512 MB)
R430 (thor) 110 400 490 16:6:16:16 6400 6400 6400 600 256, 512 31.36
Radeon X800 XT December 1, 2004 R423 (thor) 130 500 500 8000 8000 8000 750 256 32
Radeon X800 XT Platinum Edition May 5, 2004 520 560 8320 8320 8320 780 35.84
Radeon X850 Pro December 1, 2004 R480 (thor) 507 520 12:6:12:16 6084 8112 6084 760.5 33.28
Radeon X850 XT 520 540 16:6:16:16 8320 8320 8320 780 34.56
Radeon X850 XT CrossFire Master September 29, 2004 520 34.56
Radeon X850 XT Platinum Edition December 21, 2004 540 590 8640 8640 8640 810 37.76
Model Launch Code name Fab (nm) Core clock (MHz) Memory clock (MHz) Core config1 MOperations/s MPixels/s MTexels/s MVertices/s Size (MB) Bandwidth (GB/s) Bus type Bus width (bit)
Fillrate Memory

1 Pixel shaders : Vertex Shaders : Texture mapping units : Render output units

IGP (X12xx, 21xx)

  • All models include Direct3D 9.0b and OpenGL 2.0
  • Based on Radeon X700
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory
MOperations/s MPixels/s MTexels/s MVertices/s Size (MB) Bandwidth (GB/s) Bus type Bus width (bit)
Radeon Xpress X1200 February 28, 2007 RS690C (zeus) 80 HT 2.0 350 400 – 800 4:2:4:4 1400 1400 1400 175 256 – 512 6.4 – 12.8 DDR2 128
Radeon Xpress X1250 August 29, 2006 (Intel), February 28, 2007 (AMD) RS600, RS690 (zeus) FSB, HT 2.0 400 1600 1600 1600 200
Radeon Xpress 2100 March 4, 2008 RS740 (titan) 55 HT 2.0 500 2000 2000 2000 250

Radeon X1000 series

Note that ATI X1000 series cards (e.g. X1900) do not have Vertex Texture Fetch, hence they do not fully comply with the VS 3.0 model. Instead, they offer a feature called "Render to Vertex Buffer (R2VB)" that provides functionality that is an alternative Vertex Texture Fetch.

Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate Core config Fillrate Memory TDP (Watts) API support (version) Release Price (USD)
Core (MHz) Memory (MHz) MOperations/s MPixels/s MVertices/s MTexels/s Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Max. Direct3D OpenGL
Radeon X1300 October 5, 2005 (PCI-E)
December 1, 2005 (AGP)
RV515 90 107 100 AGP 8×
PCI
PCI-E ×16
450 250 4:2:4:4 1800 1800 225 1800 128
256
8.0 DDR DDR2 128 9.0c 2.1 $99 (128MB)
$129 (256MB)
Radeon X1300
HyperMemory
October 5, 2005 PCI-E ×16 128
256
512
4.0 DDR2 64 $
Radeon X1300 PRO October 5, 2005 (PCI-E)
November 1, 2006 (AGP)
AGP 8×
PCI-E ×16
600 400 2400 2400 300 2400 128
256
12.8 128 31 $149
Radeon X1300 XT August 12, 2006 RV530 157 150 500 12:5:4:4 6000 2000 625 2000 22 $89
Radeon X1550 January 8, 2007 RV516 107 100 AGP 8x
PCI
PCI-E x16
4:2:4:4 2200 2200 275 2200 128
256
512
27 $
Radeon X1600 PRO October 10, 2005 RV530 157 150 AGP 8×
PCI-E ×16
390
390–690
12:5:4:4 6000 2000 625 2000 12.48 DDR2
GDDR3
41 $149 (128MB)
$199 (256MB)
Radeon X1600 XT October 10, 2005 (PCI-E) 590 690 7080 2360 737.5 2360 256
512
22.08 GDDR3 42 $249
Radeon X1650 February 1, 2007 500 400 6000 2000 625 2000 12.8 DDR2 $
Radeon X1650 SE RV516 105 PCI-E ×16 635 4:2:4:4 256 DDR2 $
Radeon X1650 GT May 1, 2007 (PCI-E)
October 1, 2007 (AGP)
RV560 80 330 230 AGP 8×
PCI-E x16
400 24:8:8:8 9600 3200 800 3200 256
512
GDDR3 $
Radeon X1650 PRO August 23, 2006 (PCI-E)
October 15, 2006 (AGP)
RV535 131 600 700 12:5:4:4 7200 2400 750 2400 22.4 44 $99
Radeon X1650 XT October 30, 2006 RV560 230 525 24:8:8:8 12600 4200 1050 4200 55 $149
Radeon X1700 FSC November 5, 2007 (OEM) RV535 131 PCI-E ×16 587 695 12:5:4:4 7044 2348 733 2348 256 22.2 44 OEM
Radeon X1700 SE November 30, 2007 RV560 230 500 500 24:8:8:8 12000 4000 1000 4000 512 16.0 50 $
Radeon X1800
CrossFire Edition
December 20, 2005 R520 90 321 288 600 700 16:8:16:16 9600 9600 900 9600 512 46.08 256 113 $
Radeon X1800 GTO March 9, 2006 500 495 12:8:12:8 6000 6000 1000 6000 256
512
32.0 48 $249
Radeon X1800 XL October 5, 2005 500 16:8:16:16 8000 8000 1000 8000 256 70 $449
Radeon X1800 XT 625 750 10000 10000 1250 10000 256
512
48.0 113 $499 (256MB)
$549 (512MB)
Radeon X1900
CrossFire Edition
January 24, 2006 R580 384 352 625 725 48:8:16:16 30000 512 46.4 100 $599
Radeon X1900 GT May 5, 2006 575 600 36:8:12:12 20700 6900 1150 6900 256 38.4 75 $
Radeon X1900 GT Rev. 2 September 7, 2006 512 18432 6144 1024 6144 42.64
Radeon X1900 XT January 24, 2006 625 725 48:8:16:16 30000 10000 1250 10000 256
512
46.4 100 $549
Radeon X1900 XTX R580 650 775 31200 10400 1300 10400 512 49.6 135 $649
Radeon X1950
CrossFire Edition
August 23, 2006 R580+ 80 1000 31200 10400 1300 10400 64 GDDR4 $449
Radeon X1950 GT January 29, 2007 (PCI-E)
February 10, 2007 (AGP)
RV570 330 230 AGP 8x
PCI-E x16
500 600 36:8:12:12 18000 6000 1000 6000 256
512
38.4 GDDR3 57 $140
Radeon X1950 PRO October 17, 2006 (PCI-E)
October 25, 2006 (AGP)
575 690 20700 6900 1150 6900 44.16 66 $199
Radeon X1950 XT October 17, 2006 (PCI-E)
February 18, 2007 (AGP)
R580+ 384 352 AGP 8x
PCI-E 1.0 x16
625 700 (AGP)
900 (PCI-E)
48:8:16:16 30000 10000 1250 10000 44.8 (AGP)
57.6 (PCI-E)
96 $
Radeon X1950 XTX October 17, 2006 PCI-E 1.0 ×16 650 1000 31200 10400 1300 10400 512 64 GDDR4 125 $449
Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Core (MHz) Memory (MHz) Core config MOperations/s MPixels/s MVertices/s MTexels/s Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Max. Direct3D OpenGL Release price (USD)
Clock rate Fillrate Memory TDP (Watts) API support (version)

1 Pixel shaders : Vertex shaders : Texture mapping units : Render output units

Radeon HD 2000 series

Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate Core config Fillrate Memory Processing power
(GFLOPS)
TDP (Watts) Crossfire support API support (version) Release price (USD)
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (Bit) Single precision Double precision Max. Direct3D OpenGL OpenCL
Radeon HD 2350 June 28, 2007 RV610 65 180 85 PCIe 1.0 ×16 525 400 40:4:4 2.10 2.10 64 onboard + up to 256 system 3.20 DDR2 32 42.0 20 No 10.0 3.3 APP Stream Only  ?
Radeon HD 2400 PRO PCIe 1.0 ×16
AGP
PCI
128
256
512
6.40 64 $50–55
Radeon HD 2400 XT PCIe 1.0 ×16 650 500
700
2.60 2.60 256 8.0
11.2
DDR2
GDDR3
52.0 25 $75–85
Radeon HD 2600 PRO RV630 390 153 PCIe 1.0 ×16
AGP
600 120:8:4 2.40 4.80 256
512
16.0
22.4
128 144.0 35 $89–99
Radeon HD 2600 XT 800 800
1100
3.20 6.40 25.6
35.2
GDDR3
GDDR4
192.0 45
50
4-way CrossFire $119 (GDDR3) $149 (GDDR4)
Radeon HD 2900 GT November 6, 2007 R600 GT 80 720 420 PCIe 1.0 ×16 601 800 240:12:12 7.21 7.21 51.2 GDDR3 256 288.5 150 $200
Radeon HD 2900 PRO September 25, 2007 R600 PRO 600 800
925
320:16:16 9.6 9.6 512
1024
51.2
102.4
118.4
GDDR3
GDDR4
256
512
384.0 200 $250 (GDDR3)
$300 (GDDR4)
Radeon HD 2900 XT May 14, 2007 R600 XT 743 828
1000
11.9 11.9 105.6
128.0
GDDR3
GDDR4
512 475.5 215 $399

Radeon HD 3000 series

Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate Core config Fillrate Memory Processing power
(GFLOPS)
TDP (Watts) Crossfire Support API support (version) Release price (USD)
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (Bit) Single precision Double precision Max. Direct3D OpenGL OpenCL, ATI Stream
Radeon HD 3410 May 7, 2009 RV610 65 180 85 PCIe 1.0 ×16 519 396 40:4:4 2.08 2.08 256 6.34 DDR2 64 41.52 20 No 10.0 3.3 No, Yes ?
Radeon HD 3450 January 23, 2008 RV620 LE 55 181 67 PCIe 2.0 ×16
PCI
AGP 8×
600 500 2.40 2.40 256
512
8.00 48.0 25 10.1
Radeon HD 3470 RV620 PRO PCIe 2.0 ×16 800 950 3.20 3.20 15.2 DDR2
GDDR3
64.0 30
Radeon HD 3550 August 4, 2008 594 396 2.38 2.38 512 6.34 DDR2 47.52
Radeon HD 3570 July 5, 2010 796 495 3.18 3.18 7.92 63.68
Radeon HD 3610 September 24, 2009 RV630 PRO 65 390 153 PCIe 1.0 ×16 594 396 120:8:4 2.38 4.75 512
1024
12.7 128 142.6 35
Radeon HD 3650 January 23, 2008 RV635 PRO 55 378 PCIe 2.0 ×16
AGP 8×
725 405
800
2.90 5.80 256
512
1024
13.0
25.6
DDR2
GDDR3
GDDR4
174.0 65 2-way CrossFire
Radeon HD 3730 October 5, 2008 135 PCIe 2.0 ×16 722 405 2.89 5.78 512
1024
13.0 DDR2 173.3 No
Radeon HD 3750 796 693 3.18 6.37 512 22.2 GDDR3 191.0 2-way CrossFire
Radeon HD 3830 April 1, 2008 RV670 PRO 666 192 668 828 320:16:16 10.7 10.7 256 26.5 427.5 85.4 75 $129
Radeon HD 3850 November 19, 2007 PCIe 2.0 x16
AGP 8x
830
900
256
512
1024
53.1
57.6
GDDR3
GDDR4
256 85.4 4-way CrossFire $179
Radeon HD 3870 RV670 XT 777 900
1126
12.4 12.4 512
1024
57.6
72.1
497.3 99.2 106 $219
Radeon HD 3850 X2 April 4, 2008 RV670 PRO 666×2 192×2 PCIe 2.0 ×16 668 828 320:16:16×2 10.7×2 10.7×2 512×2 53.0×2 GDDR3 256×2 428.2×2 85.6×2 140 2-way CrossFire $349
Radeon HD 3870 X2 January 28, 2008 R680 825 901
1125
13.2×2 13.2×2 57.6×2
72.1×2
GDDR3
GDDR4
528.0×2 105.6×2 165 $449

IGP (HD 3000)

  • All Radeon HD 3000 IGP models include Direct3D 10.0 and OpenGL 3.3
Model Launch Code name Graphics core Fab (nm) Transistors (million) Die size (mm2) Bus interface Core clock2 (MHz) Core config1 Fillrate Memory3 Processing power
(GFLOPS)
Features / Notes
Pixel (GP/s) Texture (GT/s) FP32 (GP/s) Size (MB) Bandwidth (GB/s) Bus type Effective clock (MHz) Bus width (Bit)
Radeon 3000 Graphics (760G Chipset) 2009 RS780L[36] RV610 55 205 ~73 (~9 × 8.05) HT 3.0 350 40:4:4 1.4 1.4 0.7 Up to 512 system 20.8 (system) HT (system) 28 AVIVO
Radeon 3100 Graphics (780V Chipset)
  • 2008
  • Jan 23 (China)
  • Mar 4 (worldwide)
RS780C
Radeon HD 3200 Graphics (780G Chipset) RS780 500 2 2 1 Up to 512 system + optional 128 sideport 20.8 (system) + 2.6 (sideport) HT (system) + DDR2-1066 DDR3-1333 (sideport) 1333 (sideport) 16 (sideport) 40 UVD+, 8× AA (wide-tent CFAA)
Radeon HD 3300 Graphics (790GX Chipset) Jul 2008 RS780D 700 2.8 2.8 1.4 Up to 512 system + 128 sideport HT (system) + DDR3-1333 (sideport) 56 UVD+, PowerPlay

1 Unified shaders : Texture mapping units : Render output units
2 The clock frequencies may vary in different usage scenarios, as AMD PowerPlay technology is implemented. The clock frequencies listed here refer to the officially announced clock specifications.
3 The sideport is a dedicated memory bus. It is preferably used for a frame buffer.

All-in-Wonder series

Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory API (version)
MPixels/s MTexels/s MVertices/s Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
All-in-Wonder VE December 2, 2002 RV100 180 PCI 183 183 1:0:3:1 183 549 0 64 2.9 DDR 64 7.0 1.3
All-in-Wonder Radeon July 31, 2000 R100 AGP 4× 166 166 2:1:6:2 332 996 41.5 32 5.312 128
All-in-Wonder 7500 January 22, 2002 RV200 150 260 180 520 1560 65 64 5.760
All-in-Wonder 8500 April 4, 2002 R200 260 275 4:2:8:4 1100 2200 137.5 128 8.8 8.1 1.4
All-in-Wonder 8500 DV August 30, 2001 230 190 920 1840 115 64 6.08
All-in-Wonder 9000 Pro March 31, 2003 RV250 AGP 8x 275 225 4:1:4:4 1110 1110 68.75 64, 128 7.2
All-in-Wonder 9200 January 26, 2004 250 200 1000 1000 62.5 128 6.4
All-in-Wonder 9200 SE N/A 166 2.656 64
All-in-Wonder 9600 January 26, 2004 RV350 130 325 400 4:2:4:4 1300 1300 162.5 6.4 128 9.0 2.0
All-in-Wonder 9600 Pro August 5, 2003 400 650 1600 1600 200 10.4
All-in-Wonder 9600 XT January 26, 2004 525 2100 2100 262.5
All-in-Wonder 9700 Pro December 30, 2002 R300 150 325 620 8:4:8:8 2600 2600 325 19.84 256
All-in-Wonder 9800 Pro April 7, 2003 R350 380 680 3040 3040 380 21.76
All-in-Wonder 9800 SE November 1, 2003 4:4:4:8 1520 10.88 128
All-in-Wonder X600 Pro September 21, 2004 RV370 110 400 600 4:2:4:4 1600 1600 200 AGP 128,

PCI-E 256

9.6
All-in-Wonder X800 GT August 8, 2005 R430 PCI-E ×16 490 980 8:6:8:16 6400 3200 600 128 31.36 GDDR3 256 9.0b
All-in-Wonder X800 XL July 5, 2005 PCI-E ×16
AGP 8×
400 16:6:16:16 6400 256
All-in-Wonder X800 XT September 9, 2004 R420 130 AGP 8× 500 1000 8000 8000 750 32
All-in-Wonder 2006 December 22, 2005 RV515 90 PCI-E ×16 450 800 4:2:4:4 1800 1800 225 12.8 DDR2 128 9.0c
All-in-Wonder X1800 XL November 21, 2005 R520 500 1000 16:8:16:16 8000 8000 1000 32 GDDR3 256
All-in-Wonder X1900 January 24, 2006 R580 960 48:8:16:16 30.72
All-in-Wonder HD 3650 June 28, 2008 RV635 55 725 1200 120:8:4 2900 5800 N/A 512 19.2 DDR2 128 10.1 3.3

1 Pixel shaders : Vertex shaders : Texture mapping units : Render output units
2 Unified shaders : Texture mapping units : Render output units

Radeon HD 4000 series

Model4 Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate Core config1 Fillrate Memory2 Processing power
(GFLOPS)
TDP3 (Watts) Crossfire support API support (version) Release price (USD)
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Double precision Idle Max. Direct3D OpenGL OpenCL
Radeon HD 4350 September 30, 2008 RV710 55 242 73 PCIe 2.0 ×16
PCIe 2.0 ×1
AGP 8×
600 400
650
80:8:4 2.40 4.80 256
512
1024
6.40
10.4
DDR2
DDR3
64 92.0 No 20 No 10.1 3.3 1.0 ?
Radeon HD 4550 September 30, 2008 PCIe 2.0 ×16 600 655
800
10.5
12.8
96.0 No 25
Radeon HD 4570 November 25, 2008 242 650 500 2.60 5.20 1024 8.00 DDR2 104.0 No
Radeon HD 4580 November 20, 2011 RV635 PRO 378 135 796 693 120:8:4 3.18 6.37 512 22.2 GDDR3 128 191.0 No 65
Radeon HD 4650 September 10, 2008 RV730 PRO 514 146 PCIe 2.0 ×16
AGP 8×
600
650
400 – 500
500
700
320:32:8 4.80
5.20
19.2
20.8
256
512
1024
12.8 - 16.0
16.0
22.4
DDR2
GDDR3
GDDR4
64
128
384.0
416.0
No 48 2-way Crossfire
Radeon HD 4670 September 10, 2008 RV730 XT PCIe 2.0 ×16
AGP 8×
750 400 – 500
900
1000
320:32:8 6.00 24.0 512
1024
12.8 – 16.0
28.8
32.0
DDR2
GDDR3
GDDR4
128 480.0 No 59 $79
Radeon HD 4730 June 8, 2009 RV770 CE 956 256 PCIe 2.0 ×16 700
750
900 640:32:8 5.60
6.00
22.4
24.0
512 57.6 GDDR5 896.0
960.0
179.2
192.0
110 ?
Radeon HD 4750 September 9, 2009 RV740 40 826 137 730 800 640:32:16 11.7 23.4 51.2 934.4 80
Radeon HD 4770 April 28, 2009 750 800 12.0 24.0 51.2 960.0 192.0 $109
Radeon HD 4810 May 28, 2009 RV770 CE 55 956 256 625
750
900 640:32:8 5.00
6.00
20.0
24.0
57.6 800.0
960.0
160.0
192.0
95 ?
Radeon HD 4830 October 21, 2008 RV770 LE 575 900 640:32:16 9.20 18.4 512
1024
57.6 GDDR3
GDDR4
256 736.0 147.2 $130
Radeon HD 4850 June 25, 2008 RV770 PRO 625 993 800:40:16 10.0 25.0 512
1024
2048
63.55 GDDR3
GDDR4
GDDR5
1000 200.0 110 4-way Crossfire $199
Radeon HD 4860 September 9, 2009 RV790 GT 959 282 700 750 640:32:16 11.2 22.4 512
1024
96 GDDR5 896.0 179.2 130 ?
Radeon HD 4870 June 25, 2008 RV770 XT 956 256 750 900 800:40:16 12.0 30.0 512
1024
2048
115.2 1200 240.0 150 $299
Radeon HD 4890 April 2, 2009 RV790 XT 959 282 850 975 13.6 34.0 1024
2048
124.8 GDDR5 1360 272.0 190 $249
Radeon HD 4850 X2 November 7, 2008 R700 (2xRV770 PRO) 956×2 256×2 625 995 800:40:16×2 10.0×2 25.0×2 512×2
1024×2
63.7×2 GDDR3 256×2 2000 400.0 250 2-way Crossfire $339
Radeon HD 4870 X2 August 12, 2008 R700 (2xRV770 XT) 750 900 12×2 30×2 1024×2 115.2×2 GDDR5 2400 480.0 286 $449
Model4 Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate Core config1 Fillrate Memory2 Processing power
(GFLOPS)
TDP3 (Watts) Crossfire support API support (version) Release price (USD)
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Double precision Idle Max. Direct3D OpenGL OpenCL

1 Unified shaders : Texture mapping units : Render output units
2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.
3 The TDP is reference design TDP values from AMD. Different non-reference board designs from vendors may lead to slight variations in actual TDP.
4 All models feature UVD2 and PowerPlay.

IGP (HD 4000)

  • All Radeon HD 4000 IGP models include Direct3D 10.1 and OpenGL 2.0[37]
Model Launch Code name Graphics core Fab
(nm)
Transistors
(million)
Die size
(mm2)
Bus interface Core Fillrate Memory3 Processing power
(GFLOPS)
Features / Notes
Config1 Clock2 (MHz) Pixel (GP/s) Texture (GT/s) FP32 (GP/s) Size (MB) Bandwidth (GB/s) Bus type Effective clock (MHz) Bus width (Bit)
Radeon HD 4200 Graphics (785G Chipset) Aug 2009 RS880 RV620 55 >205 ~73
(~9 × 8.05)
HT 3.0 40:4:4 500 2 2 1 Up to 512 system + optional 128 sideport 20.8 (system) + 2.6 (sideport) HT (system) + DDR2-1066 DDR3-1333 (sideport) 1333 (sideport) 16 (sideport) 40 UVD2
Radeon HD 4250 Graphics (880G Chipset) Mar 2010 RS880 560 2.24 2.24 1.12 HT (system) + DDR3-1333 (sideport) 44.8
Radeon HD 4290 Graphics (890GX Chipset) RS880D 700 2.8 2.8 1.4 Up to 512 system + 128 sideport 56

1 Unified shaders : Texture mapping units : Render output units
2 The clock frequencies may vary in different usage scenarios, as ATI PowerPlay technology is implemented. The clock frequencies listed here refer to the officially announced clock specifications.
3 The sideport is a dedicated memory bus. It preferably used for frame buffer.

Radeon HD 5000 series

  • The HD5000 series is the last series of AMD GPUs which supports two analog CRT-monitors with a single graphics card (i.e. with two RAM-DACs).
  • AMD Eyefinity introduced.
Model Launch Code
name
Fab
(nm)
Transistors
(million)
Die size
(mm2)
Bus
interface
Clock rate Core
config[lower-alpha 1]
Fillrate Memory Processing power
(GFLOPS)
TDP (Watts)[lower-alpha 2] CrossFire
support
API support (version) Release price (USD)
Core
(MHz)
Memory
(MHz)
Pixel
(GP/s)
Texture
(GT/s)
Size
(MB)
Bandwidth
(GB/s)
Bus type Bus width
(Bit)
Single precision Double precision Idle Max. Direct3D OpenGL OpenCL
Radeon HD 5450 Feb 4, 2010 Cedar 40 292 59 PCIe 2.1 x16
PCI
PCIe 2.1 x1
650
650
650
400
800
800
80:8:4 2.6 5.2 512
1024
2048
6.4
12.8
DDR2
DDR3
64 104 6.4 19.1 No 11.3
(11 0)
4.5 1.2 ~50
Radeon HD 5550 Feb 9, 2010 Redwood LE 627 104 PCIe 2.1 x16 550
550
550
320:16:8 4.4 8.8 12.8
25.6
51.2
DDR2
GDDR3
GDDR5
128 352 10 39 ~70
Radeon HD 5570 Redwood PRO 650
650
400
900
400:20:8 5.2 13.0 12.8
28.8
57.6
520 80
Radeon HD 5610 May 14, 2011 650 500 1024 16.0 GDDR3  ?  ?
Radeon HD 5670 Jan 14, 2010 Redwood XT 775
775
800
1000
6.2 15.5 512
1024
2048
25.6
64.0
GDDR3
GDDR5
620 15 64 4-way CrossFire 99
Radeon HD 5750 Oct 13, 2009 Juniper PRO 1040 170 700
700
1150
1150
720:36:16 11.2 25.2 512
1024
73.6 GDDR5 1008 16 86 129
Radeon HD 5770 Juniper XT 850
850
1200
1200
800:40:16 13.6 34.0 76.8 1360 18 108 159
Radeon HD 5830 Feb 25, 2010 Cypress LE 2154 334 800 1000 1120:56:16 12.8 44.8 1024 128.0 256 1792 358.4 25 175 239
Radeon HD 5850 Sep 30, 2009 Cypress PRO 725
725
1000
1000
1440:72:32 23.2 52.2 1024
2048
2088 417.6 27 151 259
Radeon HD 5870 Sep 23, 2009 Cypress XT 850
850
1200
1200
1600:80:32 27.2 68.0 153.6 2720 544 188
228
379
Radeon HD 5870
Eyefinity Edition[lower-alpha 3][38]
Mar 11, 2010 850 1200 2048 228 479
Radeon HD 5970 Nov 18, 2009 Hemlock 2154×2 334×2 725
725
1000
1000
1600:80:32×2 46.4 116.0 1024×2
2048×2
128×2 256×2 4640 928 51 294 2-way CrossFire 599
  1. Unified shaders : Texture mapping units : Render output units
  2. The TDP is reference design TDP values from AMD. Different non-reference board designs from vendors may lead to slight variations in actual TDP.
  3. All chips feature AMD Eyefinity, but the Radeon HD 5870 Eyefinity Edition card also have six mini DisplayPort outputs, all of which can be simultaneously active.

Radeon HD 6000 series

• The Radeon HD 6000 series has a new tesselation engine which is said to double the performance when working with tesselation compared to the previous HD 5000 series.

Model
(Codename)
Release Date
& Price
Architecture
& Fab
Transistors
& Die Size
Core Fillrate[lower-alpha 1][lower-alpha 2] Processing power[lower-alpha 3]
(GFLOPS)
Memory[lower-alpha 4] TDP (Watts) Bus interface
Config[lower-alpha 5] Clock (MHz) Texture
(GT/s)
Pixel
(GP/s)
Single Double Size (MB) Bus type
& width
Clock
(MHz)
Bandwidth (GB/s) Idle Max
Radeon HD 6350
(Cedar)
April 7, 2011
$23 USD
TeraScale 2
40 nm
292×106
59 mm2
80:8:4 650 5.2 2.6 104 512 DDR3
64-bit
800 12.8 6.4 19.1 PCIe 2.1 ×16
Radeon HD 6450
(Caicos)
February 7, 2011
OEM
370×106
67 mm2
160:8:4 625
750
5.0
6.0
2.5
3.0
200
240
512 DDR3
64-bit
533
800
8.5
12.8
9 18
27
Radeon HD 6450
(Caicos)
April 7, 2011
$55 USD
160:8:4 625
750
5.0
6.0
2.5
3.0
200
240
512
1024
2048
DDR3
64-bit
800
900
12.8
14.4
9 18
27
Radeon HD 6570
(Turks Pro)
February 7, 2011
OEM
716×106
118 mm2
480:24:8 650 15.6 5.2 624 1024 DDR3
128-bit
900 28.8 10 44
Radeon HD 6570
(Turks Pro)
April 19, 2011
$79 USD
480:24:8 650 15.6 5.2 624 2048
4096
DDR3
GDDR5
128-bit
667
1000
21.3
64
11 60
Radeon HD 6670
(Turks XT)
April 19, 2011
$99 USD
480:24:8 800 19.2 6.4 768 512
1024
2048
800
1000
25.6
64
12 66
Radeon HD 6750
(Juniper Pro)
January 21, 2011
OEM
1040×106
166 mm2
720:36:16 700 25.2 11.2 1008 512
1024
GDDR5
128-bit
1150 73.6 16 86
Radeon HD 6770
(Juniper XT)
April 19, 2011
?
800:40:16 850 34.0 13.6 1360 512
1024
1200
1050
76.8
67.2
18 108
Radeon HD 6790
(Barts LE)
April 4, 2011
$149 USD
1700×106
255 mm2
800:40:16 840 33.6 13.4 1344 1024 GDDR5
256-bit
1050 134.4 19 150
Radeon HD 6850
(Barts Pro)
October 22, 2010
$179 USD
960:48:32 775 37.2 24.8 1488 1024 1000 128 19 127
Radeon HD 6870
(Barts XT)
October 22, 2010
$239 USD
1120:56:32 900 50.4 28.8 2016 1024
2048
1050 134.4 19 151
Radeon HD 6930
(Cayman CE)
December 2011
$180 USD
TeraScale 3
40 nm
2640×106
389 mm2
1280:80:32 750 60.0 24.0 1920 480 1024
2048
GDDR5
256-bit
1200 153.6 18 186
Radeon HD 6950
(Cayman Pro)
December 15, 2010
$259 USD
$299 USD
1408:88:32 800 70.4 25.6 2253 563 1024
2048
1250
1250
160 20 200
Radeon HD 6970
(Cayman XT)
December 15, 2010
$369 USD
1536:96:32 880 84.5 28.2 2703 675 2048 1375 176 20 250
Radeon HD 6990
(Antilles XT)
March 8, 2011
$699 USD
2640×106
389 mm2
2× 1536:96:32 830
79.6

26.5
5099 1276.88
2048
GDDR5
256-bit
1250
160
37 375
  1. Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  2. Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  3. Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  4. The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with DDR memory.
  5. Unified Shaders : Texture Mapping Units : Render Output Units

IGP (HD 6000)

  • All models feature the UNB/MC Bus interface
  • All models do not feature double-precision FP
  • With driver Update OpenGL 4.4 available (Last Catalyst 15.12). OpenGL 4.5 available with Crimson Beta (driver version 15.30 or higher).
  • All models feature Angle independent anisotropic filtering, UVD3, and AMD Eyefinity capabilities, with up to three outputs.
  • All models feature 3D Blu-ray Disc acceleration.
  • Embedded GPU's as part of AMD's Lynx platform APU's.
Model Launch Codename Architecture Fab (nm) Core Clock rate (MHz) Config core[lower-alpha 1] Fillrate Shared Memory Processing power
(GFLOPS)
API compliance (version) Combined TDP[lower-alpha 2] APU Series
Pixel (GP/s) Texture (GT/s) Bus width (bit) Bus type Bandwidth (GB/s) Direct3D OpenGL OpenCL Vulkan Idle (W) Max. (W)
Radeon HD 6370D November 1, 2011 WinterPark TeraScale 2 32 443 160:8:4 1.77 3.54 128 DDR3-1600 25.6 142 11.3
(11_0)
4.5 1.2 Un­known 65 E2
Radeon HD 6410D June 20, 2011 443[lower-alpha 3]600 1.772.4 3.544.8 142192 A4
Radeon HD 6530D BeaverCreek 443 320:16:8 3.54 7.08 DDR3-1866 29.9 284 65100 A6
Radeon HD 6550D 600 400:20:8 4.8 12 480 A8
  1. Unified Shaders : Texture Mapping Units : Render Output Units
  2. TDP specified for AMD reference designs, includes CPU power consumption. Actual TDP of retail products may vary.
  3. A4-3300 series runs the Radeon HD 6410D at a speed of 443 MHz. Remaining A4 series run at 600 MHz.

Radeon HD 7000 series

Model
(Codename)
Launch Architecture
Fab
Transistors
Die Size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory[lower-alpha 5] TDP (Watts) Bus interface Release Price (USD)
Config[lower-alpha 6] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Single Double Size (MiB) Bus type
& width
Clock (MHz) Bandwidth (GB/s) Idle Max.
Radeon HD 7350
(Cedar)
January 2012 TeraScale 2[lower-alpha 7]
40 nm
292×106
59 mm2
80:8:4 400
650
3.2
5.2
1.6
2.6
104 256
512
DDR2
DDR3
64-bit
400
800
900
6.4
12.8
14.4
6.4 19.1 PCIe 2.1 ×16 OEM
Radeon HD 7450
(Caicos)
January 2012 370×106
67 mm2
160:8:4 625
750
5.0
6.0
2.5
3.0
200
240
512
1024
DDR3
64-bit
533
800
8.5
12.8
9 18 PCIe 2.1 ×16 OEM
Radeon HD 7470
(Caicos)
January 2012 160:8:4 625
775
5.0
6.2
2.5
3.1
200
248
512
1024
DDR3
GDDR5
64-bit
800
900

12.8
28.8

9 27 PCIe 2.1 ×16 OEM
Radeon HD 7510
(Turks LE)
February 2013 716×106
118 mm2
320:16:4 650 10.4 2.6 416 1024 DDR3
128-bit
667 21.3 Un­known Un­known PCIe 2.1 ×16 OEM
Radeon HD 7570
(Turks Pro-L)
January 2012 480:24:8 650 15.6 5.2 624 512
1024
DDR3
GDDR5
128-bit
900
1000

28.8
64

10
11
44
60
PCIe 2.1 ×16 OEM
Radeon HD 7670
(Turks XT)
January 2012 480:24:8 800 19.2 6.4 768 512
1024
GDDR5
128-bit
1000 64 12 66 PCIe 2.1 ×16 OEM
Radeon HD 7730
(Cape Verde LE)
April 2013 GCN 1st gen
28 nm
1500×106
123 mm2
384:24:8 800 19.2 6.4 614.4 38.4 1024 DDR3
GDDR5
128-bit
1125 25.6
72

10 47 PCIe 3.0 ×16 $60
Radeon HD 7750
(Cape Verde Pro)
February 2012 512:32:16 800
900
25.6
28.8
12.8
14.4
819.2
921.6
51.2
57.6
1024
2048
4096
DDR3
GDDR5
128-bit
800
1125

25.6
72

10 55 PCIe 3.0 ×16 $110
Radeon HD 7770
GHz Edition
(Cape Verde XT)
February 2012 640:40:16 1000 40 16 1280 80 1024
2048
GDDR5
128-bit
1125 72 10 80 PCIe 3.0 ×16 $160
Radeon HD 7790
(Bonaire XT)
March 2013 GCN 2nd gen
28 nm
2080×106
160 mm2
896:56:16 1000 56.0 16.0 1792 128 1024
2048
GDDR5
128-bit
1500 96 10 85 PCIe 3.0 ×16 $150
Radeon HD 7850
(Pitcairn Pro)
March 2012 GCN 1st gen
28 nm
2800×106
212 mm2
1024:64:32 860 55.04 27.52 1761.28 110.08 1024
2048
GDDR5
256-bit
1200 153.6 10 130 PCIe 3.0 ×16 $250
Radeon HD 7870
GHz Edition
(Pitcairn XT)
March 2012 1280:80:32 1000 80 32 2560 160 2048 1200 153.6 10 175 PCIe 3.0 ×16 $350
Radeon HD 7870 XT
(Tahiti LE)
November 2012 4313×106
352 mm2
1536:96:32 925
975
88.8 29.6 2841.6
2995.2
710.4
748.8
2048 GDDR5
256-bit
1500 192.0 15 185 PCIe 3.0 ×16 $270
Radeon HD 7950
(Tahiti Pro)
January 2012 1792:112:32 800 89.6 25.6 2867.2 717 3072 GDDR5
384-bit
1250 240 15 200 PCIe 3.0 ×16 $450
Radeon HD 7950 Boost
(Tahiti Pro2)
August 2012 1792:112:32 850
925
103.6 29.6 3046.4
3315.2
761.6
828.8
3072 GDDR5
384-bit
1250 240 15 225 PCIe 3.0 ×16 $330
Radeon HD 7970
(Tahiti XT)
January 2012 2048:128:32 925 118.4 29.6 3788.8 947.2 3072
6144
GDDR5
384-bit
1375 264 15 250 PCIe 3.0 ×16 $550
Radeon HD 7970
GHz Edition
(Tahiti XT2)
June 2012 2048:128:32 1000
1050
128.0 32 4096
4300.8
1024
1075
3072
6144
GDDR5
384-bit
1500 288 15 250 PCIe 3.0 ×16 $500
Radeon HD 7990
(New Zealand)
April 2013 4313×106
352 mm2
2× 2048:128:32 950
1000
2× 128 2× 32 7782.4
8192
1945.6
2048
2× 3072 GDDR5
384-bit
1500 2× 288 15 375 PCIe 3.0 ×16 $1000
Model
(Codename)
Launch Architecture
Fab
Transistors
Die Size
Config[lower-alpha 6] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Single Double Size (MiB) Bus type
& width
Clock
(MHz)
Bandwidth (GB/s) Idle Max. Bus interface Release Price (USD)
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory[lower-alpha 5] TDP (Watts)
  1. 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. The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with DDR memory.
  6. Unified Shaders : Texture Mapping Units : Render Output Units
  7. Lacks hardware video encoder

IGP (HD 7000)

  • All models feature the UNB/MC Bus interface
  • All models do not support double-precision FP
  • TeraScale 2 (VLIW5) based APUs feature angle independent anisotropic filtering, UVD3, and Eyefinity capabilities, with up to three outputs.
  • TeraScale 3 (VLIW4) based APUs feature angle independent anisotropic filtering, UVD3.2, and Eyefinity capabilities, with up to four outputs.
Model Launch Code name Architecture Fab (nm) Core Clock (MHz) Config core[lower-alpha 1] Fillrate Shared Memory Processing power
(GFLOPS)
API compliance (version) TDP (W)[lower-alpha 2] APU
Base Turbo Texture (GT/s) Pixel (GP/s) Bus width (bit) Bus type Bandwidth (GB/s) Direct3D OpenGL[lower-alpha 3] OpenCL
Radeon HD 7310[40] June 6, 2012 Ontario TeraScale 2[lower-alpha 4] 40 500 80:8:4 4.00 2.00 64 DDR3-1066 8.53 80 11.3
(11_0)
4.5 1.2 18 E2-1200
Radeon HD 7340[40] 523 680 5.44 2.72 DDR3-1333 10.66 83.6108.8 E2-1800
Radeon HD 7480D June 1, 2012 Scrapper TeraScale 3[lower-alpha 4] 32 723 128:8:4 11.6 2.9 128 DDR3-1600 25.6 185 65 A4-4000, A4-5300
Radeon HD 7540D 760 192:12:4 Un­known DDR3-1866 29.9 292 A6-5400K
Radeon HD 7560D Devastator 256:16:4 389 65100 A8-5500, A8-5600K
Radeon HD 7660D 760 800 384:24:8 16.2 2.7 584614 A10-5700 (760 MHz), A10-5800K (800 MHz)
  1. Unified Shaders : Texture Mapping Units : Render Output Units
  2. TDP specified for AMD reference designs, includes CPU power consumption. Actual TDP of retail products may vary.
  3. OpenGL 4.5 possible for Terascale 3 with AMD Radeon Software Crimson Beta (driver 15.30 or higher).[39]
  4. Lacks hardware video encoder

Radeon HD 8000 series

Model
(Codename)
Launch Architecture
(Fab)
Transistors
Die Size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory[lower-alpha 5] TDP (W) Bus interface
Config[lower-alpha 6] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Single Double Size (MiB) Bus type &
width (bit)
Clock (MHz) Band-
width (GB/s)
Idle
Max
Radeon
HD 8350
(Cedar)
January 8, 2013 TeraScale 2[lower-alpha 7]
(40 nm)
292×106
59 mm2
80:8:4 400650 3.2
5.2
1.6
2.6
104 256
512
DDR2
DDR3
64-bit
400
800

6.4
12.8

6.4
19.1
PCIe 2.1 ×16
Radeon
HD 8450
(Caicos)
January 8, 2013 370×106
67 mm2
160:8:4 625 5.0 2.5 200 512 DDR3
64-bit
533 8.53 9
18
Radeon
HD 8470
(Caicos)
January 8, 2013 750 6.0 3.0 240 1024 GDDR5
64-bit
800 25.6 9
35
Radeon
HD 8490
(Caicos)
July 23, 2013 875 7.0 3.5 280 1024 DDR3L
GDDR5
64-bit
800
900

12.8
28.8

9
35
Radeon
HD 8570
(Oland)
January 8, 2013 GCN 1st gen
(28 nm)
950×106
77 mm2
384:24:8 730 19.2 6.4 560 35 2048 DDR3
GDDR5
128-bit
900
1150

28.8
72

12
66
PCIe 3.0 ×8
Radeon
HD 8670
(Oland)
January 8, 2013 1000 24 8 768 48 2048 GDDR5
128-bit
1150 72 16
86
Radeon
HD 8730
(Cape Verde LE)
September 5, 2013 1500×106
123 mm2
384:24:8 800 19.2 6.4 614.4 44.8 1024 GDDR5
128-bit
1125 72 10
47
PCIe 3.0 ×16
Radeon
HD 8760
(Cape Verde XT)
January 8, 2013 640:40:16 1000 40 16 1280 80 2048 GDDR5
128-bit
1125 72 16
80
PCIe 3.0 ×16
Radeon
HD 8770
(Bonaire XT)
September 2, 2013 GCN 2nd gen
(28 nm)
2080×106
160 mm2
896:56:16 1000 56.0 16.0 1792 128 2048 GDDR5
128-bit
1500 96 10
85
PCIe 3.0 ×16
Radeon
HD 8870
(Pitcairn XT)[41]
January 8, 2013 GCN 1st gen
(28 nm)
2800×106
212 mm2
1280:80:32 1000 80 32 2560 160 2048 GDDR5
256-bit
1200 153.6 15
150
PCIe 3.0 ×16
Radeon
HD 8950
(Tahiti Pro)
January 8, 2013 4313×106
352 mm2
1792:112:32 850
925
95.2
103.6
27.2
29.6
3046.4
3315.2
761.6
828.8
3072 GDDR5
384-bit
1250 240 15
225
PCIe 3.0 ×16
Radeon
HD 8970
(Tahiti XT2)
January 8, 2013 2048:128:32 1000
1050
128.0
134.4
32
33.6
4096
4301
1024
1075
3072 GDDR5
384-bit
1500 288 15
250
PCIe 3.0 ×16
Radeon
HD 8990
(Malta)
April 24, 2013 4313×106
2× 352 mm2
2× 2048:128:32 950
1000
2× 128 2× 32 7782
8192
1946
2048
2× 3072 GDDR5
384-bit
1500 2× 288 15
375
PCIe 3.0 ×16
Model
(Codename)
Launch Architecture
(Fab)
Transistors
Die Size
Config[lower-alpha 6] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Single Double Size (MiB) Bus type &
width (bit)
Clock (MHz) Band-
width (GB/s)
Idle
Max
Bus interface
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory[lower-alpha 5] TDP (W)
  1. 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. The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as with DDR memory.
  6. Unified Shaders : Texture Mapping Units : Render Output Units
  7. Lacks hardware video encoder

Radeon 200 series

Model
(codename)
Release Date
& Price
Architecture
& Fab
Transistors
& Die Size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP Bus interface
Config[lower-alpha 5] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Single Double Size (MiB) Bus type
& width
Clock (MT/s) Band-
width (GB/s)
Radeon
R5 220[42]
(Caicos Pro)
December 21, 2013
OEM
Terascale 2[lower-alpha 6]
40 nm
370×106
67 mm2
80:8:4 625
650
5 2.5 200 1024 DDR3
64-bit
1066 8.53 18 W PCIe 2.1 ×16
Radeon
R5 230[43]
(Caicos Pro)
April 3, 2014[44]
?
160:8:4 625 5 2.5 200 1024
2048
DDR3
64-bit
1066 8.53 19 W[45]
Radeon
R5 235[42]
(Caicos XT)
December 21, 2013
OEM
160:8:4 775 6.2 3.1 248 1024 DDR3
64-bit
1800 14.4 35 W[46]
Radeon
R5 235X[42]
(Caicos XT)
December 21, 2013
OEM
160:8:4 875 7.0 3.5 280 1024 DDR3
64-bit
1800 14.4 18 W
Radeon
R5 240[42]
(Oland)
November 1, 2013[47]
OEM
GCN 1st gen
28 nm
1040×106
90 mm2
384:24:8 730
780
14.6 5.84 560.6
599
29.2 1024
2048
DDR3
GDDR3
64-bit
1800
2000

14.4
16.0

30 W PCIe 3.0 ×8
Radeon
R7 240[48]
(Oland Pro)
August 8, 2013
US $69
320:20:8 730
780
14.6 5.84 467.2
499.2
29.2 2048
4096
DDR3
GDDR5
128-bit
1800
4500

28.8
72

30 W, <45 W (4 GB)[49]
Radeon
R7 250[48]
(Oland XT)
August 8, 2013
US $89
384:24:8 1000
(1050)
24 8 768
806.4
48 1024
2048
DDR3
GDDR5
128-bit
1800
4600

28.8
73.6

75 W
Radeon
R7 250E[50]
(Cape Verde Pro)
December 21, 2013
US $109
1500×106
123 mm2
512:32:16 800 25.6 12.8 819.2 51.2 1024
2048
GDDR5
128-bit
4500 72 55 W PCIe 3.0 ×16
Radeon
R7 250X[48]
(Cape Verde XT)
February 10, 2014
US $99
640:40:16 1000 40 16 1280 80 1024
2048
GDDR5
128-bit
4500 72 95 W
Radeon
R7 260[48]
(Bonaire)
December 17, 2013
US $109
GCN 2nd gen
28 nm
2080×106
160 mm2
768:48:16 1000 48 16 1536 96 1024 GDDR5
128-bit
6000 96 95 W
Radeon
R7 260X[48]
(Bonaire XTX)
August 8, 2013
US $139
896:56:16 1100 61.6 17.6 1971.2 123.2 1024
2048
GDDR5
128-bit
6500 104 115 W
Radeon
R7 265[48]
(Pitcairn Pro)
February 13, 2014
US $149
GCN 1st gen
28 nm
2800×106
212 mm2
1024:64:32 900
925
57.6 28.8 1843.2 115.2 2048 GDDR5
256-bit
5600 179.2 150 W
Radeon
R9 270[51]
(Pitcairn XT)
November 13, 2013
US $179
1280:80:32 900
925
72 28.8 2304
2368
144
148
2048 GDDR5
256-bit
5600 179.2 150 W
Radeon
R9 270X[51]
(Pitcairn XT)
August 8, 2013
US $199
1280:80:32 1000
1050
80 32 2560
2688
160
168
2048
4096
GDDR5
256-bit
5600 179.2 180 W
Radeon
R9 280[51]
(Tahiti Pro)
March 4, 2014
US $249
4313×106
352 mm2
1792:112:32 827
933
92.6 26.5 2964
3343.9
741
836
3072 GDDR5
384-bit
5000 240 250 W
Radeon
R9 280X[51]
(Tahiti XTL)[52]
August 8, 2013
US $299
2048:128:32 850
1000
109128 27.232 3481.6
4096
870.4
1024
3072 GDDR5
384-bit
6000 288 250 W
Radeon
R9 285[51]
(Tonga Pro)
September 2, 2014
US $249
GCN 3rd gen
28 nm
5000×106
359 mm2 [53]
1792:112:32 918 102.8 29.4 3290 206.6[54] 2048 GDDR5
256-bit
5500 176[lower-alpha 7] 190 W
Radeon
R9 285X
(Tonga XT)
Unreleased [56] 2048:128:32 1002 128.3 32.1 4104 256.5 3072 GDDR5
384-bit
5500 264 200 W
Radeon
R9 290[51]
(Hawaii Pro)
November 5, 2013
US $399
GCN 2nd gen
28 nm
6200×106
438 mm2 [57]
2560:160:64 up to 947[lower-alpha 8] 151.52 60.608 4848.6 606.1 4096 GDDR5
512-bit
5000 320 250 W[59]
Radeon
R9 290X[51]
(Hawaii XT)
October 24, 2013
November 6, 2014[60]
US $549
2816:176:64 1000[lower-alpha 8] 176 64 5632 704 4096
8192
GDDR5
512-bit
5000 320 250 W[59]
Radeon
R9 295X2[51][61]
(Vesuvius)
April 8, 2014
US $1499
6200×106
2× 438 mm2
2× 2816:176:64 1018 358.33 130.3 11466.75 1433.34 2× 4096 GDDR5
512-bit
5000 2× 320 500 W
Model
(codename)
Release Date
& Price
Architecture
& Fab
Transistors
& Die Size
Config[lower-alpha 5] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Single Double Size (MiB) Bus type
& width
Clock (MT/s) Band-
width (GB/s)
TBP Bus interface
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory
  1. 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
  6. Lacks hardware video encoder
  7. The R9 285 utilizes loss-less colour compression which can increase effective memory performance (relative to GCN 1st gen and 2nd gen cards) in certain situations.[53][55]
  8. Base clock of R9 290 and R9 290X will maintain at 947 MHz and 1000 MHz before reaching 95 °C, respectively.[58]

Radeon 300 series

Model
(Codename)
Release Date
& Price
Architecture
(Fab)
Transistors
Die Size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP (W) Bus interface
Config[lower-alpha 5] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Single Double Size (MiB) Bus type
& width
Clock (MT/s) Band-
width (GB/s)
Radeon
R5 330
(Oland Pro)
May 2015
OEM
GCN 1st gen
(28 nm)
1040×106
90 mm2
320:20:8 Un­known
855

17.1

6.84

547.2

34.2
1024
2048
DDR3
128-bit
1800 28.8 30 PCIe 3.0 ×16
Radeon
R5 340
(Oland XT)
May 2015
OEM
384:24:8 Un­known
825

19.8

6.6

633.6

39.6
1024
2048
DDR3
GDDR5
128-bit
1800
4500

28.8
72

75
Radeon
R7 340
(Oland XT)
May 2015
OEM
384:24:8 730
780
17.5
18.7
5.8
6.2
560.6
599
32.7
35
1024
2048
4096
DDR3
GDDR5
128-bit
1800
4500

28.8
72

75
Radeon
R5 340X[62]
(Oland XT)
May 2015
OEM
384:24:8 1050 25.2 8.4 806 50.4 2048 DDR3
64-bit
2000 16 65
Radeon
R7 350
(Oland XT)
May 2015
OEM
384:24:8 1000
1050
24
25.2
8
8.4
768
806.4
48
50.4
1024
2048
DDR3
GDDR5
128-bit
1800
4500

28.8
72

75
Radeon
R7 350 [63]
(Cape Verde XTL)
February 2016
$89 USD
1500×106
123 mm2
512:32:16 925 29.6 14.8 947.2 59.2 2048 GDDR5
128-bit
4500 72 75
Radeon
R7 350X[64]
(Oland XT)
May 2015
OEM
1040×106
90 mm2
384:24:8 1050 25.2 8.4 806 50.4 4096 DDR3
128-bit
2000 32 30
Radeon
R7 360[65][66]
(Bonaire Pro)
June 2015
$109 USD
GCN 2nd gen
(28 nm)
2080×106
160 mm2
768:48:16 1050 50.4 16.8 1612.8 100.8 2048 GDDR5
128-bit
6500 104 100
Radeon
R9 360
(Bonaire Pro)
May 2015
OEM
768:48:16 1000
1050
48
50.4
16
16.8
1536
1612.8
96
100.8
2048 GDDR5
128-bit
6500 104 85
Radeon
R7 370[65]
(Pitcairn Pro)
June 2015
$149 USD
GCN 1st gen
(28 nm)
2800×106
212 mm2
1024:64:32 975 62.4 31.2 1996.8 124.8 2048
4096
GDDR5
256-bit
5600 179.2 110
Radeon
R9 370
(Pitcairn Pro)
May 2015
OEM
1024:64:32 950
975
60.8
62.4
30.4
31.2
1945.6
1996.8
121.6
124.8
2048
4096
GDDR5
256-bit
5600 179.2 150
Radeon
R9 370X
(Pitcairn XT)
August 2015
$179 USD
1280:80:32 1000 80 32 2560 160 2048
4096
GDDR5
256-bit
5600 179.2 185
Radeon
R9 380
(Tonga Pro)
May 2015
OEM
GCN 3rd gen
(28 nm)
5000×106
359 mm2
1792:112:32 918 102.8 29.4 3290 206.6 4096 GDDR5
256-bit
5500 176 190
Radeon
R9 380[67]
(Tonga Pro)
June 2015
$199 USD
1792:112:32 970 108.6 31.0 3476.5 217.3 2048
4096
GDDR5
256-bit
5700 182.4[lower-alpha 6] 190
Radeon
R9 380X[67]
(Tonga XT)
November 2015
$229 USD
2048:128:32 970 124.2 31.0 3973.1 248.3 4096 GDDR5
256-bit
5700 182.4 190
Radeon
R9 390[67]
(Grenada Pro)
June 2015
$329 USD
GCN 2nd gen
(28 nm)
6200×106
438 mm2
2560:160:64 1000 160 64 5120 640 8192 GDDR5
512-bit
6000 384 275
Radeon
R9 390X[67]
(Grenada XT)
June 2015
$429 USD
2816:176:64 1050 184.8 67.2 5913.6 739.2 8192 GDDR5
512-bit
6000 384 275
Radeon
R9 Fury[68]
(Fiji Pro)
July 2015
$549 USD
GCN 3rd gen
(28 nm)
8900×106
596 mm2
3584:224:64 1000 224 64 7168 448 4096 HBM
4096-bit
1000 512 275
Radeon
R9 Nano[69]
(Fiji XT)
August 2015
$649 USD
4096:256:64 1000 256 64 8192 512 175
Radeon
R9 Fury X[67][70]
(Fiji XT)
June 2015
$649 USD
4096:256:64 1050 268.8 67.2 8601.6 537.6 275
Radeon
Pro Duo[71][72][73][74]
(Fiji XT)
April 2016
$1499 USD
8900×106
2× 596 mm2
2× 4096:256:64 1000 512 128 16384 1024 2× 4096 HBM
4096-bit
1000 2× 512 350
Model
(Codename)
Release Date
& Price
Architecture
(Fab)
Transistors
Die Size
Config[lower-alpha 5] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Single Double Size (MiB) Bus type
& width
Clock (MT/s) Band-
width (GB/s)
TBP (W) Bus interface
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory
  1. 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. Double precision performance of Hawaii cards is 1/8 of single precision performance, for the other it is 1/16 of single precision performance.
  5. Unified Shaders : Texture Mapping Units : Render Output Units
  6. The R9 380 utilizes loss-less color compression which can increase effective memory performance (relative to GCN 1st gen and 2nd gen cards) in certain situations.

Radeon 400 series

Model
(Codename)
Release Date
& Price
Architecture
& Fab
Transistors
& Die Size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP Bus interface
Config[lower-alpha 5] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Single Double Size (GiB) Bus type
& width
Clock (MT/s) Band-
width (GB/s)
Radeon R5 430
(Oland Pro) [75][76]
June 30, 2016
OEM
GCN 1st gen
28 nm
1040×106
90 mm2
384:24:8
6 CU
730
780
17.52
18.72
5.84
6.24
560
599
37.4
40
1
2
DDR3
GDDR5
128-bit
1800
4500

28.8
72

50 W PCIe 3.0 ×8
Radeon R5 435
(Oland) [75][77]
320:20:8
5 CU
1030 20.6 8.24 659 41.2 2 DDR3
64-bit
2000 16
Radeon R7 430
(Oland Pro) [78][79]
384:24:8
6 CU
730
780
17.52
18.72
5.84
6.24
560
599
37.4
40
1
2
4
DDR3
GDDR5
128-bit
1800
4500

28.8
72

Radeon R7 435
(Oland) [78][80]
320:20:8
5 CU
920 18.4 7.36 589 36.8 2 DDR3
64-bit
2000 16
Radeon R7 450
(Cape Verde Pro) [78][81]
1500×106
123 mm2
512:32:16
8 CU
1050 33.6 16.8 1075 65.2 GDDR5
128-bit
4500 72 65 W PCIe 3.0 ×16
Radeon RX 455
(Bonaire Pro) [78][82]
GCN 2nd gen
28 nm
2080×106
160 mm2
768:48:16
12 CU
50.4 1613 100.8 6500 104 100 W
Radeon RX 460
(Baffin) [83][84][85][86][87]
August 8, 2016
$109 USD(2 GB)
$139 USD(4 GB)
GCN 4th gen
GloFo
14LPP[88][lower-alpha 6]
3000×106
123 mm2
896:56:16
14 CU
1090
1200
61
67.2
17.4
19.2
1953
2150
122
132
2
4
7000 112 <75 W PCIe 3.0 ×8
Radeon RX 470D
(Ellesmere) [90]
October 21, 2016
CNY ¥1299
(China Only)
5700×106
232 mm2
1792:112:32
28 CU
926
1206
103.7
135.1
29.6
38.6
3319
4322
207
270
4 GDDR5
256-bit
224 120 W PCIe 3.0 ×16
Radeon RX 470
(Ellesmere Pro) [83][85][86]
August 4, 2016
$179 USD
2048:128:32
32 CU
118.5
154.4
3793
4940
237
309
4
8
6600 211
Radeon RX 480
(Ellesmere XT) [91][92][93][94]
June 29, 2016
$199 USD (4 GB)
$239 USD (8 GB)
2304:144:32
36 CU
1120
1266
161.3
182.3
35.8
40.5
5161
5834
323
365
7000
8000
224
256
150 W
  1. 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)
  6. GlobalFoundries' 14 nm 14LPP FinFET process is second-sourced from Samsung Electronics.[89]

Radeon 500 series

Model
(Code name)
Release Date
& Price
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Single Double Size Bus type
& width
Clock
(MT/s)
Bandwidth
(GB/s)
Radeon 520
(Banks)[lower-alpha 6][95][96]
Apr 18, 2017
OEM
GCN 1
28 nm
690×106
56mm2
320:20:4
5 CU

1030

20.6

4.1

659.2

41.2
1 GB
2 GB
DDR3
GDDR5
64-bit
2000
4500

16
36

? PCIe 3.0
×8
Radeon 530
(Weston)[lower-alpha 6][97]
GCN 3
28 nm
 ?
125 mm2
320:20:8
5 CU

1024

20.480

8.2

655.36

40.96
1 GB
2 GB
4 GB[98]
DDR3
GDDR5
64-bit
1800
4500

14.4
36

?
384:24:8
6 CU

24.576

786.432

49.152
Radeon RX 540
(Polaris 12)[99][100]
GCN 4
GloFo
14LPP[lower-alpha 7][102]
2.2×109
101 mm2
512:32:16
8 CU
1124
1219
35.968
39.008
17.984
19.504
1150.976
1248.256
71.936
78.016
2 GB
4 GB
GDDR5
128-bit
6000 96 PCIe 3.0
×8
Radeon RX 550
(Polaris 12)[103][104][105]
Apr 20, 2017
$79 USD
1100
1183
35.2
37.856
17.6
18.928
1126.4
1211.392
70.4
75.712
7000 112 50 W
Radeon RX 550 640SP
(Polaris 11)[106]
Apr 20, 2017
$79 USD
3.0×109
123 mm2
640:40:16
10 CU
1019
1071
40.76
42.84
16.304
17.136
1304.32
1370.88
81.52
85.68
6000 96 60 W
Radeon RX 550X
(Polaris 12)[107]
Apr 11, 2018
$79 USD
2.2×109
101 mm2
512:32:16
8 CU
1100
1287
35.2
41.184
17.6
20.592
1126.4
1317.888
70.4
82.368
7000 112 50 W
Radeon RX 550X 640SP
(Polaris 11)[108]
Apr 11, 2018
OEM
3.0×109
123 mm2
640:40:16
10 CU
1019
1071
40.76
42.84
16.304
17.136
1304.32
1370.88
81.52
85.68
6000 96 60 W
Radeon RX 560D
(Polaris 21)[109][110][111]
Jul 4, 2017
OEM and China Only
3.0×109
123 mm2
896:56:16
14 CU
1090
1175
61.0
65.8
17,4
18.8
1953
2106
122,0
131.6
65 W
Radeon RX 560[lower-alpha 8]
(Polaris 21)[104][109][112]
Jul 4, 2017
$99 USD
1090
1175
61.0
65.8
17.4
18.8
1953
2106
122.0
131.6
7000 112 60-80 W
Apr 18, 2017
$99 USD
1024:64:16
16 CU
1175
1275
75.2
81.6
18.8
20.4
2406
2611
150.4
163.2
Radeon RX 570
(Polaris 20)[113][104]
Apr 18, 2017
$169 USD
5.7×109
232 mm2
2048:128:32
32 CU
1168
1244
149.5
159.2
37.4
39.8
4784
5095
299.0
318.4
4 GB
8 GB
GDDR5
256-bit
224 150 W PCIe 3.0
×16
Radeon RX 580
(Polaris 20)[114][104]
Apr 18, 2017
$199 USD (4 GB)
$229 USD (8 GB)
2304:144:32
36 CU
1257
1340
181.0
193.0
40.2
42.9
5792
6175
362.0
385.9
8000 256 185 W
Radeon RX 590 GME
(Polaris 20)[115][116][117]
March 9, 2020
China Only
1257
1380
181.0
198.7
40.2
44.2
5792
6359
362.0
397.4
8 GB 175 W
Radeon RX 590
(Polaris 30)[118]
Nov 15, 2018
$279 USD
GCN 4
Samsung/GloFo
12LP (14LP+)[lower-alpha 9]
1469
1545
211.5
222.5
47.0
49.4
6769
7120
423.0
444.9
225 W
  1. 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)
  6. Lacks hardware video encoder and decoder
  7. GlobalFoundries' 14 nm 14LPP FinFET process is second-sourced from Samsung Electronics.[101]
  8. In October 2017 AMD branded an additional Polaris chip as "RX 560", although it features fewer shader and texture mapping units than the first released RX 560.
  9. GlobalFoundries' 12 nm 12LP process is based on Samsung's 14 nm 14LPP process.[101]

Radeon RX Vega series

Model
(Code name)
Release Date
& Price
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon RX Vega 56
(Vega 10)[119][120][121]
Aug 28, 2017
$399 USD
GCN 5
GloFo
14LPP[lower-alpha 6][122][123]
12.5×109
486 mm2
3584:224:64
56 CU
1156
1471
258.9
329.5
73.98
94.14
16,572
21,088
8,286
10,544
517.9
659.0
8 409.6 HBM2
2048-bit
1600 210 W PCIe 3.0
×16
Radeon RX Vega 64
(Vega 10)[124][120][121]
Aug 14, 2017
$499 USD
4096:256:64
64 CU
1247
1546
319.2
395.8
79.81
98.94
20,431
25,330
10,215
12,665
638.5
791.6
483.8 1890 295 W
Radeon RX Vega 64 Liquid
(Vega 10)[124][120][121]
Aug 14, 2017
$699 USD
1406
1677
359.9
429.3
89.98
107.3
23,036
27,476
11,518
13,738
719.9
858.6
345 W
  1. 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)
  6. GlobalFoundries' 14 nm 14LPP FinFET process is second-sourced from Samsung Electronics.

Radeon VII series

Model
(Code name)
Release Date
& Price
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon VII
(Vega 20)[125][126][127]
Feb 7, 2019
$699 USD
GCN 5
TSMC CLN7FF[128]
13.23×109
331 mm2
3840:240:64
60 CU
1400
1750–1800
336.0
420.0
89.60
112.0
21,504
27,648
10,752
13,824
2,688
3,459
16 1024 HBM2
4096-bit
2000 300 W PCIe 3.0
×16
  1. 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 RX 5000 series

Model
(Code name)
Release Date
& Price
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon RX 5300
(Navi 14)[129][130]
Aug 28, 2020
OEM
RDNA
TSMC N7
6.4×109
158 mm2
1408:88:32
22 CU
1327
1645
116.8
144.8
42.46
52.64
7,474
9,265
3,737
4,632
233.5
289.5
3 168 GDDR6
96-bit
14000 100 W PCIe 4.0
×8
Radeon RX 5300 XT
(Navi 14)[131][132]
Oct 7, 2019
OEM
1670
1845
146.7
162.4
53.44
59.04
9,405
10,390
4,703
5,196
293.9
324.7
4 112 GDDR5
128-bit
7000
Radeon RX 5500
(Navi 14)[133][134][135]
224 GDDR6
128-bit
14000 150 W
Radeon RX 5500 XT
(Navi 14)[136][137][138][139]
Dec 7, 2019
$169 USD (4GB)
$199 USD (8GB)
1717
1845
151.1
162.4
54.94
59.04
9,670
10,390
4,835
5,196
302.2
324.7
4
8
130 W
Radeon RX 5600
(Navi 10)[140][141]
Jan 21, 2020
OEM
10.3×109
251 mm2
2048:128:64
32 CU
1375
1560
176.0
199.7
88.00
99.84
11,264
12,780
5,632
6,390
352.0
399.4
6 288 GDDR6
192-bit
12000 150 W PCIe 4.0
×16
Radeon RX 5600 XT
(Navi 10)[142][143]
Jan 21, 2020
$279 USD
2304:144:64
36 CU
198.0
224.6
12,672
14,377
6,336
7,188
396.0
449.3
288
336
12000
14000
160 W
Radeon RX 5700
(Navi 10)[144][145][146][147][148]
Jul 7, 2019
$349 USD
1465
1725
210.9
248.4
93.73
110.4
13,501
15,900
6,751
7,949
421.9
496.8
8 448 GDDR6
256-bit
14000 180 W
Radeon RX 5700 XT
(Navi 10)[149][150][146][147][148]
Jul 7, 2019
$399 USD
2560:160:64
40 CU
1605
1905
256.8
304.8
102.7
121.9
16,435
19,510
8,218
9,754
513.6
609.6
225 W
Radeon RX 5700 XT
50th Anniversary Edition
(Navi 10)[151][152][153][148]
Jul 7, 2019
$449 USD
1680
1980
268.8
316.8
107.5
126.7
17,203
20,276
8,602
10,138
537.6
633.6
235 W
  1. 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 RX 6000 series

Model
(Code name)
Release Date
& Price
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Infinity Cache Memory TBP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size Bandwidth
(GB/s)
Size Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon RX 6400
(Navi 24)[154][155][lower-alpha 6]
Jan 19, 2022
$159 USD
RDNA 2
TSMC N6
5.4×109
107 mm2
768:48:32:12
12 CU
1923
2321
92.3
111.4
61.5
74.3
5,907
7,130
2,954
3,565
184.6
222.8
16 MB 208.0 4 GB 128 GDDR6
64-bit
16000 53 W PCIe 4.0
×4
Radeon RX 6500 XT
(Navi 24)[156][157][158][lower-alpha 6]
Jan 19, 2022
$199 USD (4GB)
$219 USD (8GB)
1024:64:32:16
16 CU
2310
2815
147.8
180.2
73.9
90.1
9,462
11,530
4,731
5,765
295.6
360.3
232.0 4 GB
8 GB
144 18000 107 W
113 W
Radeon RX 6600
(Navi 23)[159][160]
Oct 13, 2021
$329 USD
RDNA 2
TSMC N7
11.06×109
237 mm2
1792:112:64:28
28 CU
1626
2491
182.3
279.0
104.1
159.4
11,658
17,860
5,828
8,928
364.2
558.0
32 MB 412.9 8 GB 224 GDDR6
128-bit
14000 132 W PCIe 4.0
×8
Radeon RX 6600 XT
(Navi 23)[161][162][163][164]
Aug 11, 2021
$379 USD
2048:128:64:32
32 CU
1968
2589
251.9
331.4
126.0
165.7
16,122
21,209
8,061
10,605
503.8
662.8
444.9 256 16000 160 W
Radeon RX 6650 XT
(Navi 23)[165][166]
May 10, 2022
$399 USD
2055
2635
263.0
337.2
131.5
168.6
16,835
21,586
8,417
10,793
526.1
674.6
468.9 280 17500 180 W
Radeon RX 6700
(Navi 22)[167][168][169]
Jun 9, 2021
?
17.2×109
335 mm2
2304:144:64:36
36 CU
1941
2450
279.5
352.8
124.2
156.8
17,888
22,579
8,944
11,290
559.0
705.6
80 MB 1065.0 10 GB 320 GDDR6
160-bit
16000 175 W PCIe 4.0
×16
Radeon RX 6750 GRE 10GB
(Navi 22)[170]
Oct 18, 2023
$269 USD
170 W
Radeon RX 6700 XT
(Navi 22)[171][172][173]
Mar 18, 2021
$479 USD
2560:160:64:40
40 CU
2321
2581
371.4
413.0
148.5
165.2
23,767
26,429
11,884
13,215
742.7
825.9
96 MB 1278.0 12 GB 384 GDDR6
192-bit
230 W
Radeon RX 6750 GRE 12GB
(Navi 22)[174]
Oct 18, 2023
$289 USD
Radeon RX 6750 XT
(Navi 22)[175][176]
May 10, 2022
$549 USD
2150
2600
344.0
416.0
137.6
166.4
22,016
26,624
11,008
13,312
688.0
832.0
1326.0 432 18000 250 W
Radeon RX 6800
(Navi 21)[177][178][179][180]
Nov 18, 2020
$579 USD
26.8×109
520 mm2
3840:240:96:60
60 CU
1700
2105
408.0
505.2
163.2
202.1
26,112
32,333
13,056
16,166
816
1,010
128 MB 1432.6 16 GB 512 GDDR6
256-bit
16000
Radeon RX 6800 XT
(Navi 21)[177][181][179][180]
Nov 18, 2020
$649 USD
4608:288:128:72
72 CU
1825
2250
525.6
648.0
233.6
288.0
33,638
41,472
16,819
20,736
1,051
1,296
1664.2 300 W
Radeon RX 6900 XT
(Navi 21)[177][182][179][180]
Dec 8, 2020
$999 USD
5120:320:128:80
80 CU
1825
2250
584.0
720.0
233.6
288.0
37,376
46,080
18,688
23,040
1,168
1,440
Radeon RX 6950 XT
(Navi 21)[183][184]
May 10, 2022
$1,099 USD
1890
2310
604.8
739.2
241.9
295.7
38,707
47,309
19,354
23,654
1,210
1,478
1793.5 576 18000 335 W
  1. 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)
  6. Lacks hardware video encoder

Radeon RX 7000 series

Model
(Code name)
Release date
& price
Architecture
& fab
Chiplets
(active)
Transistors
& die size[lower-alpha 1]
Core Fillrate[lower-alpha 2][lower-alpha 3][lower-alpha 4] Processing power[lower-alpha 2][lower-alpha 5]
(TFLOPS)
Infinity Cache Memory TBP Bus
interface
Config[lower-alpha 6][lower-alpha 7] Clock[lower-alpha 2]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(MB)
Bandwidth
(GB/s)
Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon RX 7600
(Navi 33)[186]
May 25, 2023
$269 USD
RDNA 3
TSMC N6
13.3×109
204 mm2
2048:128:64
32:64:32 CU
1720
2655
220.2
339.8
110.1
169.9
28.18
43.50
14.09
21.75
0.440
0.680
32 476.9 8 288 GDDR6
128-bit
18000 165 W PCIe 4.0
×8
Radeon RX 7700 XT
(Navi 32)[187]
Sep 6, 2023
$449 USD
RDNA 3
TSMC N5 (GCD)
TSMC N6 (MCD)
1 × GCD
3 × MCD
28.1×109
346 mm2
3456:216:96
54:108:54 CU
1900
2544
410.4
549.5
182.4
244.2
52.53
70.34
26.27
35.17
0.821
1.099
48 1995 12 432 GDDR6
192-bit
245 W PCIe 4.0
×16
Radeon RX 7800 XT
(Navi 32)[188]
Sep 6, 2023
$499 USD
1 × GCD
4 × MCD
3840:240:96
60:120:60 CU
1800
2430
432
583.2
172.8
233.2
55.30
74.65
27.64
37.32
0.864
1.166
64 2708 16 624 GDDR6
256-bit
19500 263 W
Radeon RX 7900 GRE
(Navi 31)
Jul 27, 2023
$649 USD
57.7×109
529 mm2
5120:320:192
80:160:80 CU
1270
2245
406.4
718.4
243.8
431.0
52.02
91.96
26.01
45.98
0.813
1.437
2250 576 18000 260 W
Radeon RX 7900 XT
(Navi 31)[189]
Dec 13, 2022
$899 USD
1 × GCD
5 × MCD
5376:336:192
84:168:84 CU
1500
2400
504.0
806.4
288.0
460.8
64.51
103.2
32.26
51.61
1.008
1.613
80 2900 20 800 GDDR6
320-bit
20000 315 W
Radeon RX 7900 XTX
(Navi 31)[190]
Dec 13, 2022
$999 USD
1 × GCD
6 × MCD
6144:384:192
96:192:96 CU
1900
2500
729.6
960.0
364.8
480.0
93.39
122.9
46.69
61.44
1.459
1.920
96 3500 24 960 GDDR6
384-bit
355 W
  1. Approximate die size of entire MCM package that consists of single GCD (Graphics Compute Die) and six MCDs (Memory Cache Die).
    Radeon RX 7900 XT has only five active MCDs, inactive one is for structural support and heat dissipation. Die size of GCD is 306 mm2, size of each MCD is 37.5 mm2.[185]
  2. Boost values (if available) are stated below the base value in italic.
  3. Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  4. Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  5. Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  6. Unified shaders : Texture mapping units : Render output units : Ray accelerators : AI accelerators and Compute units (CU)
  7. GPUs based on RDNA 3 have dual-issue stream processors so that up to two shader instructions can be executed per clock cycle under certain parallelism conditions.

Mobile GPUs

These GPUs are either integrated into the mainboard or occupy a Mobile PCI Express Module (MXM).

Rage Mobility series

Model Launch Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Hardware T&L Core config1 Fillrate Memory API compliance (version) Notes
Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
Rage LT (Rage II) Nov 1996 500 PCI 60 66 No 0:1:1:1 0.06 0.06 4 0.53 EDO, SDR, SGR 64 5 N/A
Rage LT Pro (Rage Pro) Nov 1997 350 AGP, PCI 75 100 0.075 0.075 8 0.80 6 1.1 Motion compensation
Rage Mobility M/P (Rage Pro) Nov 1998 250 90 Un­known 0.18 0.18 Un­known SDR, SGR Un­known Un­known M had 4 MB of integrated SDRAM, P had none. IDCT, motion compensation.
Rage Mobility M1 (Rage Pro) Feb 1999 90 90 0.72 SDR 6 1.2 M1 had 8 MB of integrated SDRAM, P had none. IDCT, motion compensation.
Rage 128 GL Aug 1998 103 103 0:2:2:2 0.206 0.206 32 1.65 128
Rage Mobility 128 (Rage 128 Pro) Oct 1999 105 105 0.21 0.21 16 2.28 IDCT, Motion Compensation
Rage Mobility M3 (AGP 4×) (Rage 128 Pro) 2.28 M3 had 8 MB of integrated SDRAM, IDCT, Motion Compensation.
Rage Mobility M4 (AGP 4×) (Rage 128 Pro) 32 2.28 M4 had 16 MB of integrated SDRAM, IDCT, Motion Compensation.

1 Vertex shaders : Pixel shaders : Texture mapping units : Render output units.

Mobility Radeon series

Model Launch Model number Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory API compliance (version) Notes
Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
Mobility Radeon 7000 Feb 2001 M6 RV100 180 AGP 4× 144
167
144
183
0:1:3:1 0.167 0.5 8
16
32
1.464
2.928
SDR
DDR
32
64
7 1.3
Mobility Radeon 7500 Dec 2001 M7 RV200 150 280 200 1:2:6:2 0.56 1.68 32
64
3.2
6.4
DDR 64
128
7 PowerPlay II, DX7 T&L
Mobility Radeon 9000 Aug 2002 M9 RV250 250 1:4:4:4 1.0 1.0 8.1 1.4 PowerPlay 3.0, Fullstream
Mobility Radeon 9200 Mar 2003 M9+ RV280 AGP 8× 250/250 200/220 3.2/3.52
6.4/7.04
Mobility Radeon 9500 2004? M11 RV360 130 Un­known Un­known 2:4:4:4 Un­known Un­known 64 Un­known 9.0 2.0
Mobility Radeon 9550 2005 M12 210 183 0.84 0.84 2.928
5.856
Mobility Radeon 9600 Mar 2003 M10, M11 RV350 300 300 1.2 1.2 64
128
4.8
9.6
Mobility Radeon 9600 Pro 2004 M10 350 350 1.4 1.4 128 11.2 128
Mobility Radeon 9700 Feb 2004 M11 RV360 450 275 1.8 1.8 8.8
Mobility Radeon 9800 Sep 2004 M18 R420 350 300 4:8:8:8 2.8 2.8 256 19.2 256

1 Vertex shaders : Pixel shaders : Texture mapping units : Render output units.

Mobility Radeon X300, X600, X700, X800 series

Model Launch Model number Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory API compliance (version) Notes
Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
Mobility Radeon X300 Nov 2005 M22 RV370 110 PCI-E ×16 350 250 2:4:4:4 1.4 1.4 128 4 DDR 64 9.0b 2.0 Powerplay 5.0
Mobility Radeon X600 Jun 2004 M24 RV380 130 400 1.6 1.6 64, 128 8 128
Mobility Radeon X700 Mar 2005 M26 RV410 110 400-100 (PowerPlay) 350-200 6:8:8:4 1.4 2.8 Shared-128? 64, 128 11.2 DDR, GDDR3 3DC, dynamic lane count switching
Mobility Radeon X800 Nov 2004 M28 R423 130 400 400 6:12:12:12 4.8 4.8 256 25.6 GDDR3 256 3DC, DLCS, Clock Gating
Mobility Radeon X800 XT Jun 2005 M28 PRO R423 130 480 550 6:16:16:16 7.68 7.68 35.2

1 Vertex shaders : Pixel shaders : Texture mapping units : Render output units.

Mobility Radeon X1000 series

Model Launch Model number Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory API compliance (version) Notes
Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
Mobility Radeon X1300 January 19, 2006 M52 RV515 90 PCIe ×16 350 250 2:4:4:4 1.4 1.4 128 + shared 8 DDR DDR2 128 9.0c 2.0
Mobility Radeon X1350 September 18, 2006 M62 470 350 1.88 1.88 11.2 DDR2 GDDR3
Mobility Radeon X1400 January 19, 2006 M54 445 250 1.78 1.78 8 DDR DDR2
Mobility Radeon X1450 September 18, 2006 M64 550 450 2.2 2.2 14.4 DDR2 GDDR3
Mobility Radeon X1600 February 1, 2006 M56 RV530 425
450
375
470
5:12:4:4 1.7
1.8
1.7
1.8
256 12.0
15.04
DDR2
GDDR3
Mobility Radeon X1700 M66 RV535 475 400
550
1.9 1.9 11.2
17.6
strained silicon
Mobility Radeon X1800 March 1, 2006 M58 R520 450 500 8:12:12:12 5.4 5.4 32 GDDR3 256
Mobility Radeon X1800 XT M58 550 650 8:16:16:16 8.8 8.8 41.6
Mobility Radeon X1900 January 11, 2007 M68 RV570 80 400 470 8:36:12:12 4.8 4.8 30.08 PowerPlay 6.0

1 Vertex shaders : Pixel shaders : Texture mapping units : Render output units.

Mobility Radeon HD 2000 series

OpenGL 3.3 is possible with latest drivers for all RV6xx.

Model Launch Model number Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config Fillrate Memory API compliance (version) Processing power
(GFLOPS)
Notes
Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
Mobility Radeon X2300 March 1, 2007 M64 RV515 90 PCIe ×16 480 400 2:4:4:41 1.92 1.92 128 6.4
12.8
DDR
DDR2
GDDR3
64
128
9.0c 2.0 Un­known renamed product, HyperMemory, no UVD, PowerPlay 6.0
Mobility Radeon X2500 June 1, 2007 M66 RV530 460 5:12:4:41 1.84 1.84 256 12.8 128 Un­known based on X1600/1700, HM up to 768Mb, no UVD, PowerPlay 6.0
Mobility Radeon HD 2300 March 1, 2007 M71 RV515 480 2:4:4:41 1.92 1.92 128
256
512
6.4
12.8
64
128
Un­known same as X2300, but with UVD, PowerPlay 6.0
Mobility Radeon HD 2400 May 14, 2007 M72S RV610 65 450 40:4:42 1.8 1.8 256+ Hyper Memory 6.4 DDR2 64 10.0 2.0 (3.3) 36 UVD, PowerPlay 7.0
Mobility Radeon HD 2400 XT M72M 600
600
400
700
2.4 2.4 6.4
11.2
DDR2
GDDR3
48
Mobility Radeon HD 2600 M76M RV630 500
500
400
600
120:8:42 2.0 4.0 12.8
19.2
128 120
Mobility Radeon HD 2600 XT M76XT 680 750 2.72 5.44 24 GDDR3 168
Mobility Radeon HD 2700 December 12, 2007 M76 650 700 2.6 5.2 256+ Hyper Memory (total 768) 22.4

1 Vertex shaders : Pixel shaders : Texture mapping units : Render output units.
2 Unified Shaderss : Texture mapping units : Render output units

Mobility Radeon HD 3000 series

Model[191] Launch Model number Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory API compliance (version) Processing power
(GFLOPS)
TDP

(Watts)

Notes
Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
Mobility Radeon HD 3100 August 1, 2008 RS780MC RV620 55 PCIe ×16 1.1 300 800
(system memory)
40:4:4 1.2 1.2 up to 512 from system memory 6.4/12.8 DDR2 64/128 10.1 2.0 (3.3) 24 UVD, PowerPlay 7.0
Mobility Radeon HD 3200 June 4, 2008 RS780MC 500 800
(system memory)
2 2 6.4/12.8 40
Mobility Radeon HD 3410 July 25, 2008 M82-MPE 400 400 1.6 1.6 256, 512 6.4 64 32
Mobility Radeon HD 3430 M82-SE PCIe ×16 2.0 450 400 1.8 1.8 256 6.4 36
Mobility Radeon HD 3450 January 7, 2008 M82 500 400
700
2 2 6.4
11.2
DDR2
GDDR3
40
Mobility Radeon HD 3470 M82-XT 680 400
800
2.72 2.72 6.4
12.8
54.4
Mobility Radeon HD 3650 M86 RV635 500 500
700
120:8:4 2 4 512
1024
16.0
22.4
DDR2
GDDR3
GDDR4
128 3.3 120
Mobility Radeon HD 3670 M86-XT 680 800 2.72 5.44 25.6 2.0 (3.3) 163.2 30 UVD, PowerPlay 7.0
Mobility Radeon HD 3850 June 4, 2008 M88-L/M88-LP RV670 580 750 320:16:16 9.28 9.28 512 48.0 GDDR3 256 371.2
Mobility Radeon HD 3870 M88-LXT 660 850 10.56 10.56 54.4 422.4 55
Mobility Radeon HD 3850 X2 June 5, 2008 2× M88-L/M88-LP R680 580 750 2x [320:16:16] 2× 9.28 2× 9.28 2× 512 2× 48.0 2× 256 2× 371.2
Mobility Radeon HD 3870 X2 September 1, 2008 2× M88-LXT 660 850 2× 10.56 2× 10.56 2× 54.4 2× 422.4 110

1 Unified Shaders : Texture mapping units : Render output units

Mobility Radeon HD 4000 series

Model Launch Model Number Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory API compliance (version) Processing power
(GFLOPS)
Notes
Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
Mobility Radeon HD 4200 September 10, 2009 Un­known RV620 55 Internal PCIe x16 1.1 500 800
(system memory)
40:4:4 2 2 up to 512 from system memory 6.4/12.8 DDR2 DDR3 64/128 10.1 3.3 40 UVD2, PowerPlay 7.0
Mobility Radeon HD 4225 May 1, 2010 Un­known 380 1.52 1.52 30.4
Mobility Radeon HD 4250 Un­known 500 2 2 40
Mobility Radeon HD 4270 Un­known 590 2.36 2.36 47.2
Mobility Radeon HD 4330 January 9, 2009 M92 RV710 PCIe ×16 2.0 450 600 80:8:4 1.8 3.6 512 9.6 DDR2
DDR3
GDDR3
64 72
Mobility Radeon HD 4530 500 700 2 4 11.2 80
Mobility Radeon HD 4550 January 1, 2010 550 2.2 4.4 80
Mobility Radeon HD 4570 January 9, 2009 680 800 2.72 5.44 12.8 108.8
Mobility Radeon HD 4650 M96 RV730 500
550
600
800
320:32:8 4
4.4
16
17.6
512
1024
19.2
25.6
DDR2
DDR3
GDDR3
128 320
352
Mobility Radeon HD 4670 M96-XT 675 800 5.4 21.6 12.8
25.6
432
Mobility Radeon HD 4830 March 3, 2009[192] M97 RV740 40 400/600
400/600
800/900
800/900
640:32:16 6.4/9.6
6.4/9.6
12.8/19.2
12.8/19.2
25.6/28.8
25.6/28.8
GDDR3
DDR3
512/768
512/768
Mobility Radeon HD 4850[193] January 9, 2009 M98 RV770 55 500 850
700
800:40:16 8 20 1024 54.4
89.6
GDDR3
GDDR52
256 800
Mobility Radeon HD 4860 March 3, 2009[192] M97 RV740 40 650 1000 640:32:16 10.4 20.8 64.0 GDDR52 128 832
Mobility Radeon HD 4870 January 9, 2009 M98-XT RV770 55 550 888
700
800:40:16 8.8 22 512
1024
56.832
89.6
GDDR3
GDDR52
256 880
Mobility Radeon HD 4870 X2 550 700 2× [800:40:16] 2× 8.8 2× 22 2048 2× 89.6 GDDR52 2× 256 2× 880 UVD2, PowerPlay 7.0
Dual GPU solution

1 Unified shaders : Texture mapping units : Render output units
2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.

Mobility Radeon HD 5000 series

Model: Mobility Radeon Launch Model Number Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory API compliance (version) Processing power
(GFLOPS)
TDP (Watts)
Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
Mobility Radeon HD 530v[194] May 5, 2010 M92 RV710 55 PCIe ×16 2.0 500 600 80:8:4 2 4 1024 9.6 DDR2
DDR3
GDDR3
64 10.1 3.3 80 10
Mobility Radeon HD 545v[195] 720 400

800

2.88 5.76 512

1024

6.4

12.8

115.2 15
Mobility Radeon HD 550v[196] M96 RV730 450 600 320:32:8 3.6 14.4 1024 19.2 128 288 10
Mobility Radeon HD 560v[197] 550 800 4.4 17.6 25.6 352 15
Mobility Radeon HD 565v[198] M96-XT 675 5.4 21.6 25.6 432 20
Mobility Radeon HD 5145 January 7, 2010 M92 RV710 720 900 80:8:4 2.88 5.76 14.4 DDR3
GDDR3
64 115.2 15
Mobility Radeon HD 5165 M96 RV730 600 320:32:8 4.8 19.2 28.8 128 384 35
Mobility Radeon HD 5430 Park LP Cedar (RV 810) 40 PCIe ×16 2.1 500
550
800 80:8:4 2.0
2.2
4.0
4.4
12.8 64 11 4.4 80
88
7
Mobility Radeon HD 5450 Park PRO 675 2.7 5.4 108 11
Mobility Radeon HD 5470 Park XT 750 3 6 1024
512
12.8
25.6
DDR3
GDDR3
GDDR5
120 13
15
Mobility Radeon HD 5650 Madison PRO Redwood (RV 830) 450
650
400:20:8 3.6
5.2
9.0
13.0
1024 25.6 DDR3
GDDR3
128 360
520
15
19
Mobility Radeon HD 5730 Madison LP 650 5.2 13 520 26
Mobility Radeon HD 5750 Madison PRO 550 4.4 11 51.2 GDDR5 440 25
Mobility Radeon HD 5770 Madison XT PCIe ×16 2.0/2.1 650 5.2 13 520 30
Mobility Radeon HD 5830 Broadway LP Juniper (RV 840) PCIe ×16 2.1 500 800:40:16 8 20 25.6 DDR3
GDDR3
800 24
Mobility Radeon HD 5850 Broadway PRO 625
500
625
900
1000
800:40:16 10
8
10
25
20
25
2048
1024
28.8
64
64
1000
800
1000az
31
30
39
Mobility Radeon HD 5870 Broadway XT 700 1000 11.2 28 1024 64 GDDR5 1120 50
Model Launch Model Number Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL Processing power
(GFLOPS)
TDP (Watts)
Fillrate Memory API compliance (version)

1 Unified shaders : Texture mapping units : Render output units
2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.

Radeon HD 6000M series

Model[199] Launch Architecture
Fab
Core Fillrate[lower-alpha 1][lower-alpha 2] Processing power[lower-alpha 3]
(GFLOPS)
Memory TDP (Watts) Bus interface
Config[lower-alpha 4] Clock (MHz) Pixel (GP/s) Texture (GT/s) Size (MiB) Bus type &
width
Clock (MHz) Bandwidth (GB/s)
Radeon HD 6330M
(Robson LP)[200]
November 2010 TeraScale 2
40 nm
80:8:4 500 2.0 4.0 80 1024 DDR3
64-bit
800 12.8 7 PCIe 2.1 x16
Radeon HD 6350M
(Robson Pro)[200]
November 2010 500 2.0 4.0 80 1024 DDR3
64-bit
800
900
12.8
14.4
7
Radeon HD 6370M
(Robson XT)[200]
November 2010 750 3.0 6.0 120 1024 DDR3
64-bit
900 14.4 11
Radeon HD 6430M
(Seymour LP)[201]
January 2011 TeraScale 2
40 nm
160:8:4 480 1.92 3.84 153.6 1024 DDR3
64-bit
800 12.8 Un­known PCIe 2.1 x16
Radeon HD 6450M
(Seymour Pro)[201]
January 2011 600 2.4 4.8 192 1024 DDR3
64-bit
800 12.8 Un­known
Radeon HD 6470M
(Seymour XT)[201]
January 2011 700
750
2.8
3.0
5.6
6.0
224
240
1024 DDR3
64-bit
800
800
12.8 Un­known
Radeon HD 6490M
(Seymour XT)[201]
January 2011 800 3.2 6.4 256 512 GDDR5
64-bit
800 25.6 Un­known
Radeon HD 6530M
(Capilano Pro)[202]
November 2010 TeraScale 2
40 nm
400:20:8 500 4.0 10.0 400 1024 DDR3
128-bit
900 28.8 26 PCIe 2.1 x16
Radeon HD 6550M
(Capilano Pro)[202]
November 2010 600 4.8 12.0 480 1024 DDR3
128-bit
900 28.8 26
Radeon HD 6570M
(Capilano XT)[202]
November 2010 650 5.2 13.0 520 1024 DDR3
64-bit
GDDR5
128-bit
900 28.8

57.6

30
Radeon HD 6630M
(Whistler LP)[203]
January 2011 TeraScale 2
40 nm
480:24:8 485 3.88 11.64 465.6 256 (Mac)

1024

GDDR5
128-bit (Mac)
DDR3
128-bit
800 51.2 (Mac)

25.6

Un­known PCIe 2.1 x16
Radeon HD 6650M
(Whistler Pro)[203]
January 2011 600 4.8 14.4 576 1024 DDR3
128-bit
900 28.8 Un­known
Radeon HD 6730M
(Whistler XT)[203]
January 2011 725 5.8 17.4 696 1024 DDR3
128-bit
800 25.6 Un­known
Radeon HD 6750M
(Whistler Pro)[203]
January 2011 600 4.8 14.4 576 256
512
1024
GDDR5
128-bit
800
900
51.2
57.6
Un­known
Radeon HD 6770M
(Whistler XT)[203]
January 2011 725 5.8 17.4 696 1024 GDDR5
128-bit
900 57.6 Un­known
Radeon HD 6830M
(Granville Pro)[204]
January 2011 TeraScale 2
40 nm
800:40:16 575 9.2 23.0 920 2048 DDR3
128-bit
800 25.6 39 PCIe 2.1 x16
Radeon HD 6850M
(Granville XT)[204]
January 2011 675 10.8 27.0 1080 2048 DDR3
128-bit
800 25.6 50
Radeon HD 6850M
(Granville Pro)[204]
January 2011 575 9.2 23.0 920 1024 GDDR5
128-bit
800 57.6 39
Radeon HD 6870M
(Granville XT)[204]
January 2011 675 10.8 27 1080 1024 GDDR5
128-bit
1000 64 50
Radeon HD 6950M
(Blackcomb Pro)[205]
January 2011 TeraScale 2
40 nm
960:48:32 580 18.56 27.84 1113.6 2048 GDDR5
256-bit
900 115.2 50 PCIe 2.1 x16
Radeon HD 6970M
(Blackcomb XT)[205]
January 2011 680 21.76 32.64 1305.6 2048 GDDR5
256-bit
900 115.2 75
Radeon HD 6990M
(Blackcomb XTX)[206]
July 2011 TeraScale 2
40 nm
1120:56:32 715 22.88 40.04 1601.6 2048 GDDR5
256-bit
900 115.2 75 PCIe 2.1 x16
  1. Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the core clock speed.
  2. Pixel fillrate is calculated as the number of Render Output Units multiplied by the core clock speed.
  3. Single Precision performance is calculated from the core clock speed based on a FMA operation.
  4. Unified Shaders : Texture Mapping Units : Render Output Units

IGP (HD 6000)

  • All models feature the UNB/MC Bus interface
  • All models do mnot feature double-precision FP
  • All models feature Angle independent anisotropic filtering, UVD3, and Eyefinity capabilities, with up to three outputs.
Model Released Code name Architecture Fab (nm) Core clock rate (MHz) Config core[lower-alpha 1] Fillrate Shared memory Processing power
(GFLOPS)
API compliance (version) Combined TDP[lower-alpha 2] APU
Pixel (GP/s) Texture (GT/s) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL OpenCL Vulkan Idle (W) Max. (W)
Radeon HD 6250[207] November 9, 2010[208] Wrestler[209] TeraScale 2 40 280400 80:8:4:2 1.121.6 2.243.2 8.525 DDR3-1066 64 44.864 11.3
(11_0)
4.5 1.2 Un­known 9 C-30, C-50, Z-60
Radeon HD 6290 January 7, 2011 Ontario 276400 C-60
Radeon HD 6310[207] November 9, 2010[208] Wrestler[209] 492 2.0 4.0 80 18 E-240, E-300, E-350
Radeon HD 6320 August 15, 2011 508600 2.0322.4 4.0644.8 10.6 DDR3-1333 8297 E-450
  1. Unified Shaders : Texture Mapping Units : Render Output Units : Compute units
  2. TDP specified for AMD reference designs, includes CPU power consumption. Actual TDP of retail products may vary.

IGP (HD 6000G)

  • All models include Direct3D 11, OpenGL 4.4 and OpenCL 1.2
  • All models feature the UNB/MC Bus interface
  • All models do not feature double-precision FP
  • All models feature angle independent anisotropic filtering, UVD3 and Eyefinity capabilities, with up to three outputs.
  • All models feature VLIW5
Model Released Code name Fab (nm) Core clock (MHz) Core config1 Fillrate Shared Memory Processing power
(GFLOPS)
Max. combined TDP2 (Watts) APU
Pixel (GP/s) Texture (GT/s) Bandwidth (GB/s) Bus type Bus width (bit)
Radeon HD 6380G June 14, 2011 WinterPark 32 400 160:8:4:2 1.6 3.2 17.06 DDR3-1333 128 128 35 E2-3000M
Radeon HD 6480G BeaverCreek 444 240:12:4:3 1.77 3.55 213.1 35 - 45 A4-3300M A4-3310MX
Radeon HD 6520G 400 320:16:8:4 3.2 6.4 256 A6-3400M A6-3410MX A6-3420M
Radeon HD 6620G 444 400:20:8:5 3.55 8.88 25.6 DDR3-1600 355.2 A8-3500M A8-3510MX A8-3530MX

1 Unified shaders : Texture mapping units : Render output units : Compute units
2 TDP specified for AMD reference designs, includes CPU power consumption. Actual TDP of retail products may vary.

Radeon HD 7000M series

A Radeon HD 7970M GPU on a Mobile PCI Express Module
Model
(Codename)
Launch Architecture
(Fab)
Core Fillrate Processing power
(GFLOPS)
Memory Bus interface TDP (W)
Config[lower-alpha 1] Clock (MHz) Texture (GT/s) Pixel (GP/s) Size (GiB) Bus type &
width (bit)[lower-alpha 2]
Memory (MHz) Bandwidth (GB/s)
Radeon HD 7430M
(Seymour Pro)
January 2012 TeraScale 2[lower-alpha 3]
(40 nm)
160:8:4:2 600 4.8 2.4 192 1 DDR3
64-bit
900 14.4 PCIe 2.1 ×16 7
Radeon HD 7450M
(Seymour Pro)
700
700
5.6 2.8 224 1 DDR3
GDDR5
64-bit
900
800

14.4
25.6

7
Radeon HD 7470M
(Seymour XT)
750
800
6
6.4
3.0
3.2
240
256
1 DDR3
GDDR5
64-bit
900
800

14.4
25.6

7~9
Radeon HD 7490M
(Seymour XTX)
800 6.4 3.2 256 1 GDDR5
64-bit
950 30.4 9
Radeon HD 7510M
(Thames LE)
January 2012 TeraScale 2[lower-alpha 3]
(40 nm)
400:20:8:5 450 9.0 3.6 360 1 DDR3
64-bit
800 12.8 11
Radeon HD 7530M
(Thames LP)
January 2012 TeraScale 2[lower-alpha 3]
(40 nm)
400:24:8:5 450 9.0 3.6 360 1 DDR3
64-bit
900 14.4 11
Radeon HD 7550M
(Thames Pro)
January 2012 TeraScale 2[lower-alpha 3]
(40 nm)
400:20:8:5 450
550
9.0
11.0
3.6
4.4
360
440
1 DDR3
GDDR5
64-bit
900
800

14.4
25.6

13
Radeon HD 7570M
(Thames Pro)
January 2012 TeraScale 2[lower-alpha 3]
(40 nm)
400:20:8:5 450
650
9.0
13.0
3.6
5.2
360
520
1 DDR3
GDDR5
64-bit
900
800

14.4
25.6

13~15
Radeon HD 7590M
(Thames XT)
January 2012 TeraScale 2[lower-alpha 3]
(40 nm)
480:24:8:6 600 14.4 4.8 576 1 GDDR5
64-bit
800 25.6 18
Radeon HD 7610M
(Thames LE)
January 2012 TeraScale 2[lower-alpha 3]
(40 nm)
400:20:8:5 450 9.0 3.6 360 1 DDR3
128-bit
800 25.6 20
Radeon HD 7630M
(Thames LP)
January 2012 TeraScale 2[lower-alpha 3]
(40 nm)
480:24:8:6 450 10.8 3.6 432 1 DDR3
128-bit
800 25.6 20~25
Radeon HD 7650M
(Thames Pro)
450
550
10.8
13.2
3.6
4.4
432
528
1 DDR3
128-bit
800
800
25.6 20~25
Radeon HD 7670M
(Thames Pro)
600 14.4 4.8 576 1 DDR3
GDDR5
128-bit
900 28.8
57.6

20~25
Radeon HD 7690M
(Thames XT)
725
600
17.4
14.4
5.8
4.8
696
576
1
2
DDR3
GDDR5
128-bit
900
900

28.8
57.6

20~25
Radeon HD 7690M XT
(Thames XTX)
725 17.4 5.8 696 1
2
GDDR5
128-bit
900 57.6 25
Radeon HD 7730M
(Chelsea LP)
April 2012 GCN 1st gen
(28 nm)
512:32:16:8 575
675
18.4
21.6
9.2
10.8
588.8
691.2
2 GDDR3
128-bit
900
900
28.8 PCIe 2.1 ×16 25~28
Radeon HD 7750M
(Chelsea Pro)
575 18.4 9.2 588.8 1
2
GDDR5
128-bit
1000 64 28
Radeon HD 7770M
(Chelsea XT)
675 21.6 10.8 691.2 1
2
GDDR5
128-bit
1000 64 32
Radeon HD 7850M
(Heathrow Pro)
April 2012 GCN 1st gen
(28 nm)
640:40:16:10 675 27 10.8 864 2 GDDR5
128-bit
1000 64 PCIe 3.0 ×16 40
Radeon HD 7870M
(Heathrow XT)
800 32 12.8 1024 2 GDDR5
128-bit
1000 64 4045
Radeon HD 7970M
(Wimbledon XT)
April 2012 GCN 1st gen
(28 nm)
1280:80:32:20 850 68 27.2 2176 2
4
GDDR5
256-bit
1200 153.6 PCIe 3.0 ×16 75
  1. Unified Shaders : Texture Mapping Units : Render Output Units
  2. The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.
  3. Lacks hardware video encoder

IGP (HD 7000G)

Model
(Codename)
Launch Architecture
(Fab)
Core config[lower-alpha 1] Clock rate (MHz) Fillrate Processing power
(GFLOPS)
Shared memory
Core (MHz) Boost (MHz) Pixel (GP/s) Texture (GT/s) Bus type
& width (bit)
Clock Bandwidth (GB/s)
Radeon HD 7400G
(Scrapper)
September 2012 TeraScale 3[lower-alpha 2]
(32 nm)
192:12:4 327 424 1.31 3.92 125.57 DDR3
128-bit
1333 to 2133 21.3334.13
Radeon HD 7420G
(Scrapper)
June 2012 128:8:4 480 655 1.92 3.84 122.88
Radeon HD 7500G
(Scrapper)
May 2012 256:16:8 327 424 2.62 5.23 167.42
Radeon HD 7520G
(Scrapper)
June 2012 192:12:4 496 685 1.98 5.95 190.46
Radeon HD 7600G
(Devastator)
September 2012 384:24:8 320 424 2.56 7.68 245.76
Radeon HD 7620G
(Devastator)
May 2012 360 497 2.88 8.64 276.48
Radeon HD 7640G
(Devastator)
256:16:8 496 685 3.97 7.94 253.95
Radeon HD 7660G
(Devastator)
384:24:8 11.9 380.93
  1. Unified Shaders : Texture Mapping Units : Render Output Units
  2. Lacks hardware video encoder

Radeon HD 8000M series

Model
(Codename)
Launch Architecture
(Fab)
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory[lower-alpha 5] TDP (W)
Config[lower-alpha 6] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Size (GiB) Bus type &
width (bit)
Clock (MHz) Band-
width (GB/s)
Radeon
HD 8550M / 8630M
(Sun LE)
8 January 2013 GCN 1st gen
(28 nm)
384:24:8 650
700
5.2
5.6
15.6
16.8
537.6 1 DDR3
64
900 14.4 Un­known
Radeon
HD 8570M / 8650M
(Sun Pro)
8 January 2013 384:24:8 650
700
5.2
5.6
15.6
16.8
537.6 1 GDDR5
64
1125 36 Un­known
Radeon
HD 8670M
(Mars XT)
8 January 2013 384:24:8 775
825
6.2
6.6
18.6
19.8
633.6 1 DDR3
64
900 14.4 Un­known
Radeon
HD 8690M
(Sun XT)
8 January 2013 384:24:8 775
825
6.2
6.6
18.6
19.8
633.6 1 GDDR5
64
1125 36 Un­known
Radeon
HD 8730M
(Mars LE)
8 January 2013 384:24:8 650
700
5.2
5.6
15.6
16.8
537.6 2 DDR3
128
1000 32 Un­known
Radeon
HD 8750M
(Mars Pro)
8 January 2013 384:24:8 620775
670825
4.96
6.6
14.88
19.8
514.56
633.6
2 DDR3
GDDR5
128
1000 32
64

Un­known
Radeon
HD 8770M
(Mars XT)
8 January 2013 384:24:8 775
825
6.2
6.6
18.6
19.8
633.6 2 GDDR5
128
1125 72 Un­known
Radeon
HD 8790M
(Mars XTX)
8 January 2013 384:24:8 850
900
6.8
7.2
20.4
21.6
691.2 2 GDDR5
128
1125 72 Un­known
Radeon
HD 8830M
(Venus LE)
8 January 2013 640:40:16 575
625
9.2
10
23
25
800 2 DDR3
128
1000 32 Un­known
Radeon
HD 8850M
(Venus Pro)
8 January 2013 640:40:16 575725
625775
9.2
12.4
23
31
800
992
2 DDR3
GDDR5
128
1000
1125

32
72

Un­known
Radeon
HD 8870M
(Venus XT)
8 January 2013 640:40:16 725
775
11.6
12.4
29
31
992 2 DDR3
GDDR5
128
1000
1125

32
72

Un­known
Radeon
HD 8970M
(Neptune XT)
8 January 2013 1280:80:32 850
900
27.2
28.8
68
72
2304 2
4
GDDR5
256
1200 153.6 100
  1. 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. The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.
  6. Unified Shaders : Texture Mapping Units : Render Output Units

Radeon M200 series

Model
(Codename)
Launch Architecture
(Fab)
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP
Config[lower-alpha 5] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Size (GiB) Bus type
& width
Clock (MT/s) Band-
width (GB/s)
Radeon
R5 M230
(Jet Pro)
January 2014 GCN 1st gen
(28 nm)
320:20:8:5 780
855
3.4 17.1 547 2
4
DDR3
64-bit
2000 16 Un­known
Radeon
R5 M255
(Jet Pro)
June 2014 320:20:8:5 925
940
7.5 18.8 601 2
4
DDR3
64-bit
2000 16 Un­known
Radeon
R7 M260
(Topaz)
June 2014 384:24:8:6 620
980
5.7
7.8
17.2
23.5
549.1
752.6
2
4
DDR3
64-bit
1800
2000
14.4
16
Un­known
Radeon
R7 M260X
(Opal)
June 2014 384:24:8:6 620
715
5.7 17.2 549 2
4
GDDR5
128-bit
4000 64 Un­known
Radeon
R7 M265
(Opal XT)
May 2014 384:24:8:6 725
825
6.6 19.8 633.6 2
4
DDR3
64-bit
1800
2000
14.4
16
Un­known
Radeon
R9 M265X
(Venus Pro)
May 2014 640:40:16:10 575
625
10 25 800 2
4
GDDR5
128-bit
4500 72 Un­known
Radeon
R9 M270X
(Venus XT)
May 2014 640:40:16:10 725
775
12.4 31 992 2
4
GDDR5
128-bit
4500 72 Un­known
Radeon
R9 M275X
(Venus XTX)
May 2014 640:40:16:10 900
925
14.8 37 1184 2
4
GDDR5
128-bit
4500 72 50 W
Radeon
R9 M280X
(Saturn XT)
February 2015 GCN 2nd gen
(28 nm)
896:56:16:14 1000
1100
17.6 61.6 1792 2
4
GDDR5
128-bit
6000 96 ~75 W
Radeon
R9 M290X
(Neptune XT)
May 2014 GCN 1st gen
(28 nm)
1280:80:32:20 850
900
28.8 72 2176
2304
4 GDDR5
256-bit
4800 153.6 100 W
Radeon
R9 M295X
(Amethyst XT)
November 2014 GCN 3rd gen
(28 nm)
2048:128:32:32 750
800
25.6 102.4 3276.8 4 GDDR5
256-bit
5500 176 250 W
  1. 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

Radeon M300 series

Model
(Codename)
Launch Architecture
(Fab)
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP
Config[lower-alpha 5] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Size (GiB) Bus type
& width
Clock (MT/s) Band-
width (GB/s)
Radeon
R5 M330[210]
(Exo Pro)
2015 GCN 1st gen
(28 nm)
320:20:8 Un­known
1030
8.2 20.6 659.2 2
4
DDR3
64-bit
1800
2000
14.4
16
18 W
Radeon
R5 M335[210]
(Exo Pro)
2015 320:20:8 Un­known
1070
8.6 21.4 684.8 2
4
DDR3
64-bit
2200 17.6 Un­known
Radeon
R7 M360[211]
(Meso XT)
2015 384:24:8 Un­known
1125
9 27 864 2
4
DDR3
64-bit
2000 16 Un­known
Radeon
R9 M365X[212]
(Strato Pro)
2015 640:40:16 Un­known
925
14.8 37 1184 4 GDDR5
128-bit
4500 72 50 W
Radeon
R9 M370X[212]
(Strato Pro)
May 2015 640:40:16 800 12.8 32 1024 2 GDDR5
128-bit
4500 72 4045 W
Radeon
R9 M375[212]
(Strato Pro)
2015 640:40:16 Un­known
1015
16.2 40.6 1299.2 4 GDDR5
128-bit
4400 35.2 Un­known
Radeon
R9 M375X[212]
(Strato Pro)
2015 640:40:16 Un­known
1015
16.2 40.6 1299.2 4 GDDR5
128-bit
4500 72 Un­known
Radeon
R9 M380[212]
(Strato Pro)
2015 640:40:16 Un­known
900
14.4 36 1152 4 GDDR5
128-bit
6000 96 Un­known
Radeon
R9 M385X[212]
(Strato)
2015 GCN 2nd gen
(28 nm)
896:56:16 Un­known
1100
17.6 61.6 1971.2 4 GDDR5
128-bit
6000 96 ~75 W
Radeon
R9 M390[212]
(Pitcairn)
June 2015 GCN 1st gen
(28 nm)
1024:64:32 Un­known
958
30.7 61.3 1962 2 GDDR5
256-bit
5460 174.7 ~100 W
Radeon
R9 M390X[212]
(Amethyst XT)
2015 GCN 3rd gen
(28 nm)
2048:128:32 Un­known
723
23.1 92.5 2961.4 4 GDDR5
256-bit
5000 160 125 W
Radeon
R9 M395[212]
(Amethyst Pro)
2015 1792:112:32 Un­known
834
26.6 93.4 2989.0 2 GDDR5
256-bit
5460 174.7 125 W
Radeon
R9 M395X[212]
Amethyst XT)
2015 2048:128:32 Un­known
909
29.1 116.3 3723.3 4 GDDR5
256-bit
5460 174.7 125 W
  1. 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

Radeon M400 series

Model
(Codename)
Launch Architecture
& Fab
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP
Config[lower-alpha 5] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Bus type
& width
Size (GiB) Clock (MHz) Band-
width (GB/s)
Radeon
R5 M420[213]
(Jet Pro)
15 May 2016 GCN 1st gen
28 nm
320:20:8 780
855
15.6
17.1
6.24
6.84
499
547
DDR3
64-bit
2 1000 16.0 ~20 W
Radeon
R5 M430[214]
(Exo Pro)
15 May 2016 320:20:8 1030
?
20.6 8.2 659.2
659.2
DDR3
64-bit
2 1000 14.4 18 W
Radeon
R7 M435[215]
(Jet Pro)
15 May 2016 320:20:8 780
855
15.6
17.1
6.24
6.84
499
547
GDDR5
64-bit
4 1000 32 ~20 W
Radeon
R7 M440[216]
(Meso Pro)
15 May 2016 320:20:8 1021
?
20.4 8.17 653
653
DDR3
64-bit
4 1000 16 ~20 W
Radeon
R7 M445[217]
(Meso Pro)
14 May 2016 320:20:8 780
920
15.6
18.4
6.24
7.36
499
589
GDDR5
64-bit
4 1000 32 ~20 W
Radeon
R7 M460[218][219]
(Meso XT)
April 2016 384:24:8 1100
1125
26.4
27.0
8.8
9.00
844
864
DDR3
64-bit
2 900 14.4 Un­known
Radeon
RX 460[220]
(Baffin)
August 2016 GCN 4th gen
14 nm
896:56:16 Un­known Un­known Un­known Un­known GDDR5
128-bit
2 1750 112 35 W?
Radeon
R7 M465[221][222]
(Litho XT)
May 2016 GCN 1st gen
28 nm
384:24:8 825
960
19.8
23.0
6.6
7.68
634
737
GDDR5
128-bit
4 1150 32 Un­known
Radeon
R7 M465X[223]
(Tropo XT)
May 2016 512:32:16 900
925
28.8
29.6
14.4
14.80
921
947
GDDR5
128-bit
4 1125 72 Un­known
Radeon
R9 M470[224]
(Strato Pro)
May 2016 GCN 2nd gen
28 nm
768:48:16 900
1000
43.2
48.0
14.4
16.00
1382
1536
GDDR5
128-bit
4 1500 96 ~75 W
Radeon
R9 M470X[225]
(Strato XT)
May 2016 896:56:16 1000
1100
56.0
61.6
16.00
17.60
1792
1971
GDDR5
128-bit
4 1500 96 ~75 W
Radeon
RX 470[226]
(Ellesmere Pro)
August 2016 GCN 4th gen
14 nm
2048:128:32 Un­known Un­known Un­known Un­known GDDR5
256-bit
4 1650 211 85 W?
Radeon
RX 480M
(Baffin)
TBA 1024:xx:xx Un­known Un­known Un­known Un­known GDDR5
128-bit
Un­known Un­known Un­known 35 W
Radeon
R9 M485X[227]
(Antigua XT)
May 2016 GCN 3rd gen
28 nm
2048:128:32 723 92.5 23.14 2961 GDDR5
256-bit
8 1250 160 ~100 W
  1. 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

Radeon 500 series

Model
(Codename)
Launch Architecture
(Fab)
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP
Config[lower-alpha 5] Clock[lower-alpha 1] (MHz) Texture (GT/s) Pixel (GP/s) Bus type
& width
Size (GiB) Clock (MHz) Band-
width (GB/s)
Radeon 520[228]
(Banks)
18 April 2017 GCN 1st gen
(28 nm)
320:20:8 1030 20.6 8.2 659 DDR3
64-bit
2 1000 16.0 50 W
GDDR5
64-bit
1125 36
Radeon 530[229]
(Weston)
GCN 3rd gen
(28 nm)
384:24:8 730
1024
24.6 8.2 786 DDR3
64-bit
900 14.4
Radeon 530X[230]
Radeon 535[231]
(Polaris 24 XT)
GDDR5
64-bit
1125 36
Radeon RX 540[232]
(Lexa Pro)
11 November 2017 GCN 4th gen
(14 nm)
512:32:16 1124
1219
39 19.5 1248 GDDR5
128-bit
1500 96
Radeon 540X[233]
(Polaris 23 XL)
11 April 2018
Radeon RX 550[234]
(Lexa Pro)
2 July 2017 640:40:16 1100
1287
51.5 20.6 1647
Radeon 550X[235]
(Polaris 23 XT)
11 April 2018
Radeon RX 560[236][237]
(Baffin XT)
5 January 2017 896:56:16 784
1032
57.8 16.5 1849 4 1710 109.4 55 W
1000
1053
59 16.9 1887 1500 96
1024:64:16 1090
1202
77 19.2 2462 65 W
Radeon RX 560X[238]
(Polaris 31 XL)
9 January 2019 896:56:16 1223 68.5 19.6 2192 1750 112
Radeon RX 570[239]
(Ellesmere Pro)
10 December 2017 2048:128:32 926
1206
154.4 38.6 4940 GDDR5
256-bit
8 1650 211 85 W
Radeon RX 580[240]
(Polaris 20 XT)
18 April 2017 2304:144:32 1000
1077
155.1 34.5 4963 2000 256 100 W
Radeon RX 580X[241]
(Polaris 20 XT)
11 April 2018
  1. 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

Radeon 600 series

Model
(Code name)
Release date
& price
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon 610
(Banks)[242]
Aug 13, 2019
OEM[243]
GCN 1[244]
TSMC 28 nm
6.9×108
56 mm2
320:20:4
5 CU

1030

20.60

8.24

659.2

41.20
2
4
36.0 GDDR5
64-bit
4500 50 W PCIe 3.0
×8
Radeon 620
(Polaris 24)[245]
GCN 3[246]
TSMC 28 nm
1.55×109
125 mm2
320:20:8
6 CU
730
1024
17.52
24.58
5.84
8.19
560.6
786.4
35.04
49.15
14.4 DDR3
64-bit
1800
384:24:8
6 CU
36.0 GDDR5
64-bit
4500
Radeon 625
(Polaris 24)[247]
Radeon 630
(Polaris 23)[248][249]
GCN 4
GloFo 14 nm[lower-alpha 6]
2.2×109
103 mm2
512:32:8
8 CU
1082
1219
34.62
38.98
8.65
9.75
1,108
1,248
69.24
78.01
48.0 6000
Radeon RX 640
(Polaris 23)[250][251]
512:40:16
8 CU
1082
1287
43.28
51.48
17.31
20.59
1,385
1,647
86.56
102.9
56.0 7000
640:40:16
10 CU
  1. 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)
  6. GlobalFoundries' 14 nm 14LPP FinFET process is second-sourced from Samsung Electronics.[101]

Radeon RX 5000M series

Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon RX 5300M
(Navi 14)[252][253]
Nov 13, 2019 RDNA
TSMC N7
6.4×109
158 mm2
1408:88:32
22 CU
1000
1445
88.0
127.2
32.0
46.2
5,632
8,138
2,816
4,069
176.0
254.3
3 168 GDDR6
96-bit
14000 65 W PCIe 4.0
×8
Radeon RX 5500M
(Navi 14)[252][254]
Oct 7, 2019 1375
1645
121.0
144.8
44.0
52.6
7,744
9,265
3,872
4,632
242.0
289.5
4 224 GDDR6
128-bit
85 W
Radeon RX 5600M
(Navi 10)[252][255]
Jul 7, 2020 10.3×109
251 mm2
2304:144:64
36 CU
1035
1265
149.0
182.2
66.2
80.9
9,539
11,658
4,769
5,829
298.0
364.3
6 288 GDDR6
192-bit
12000 85 W PCIe 4.0
×16
Radeon RX 5700M
(Navi 10)[252][256]
Mar 1, 2020 1465
1720
210.9
247.7
93.7
110.1
13,501
15,852
6,751
7,926
421.9
495.4
8 384 GDDR6
256-bit
120 W
  1. 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 RX 6000M series

Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Infinity
Cache
Memory HW Decoder HW Encoder TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
AV1 H265 4K H264 AV1 H265 4K H264
Radeon RX 6300M
(Navi 24)[lower-alpha 6][257]
Jan 4, 2022 RDNA 2
TSMC N6
5.4×109
107 mm2
768:64:32:12
12 CU

1512

97.76

48.38

6,270

3,130

195.6
8 MB 2 GB 64 GDDR6
32-bit
16000 No Yes Yes No No No 25 W PCIe 4.0
×4
Radeon RX 6450M
(Navi 24)[258]
Jan 4, 2023
2220

118.10

71.04

7,600

3,780

236.3
16 MB 4 GB 128 GDDR6
64-bit
50 W
Radeon RX 6550S
(Navi 24)[259]
1024:64:32:16
16 CU

2170

154.20

69.44

9,900

4,900

306.3
Radeon RX 6500M
(Navi 24)[lower-alpha 6][260]
Jan 4, 2022
2191

155.7

70.11

9,970

4,980

311.2
Radeon RX 6550M
(Navi 24)[261]
Jan 4, 2023
2560

182.10

81.92

11,600

5,800

362.5
144 18000 80 W
Radeon RX 6600S
(Navi 23)[262]
Jan 4, 2022 RDNA 2
TSMC N7
11.06×109
237 mm2
1792:128:64:28
28 CU

1881

244.2

120.3

15,630

7,810

448.1
32 MB 224 GDDR6
128-bit
14000 Yes Yes Yes PCIe 4.0
×8
Radeon RX 6700S
(Navi 23)[263]

1890

247.5

120.9

15,840

7,920

495.0
8 GB
Radeon RX 6600M
(Navi 23)[264]
May 31, 2021
2177

274.2

139.3

17,550

7,800

487.5
100 W
Radeon RX 6650M
(Navi 23)[265]
Jan 4, 2022
2222

276.6

139.3

17,700

8,850

553.1
256 16000 120 W
Radeon RX 6800S
(Navi 23)[266]
2048:128:64:32
32 CU

1975

288.0

134.4

18,430

9,220

576.5
100 W
Radeon RX 6650M XT
(Navi 23)[267]

2162

311.5

142.2

19,940

9,970

623.1
120 W
Radeon RX 6700M
(Navi 22)[268]
May 31, 2021 17.2×109
335 mm2
2304:144:64:32
36 CU

2300

331.4

147.2

21,209

10,605

662.1
80 MB 10 GB 320 GDDR6
160-bit
135 W PCIe 4.0
×16
Radeon RX 6800M
(Navi 22)[269]
2560:160:64:40
40 CU

2300

368.0

147.2

23,550

11,780

736.2
96 MB 12 GB 384 GDDR6
192-bit
145+ W
Radeon RX 6850M XT
(Navi 22)[270]
Jan 4, 2022
2463

415.6

157.6

26,430

13,210

825.6
432 18000 165 W
  1. 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
  6. Lacks hardware video encoder.

Radeon RX 7000M series

Model
(Code name)
Release
date
Architecture
& fab
Chiplets
(active)
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(TFLOPS)
Infinity
Cache
Memory TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon RX 7600S
(Navi 33)[271]
Jan 4, 2023 RDNA 3
TSMC N6
13.3×109
204 mm2
1792:112:64
28:56:28 CU
1500
2200
168.0
246.4
96.00
140.8
21.50
31.54
10.75
15.77
0.336
0.493
32 MB 8 256 GDDR6
128-bit
16000 75 W PCIe 4.0
×8
Radeon RX 7600M
(Navi 33)[272]
1500
2410
168.0
269.9
96.00
154.2
21.50
34.55
10.75
17.28
0.336
0.540
90 W
Radeon RX 7600M XT
(Navi 33)[273]
2048:128:64
32:64:32 CU
1500
2615
192.0
334.1
96.00
167.0
24.58
42.84
12.29
21.42
0.384
0.669
288 18000 120 W
Radeon RX 7700S
(Navi 33)[274]
1500
2500
192.0
320.0
96.00
160.0
24.58
40.96
12.29
20.48
0.384
0.640
100 W
Radeon RX 7900M
(Navi 31)
Oct 19, 2023 RDNA 3
TSMC N5 (GCD)
TSMC N6 (MCD)
1 × GCD
4 × MCD
57.7×109
529 mm2
4608:288:192
72:144:72 CU

2090

601.9

401.3

77,05

38.52

1.204
64 MB 16 576 GDDR6
256-bit
180 W PCIe 4.0
×16
  1. 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 : AI accelerators and Compute units (CU), GPUs based on RDNA 3 have dual-issue stream processors so that up to two shader instructions can be executed per clock cycle under certain parallelism conditions.

Workstation GPUs

FireGL series

Model Launch Micro-archi-tecture Core Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config Fillrate Memory Processing power
(GFLOPS)
API compliance (version) Notes
Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Direct3D OpenGL Vulkan
FireGL 8700 2001 R200 Radeon 8500 150 AGP 250 270 2:4:8:41 1 2 64 8.64 DDR 64 × 2 Un­known 8.1 1.4
FireGL 8800 300 290 1.2 2.4 128 9.28 Un­known
FireGL T2-64 2003 R300 Radeon 9600 Pro 130 325 200 2:4:4:41 1.3 1.3 64 6.4 128 Un­known 9.0 2.0
FireGL T2-128 400 320 1.6 1.6 128 10.2 Un­known
FireGL Z1-128 2002 Radeon 9500 Pro 150 325 310 4:4:4:41 1.3 1.3 19.8 256 Un­known
FireGL X1-128 Radeon 9700 4:8:8:81 2.6 2.6 Un­known
FireGL X1-256 Radeon 9700 Pro AGP Pro 325 256 Un­known
FireGL X2-256 2003 Radeon 9800 Pro AGP 380 350 3.04 3.04 22.4 DDR2 Un­known
FireGL X2-256T Radeon 9800 XT 412 344 3.3 3.3 22.0 Un­known
FireGL X3-256 2004 Radeon X800 XT 130 450 450 6:12:12:121 5.4 5.4 28.8 GDDR3 Un­known 9.0b
FireGL V3100 2005 Radeon X300 XT 110 PCIe x16 400 200 2:4:4:41 1.6 1.6 128 6.4 DDR 128 Un­known 9.0
FireGL V3200 Radeon X600 XT 130 500 400 2 2 12.8 DDR2 Un­known 9.0b
FireGL V3300 2006 R500 Radeon 1300 Pro 90 600 2.4 2.4 128 6.4 GDDR2 64 Un­known 9.0c
FireGL V3350 256 Un­known
FireGL V3400 Radeon 1600 Pro/XT 500 500 5:12:4:41 2 2 128 16.0 GDDR3 128 Un­known
FireGL V3600[275] 2007 Tera-Scale 1 RV630 GL, HD 2600 Pro 65 600 500 1202(24×5):8:4:3 2.4 4.8 256 144 10 3.3 Shader Model 4.0, APP Stream
FireGL V5000 2005 R400 Radeon X700 Pro/XT 130 425 430 6:8:8:81 3.4 3.4 128 13.6 Un­known 9.0b 2.0
FireGL V5100 Radeon X800 Pro 450 350 6:12:12:121 5.4 5.4 22.4 DDR 256 Un­known
FireGL V5200 R500 Radeon X1600 XT 90 600 700 5:12:4:41 2.4 2.4 256 22.4 GDDR3 128 Un­known 9.0c
FireGL V5600[276] 2007 Tera-Scale 1 R630 GL, HD 2600 XT 65 PCIe 800 1100 1202(24×5):8:4:3 3.2 6.4 512 35.2 GDDR4 192 10 3.3 Shader Model 4.0, APP Stream
FireGL V7100 2005 R400 Radeon X800 XT 130 500 450 6:16:16:161 8 8 256 28.8 GDDR3 256 Un­known 9.0c 2.0
FireGL V7200 2006 R500 Radeon X1800 XT 90 PCIe ×16 600 650 9.6 9.6 41.6 Un­known
FireGL V7300[277] R520 GL, X1800 XT PCIe 512 Un­known
FireGL V7350[278] 1024 Un­known
FireGL V7400 2006 (canceled) Radeon X1950 Pro 80 550? 650? 8:36:16:161 19.8? 19.8? 512? 41.6? Un­known never released, superseded by 2007 series
FireGL V7600[279] 2007 Tera-Scale 1 R600 GL, HD 2900 GT 600 800 2402(48×5):12:12:3 9.6 9.6 512 51.2 288 10 3.3 Shader Model 4.0, APP Stream
FireGL V7700[280] 2007 (2008) R670 GL, HD 3870 55 PCIe 2.0 775 1125 3202(64×5):16:16:4 12.4 12.4 72 GDDR4 496 10.1 (SM4.1) DisplayPort. Can do double precision computation via the AMD Stream SDK.
FireGL V8600[281] 2007 R600 GL, HD 2900 XT 80 PCIe 688 868 3202(64×5):16:16:4 11.01 11.01 1024 111.1[282] 512 440.32 10 Shader Model 4.0, APP Stream
FireGL V8650[283] 2048 111.1

1 Vertex shaders : Pixel shaders : Texture mapping units : Render output units
2 Unified shaders : Texture mapping units : Render output units : Compute Units

FireMV (Multi-View) series

Model Launch Core Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate (GT/s) Memory API compliance (version) TDP / idle (Watts) Notes
Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
FireMV 2200 PCI[284] January 2006 RV280 GL PCI 240 200 1:4:4:4 0.96 64 3.2 DDR 64 8.1 1.4 15 DMS-59 for dual DVI-D output
FireMV 2200 PCIe[285] RV370 PCIe ×16 324 196 2:4:4:4 1.296 128 9.0 2.1
FireMV 2260[286] January 2008 RV620 PCIe 2.0 ×1/×16, PCI 600 500 40(8×5):4:4 2.4 256 32 DDR2 256 10.1[287] 3.3 15/8 Dual DisplayPort (with adapters: DVI-D)
FireMV 2400 PCI[288] RV380 PCI 500 2:4:4:4 2.0 128 16 DDR 128 9.0b 2.1 20 2× VHDCI for quad DVI-D output, VGA
FireMV 2400 PCIe[289] PCIe ×1 500 256 DDR3

1 Vertex shaders : Pixel shaders : Texture mapping unit : Render output units
2 Unified shaders : Texture mapping unit : Render output units

FirePro (Multi-View) series

Model Launch Core Fab (nm) Transistors (million) Die size (mm2) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory API compliance (version) TDP / idle (watts) Notes
Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL (OpenCL)
FirePro 2250[290] 2007-01-01 RV516 80 107 100 PCIe x1/x16 600 500 2:4:4:4 2.4 0.3 256 32 DDR2 256 9.0c 2.1 (no) 20/11 DMS-59 for dual DVI-D output
FirePro 2270[291] 2011-01-31 Cedar GL (RV810) 40 292 59 PCIe 2.1 x1/x16 600 80(16×5):8:4:1 4.8 512
1024
9.6 GDDR3 64 11.0 4.3 (1.2) 15/8
17/8
DMS-59 for dual output: DP or DVI-I or D-sub
FirePro 2450 Multi-View[292] 2009-01-01 2× RV620 (Terascale 1) 55 2× 181 2× 61 PCIe 2.0 ×1/×16 2× 40(8×5):4:4:1 512 38.4 256 10.1 3.3 (APP) 36/18 2× VHDCI for quad output: DVI-I or D-sub
FirePro 2460 Multi-View[293][294] 2010-04-01 Cedar GL (RV810) (Tera-scale2) 40 292 59 PCIe 2.1 ×16 500 500 80(16×5):8:4:1 2.0 4.0 32 GDDR5 64 11.0 4.3 (1.2) 17/13 4× Mini DP for quad output: DP or DVI-D, UVD2, PowerPlay, Eyefinity

FirePro 3D series (V000)

Model Launch Microarchitecture Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate Core config1 Fillrate Memory Processing power
(GFLOPS)
API compliance (version) TDP (Watts) Notes
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Double precision Direct3D OpenGL OpenCL Vulkan
FirePro 3D V3700[295] August 8, 2008 Terascale 1 RV620 PRO[296] 55 181 67 PCIe 2.0 ×16 800 950 40(8×5):4:4:2 3.2 3.2 256 15.2 GDDR3 64 64 - 10.1 3.3 SM4.1 APP Stream only 32 UVD+, PowerPlay
FirePro 3D V3750[297] September 11, 2008 RV730 PRO 514 146 550 750 320(64×5):32:8:4 4.4 17.6 24 128 352 3.3 1.0 48
FirePro 3D V3800,[298][299] April 26, 2010 TeraScale 2 Redwood Pro GL (RV830) 40 627 104 PCIe 2.1 ×16 650 900 400(80×5):20:8:5 5.2 13 512 14.4 64 520  ? 11.0 4.3 SM5.0 1.2 43 UVD2, PowerPlay, Eyefinity
FirePro 3D V4800,[300][301] Redwood XT GL (RV830) 672 775 9002 6.2 15.5 1024 57.6 GDDR52 128 620 4.3 69
FirePro 3D V5700[302] August 8, 2008 TeraScale 1 RV730 XT 55 514 146 PCIe 2.0 ×16 700 900 320(64×5):32:8:4 5.6 22.4 512 28.8 GDDR3 448 - 10.1 3.3 1.0 58 UVD2, PowerPlay
FirePro 3D V5800,[298][303] April 26, 2010 TeraScale 2 Juniper XT GL (RV840) 40 1040 166 PCIe 2.1 ×16 10002 800(160×5):40:16:10 11.2 28 1024 64 GDDR52 1120 - 11.0 4.3 1.2 74 UVD2, PowerPlay, Eyefinity
FirePro 3D V7750[304] March 27, 2009 TeraScale 1 RV730 XTX 55 514 146 PCIe 2.0 ×16 800 900 320(64×5):32:8:4 6.4 25.6 28.8 GDDR3 512 - 10.1 3.3 1.0 76 UVD2, PowerPlay
FirePro 3D V7800,[300][305] April 26, 2010 TeraScale 2 Cypress Pro GL (RV870) 40 2154 334 PCIe 2.1 ×16 700 10002 1440(288×5):72:32:18 22.4 50.4 2048 128 GDDR52 256 2016 403.2 11.0 4.3 1.2 138 UVD2, PowerPlay, Eyefinity
FirePro 3D V8700[306] September 11, 2008 TeraScale 1 RV770 XT 55 956 256 750 8502 800(160×5):40:16:10 12 30 1024 108.8 1200 240 10.1 3.3 1.0 151 UVD2, PowerPlay
FirePro 3D V8750[307] July 28, 2009 9002 2048 115.2 240 154
FirePro 3D V8800[308] April 7, 2010 TeraScale 2 Cypress XT GL (RV870) 40 2154 334 825 11502 1600(320×5):80:32:20 26.4 66 147.2 2640 528 11.0 4.3 1.2 208 UVD2, PowerPlay, Eyefinity
FirePro 3D V9800[309] September 9, 2010 850 27.2 68 4096 2720 544 225

1 Unified shaders : Texture mapping units : Render output units : Compute Units
2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory
3 Windows 7, 8.1, 10 Support for Fire Pro Cards with Terascale 2 and later by firepro driver 15.301.2601[310]

FirePro series (Vx900)

Model Launch Microarchitecture Code name Fab (nm) Bus interface Clock rate Core config1 Fillrate Memory Processing power
(GFLOPS)
API compliance (version) TDP (Watts) Notes
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Double precision Direct3D OpenGL OpenCL Vulkan
FirePro V3900[311] February 7, 2012 TeraScale 2 Turks GL 40 PCIe 2.1 ×16 650 900 480(96×5):24:8:6 5.2 15.6 1 28.8 GDDR3 128 624 - 11.0 4.3 1.2 50 HD3D, UVD3, DP 1.2, PowerPlay, Eyefinity
FirePro V4900[312] November 1, 2011 Turks XT GL 800 1000 6.4 19.2 64 GDDR52 768 <75 max
FirePro V5900[313] May 24, 2011 TeraScale 3 Cayman LE GL 600 5002 512(128×4):32:32:8 19.2 2 256 610 154
FirePro V7900[314] Cayman Pro GL 725 12502 1280(320×4):80:32:20 23.2 58 160 1860 464 <150 max

1 Unified shaders : Texture mapping units : Render output units : Compute Units
2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.
3 Support for Windows 7, 8.1 for OpenGL 4.4 and OpenCL 2.0, when Hardware is prepared with firepro driver 14.502.1045[315]

FirePro Workstation series (Wx000)

  • Vulkan 1.0 and OpenGL 4.5 possible for GCN with Driver Update FirePro equal to Radeon Crimson 16.3 or higher.[316][317]
  • Vulkan 1.1 possible for GCN with Radeon Pro Software 18.Q1.1 or higher. It might not fully apply to GCN 1.0 or 1.1 GPUs.[318]
Model Launch Microarchitecture Code name Fab (nm) Bus interface Clock rate Core config1 Fillrate Memory Processing power
(GFLOPS)
API compliance (version) TDP (Watts) Notes
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Double precision Direct3D OpenGL OpenCL Vulkan
FirePro W600[319] June 13, 2012 GCN 1st gen Cape Verde Pro GL 28 PCIe 3.0 x16 750 1000 512:32:16:8 12.0 24.0 2 64 GDDR5 128 768 Up to 55 11.1/12 4.5 1.2 1.0 75 6× Mini DisplayPort
FirePro W5000[320] Pitcairn LE GL 825 800 768:48:32:12 26.4 39.6 102.4 256 1267.2 79.2 <75 2× DisplayPort, 1× DVI-I
FirePro W7000[321] Pitcairn XT GL 950 1200 1280:80:32:20 30.4 76.0 4 153.6 2432 152 <150 4× DisplayPort
FirePro W8000[322] June 14, 2012 Tahiti PRO GL 900 1375 1792:112:32:28 28.8 100.8 176 3225.6 806.4 <225 ECC RAM, 4× DisplayPort + SDI-Link
FirePro W9000[323][324] Tahiti XT GL 975 1375 2048:128:32:32 31.20 124.8 6 264 384 3993.6 998.4 274 ECC RAM, Six mini-DisplayPorts + SDI-Link

1 Unified shaders : Texture mapping units : Render output units : Compute Units
2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.
3 OpenGL 4.4: support with AMD FirePro driver release 14.301.000 or later, in footnotes of specs[325]

FirePro D-Series

In 2014, AMD released the D-Series specifically for Mac Pro workstations.[326]

Model Launch Microarchitecture Code name Fab (nm) Bus interface Clock rate Core config1 Fillrate Memory Processing power
(GFLOPS)
API compliance (version) TDP (Watts) Notes
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Double precision Direct3D OpenGL OpenCL Vulkan
FirePro D300[327] January 18, 2014 Southern Islands Pitcairn XT GL 28 PCIe 3.0 ×16 850 1270 1280:80:32:20 2 162.6 PCIe 3.0 ×16 256 2176 136 11.1 4.6 1.2 1.1.101 150
FirePro D500[328] January 18, 2014 Tahiti LE GL 725 1270 1536:96:32:24 3 243.8 384 2227 556.8 274
FirePro D700[329] January 18, 2014 Tahiti XT GL 850 1370 2048:128:32:32 6 263 3482 870.4

1 Unified shaders : Texture mapping units : Render output units : compute units

FirePro Workstation series (Wx100)

  • Vulkan 1.0 and OpenGL 4.5 possible for GCN with Driver Update FirePro equal to Radeon Crimson 16.3 or higher.[316][317] OpenCL 2.1 and 2.2 possible for all OpenCL 2.0-Cards with Driver Update in Future (Khronos). Linux Support for OpenCL is limited with AMDGPU Driver 16.60 actual to Version 1.2.[330]
  • Vulkan 1.1 possible for GCN with Radeon Pro Software 18.Q1.1 or higher. It might not fully apply to GCN 1.0 or 1.1 GPUs.[318]
Model Launch Micro-archi-tecture Code name Fab (nm) Bus interface Clock rate Core config1 Fillrate Memory Processing power
(GFLOPS)
API compliance (version) TDP (Watts) Notes
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Double precision Direct3D OpenGL OpenCL Vulkan
FirePro W2100[331] August 13, 2014 GCN 1st gen Oland XT 28 PCIe 3.0 x8 630 900 320:20:8:5 5.04 12.6 2 28.8 DDR3 128 403.2 25.5 11.2a/12.0 4.5 2.0 (new) 1.0 <26 2× Standard DisplayPort DP 1.2a outputs
FirePro W4100[332] Cape Verde PCIe 3.0 ×16 630 1125 512:32:16:8 10.08 20.16 72 GDDR5 645.1 40.3 <50 4× Standard Mini-DP 1.2a outputs
FirePro W5100[333] GCN 2nd gen Bonaire Pro 930 1500 768:48:16:12 14.88 44.64 4 96 1430 89.2 11.2b/12.0 2.0 <75 DirectGMA, GeometryBoost, 4 DP 1.2a, including Adaptive-Sync and HBR2
FirePro W7100[334] GCN 3rd gen Tonga Pro GL 920 1400 1792:112:32:28 29.4 103 8 160 256 3297 206 1.1 <150
FirePro W8100[335] June 26, 2014 GCN 2nd gen Hawaii Pro GL 824 1250 2560:160:64:40 52.7 145 320 512 4218.9 2109.45 1.0 220 ECC RAM, 4 DP + SDI-Link
FirePro W9100[336] March 26, 2014 Hawaii XT 930 1250 2816:176:64:44 59.5 163.7 16
32
320 5237.8 2618.9 2.0[337] 275 ECC RAM, 6× Mini DisplayPort + SDI-Link

1 Unified shaders : Texture mapping units : Render output units : compute units
2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.
3 OpenGL 4.4: support with AMD FirePro driver release 14.301.000 or later, in footnotes of specs[325]

FirePro Workstation series (Wx300)

  • Vulkan 1.1 possible for GCN with Radeon Pro Software 18.Q1.1 or higher. It might not fully apply to GCN 1.0 or 1.1 GPUs.[318]
Model Launch Code name Fab (nm) Bus interface Clock rate Core config1 Fillrate Memory Processing power
(GFLOPS)
API compliance (version) TDP (Watts) Notes
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Double precision Direct3D OpenGL OpenCL Vulkan
FirePro W4300[338] December 1, 2015 Bonaire PRO (GCN 2nd Gen) 28 PCIe 3.0 x16 930 1500 768:48:16:12[339] 14.88 44.64 4 96 GDDR5 128 1428.5 89.3 11.2/12.0 SM 5.0 4.5 2.0 (2.1 beta, 2.2 possible) 1.0 <50 4 Mini DisplayPort 1.2a outputs, low profile

Radeon PRO series

Model
(Code name)
Release Date
& Price
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP Bus
interface
Graphic output
ports
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro Duo
(Fiji)[340][341]
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
 4096-bit
1000 350 W PCIe 3.0
×16
 DP 1.2
 HDMI 1.4a
Radeon Pro Duo
(Polaris 10)[342][343]
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  DP 1.4a
HDMI 2.0b
Radeon Pro SSG
(Fiji)[344][345][346]
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  DP 1.2?
Radeon Pro SSG
(Vega 10)[347][348][349][350][351]
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  miniDP 1.4a
Radeon Vega Frontier Edition
(Vega 10)[352][353][354]
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  DP 1.4a
HDMI 2.0b
Radeon Vega Frontier Edition
(Liquid-cooled)
(Vega 10)[355][353][356]
Jun 27, 2017
$1,499 USD
375 W
  1. 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

  • Vulkan 1.1 possible for GCN with Radeon Pro software 18.Q1.1 or higher.[318]
Model
(Code name)
Release Date
& Price
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP Bus
interface
Graphic output
ports
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro WX 2100
(Polaris 12)[357][358][359]
Jun 1, 2017
$149 USD
GCN 4
GloFo 14 nm
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
2 48 GDDR5
64-bit
6000 35 W PCIe 3.0
×8
DP 1.4a
miniDP 1.4a
Radeon Pro WX 3100
(Polaris 12)[357][360][361]
Jun 1, 2017
$199 USD
4 96 GDDR5
128-bit
50 W
Radeon Pro WX 4100
(Polaris 11)[362][363][364][365]
Nov 10, 2016
$399 USD
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
Radeon Pro WX 5100
(Polaris 10)[362][363][366][367]
Nov 18, 2016
$499 USD
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
8 160 GDDR5
256-bit
5000 75 W PCIe 3.0
×16
DP 1.4a
Radeon Pro WX 7100
(Polaris 10)[362][368][363][369][370]
Nov 10, 2016
$799 USD
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
Radeon Pro WX 9100
(Vega 10)[371][372][373][374][375]
Sep 13, 2017
$2,199 USD
GCN 5
GloFo 14 nm
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
16 484 HBM2
2048-bit
1890 230 W miniDP 1.4a
  1. 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
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP Bus
interface
Graphic output
ports
Config[lower-alpha 5] Clock[lower-alpha 1]
(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
(Polaris 23)[376][377]
Jul 2, 2019
$199 USD
GCN 4
GloFo 14 nm
2.2×109
103mm2
640:32:16
10 CU
1295 41.44 20.72 1,658 1,658 103.6 4 96 GDDR5
128-bit
6000 50 W PCIe 3.0
×8
 mini-DP 1.4a
Radeon Pro WX 8200
(Vega 10)[378][379]
Aug 13, 2018
$999 USD
GCN 5
GloFo 14 nm
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
8 512 HBM2
2048-bit
2000 230 W PCIe 3.0
×16
  1. 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

Model
(Code name)
Release Date
& Price
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TBP Bus
interface
Graphic output
ports
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro Vega II
(Vega 20)[380][381][382]
2019
$2,800 USD
GCN 5
TSMC 7 nm
13.23×109
331 mm2
4096:256:64
64 CU
1720 440.3 110.1 28,180 14,090 880 32 1024 HBM2
4096-bit
2000 475 W PCIe 3.0
×16
 Thunderbolt 3
(USB Type-C)
HDMI 2.0b
Radeon Pro Vega II Duo
(Vega 20)[380][383][384]
2019
$5,600 USD
4096:256:64
64 CU
1720  440.3  110.1  28,180  14,090  880  32  1024 HBM2
 4096-bit
2000
  1. 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

Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[385][386]
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)[385][387]
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)[385][388]
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)[385][389]
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
  1. 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[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP Bus
interface
Graphic output
ports
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[390][391]
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
 DP 1.4a
Radeon Pro W5700
(Navi 10)[392][393]
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
 miniDP 1.4a
 USB Type-C
  1. 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)
Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP Bus
interface
Graphic output
ports
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[394][395]
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)[394][396][395]
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
  1. 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[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Infinity
Cache
Memory TDP Bus
interface
Graphic output
ports
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro W6300
(Navi 24)[397][398]
Oct 2022
OEM[399]
RDNA 2
TSMC N6
5.4×109
107 mm2
768:48:32:12
12 CU
1512
2040
72.58
97.92
48.38
65.28
4,644
6,267
2.322
3,133
145.1
195.8
8 MB 2 64 GDDR6
32-bit
16000 25 W PCIe 4.0
×4
DP 1.4a
Radeon Pro W6400
(Navi 24)[400][401]
Jan 19, 2022
$229 USD
2039
2331
97.87
111.9
65.25
74.59
6,264
7,161
3,132
3,580
195.7
223.8
16 MB 4 128 GDDR6
64-bit
50 W
Radeon Pro W6600
(Navi 23)[402][403]
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
14000 130 W PCIe 4.0
×8
4× DP 1.4a
Radeon Pro W6800
(Navi 21)[404][405]
Jun 8, 2021
$2249 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
  1. 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)
Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Infinity
Cache
Memory TDP Bus
interface
Graphic output
ports
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[406][407]
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)[406][408]
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)[406][409]
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)[406][410]
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
  1. 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 W7000 series

Model
(Code name)
Release date
& price
Architecture
& fab
Chiplets
(active)
Transistors
& die size[lower-alpha 1]
Core Fillrate[lower-alpha 2][lower-alpha 3][lower-alpha 4] Processing power[lower-alpha 2][lower-alpha 5]
(TFLOPS)
Infinity
Cache
Memory TDP Bus
interface
Config[lower-alpha 6][lower-alpha 7] Clock[lower-alpha 2]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro W7500
(Navi 33)[411][412][413]
Aug 3, 2023
$429 USD
RDNA 3
TSMC N6
13.3×109
204 mm2
1792:112:64
28:56:28 CU

1700

190.4

108.8

24.37

12.19

0.381
32 MB 8 172 GDDR6
128-bit
18000 70 W PCIe 4.0
×8
Radeon Pro W7600
(Navi 33)[414][412][415]
Aug 3, 2023
$599 USD
2048:128:64
32:64:32 CU

2440

312.3

156.2

39.98

19.99

0.625
288 130 W
Radeon Pro W7800
(Navi 31)[416][417][418]
2023
$2499 USD
RDNA 3
TSMC N5 (GCD)
TSMC N6 (MCD)
1 × GCD
4 × MCD
57.7×109
~531 mm2
4480:280:128
70:128:70 CU

2525

707

323.2

90.50

45.25

1.414
64 MB 32 576 GDDR6
256-bit
260 W PCIe 4.0
×16
Radeon Pro W7900
(Navi 31)[419][417][420]
2023
$3999 USD
1 × GCD
6 × MCD
6144:384:192
96:192:96 CU

2495

958.1

479

122.6

61.32

1.916
96 MB 48 864 GDDR6
384-bit
295 W
  1. Approximate die size of entire MCM package that consists of single GCD (Graphics Compute Die) and six MCDs (Memory Cache Die).
    Radeon Pro W7800 has only four active MCDs, inactive one is for structural support and heat dissipation.
  2. Boost values (if available) are stated below the base value in italic.
  3. Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  4. Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  5. Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  6. Unified shaders : Texture mapping units : Render output units : Ray accelerators : AI accelerators and Compute units (CU)
  7. GPUs based on RDNA 3 have dual-issue stream processors so that up to two shader instructions can be executed per clock cycle under certain parallelism conditions.

Mobile workstation GPUs

Mobility FireGL series

Model
(Codename)
Launch Architecture
(Fab)
Core Fillrate[lower-alpha 1][lower-alpha 2] Processing power[lower-alpha 3]
(GFLOPS)
Memory Bus interface Notes
Config Clock (MHz) Texture (GT/s) Pixel (GP/s) Size (MB) Bus type
& width (bit)
Clock (MHz) Band-
width (GB/s)
Mobility FireGL 7800 [421]
(M7-GL)
2001-09-29 R100
(150 nm)
0:2:2:2[lower-alpha 4] 280 0.56 0.56 Un­known 64 DDR
128-bit
200 6.4 AGP 4x 27 Watt TDP
Mobility FireGL 9000 [422]
(M9-GL)
2002-01-01 R200
(150 nm)
1:4:4:4[lower-alpha 4] 250 1.0 1.0 Un­known 64 DDR
128-bit
200 6.4 AGP 4x
Mobility FireGL T2 [423]
(M10-GL)
2003-11-01 R300
(130 nm)
2:4:4:4[lower-alpha 4] 320 1.28 1.28 Un­known 128 DDR
128-bit
200 6.5 AGP 4x
Mobility FireGL T2e [424]
(M11-GL)
2004-08-01 R300
(130 nm)
2:4:4:4[lower-alpha 4] 450 1.8 1.8 Un­known 128 DDR
128-bit
225 7.2 AGP 4x
Mobility FireGL V3100 [425]
(M22-GL)
2004-06-01 R300
(110 nm)
2:4:4:4[lower-alpha 4] 350 1.4 1.4 Un­known 128 DDR
128-bit
200 6.4 PCIe 1.0 x16
Mobility FireGL V3200 [426]
(M24-GL)
2004-06-01 R300
(130 nm)
2:4:4:4[lower-alpha 4] 400 1.6 1.6 Un­known 128 DDR2
128-bit
250 12.8 PCIe 1.0 x16
Mobility FireGL V5000 [427]
(M26-GL)
2005-02-03 R420
(110 nm)
6:8:8:8[lower-alpha 4] 350 2.8 2.8 Un­known 128 GDDR3
128-bit
425 13.6 PCIe 1.0 x16
Mobility FireGL V5200 [428]
(M56-GL)
2006-02-01 R520
(90 nm)
5:12:12:12[lower-alpha 4] 425 5.1 5.1 Un­known 256 GDDR3
128-bit
475 15.2 PCIe 1.0 x16
Mobility FireGL V5250 [429]
(M66-GL)
2007-01-01 R520
(90 nm)
5:12:12:12[lower-alpha 4] 450 5.4 5.4 Un­known 256 GDDR3
128-bit
350 11.2 PCIe 1.0 x16
Mobility FireGL V5600 [430]
(M76-GL)
2007-05-14 TeraScale 1
(65 nm)
120:8:4[lower-alpha 5] 500 4.0 2.0 120.0 256 GDDR3
128-bit
400 12.8 PCIe 2.0 x16
Mobility FireGL V5700 [431]
(M86-GL)
2008-01-07 Terascale 2
(55 nm)
120:8:4[lower-alpha 5] 600 4.8 2.4 144 512 GDDR3
128-bit
700 22.4 PCIe 2.0 x16 in Lenovo ThinkPad W500
Mobility FireGL V5725 [432]
(M86-GL)
2009-01-01 Terascale 2
(55 nm)
120:8:4[lower-alpha 5] 680 5.44 2.72 163.2 256 GDDR3
128-bit
800 25.6 PCIe 2.0 x16
  1. Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  2. Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  3. Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  4. Vertex shader : Pixel shaders: Texture Mapping Units : Render Output Units
  5. Unified Shaders : Texture Mapping Units : Render Output Units

FirePro Mobile series

Model
(Codename)
Launch Architecture
(Fab)
Core Fillrate[lower-alpha 1][lower-alpha 2] Processing power[lower-alpha 3]
(GFLOPS)
Memory Bus interface Notes
Config[lower-alpha 4]
(CU)
Clock (MHz) Texture (GT/s) Pixel (GP/s) Size (MB) Bus type
& width (bit)
Clock (MHz) Band-
width (GB/s)
FirePro M5725 [433]
(M96 GL)
2009-01-01 Terascale 2
(55 nm)
320:32:8
(3)
680 21.6 5.4 432 256 GDDR3
128-bit
800 25.6 PCIe 2.0 x16
FirePro M5800 [434]
(Madison XT GL)
2010-03-01 Terascale 2
(40 nm)
400:20:8
(5)
650 13 5.2 520 1024 GDDR5
128-bit
800 25.6 PCIe 2.0 x16 HP EliteBook 8540w
FirePro M3900 [435]
(Seymour XT)
2011-04-13 160:8:4
(2)
700 6.0 3.0 224 1024 DDR3
64-bit
900 14.4 PCIe 2.1 x16 HP Elitebook 8460w
FirePro M5950 [436]
(Whistler XT)
2011-01-04 480:24:8
(6)
725 17.4 5.8 696 1024 GDDR5
128-bit
900 57.6 PCIe 2.1 x16 Dell Precision M4600, HP EliteBook 8560w
FirePro M7740 [437]
(M97XT GL)
2009-08-04 Terascale 1
(40 nm)
640:32:16
(8)
650 20.8 10.4 832 1024 GDDR5
128-bit
1000 64 PCIe 2.0 x16 Dell Precision M6400 and M6500
FirePro M7820 [438]
(Juniper XT)
2010-05-01 Terascale 2
(40 nm)
800:40:16
(10)
700 28 11.2 1120 1024 GDDR5
128-bit
1000 64 PCIe 2.0 x16 Dell Precision M6500, HP EliteBook 8740w
FirePro M8900 [439]
(Blackcomb XT GL)
2011-04-12 960:48:32
(12)
680 32.64 21.76 1310 2048 GDDR5
256-bit
900 115.2 PCIe 2.1 x16 Dell Precision M6600
FirePro M2000 [440]
(Turks GL)
2012-07-01 480:24:8
(6)
500 12 4 480 1024 GDDR5
64-bit
800 25.6 PCIe 2.1 x16 HP EliteBook 8470w
FirePro M4000 [441]
(Chelsea XT GL)
2012-06-27 GCN 1st gen
(28 nm)
512:32:16
(8)
600 19.2 9.6 614 2048 GDDR5
128-bit
1000 51.2 PCIe 2.1 x16 HP EliteBook 8570w, HP EliteBook 8770w, Dell Precision M4700 (e.g. Consumer HD7700M Serie DevID 682D)
FirePro M6000 [442]
(Heathrow XT GL)
2012-06-27 640:40:16
(10)
800 30 12 960 2048 GDDR5
128-bit
1000 64 PCIe 3.0 x16 Dell Precision M6700
FirePro M4100 [443]
(Mars)
2013-10-16 384:24:8
(6)
670 16.1 5.4 514 2048 GDDR5
128-bit
1000 64 PCIe 3.0 x16 HP ZBook 14
FirePro W4170M [444]
(Mars XTX)
2014-04-28 384:24:8
(6)
825 19.8 6.6 691.2 2048 GDDR5
128-bit
1125 72 PCIe 3.0 x16 Dell Precision M2800, HP ZBook 15u G2
FirePro W4190M [445]
(Opal)
2015-11-12 384:24:8
(6)
825 19.8 6.6 634 2048 GDDR5
128-bit
900 72 PCIe 3.0 x16 HP ZBook 15u G3, MXM-3-A, OpenGL 4.6, OpenCL 2.0, TDP 25W [446]
FirePro M5100 [447]
(Venus XT)
2013-10-16 640:40:16
(10)
775 31 12.4 992 2048 GDDR5
128-bit
1125 72 PCIe 3.0 x16 Dell Precision M4800, Panasonic Toughbook 54, HP ZBook 15 G2 (e.g. R9 M200X Serie DevID 6821)
FirePro W5130M [448]
(Tropo LE)
2015-10-02 512:32:16
(8)
up to 925 28.8 14.4 up to 950 up to 2048 GDDR5
128-bit
1000 64 PCIe 3.0 x16 Dell Precision 3510 (e.g. Consumer R7 M465X DevID 682B) MXM-3-A, DirectX 12.0 (feature level 11_1), OpenGL 4.6, OpenCL 2.0, Vulkan 1.0, TDP 35W [449]
FirePro W5170M [450]
(Tropo XT)
2014-08-25 640:40:16
(10)
up to 925 36.0 14.4 up to 1180 up to 2048 GDDR5
128-bit
1125 72 PCIe 3.0 x16 Dell Precision 7510, Dell Precision 7710, HP ZBook 15 G3 (e.g. Consumer R9 M375X DevID 6820 REV 083) MXM-3-A, DirectX 12.0 (feature level 11_1), OpenGL 4.6, OpenCL 2.0, Vulkan 1.0, TDP 45W [451]
FirePro M6100 [452]
(Saturn XT GL)
2013-10-16 GCN 2nd gen
(28 nm)
768: 48:16
(12)
up to 1100 51.6 17.2 1651.2 2048 GDDR5
128-bit
1375/1500 88/96 PCIe 3.0 x16 Dell Precision M6600 / M6800, HP Zbook 17 G2
FirePro W6150M [453]
(Saturn XT GL)
2015-11-12 768:48:16
(12)
1075 51.6 17.2 1651 4096 GDDR5
128-bit
1375 88 PCIe 3.0 x16 HP Zbook 17 G3, MXM-3-B, OpenGL 4.6, OpenCL 2.0, TDP 100W [454]
FirePro W6170M [455]
(Saturn XT GL)
2014-08-25 768:48:16
(12)
1075 51.6 17.2 1651 4096 GDDR5
128-bit
1375 88 PCIe 3.0 x16 HP ZBook 17 G2
FirePro W7170M [456]
(Amethyst XT)
2015-10-02 GCN 3rd gen
(28 nm)
2048:128:32
(32)
723 92.5 23.1 2960 4096 GDDR5
256-bit
1250 160 PCIe 3.0 x16 Dell Precision 7710, MXM-3-B, DirectX 12.0 (feature level 11_1), OpenGL 4.6, OpenCL 2.0, Vulkan 1.0, TDP 100W [457]
  1. Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  2. Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  3. Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  4. Unified Shaders : Texture Mapping Units : Render Output Units

Radeon Pro WX x100 Mobile series

  • Half precision power (FP16) is equal to single precision power (FP32) in 4th GCN generation (in 5th Gen: half precision (FP16) = 2× SP (FP32))
Model
(Code name)
Release
date
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[458][459][460]
Mar 1, 2017 GCN 4
Samsung/GloFo
14LPP[461]
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)[462][463][464]
4 96 GDDR5
128-bit
50 W
Radeon Pro WX 4130 (Mobile)
(Polaris 11)[465][466]
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)[467][468]
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)[469][470]
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)[471][472]
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)[473][474]
  1. 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

Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[475][476][477][478][479][480]
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)[475][476][477][481][482]
768:48:16
12 CU
855 41.04 13.68 1,313 1,313 82.08
Radeon Pro 460
(Polaris 11)[475][476][477][483][484]
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
  1. 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

Model
(Code name)
Release
date
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[485][486][487][488]
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)[485][486][487][489]
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)[485][486][487][490]
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)[485][486][487][491]
Jul 16, 2018 1004 64.26 16.06 2,056 2,056 128.5 94.08 5900 75 W
Radeon Pro 570
(Polaris 20)[485][486][487][492]
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)[493][494]
Mar 18, 2019 217.6 150 W
Radeon Pro 575
(Polaris 20)[485][486][487][495]
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)[493][496]
Mar 18, 2019 217.6 150 W
Radeon Pro 580
(Polaris 10)[485][486][487][497]
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)[493][498]
Mar 18, 2019 218.9 185 W
  1. 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
(Codename)
Release date Architecture
& Fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1] (MHz) Texture
(GT/s)
Pixel
(GP/s)
Single Double Bus type
& width
Size
(GB)
Clock
(MT/s)
Bandwidth
(GB/s)
Radeon Pro
WX 3200 (Mobile)[499][500]
(Polaris 23 XT GLM)
March 1, 2017 GCN 4th gen
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
86.56
103.6
GDDR5
128-bit
4 4000 64 65 W PCIe 3.0
×8
  1. 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 : Compute Units

Radeon Pro Vega series

Model
(Code name)
Release
date
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[501][502][503]
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)[501][502][504]
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)[505][506]
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)[507][508][509]
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)[507][508][510]
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)[507][511]
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
  1. 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

Model
(Code name)
Release date Architecture
& fab
Transistors
 die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[512][513]
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)[512][514]
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)[512][515]
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
  1. 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[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Memory TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[516][517]
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
  1. 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[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(GFLOPS)
Infinity
Cache
Memory TDP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[518][519]
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)[520][521]
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)[522][523][524]
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
  1. 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)

Server GPUs

FireStream series

Model
(Codename)
Launch Architecture
(Fab)
Bus interface Stream processors Clock rate Memory Processing power[lower-alpha 1]
(GFLOPS)
TDP (Watts)
Core (MHz) Memory (MHz) Size (MB) Type Bus width (bit) Bandwidth (GB/s) Single Double
Stream Processor
(R580)
2006 R500
80 nm
240 600 1024 GDDR3 256 83.2 375[525] N/A 165
FireStream 9170
(RV670)[526][527]
November 8, 2007 TeraScale 1
55 nm
PCIe 2.0 x16 320 800 800 2048 GDDR3 256 51.2 512 102.4 105
FireStream 9250
(RV770)[528][529]
June 16, 2008 TeraScale 1
55 nm
PCIe 2.0 x16 800 625 993 1024 GDDR3 256 63.6 1000 200 150
FireStream 9270
(RV770)[530][531]
November 13, 2008 TeraScale 1
55 nm
PCIe 2.0 x16 800 750 850 2048 GDDR5 256 108.8 1200 240 160
FireStream 9350
(Cypress XT)[532]
June 23, 2010 TeraScale 2
40 nm
PCIe 2.1 x16 1440 700 1000 2048 GDDR5 256 128 2016 403.2 150
FireStream 9370
(Cypress XT)[533]
June 23, 2010 TeraScale 2
40 nm
PCIe 2.1 x16 1600 825 1150 4096 GDDR5 256 147.2 2640 528 225
  1. Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.

FirePro Remote series

Model Launch Code name Fab (nm) Bus interface Clock rate Core config1 Fillrate Memory Processing power
(GFLOPS)
API compliance (version) TDP (Watts) Notes
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (MB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Double precision Direct3D OpenGL OpenCL
FirePro RG220[534] May 2010 RV711 55 PCIe 2.0 ×16 500 800 80(16×5):8:4:1 2.0 4.0 512 12.8 GDDR3 for GPU,
RDRAM for PCoIP
64 80 No 10.1 3.3 1.0 35 Dual Ethernet ports plus DMS-59 for dual DVI-D output (no VGA host output)
FirePro R5000[535] February 25, 2013 Pitcairn LE GL (GCN 1st gen) 28 PCIe 3.0 ×16 825 768:48:32:12 26.4 39.6 2048 102.4 GDDR5 256 1267.2 79.2 11.1 4.5 1.2 <150 Ethernet port plus 2× Mini DisplayPort with Tera2 PCoIP

1 Unified shaders : Texture mapping units : Render output units : compute units
2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.

FirePro Server series (S000x/Sxx 000)

  • Vulkan 1.0 and OpenGL 4.5 possible for GCN with Driver Update FirePro equal to Radeon Crimson 16.3 or higher.[316] OpenGL 4.5 was only in Windows available.[317] Actual Linux Driver support OpenGL 4.5 and Vulkan 1.0, but only OpenCL 1.2 by AMDGPU Driver 16.60.[330]
  • Vulkan 1.1 possible for GCN with Radeon Pro Software 18.Q1.1 or higher. It might not fully apply to GCN 1.0 or 1.1 GPUs.[318]
Model Launch Microarchitecture Code name Fab (nm) Bus interface Clock rate Core config1 Fillrate Memory Processing power
(GFLOPS)
API compliance (version) TDP (Watts) Notes
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Double precision DirectX OpenGL OpenCL Vulkan
FirePro S4000x[536][537] August 7, 2014 GCN 1st gen Venus XT 28 PCIe 3.0 x16 950 1200 640:40:16:10 11.6 29 2 72 GDDR5 256 992 62 11.1 12.0 4.5 1.2 1.0 <45 Type A MXM form factor, no physical display outputs
FirePro S7000[538] August 27, 2012 Pitcairn XT 950 1280:80:32:20 30.4 76 4 153.6 2432 152 <150 DP
FirePro S7100X[539][540][541][542] May 25, 2016 GCN 3rd gen Amethyst XT 723 1050 2048:128:32:32 23.14 92.5 8 160 2961 TBA 11.2 12.0 2.0 1.1 100 For blade servers, MXM Module 3.1
FirePro S7150[543][544][545][546] February 1, 2016 Tonga PRO GL 1050 1250 1792:112:32:28 33.6 117.6 3763 250 150 ECC RAM, two Slots
FirePro S7150 X2[543][545][547][548] 2× Tonga PRO GL 2× 1792:112:32:28 16 2× 160 7540 500 265 ECC RAM, no physical display outputs
FirePro S9000[549] August 27, 2012 GCN 1st gen Tahiti PRO GL 900 1375 1792:112:32:28 28.8 100.8 6 264 384 3225.6 806.4 11.1 12.0 1.2 1.0 <225 ECC RAM, 1× DisplayPort
FirePro S9050[550][551] August 6, 2014 12
FirePro S9100[552] October 2, 2014 GCN 2nd gen Hawaii Pro GL 824 1250 2560:160:64:40 52.74 131.8 320 512 4219 2109 2.0 ECC RAM, no physical display outputs
FirePro S9150[553][554][555] August 6, 2014 Hawaii XT GL 900 2816:176:64:44 57.6 158.4 16 5070 2530 11.2 12.0 <235
FirePro S9170[556][557] July 8, 2015 Grenada XT GL 930 1375 59.52 163.68 32 5240 2620 <275 ECC RAM, full throughput double precision, no physical display outputs
FirePro S9300 x2[558][559][560][561][562] March 31, 2016 GCN 3rd gen 2× Capsaicin XT 850 2× 500 2× 4096:256:64:64 54.4 217.6 2× 4 2× 512 HBM 2× 4096 13900 868 1.1 300 Non-ECC RAM, half-precision (FP16) support, no physical display outputs
FirePro S10000[563] November 12, 2012 GCN 1st gen 2× Zaphod (Tahiti Pro GL) 825 1250 2× 1792:112:32:28 52.8 184.8 2× 3 2× 240 GDDR5 384 5913.6 1478.4 11.1 12.0 1.2 1.0 <375 ECC RAM, 4x DP, 1x DVI-I
FirePro S10000 passive[564] 2× Tahiti PRO GL ECC RAM, 1x Mini DP, 1x DVI-I

1 Unified shaders : Texture mapping units : Render output units: Compute units
2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.
3 OpenGL 4.4: support with AMD FirePro driver release 14.301.000 or later, in footnotes of specs[325]

Radeon Sky series

Model Launch Code name Fab (nm) Bus interface Clock rate Core config1 Fillrate Memory Processing power
(GFLOPS)
API compliance (version) TDP (Watts) Notes
Core (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Double precision Direct3D OpenGL OpenCL Vulkan
Radeon Sky 500[565] April

2013

Pitcairn XT 28 PCIe 3.0 x16 950 1200 1280:80:32:20 30.4 76 4 153.6 GDDR5 256 2432 152 12.0 4.5 1.2 ? 150 One DisplayPort
Radeon Sky 700[566] Tahiti PRO 900 1375 1792:112:32:28 28.8 100.8 6 264 384 3225.6 806.4 225
Radeon Sky 900[567] 2× Tahiti PRO 825 950 1250 2× 1792:112:32:28 52.8 184.8 2× 3 2× 240 2x 384 5913.6 1478.4 300 4× Mini DisplayPort, 1× DVI-I

1 Unified shaders : Texture mapping units : Render output units : compute units
2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.

Radeon Pro V series

Model
(Code name)
Release
date
Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4] (GFLOPS) L3
cache
Memory TDP Bus
interface
Graphic output
ports
Config[lower-alpha 5] Clock[lower-alpha 1]
(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)[568][569][570]
Jun 29, 2017
(Custom SKU)
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 or 16 484 HBM2
2048-bit
1890 230 W PCIe 3.0
×16
 miniDP 1.4a
Radeon Pro V340
(Vega 10)[571][572][573][574]
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
 16  484 HBM2
 2048-bit
300 W  miniDP 1.4a
Radeon Pro V520
(Navi 12)[575][576]
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)[577][578]
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
  1. 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 Instinct series

Model
(Code name)
Release date Architecture
& fab
Transistors
& die size
Core Fillrate[lower-alpha 1][lower-alpha 2][lower-alpha 3] Processing power[lower-alpha 1][lower-alpha 4]
(TFLOPS)
Memory TBP Bus
interface
Config[lower-alpha 5] Clock[lower-alpha 1]
(MHz)
Texture
(GT/s)
Pixel
(GP/s)
Half Single Double Size
(GB)
Bus type
& width
Bandwidth
(GB/s)
Clock
(MT/s)
Radeon Instinct MI6
(Polaris 10)[579][580][581][582][583][584]
Jun 20, 2017 GCN 4
GloFo 14LP
5.7×109
232 mm2
2304:144:32
36 CU
1120
1233
161.3
177.6
35.84
39.46
5.161
5.682
5.161
5.682
0.323
0.355
16 GDDR5
256-bit
224 7000 150 W PCIe 3.0
×16
Radeon Instinct MI8
(Fiji)[579][580][581][585][586][587]
GCN 3
TSMC 28 nm
8.9×109
596 mm2
4096:256:64
64 CU
1000 256.0 64.00 8.192 8.192 0.512 4 HBM
4096-bit
512 1000 175 W
Radeon Instinct MI25
(Vega 10)[579][580][581][588][589][590][591]
GCN 5
GloFo 14LP
12.5×109
510 mm2
1400
1500
358.4
384.0
89.60
96.00
22.94
24.58
11.47
12.29
0.717
0.768
16 HBM2
2048-bit
484 1890 300 W
Radeon Instinct MI50
(Vega 20)[592][593][594][595][596][597]
Nov 18, 2018 GCN 5
TSMC N7
13.2×109
331 mm2
3840:240:64
60 CU
1450
1725
348.0
414.0
92.80
110.4
22.27
26.50
11.14
13.25
5.568
6.624
16
32
HBM2
4096-bit
1024 2000 PCIe 4.0
×16
Radeon Instinct MI60
(Vega 20)[593][598][599][600]
4096:256:64
64 CU
1500
1800
384.0
460.8
96.00
115.2
24.58
29.49
12.29
14.75
6.144
7.373
32
AMD Instinct MI100
(Arcturus)[601][602][603]
Nov 16, 2020 CDNA
TSMC N7
25.6×109
750 mm2
7680:480:-
120 CU
1000
1502
480.0
721.0
122.9
184.6
15.36
23.07
7.680
11.54
1228.8 2400
AMD Instinct MI210
(Aldebaran)[604][605][606]
Mar 22, 2022 CDNA 2
TSMC N6
28 x 109
~770 mm2
6656:416:-
104 CU
(1 × GCD)[lower-alpha 6]
1000
1700
416.0
707.2
106.5
181.0
13.31
22.63
13.31
22.63
64 HBM2e
4096-bit
1638.4 3200
AMD Instinct MI250
(Aldebaran)[607][608][609]
Nov 8, 2021 58 x 109
1540 mm2
13312:832:-
208 CU
(2 × GCD)
832.0
1414
213.0
362.1
26.62
45.26
26.62
45.26
2 × 64 HBM2e
2 × 4096-bit[lower-alpha 7]
2 × 1638.4 500 W
560 W (Peak)
AMD Instinct MI250X
(Aldebaran)[610][608][611]
14080:880:-
220 CU
(2 × GCD)
880.0
1496
225.3
383.0
28.16
47.87
28.16
47.87
  1. 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)
  6. GCD Refers to a Graphics Compute Die. Each GCD is a different piece of silicon.
  7. CDNA 2.0 Based cards adopt a design using two dies on the same package.They are linked with 400GB/s Bidirectional Infinity Fabric link, The dies are addressed as individual GPUs by the host system.

Embedded GPUs

Model
(Code name)
Launch Architecture
& fab
Bus
interface
Clock rate Core
config1,2
Fillrate Memory Processing power (GFLOPS) API compliance (version) TDP
(Watts)
Notes
Core
(MHz)
Memory
(MHz)
Pixel
(GP/s)
Texture
(GT/s)
Size Bandwidth
(GB/s)
Type Bus width
(bit)
Single Double Direct3D OpenGL OpenCL Vulkan
Radeon E2400[612][613][614]
(RV610)[615][616]
Jun 2007 Terascale 1
TSMC 65 nm
PCIe 1.1
×16
600 700 40:4:4 2.40 2.40 128 MB
256 MB
11.2 GDDR3 64 48 10.0 3.3 7-13 Form factor: PCIe or MXM-II
2× DVI
Radeon E4690[617][618]
(RV730)[619][620][621]
Jun 2009 Terascale 1
TSMC 55 nm
PCIe 2.0
×16
320:32:8 4.80 19.20 512 MB 22.4 128 384 10.1 1.0 8-25 Form factor: PCIe or MXM (MXM-II or MXM 3.0 Type A)
2× DVI
Radeon E6460[622][623]
(Caicos)[624]
Apr 2011 Terascale 2
TSMC 40 nm
PCIe 2.1
×16
800 160:8:4:2 2.40 4.80 25.6 GDDR5 64 192 11.2 4.1
(up to 4.4)
1.1
(1.2)
19-21 PCIe (4× miniDP/DVI or 2× DVI and DP)
Radeon E6465[625]
(Caicos)[626]
Sep 2015 2 GB 20 PCIe (4× miniDP or 2× DP), or MXM Type A (4× DP/HDMI/DVI)
Radeon E6760[627]
(Turks)
May 2011 480:24:8:6 4.80 14.40 1 GB 51.2 128 576 37-42
Radeon E8860[628]
(Venus)
Jan 2014 GCN 1
TSMC 28 nm
PCIe 3.0
×16
625 1125 640:40:16
10 CU
10.00 25.00 2 GB 72 128 768? 48? 12.0 4.5
(4.6)
1.2
(2.1)
1.0
(1.2)
37 PCIe, MXM Type A, or MCM; with or w/o fan; miniDP, DVI+miniDP, or DP/HDMI/DVI
Radeon E8870[628]
(Saturn)
Sep 2015 GCN 2
TSMC 28 nm
1000 1500 768:48:16
12 CU
16.00 48.00 4 GB 96 1536 96.00 2.0
(2.1)
75 PCIe (4× DP) or MXM Type B (6× DP/HDMI/DVI)
Radeon E8950
(Amethyst)[629]
Sep 2015 GCN 3
TSMC 28 nm
MXM-B 3.0 735 1500 2048:128:32
32 CU
23.52 94.08 8 GB 192 256 3011 188.16 95 Form factor: MXM Type B 3.0
Radeon E9171[625]
(Polaris12)
Oct 2017 GCN 4
GloFo 14 nm
PCIe 3.0
×8
1124
or
1219
1500 512:32:16
8 CU
17.98
19.50
35.97
39.01
4 GB 96 128 1150
1248
71.94
78.02
35 5× miniDP or 2× miniDP+DP (PCIe); 5× DP/HDMI/DVI (on MXM Type A and MCM)
Radeon E9172[625]
(Polaris12)
2 GB 48 64
Radeon E9173[625][630]
(Polaris12)
Radeon E9174[625]
(Polaris12)
4 GB 96 128 50
Radeon E9175[625]
(Polaris12)
Radeon E9260[628]
(Polaris11)
Sep 2016 1750 896:48:16
14 CU
112 2500 50-80 PCIe (4× miniDP) or MXM Type A (5× DP/HDMI/DVI)
Radeon E9390[631]
(Polaris10)
Oct 2019 PCIe 3.0
×16
1086 1250 1792:112:32
28 CU
8 GB 160 256 3892 243.26 75 4× DisplayPort
Radeon E9550[631]
(Polaris10)
Sep 2016 1243 2304:144:32
36 CU
5728 357.98 95 MXM Type B
6× DP/HDMI
Radeon E9560[631]
(Polaris10)
Oct 2019 1750 224 130 4× DisplayPort
Radeon E9565[631]
(Polaris10)
Sep 2020 16 GB 135 6× miniDP

1 Unified shaders : Texture mapping units : Render output units
2 CU = Compute units
3 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.

Console GPUs

Code name (console model) Launch GPU code name and/or architecture Fab
(nm)
Transistors
(million)
Core config1,2,4 Core clock (MHz) Fillrate Ray-tracing performance ML Performance Memory Bus interface API compliance (version) Processing power
(GFLOPS)
Architecture features
MOperations/s MPixels/s MTexels/s MTri/s GRays/s (triangles) GRays/s (voxels or boxes) TOPS (INT8) TOPS (INT4) Size (MiB) Clock (MHz) RAM type Bus width (bit) Bandwidth (GB/s) Direct3D OpenGL Other
Project Dolphin (GameCube)
[632][633][634][635][636]
September 14, 2001 Flipper NEC 180 nm[637] 51[638] (GPU + eDRAM) 4:1:4:4 162 7,500 648 648 60 - - - - 24 internal
16 shared
3 eDRAM
324
81
162
1T-SRAM
SDRAM
eDRAM
64
8
384/512
3.2
1.6
7.8/10.4
Integrated NoUn­knownGX 7.5 Fixed-function T&L, TEV register combiner
Xenon (Xbox 360) November 22, 2005 Xenos GPU TeraScale (HD 2000/3000 based) TSMC 90 nm
65 nm
45 nm
232[639] (GPU)

105 (eDRAM)[640]

240:16:8

eDRAM (192 parallel pixel processors)

500 240,000 4000

eDRAM (16000 with 4x MSAA)

8000 500 - - - - 512 (shared)
10 eDRAM
700
500
GDDR3
eDRAM
128 22.4
32 (GPU to daughter die)
256 (Daughter die ROP to eDRAM)
9.0c+NoUn­known 240 Surface tessellation
Revolution (Wii) November 19, 2006 Hollywood NEC 90 nm 107[641] (GPU + eDRAM) 4:1:4:4 243 11,250 972 972 70 - - - - 24 internal
64 shared
3 eDRAM
486
486
243
1T-SRAM
GDDR3
eDRAM
64
64
384/512
3.88
3.88
11.2/15.6
NoUn­knownGX 11.25 Fixed-function T&L, TEV register combiner
Project Café (WiiU) November 18, 2012 Latte GPU TeraScale (HD 4000 based) Renesas 45 nm 880[642]

GPU + eDRAM

160:16:8 550 176,000 4400 8800 550 - - - - 2048 (shared)
32 eDRAM, 1024-bit wide
800 (1600 effective)
550
DDR3
eDRAM
64
1024
12.8
70.4
NoUn­knownGX2 176 Fixed-function T&L, TEV register combiner, Interpolation Units for TMU assist
Durango (Xbox One)[643] November 22, 2013 GCN 1 TSMC 28 nm
(One S) 16 nm
4,800[644] GPU + eSRAM GPU probably ~2,000 768:48:16 853,
(One S) 914
1,310,208,
(One S) 1,403,904
13,648,
(One S) 14,624
40,944,
(One S) 43,872
1300 - - - - 8192 (shared)
32 eSRAM
1066.5 (2133 effective)
1706 (3412 effective)
DDR3
eSRAM
68.3
218, 219 (One S)
11.2[645]
12
NoMantle technically possible 1310.2,
(One S) 1403.9
Tiled resources, (One S) Upscaled 4K HDR support
Liverpool (PlayStation 4)[646] November 15, 2013 TSMC 28 nm
16 nm
probably ~2,800 1152:72:32 800 1,843,200 25,600 57,600 1707 - - - - 8192 (shared) 1375 (5500 effective) GDDR5 256 176 No4.2GNM, GNMX, PlayStation Shader Language, Mantle technically possible 1843.2 HDR possible (only 2K)
Neo (PlayStation 4 Pro)[647][648][649] November 10, 2016 GCN 4 TSMC 16 nm 5,700 2304:144:329114,197,88829,152131,2003078---- 1700 (6800 effective)217.6No4.2 (4.5)4197.8 4K HDR possible, fully compatible PS4 mode with reduced power consumption
Scorpio Engine (Xbox One X)[650][651] November 7, 2017 6,600[644] 2560:160:32 1172 6,000,640 37,504 187,520 4400 - - - - 12288 (shared) 384 326.4 11.2
12
NoUnknown 6000.6 4K HDR support, supersampling
Lockhart (Xbox Series S) November 10, 2020 RDNA 2 TSMC 7 nm 5,900 1280:80:32:20 1565 FP32: 4,006,400

FP16: 8,012,800

50,080 125,200 2400 31.3 125.2 16 32 8,192 (GPU) + 2,048 (shared) 1750 (14000 effective) GDDR6 128 224(GPU) + 56(Standard) 12U No  ? FP32: 4006

FP16: 8013

DirectX raytracing, FidelityFX Super Resolution - FSR and FSR 2, DirectML, 4K HDR support, variable refresh rate, 120 Hz support
Anaconda (Xbox Series X)[644] 15,300 3328:208:80:52 1825 FP32: 12,147,200

FP16: 24,294,400

146,000 379,600 7300 94.9 379.6 48.5 97 10,240 (GPU) + 6,124 (shared) 320 560(GPU) + 336(Standard) No FP32: 12147.2

FP16: 24294.4

DirectX raytracing, FidelityFX Super Resolution - FSR and FSR 2, DirectML, 8K HDR support, variable refresh rate, 120 Hz support [652]
Oberon (PlayStation 5) November 12, 2020 probably 10,600 2304:144:64:36 ~2233 (Boost) FP32: ~10,289,664 (Boost)

FP16: 20,579,328 (Boost)

142,912 (Boost) 321,552 (Boost) 6400 (Boost)  ?  ? - - 16,384 (shared) 256 448 No 4.6  ? FP32: 10289.6 (Boost)

FP16: 20579.2 (Boost)

8K HDR support, 120 Hz support, FidelityFX Super Resolution (FSR),raytracing
Aerith (Steam Deck) February 2022 probably ~2,400 512:32:16:8 ~1000/~1600 (Boost) FP32: ~1.024.000/ ~1,638,400 (Boost)

FP16: ~2,048,000/ ~3,276,800 (Boost)

16,000/ 25,600 (Boost) 32,000/ 51,200 (Boost) 644/ 1020 (Boost) 8/ 12.8 (Boost) 36/ 51.2 (Boost) - - 16,384 (shared) 2750 (5500 effective) LPDDR5 128 88 No 4.6 Vulkan 1.3 FP32: 1024/ 1638.4 (Boost)

FP16: 2048/ 3276.8 (Boost)

raytracing, FidelityFX Super Resolution (FSR), 8k resolution at 60 Hz or 4k resolution at 120 Hz (dock mode)
Code Name (Console Model) Launch GPU Code Name and/or Architecture Fab
(nm)
Transistors
(million)
Core config1,2,4 Core clock (MHz) Million Operations/s Million Pixels/a MTexels/s MTri/s GRays/s (triangles) GRays/s (voxels or boxes) TOPS (INT8) TOPS (INT4) Size (MiB) Clock (MHz) RAM type Bus width (bit) Bandwidth (GB/s) Bus interface Direct3D OpenGL Other Processing power
(GFLOPS)
Architecture features
Fillrate Ray-tracing Performance ML Performance Memory API compliance (version)

1 Pixel shaders : Vertex shaders : Texture mapping units : Render output units
2 Unified shaders : Texture mapping units : Render output units
4 Unified shaders : Texture mapping units : Render output units : RT Cores

3 12.8 GB/s texture bandwidth. 9.6 GB/s framebuffer and Z-buffer bandwidth.

  • The Latte looks similar to the RV730 used in the Radeon HD4650/4670.[653] However, it is an even closer, possibly exact specification match to the HD5550 as it has exactly the same clock, number of shaders, texture mapping units, and render outputs.[654]

See also

References

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