List of AMD graphics processing units

This page contains general information about GPUs and video cards by Advanced Micro Devices (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 Note that ATI trademarks have been replaced by AMD trademarks starting with the Radeon HD 6000 series for desktop and FirePro series for professional graphics.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.
Transistors – Number 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 VRM, 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.

Video codec acceleration

R100 - Video Immersion
R200 - Video Immersion II
R300 - Video Immersion II + Video Shader
R410 - Video Shader HD
R420 - Video Shader HD + DXVA
R520 - Avivo Video
R600 - Avivo HD Video - UVD 1.0
R700 - UVD 2, UVD 2.2
Evergreen - UVD 2.2
Northern Islands - UVD 3 (HD 67xx UVD 2.2)
Southern Islands - UVD 3.1, VCE 1.0
Sea Islands - UVD 4.2, VCE 2.0
Volcanic Islands - UVD 5.0, 6.0, VCE 3.0
Arctic Islands - UVD 6.3, VCE 3.4
Vega - UVD 7.0, VCE 4.0

Features Overview

The following table shows features of Radeon-branded GPU microarchitectures.

	R100	R200	R300	R400	R500	R600	RV670	R700	Evergreen	Northern Islands	Southern Islands	Sea Islands	Volcanic Islands	Arctic Islands	Vega
Released	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	Jun 2017
AMD support
Instruction set	Not publicly known					TeraScale instruction set					GCN instruction set
Microarchitecture	Not publicly known					TeraScale 1 (VLIW5)			TeraScale 2 (VLIW5)	TeraScale 3 (VLIW4)	GCN 1^st gen	GCN 2^nd gen	GCN 3^rd gen	GCN 4^th gen	GCN 5^th gen
Type	Fixed pipeline^{[lower-alpha 1]}	Programmable pixel & vertex pipelines				Unified shader model
Direct3D	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)
Shader model	N/A	1.4	2.0+	2.0b	3.0	4.0	4.1		5.0		5.1 6.0
OpenGL	1.3		2.0^{[lower-alpha 2]}			3.3			4.4^{[lower-alpha 3]}		4.6 with GLSL 4.5 (Linux 4.5+)
Vulkan	N/A										Linux Mesa 17+ Win 7+: 1.0	1.1
OpenCL	N/A					Close to Metal		1.1	1.2			2.0 (2.1 in Windows Adrenalin, 1.2 in Linux)
HSA	N/A
Power saving	?					PowerPlay				PowerTune	PowerTune & ZeroCore Power
Video decoder ASIC	N/A					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^[1]^{[lower-alpha 4]}
Video encoding ASIC	N/A										VCE 1.0	VCE 2.0	VCE 3.0 or 3.1	VCE 3.4	VCE 4.0^[1]^{[lower-alpha 4]}
TrueAudio	N/A											Via dedicated DSP		Via shaders
FreeSync	N/A											1 2
HDCP^{[lower-alpha 5]}	?											1.4		1.4 2.2
PlayReady^{[lower-alpha 5]}	N/A													3.0
Max. displays^{[lower-alpha 6]}	1–2	2							2–6
Max. resolution	?								2–6 × 2560×1600		2–6 × 4096×2160 @ 60 Hz			2–6 × 5120×2880 @ 60 Hz	3 × 7680×4320 @ 60 Hz^[2]
`/drm/radeon`^{[lower-alpha 7]}													N/A
`/drm/amdgpu`^{[lower-alpha 7]}	N/A										Experimental^[3]

↑ 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.
↑ These series do not fully comply with OpenGL 2+ as the hardware does not support all types of non power of two (NPOT) textures.
↑ OpenGL 4+ compliance requires supporting FP64 shaders and these are emulated on some TeraScale chips using 32-bit hardware.
1 2 The UVD and VCE were replaced by the Video Core Next (VCN) ASIC in the Raven Ridge APU implementation of Vega.
1 2 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.
↑ More displays may be supported with native DisplayPort connections, or splitting the maximum resolution between multiple monitors with active converters.
1 2 DRM (Direct Rendering Manager) is a component of the Linux kernel. Support in this table refers to the most current version.

API Overview

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

Chip series	Micro-architecture	Fab	Supported APIs					AMD support	Year introduced	Introduced with
			Rendering			Computing
			Vulkan	OpenGL^[4]	Direct3D	HSA	OpenCL
R100	Fixed-pipeline^{[lower-alpha 1]}	180 nm 150 nm	No	1.3	7.0	No	No	Ended	2000	Original "ATI Radeon", as well as Radeon DDR, 7000, 7500, VE, and LE models
R200	Programmable pixel & vertex pipelines	150 nm		1.3	8.1				2001	8500, 9000, 9200 and 9250
R300		150 nm 130 nm 110 nm		2.0^{[lower-alpha 2]}	9.0 11 (FL 9_2)				2002	9500–9800, X300–X600, X1050
R420		130 nm 110 nm			9.0b 11 (FL 9_2)				2004	X700–X850
R520		90 nm 80 nm			9.0c 11 (FL 9_3)				2005	X1300–X1950
R600	TeraScale 1	80 nm 65 nm		3.3	10.0 11 (FL 10_0)		ATI Stream		2007	HD 2000 series, HD 3410
RV670		55 nm			10.1 11 (FL 10_1)		ATI Stream APP^[5]		2007	HD 3450–3870, Mobility HD 2000 and 3000 series
RV770		55 nm 40 nm			10.1 11 (FL 10_1)		1.0		2008	HD 4000 series
Evergreen	TeraScale 2	40 nm		4.4^{[lower-alpha 3]} 4.5 Mesa WIP 4.6 Mesa WIP without SPIR-V	11 (FL 11_0)		1.2		2009	HD 5000 series
Northern Islands	TeraScale 2 TeraScale 3	40 nm			11 (FL 11_0)		1.2		2010	HD 6000 series, and IGP 7000 series
Southern Islands	GCN 1^st gen	28 nm	1.0	4.5 4.6 possible (WIP)	11 (FL 11_1) 12 (FL11_1)	Yes	1.2 2.0 possible	Current	2012	HD 7000 series
Sea Islands	GCN 2^nd gen		1.1 ^[6]		11 (FL 12_0) 12 (FL 12_0)		2.0 2.1 Beta 2.2 possible		2013	Radeon 200 series
Volcanic Islands	GCN 3^rd gen		1.1						2015	Radeon 300 series
Arctic Islands	GCN 4^th gen	14 nm							2016	Radeon 400 series
Vega	GCN 5^th gen	14 nm 7 nm			11 (FL 12_1) 12 (FL 12_1)				2017	Radeon Vega series

↑ 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.
↑ These series do not fully comply with OpenGL 2+ as the hardware does not support all types of non-power-of-two (NPOT) textures.
↑ OpenGL 4+ compliance requires supporting FP64 shaders and these are emulated on some TeraScale chips using 32-bit hardware.

^[7]^[8]^[9]

Desktop GPUs

Wonder Series

Model	Launch	Fab (µm)	Bus interface	Memory
Model	Launch	Fab (µm)	Bus interface	Size (KiB)	Bus type	Bus width (bit)
Wonder MDA/CGA	1986	1	PC/XT	64	DRAM	8
Wonder EGA	1987	1	PC/XT	256	DRAM	8
Wonder VGA	1987	1, 0.8	PC/XT, ISA	256, 512 1024	DRAM	8, 16

Mach Series

Model	Launch	Fab (µm)	Bus interface	Memory
Model	Launch	Fab (µm)	Bus interface	Size (KiB)	Bus type	Bus width (bit)
Mach 8	1991	0.8	ISA, MCA	512 1024	DRAM VRAM	32
Mach 32	1992	0.8	ISA, EISA, VLB PCI, MCA	1024 2048	DRAM VRAM	64
Mach 64	1994	0.6	ISA, VLB, PCI	1024, 2048, 4096, 8192	DRAM, VRAM, SGRAM	64

Rage Series

Model	Launch	Fab (nm)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config¹	Fillrate				Memory				API compliance
Model	Launch	Fab (nm)	Bus interface	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)	Direct3D	OpenGL
3D Rage	April 1996^[10]	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	500	AGP 1x (Rage IIc only), PCI	60	83 (66 MHz with EDO)	1:0:1:1	60	60	60	0	2, 4, 8	0.664	EDO, SGRAM, SDR	64	5.0	None²
Rage Pro	March 1997	350	AGP 1x, AGP 2x, PCI	75	75	1:0:1:1	75	75	75	0	8, 16	0.6	EDO, SGRAM, SDR	64	6.0	1.1
Rage XL^[11]^[12]^[13]	August 1998	350	AGP 2x, PCI	125	83	1:0:1:1	ca. 125	125	125	0	8	0.664	SDR	64	6.0	1.2
Rage 128 VR	August 1998	250	AGP 2x, PCI	80	120	2:0:2:2	160	160	160	0	8, 32	0.96	SDR	64	6.0	1.2
Rage 128 GL	August 1998	250	AGP 2x, PCI	103	103	2:0:2:2	206	206	206	0	16, 32	1.648	SGRAM, SDR	128	6.0	1.2
Rage 128 Pro	August 1999	250	AGP 4x, PCI	125	143	2:0:2:2	250	250	250	0	16, 32	2.288	SGRAM, SDR	128	6.0	1.2
Rage 128 Ultra	August 1999	250	AGP 4x, PCI	130	130	2:0:2:2	260	260	260	0	16, 32, 64	2.088	SDR	128	6.0	1.2
Rage Fury MAXX	October 1999	250	AGP 4x, PCI	125	143	2:0:2:2 x2	500	500	500	0	32	4.576	SDR	128 x2	6.0	1.2

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; the numbering was later added in rebrands.

Model	Launch	Code name	Fab (nm)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config¹	Fillrate				Memory
Model	Launch	Code name	Fab (nm)	Bus interface	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)
Radeon VE/7000	Feb 19, 2001	RV100 (piglet)	180	AGP 4x, PCI	183	183	1:0:3:1	183	336	549	0	32, 64	2.688	DDR	64
Radeon LE/7100 (OEM)	May 1, 2001	Rage 6 / R100	180	AGP 4x	150	150	2:1:6:2	296	296	888	37.5	32	4.736	DDR	128
Radeon SDR/7200	June 2000	Rage 6 / R100	180	AGP 4x, PCI	166	166	2:1:6:2	333	333	996	41.5	32	2.656	SDR	128
Radeon DDR/7200	April 2000	Rage 6 / R100	180	AGP 4x	166/183^A	166/183^A	2:1:6:2	333/366^A	333/366^A	966/1098^A	41.5/45.75^A	32, 64	5.312/5.856^A	DDR	128
Radeon DDR/7500 VIVO	2001	Rage 6 / R100	180	AGP 4x, PCI	166/183^B	166/183^B	2:1:6:2	333/366^B	333/366^B	966/1098^B	41.5/45.75^B	64	5.312/5.856^B	DDR	128
Radeon DDR/7500 VIVO "SE"	2001	Rage 6 / R100	180	AGP 4x, PCI	200	200	2:1:6:2	400	400	1200	50.0	64	6.400	DDR	128
Radeon 7500 LE	N/A	RV200 (morpheus)	150	AGP 4x, PCI	250	175	2:1:6:2	500	500	1500	62.5	32, 64	5.600	DDR	128
Radeon 7500	Aug 14, 2001	RV200 (morpheus)	150	AGP 4x, PCI	290	230	2:1:6:2	580	580	1740	72.5	32, 64, 128^[14]	7.360	DDR	128
Model	Launch	Code name	Fab (nm)	Bus interface	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)
Model	Launch	Code name	Fab (nm)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config¹	Fillrate				Memory

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 1.4
Based on the Radeon VE

Model	Launch	Code name	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config¹	Fillrate				Memory
Model	Launch	Code name	Bus interface	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)
Radeon 320	May 2002	A3	FSB	160	200, 266	1:0:3:1	160	160	480	0	Unknown	1.6, 2.128	DDR	64
Radeon 330	2002	RS200L (wilma)	FSB	150	200, 266	1:0:3:1	150	150	450	0	Unknown	1.6, 2.128	DDR	64
Radeon 340	2002	RS200 (wilma)	FSB	183	200, 266	1:0:3:1	183	183	549	0	Unknown	1.6, 2.128	DDR	64

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

Radeon 8000 & 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
Model	Launch	Code name	Bus interface	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)
Radeon 8500	Aug 14, 2001	R200 (chaplin)	AGP 4x	275	275	4:2:8:4	1100	1100	2200	137.5	64, 128	8.8	DDR	128
Radeon 8500 LE	Feb 4, 2002	R200 (chaplin)	AGP 4x	250	250	4:2:8:4	1000	1000	2000	125	64, 128	8	DDR	128
Radeon 9000	Aug 1, 2002	RV250 (iris)	AGP 4x	250	200	4:1:4:4	1000	1000	1000	50	64, 128	6.4	DDR	128
Radeon 9000 Pro	Aug 1, 2002	RV250 (iris)	AGP 4x	275	275	4:1:4:4	1100	1100	1100	68.75	64, 128	8.8	DDR	128
Radeon 9100	April 1, 2003	R200 (chaplin)	AGP 8x, PCI	250	250	4:2:8:4	1000	1000	2000	125	64, 128	8.0	DDR	128
Radeon 9200	April 1, 2003	RV280 (argus)	AGP 8x, PCI	250	200	4:1:4:4	1000	1000	1000	62.5	64, 128, 256	6.4	DDR	128
Radeon 9200 SE	March 1, 2003	RV280 (argus)	AGP 8x, PCI	200	166	4:1:4:4	800	800	800	50	64, 128, 256	2.67	DDR	64
Radeon 9250	March 1, 2004	RV280 (argus)	AGP 8x, PCI	240	200	4:1:4:4	960	960	960	60	64, 128, 256	3.2, 6.4	DDR	64, 128

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
Model	Launch	Code name	Bus interface	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)
Radeon 9000	2003	RC350	FSB	300	400	4:1:2:2	600	600	600	75	16 - 128	3.2	DDR	64
Radeon 9100	2003	RS300 (superman)	FSB	300	400	4:1:2:2	600	600	600	75	16 - 128	6.4	DDR	128
Radeon 9100 Pro	May 3, 2004	RS350	FSB	300	400	4:1:2:2	600	600	600	75	16 - 128	6.4	DDR	128

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

Radeon R300 Series

AGP (9000 Series)

All models include Direct3D 9.0 and OpenGL 2.0

Model	Launch	Code name	Fab (nm)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config¹	Fillrate				Memory
Model	Launch	Code name	Fab (nm)	Bus interface	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)
Radeon 9500	Oct. 24, 2002	R300 (khan)	150	AGP 8x	275	270	4:4:4:8	1100	2200	1100	275	64, 128	8.64	DDR	128
Radeon 9500 Pro	Oct. 24, 2002	R300 (khan)	150	AGP 8x	275	270	8:4:8:8	2200	2200	2200	275	128	8.64	DDR	128
Radeon 9550	2004	RV350 (shivah)	130	AGP 8x	250	200	4:2:4:4	1000	1000	1000	125	64, 128, 256	6.4	DDR	128
Radeon 9550 SE	2004	RV350 (shivah)	130	AGP 8x	250	200	4:2:4:4	1000	1000	1000	125	64, 128, 256	3.2	DDR	64
Radeon 9600	2003	RV350 (shivah)	130	AGP 8x	325	200	4:2:4:4	1300	1300	1300	162.5	128, 256	6.4	DDR	128
Radeon 9600 Pro	Mar. 6, 2003	RV350 (shivah)	130	AGP 8x	400	300	4:2:4:4	1600	1600	1600	200	128, 256	9.6	DDR	128
Radeon 9600 SE	2003	RV350 (shivah)	130	AGP 8x	325	200	4:2:4:4	1300	1300	1300	162.5	64, 128, 256	3.2	DDR	64
Radeon 9600 XT	Sept. 30, 2003	RV360	130	AGP 8x	500	300	4:2:4:4	2000	2000	2000	250	128, 256	9.6	DDR	128
Radeon 9700 TX	2002	R300 (khan)	150	AGP 8x	263	263	8:4:8:8	2104	2104	2104	275	128	16.83	DDR	256
Radeon 9700	Oct. 24, 2002	R300 (khan)	150	AGP 8x	275	270	8:4:8:8	2200	2200	2200	275	128	17.28	DDR	256
Radeon 9700 Pro	July 18, 2002	R300 (khan)	150	AGP 8x	325	310	8:4:8:8	2600	2600	2600	325	128	19.84	DDR	256
Radeon 9800	2003	R350	150	AGP 8x	325	310	8:4:8:8	2600	2600	2600	325	128	19.84	DDR	256
Radeon 9800 XL	2003	R350	150	AGP 8x	350	310	8:4:8:8	2800	2800	2800	350	128	19.84	DDR	256
Radeon 9800 XXL^[15]	Oct. 1, 2003	R360	150	AGP 8x	390	338	8:4:8:8	3120	3120	3120	390	128	21.60	DDR	256^[15]
Radeon 9800 Pro	Mar. 1, 2003^[16]	R350, R360	150	AGP 8x	380	340, 350	8:4:8:8	3040	3040	3040	380	128, 256	21.76, 22.40	DDR, GDDR2	256
Radeon 9800 SE^[17]	Mar. 1, 2003^[18]	R350	150	AGP 8x	325, 380^[17]	270, 340^[17]	4:4:4:4^[18]	1300, 1520^[17]	1300, 1520^[17]	1300, 1520^[17]	325, 380^[17]	128, 256	8.64, 21.76^[17]	DDR	128, 256²^[17]
Radeon 9800 XT	Sept. 9, 2003	R360	150	AGP 8x	412	365	8:4:8:8	3296	3296	3296	412	256	23.36	DDR	256
Model	Launch	Code name	Fab (nm)	Bus interface	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)
Model	Launch	Code name	Fab (nm)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config¹	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.^[19]

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

All models include Direct3D 9.0 and OpenGL 2.0
All models use a PCI-E x16 interface

Model	Launch	Code name	Fab (nm)	Core clock (MHz)	Memory clock (MHz)	Core config¹	Fillrate				Memory
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)
Radeon X300	June 21, 2004	RV370 (hari)	110	325	200	4:2:4:4	1300	1300	1300	162.5	64, 128	6.4	DDR	128
Radeon X300 LE	June 21, 2004	RV370 (hari)	110	325	200	4:2:4:4	1300	1300	1300	162.5	64, 128	6.4	DDR	128
Radeon X300 SE	June 21, 2004	RV370 (hari)	110	325	200	4:2:4:4	1300	1300	1300	162.5	64, 128	3.2	DDR	64
Radeon X300 SE HyperMemory	April 4, 2005	RV370 (hari)	110	325	300	4:2:4:4	1300	1300	1300	162.5	32, 64, 128 onboard + up to 128 system	3.2	DDR	64
Radeon X550	June 21, 2005	RV370 (hari)	110	400	250	4:2:4:4	1600	1600	1600	200	128, 256	8	DDR	128
Radeon X600 Pro	June 21, 2004	RV380 (vishnu)	130	400	300	4:2:4:4	1600	1600	1600	200	128, 256	9.6	DDR	128
Radeon X600 XT	June 21, 2004	RV380 (vishnu)	130	500	370	4:2:4:4	2000	2000	2000	250	128, 256	11.84	DDR	128
Radeon X1050	Dec. 7, 2006	RV370 (hari)	110	400	333	4:2:4:4	1600	1600	1600	200	128, 256	5.328	DDR2	64

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
Model	Launch	Code name	Fab (nm)	Bus interface	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)
Radeon Xpress X200	Nov. 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)	4:2:2:2	600	600	600	0	16-128 system	1.6-12.8 system	DDR, DDR2	64, 128
Radeon Xpress 1150 (originally Xpress 200 for Intel)	March 11, 2005 (Intel), May 23, 2006 (AMD)	RC400, RC410, RS400, RS415, RS485	110	HT, FSB	400	200-400 (DDR), 400-800 (DDR2)	4:2:2:2	800	800	800	0	16-128 system	1.6-12.8	DDR, DDR2	64, 128

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

Radeon X700 & X800 Series

AGP (X7xx, X8xx)

All models include AGP 8x
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
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)
Radeon X700	March 2005	RV410 (alto)	110	400	350	8:6:8:8	3200	3200	3200	600	128, 256	11.2	DDR	128
Radeon X700 Pro	March 1, 2005	RV410 (alto)	110	425	432	8:6:8:8	3400	3400	3400	637.5	128, 256	13.824	GDDR3	128
Radeon X800 SE	Oct. 2004	R420 (loki)	130	425	400	8:6:8:8	3400	6800	3400	637,5	256	25.6	GDDR3	256
Radeon X800 GT	Dec. 6, 2005	R420 (loki)	130	475	490	8:6:8:16	3800	7600	3800	712.5	256	31.36	GDDR3	256
Radeon X800	Dec. 2004	R430	110	400	350	12:6:12:16	4800	6400	4800	600	256	22.4	GDDR3	256
Radeon X800 GTO	Dec. 6, 2005	R420 (loki)	130	400	490	12:6:12:16	4800	6400	4800	600	256	31.36	GDDR3	256
Radeon X800 Pro	May 5, 2004	R420 (loki)	130	475	450	12:6:12:16	5700	7600	5700	712.5	256	28.8	GDDR3	256
Radeon X800 XL	Feb. 2, 2005	R430	110	400	490	16:6:16:16	6400	6400	6400	600	256	31.36	GDDR3	256
Radeon X800 XT	May 4, 2004	R420 (loki)	130	500	500	16:6:16:16	8000	8000	8000	750	256	32	GDDR3	256
Radeon X800 XT PE	May 4, 2004	R420 (loki)	130	520	560	16:6:16:16	8320	8320	8320	780	256	35.84	GDDR3	256
Radeon X850 Pro	Feb. 28, 2005	R481	130	507	520	12:6:12:16	6084	8112	6084	760.5	256	33.28	GDDR3	256
Radeon X850 XT	Feb. 28, 2005	R481	130	520	540	16:6:16:16	8320	8320	8320	780	256	34.56	GDDR3	256
Radeon X850 XT PE	Feb. 28, 2005	R481	130	540	590	16:6:16:16	8640	8640	8640	810	256	37.76	GDDR3	256

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

PCI-E (X7xx, X8xx)

All models include PCI-E x16
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
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)
Radeon X700 SE	Apr. 1, 2005	RV410 (alto)	110	400	200 250	4:6:4:8	1600	3200	1600	600	128	3.2	DDR	64
Radeon X700 LE	Dec. 21, 2004	RV410 (alto)	110	400	250	8:6:8:8	3200	3200	3200	600	128	4	DDR	64
Radeon X700	Sept. 2005	RV410 (alto)	110	400	250 350	8:6:8:8	3200	3200	3200	600	128, 256	8 11.2	DDR	128
Radeon X700 Pro	Dec. 21, 2004	RV410 (alto)	110	425	432	8:6:8:8	3400	3400	3400	637.5	128, 256	13.824	GDDR3	128
Radeon X700 XT	Never Released	RV410 (alto)	110	475	525	8:6:8:8	3800	3800	3800	712.5	128, 256	16.8	GDDR3	128
Radeon X800 GT 128MB	Aug. 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	Aug. 1, 2005	R423 R480 (thor)	130	475	490	8:6:8:16	3800	7600	3800	712.5	256	31.36	GDDR3	256
Radeon X800	Dec. 1, 2004	R430 (thor)	110	392	350	12:6:12:16	4704	6272	4704	588	128, 256	22.4	GDDR3	256
Radeon X800 GTO 128MB	Sept. 15, 2005	R423 R480 R430 (thor)	130 110	400	350	12:6:12:16	4800	6400	4800	600	128	22.4	GDDR3	256
Radeon X800 GTO 256MB	Sept. 15, 2005	R423 R480 R430 (thor)	130 110	400	490	12:6:12:16	4800	6400	4800	600	256	31.36	GDDR3	256
Radeon X800 Pro	May 5, 2004	R423 (thor)	130	475	450	12:6:12:16	5700	7600	5700	712.5	256	28.8	GDDR3	256
Radeon X800 XL	Dec. 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	GDDR3	256
Radeon X800 XT	Dec. 1, 2004	R423 (thor)	130	500	500	16:6:16:16	8000	8000	8000	750	256	32	GDDR3	256
Radeon X800 XT Platinum Edition	May 5, 2004	R423 (thor)	130	520	560	16:6:16:16	8320	8320	8320	780	256	35.84	GDDR3	256
Radeon X850 Pro	Dec. 1, 2004	R480 (thor)	130	507	520	12:6:12:16	6084	8112	6084	760.5	256	33.28	GDDR3	256
Radeon X850 XT	Dec. 1, 2004	R480 (thor)	130	520	540	16:6:16:16	8320	8320	8320	780	256	34.56	GDDR3	256
Radeon X850 XT CrossFire Master	Sept. 29, 2004	R480 (thor)	130	520	540	16:6:16:16	8320	8320	8320	780	256	34.56	GDDR3	256
Radeon X850 XT Platinum Edition	Dec. 21, 2004	R480 (thor)	130	540	590	16:6:16:16	8640	8640	8640	810	256	37.76	GDDR3	256
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)
Model	Launch	Code name	Fab (nm)	Core clock (MHz)	Memory clock (MHz)	Core config¹	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
Model	Launch	Code name	Fab (nm)	Bus interface	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)
Radeon Xpress X1200	Feb. 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	Aug. 29, 2006 (Intel), Feb. 28, 2007 (AMD)	RS600, RS690 (zeus)	80	FSB, HT 2.0	400	400 - 800	4:2:4:4	1600	1600	1600	200	256 - 512	6.4 - 12.8	DDR2	128
Radeon Xpress 2100	March 4, 2008	RS740 (titan)	55	HT 2.0	500	400 - 800	4:2:4:4	2000	2000	2000	250	256 - 512	6.4 - 12.8	DDR2	128

Radeon X1000 Series

Note that ATI X1000 Series cards (e.g. X1900) don't 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)
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)
Radeon X1300	Oct. 5, 2005 (PCI-E) Dec. 1, 2005 (AGP)	RV515	90	107	100	AGP 8x PCI PCI-E x16	450	250	4:2:4:4	1800	1800	225	1800	128 256	8.00	DDR2	128		9.0c	2.0	$
Radeon X1300 HyperMemory	Oct. 5, 2005	RV515	90	107	100	PCI-E x16	450	250	4:2:4:4	1800	1800	225	1800	128 256 512	8.00	DDR2	64		9.0c	2.0	$
Radeon X1300 PRO	Oct. 5, 2005 (PCI-E) Nov. 1, 2006 (AGP)	RV515	90	107	100	AGP 8x PCI-E x16	600	400	4:2:4:4	2400	2400	300	2400	128 256	12.8	DDR2	128	31	9.0c	2.0	$
Radeon X1300 XT	Aug. 12, 2006	RV530	90	157	150	AGP 8x PCI-E x16	500	400	12:5:4:4	6000	2000	625	2000	128 256	12.8	DDR2	128	22	9.0c	2.0	$
Radeon X1550	Jan. 8, 2007	RV516	90	107	100	AGP 8x PCI PCI-E x16	550	400	4:2:4:4	2200	2200	275	2200	128 256 512	12.8	DDR2	128	27	9.0c	2.0	$
Radeon X1600 PRO	Oct. 10, 2005	RV530	90	157	150	AGP 8x PCI-E x16	500	390	12:5:4:4	6000	2000	625	2000	128 256 512	12.48	DDR2	128	41	9.0c	2.0	$
Radeon X1600 XT	Oct. 10, 2005 (PCI-E)	RV530	90	157	150	AGP 8x PCI-E x16	590	780	12:5:4:4	7080	2360	737.5	2360	256 512	22.08	GDDR3	128	42	9.0c	2.0	$
Radeon X1650	Feb. 1, 2007	RV530	90	157	150	AGP 8x PCI-E x16	500	400	12:5:4:4	6000	2000	625	2000	256 512	12.8	DDR2	128		9.0c	2.0	$
Radeon X1650 SE		RV516	90	105		PCI-E x16	635	400	4:2:4:4					256	12.8	DDR2	128		9.0c	2.0
Radeon X1650 GT	May 1, 2007 (PCI-E) Oct. 1, 2007 (AGP)	RV560	80	330	230	AGP 8x PCI-E x16	400	400	24:8:8:8	9600	3200	800	3200	256 512	12.8	GDDR3	128		9.0c	2.0	$
Radeon X1650 PRO	Aug. 23, 2006 (PCI-E) Oct. 15, 2006 (AGP)	RV535	80	330	131	AGP 8x PCI-E x16	600	700	12:5:4:4	7200	2400	750	2400	256 512	22.4	GDDR3	128	44	9.0c	2.0	$
Radeon X1650 XT	Oct. 30, 2006	RV560	80	330	230	AGP 8x PCI-E x16	525	700	24:8:8:8	12600	4200	1050	4200	256 512	22.4	GDDR3	128	55	9.0c	2.0	$
Radeon X1800 CrossFire Edition	Dec. 20, 2005	R520	90	321	288	PCI-E x16	600	700	16:8:16:16	9600	9600	900	9600	512	46.08	GDDR3	256	113	9.0c	2.0	$
Radeon X1800 GTO	Mar. 9, 2006	R520	90	321	288	PCI-E x16	500	495	12:8:12:8	6000	6000	1000	6000	256 512	32.0	GDDR3	256	48	9.0c	2.0	$249
Radeon X1800 XL	Oct. 5, 2005	R520	90	321	288	PCI-E x16	500	500	16:8:16:16	8000	8000	1000	8000	256	32.0	GDDR3	256	70	9.0c	2.0	$
Radeon X1800 XT	Oct. 5, 2005	R520	90	321	288	PCI-E x16	625	750	16:8:16:16	10000	10000	1250	10000	256 512	48.0	GDDR3	256	113	9.0c	2.0	$549
Radeon X1900 CrossFire Edition	Jan. 24, 2006	R580	90	384	352	PCI-E x16	625	725	48:8:16:16	30000	10000	1250	10000	512	46.4	GDDR3	256	100	9.0c	2.0	$599
Radeon X1900 GT	May 5, 2006	R580	90	384	352	PCI-E x16	575	600	36:8:12:12	20700	6900	1150	6900	256	38.4	GDDR3	256	75	9.0c	2.0	$
Radeon X1900 GT Rev. 2	Sept. 7, 2006	R580	90	384	352	PCI-E x16	512	660	36:8:12:12	18432	6144	1024	6144	256	42.64	GDDR3	256		9.0c	2.0	$
Radeon X1900 XT	Jan. 24, 2006	R580	90	384	352	PCI-E x16	625	725	48:8:16:16	30000	10000	1250	10000	256 512	46.4	GDDR3	256	100	9.0c	2.0	$549
Radeon X1900 XTX	Jan. 24, 2006	R580	90	384	352	PCI-E x16	650	775	48:8:16:16	31200	10400	1300	10400	512	49.6	GDDR3	256	135	9.0c	2.0	$649
Radeon X1950 CrossFire Edition	Aug. 23, 2006	R580+	80	384	352	PCI-E x16	650	1000	48:8:16:16	31200	10400	1300	10400	512	64	GDDR4	256		9.0c	2.0	$449
Radeon X1950 GT	Jan. 29, 2007 (PCI-E) Feb. 10, 2007 (AGP)	RV570	80	330	230	AGP 8x PCI-E x16	500	600	36:8:12:12	18000	6000	1000	6000	256 512	38.4	GDDR3	256	57	9.0c	2.0	$140
Radeon X1950 PRO	Oct. 17, 2006 (PCI-E) Oct. 25, 2006 (AGP)	RV570	80	330	230	AGP 8x PCI-E x16	575	690	36:8:12:12	20700	6900	1150	6900	256 512	44.16	GDDR3	256	66	9.0c	2.0	$
Radeon X1950 XT	Oct. 17, 2006 (PCI-E) Feb. 18, 2007 (AGP)	R580+	80	384	352	AGP 8x PCI-E 1.0 x16	625	700 (AGP) 900 (PCI-E)	48:8:16:16	30000	10000	1250	10000	256 512	44.8 (AGP) 57.6 (PCI-E)	GDDR3	256	96	9.0c	2.0	$
Radeon X1950 XTX	Oct. 17, 2006	R580+	80	384	352	PCI-E 1.0 x16	650	1000	48:8:16:16	31200	10400	1300	10400	512	64	GDDR4	256	125	9.0c	2.0	$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)
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)

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)		API support (version)			Release Price (USD)
Model	Launch	Code name	Fab (nm)	Transistors (million)	Die size (mm²)	Bus interface	Core (MHz)	Memory (MHz)	Core config	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	Release Price (USD)
Radeon HD 2350	Jun 28, 2007	RV610	65	180	85	PCIe 1.0 ×16 AGP	525	400	40:4:4	2.10	2.10	256	6.40	DDR2	32	42.0	No		20	10.0	3.3	APP Stream Only	?
Radeon HD 2400 PRO	Jun 28, 2007	RV610	65	180	85	PCIe 1.0 ×16 AGP PCI	525	400	40:4:4	2.10	2.10	128 256 512	6.40	DDR2	64	42.0	No		20	10.0	3.3	APP Stream Only	50-55$
Radeon HD 2400 XT	Jun 28, 2007	RV610	65	180	85	PCIe 1.0 ×16	650	500 700	40:4:4	2.60	2.60	256	8.0 11.2	DDR2 GDDR3	64	52.0	No		25	10.0	3.3	APP Stream Only	75-85$
Radeon HD 2600 PRO	Jun 28, 2007	RV630	65	390	153	PCIe 1.0 ×16 AGP	600 600	500 700	120:8:4	2.40	4.80	256 512	16.0 22.4	DDR2 GDDR3	128	144.0	No		35	10.0	3.3	APP Stream Only	89-99$
Radeon HD 2600 XT	Jun 28, 2007	RV630	65	390	153	PCIe 1.0 ×16 AGP	800 800	800 1100	120:8:4	3.20	6.40	256 512	25.6 35.2	GDDR3 GDDR4	128	192.0	No		45 50	10.0	3.3	APP Stream Only	119$ (GDDR3) 149$ (GDDR4)
Radeon HD 2900 GT	Nov 6, 2007	R600 GT	80	720	420	PCIe 1.0 ×16	601	800	240:12:12	7.21	7.21	256 512	51.2	GDDR3	256	288.5	No		150	10.0	3.3	APP Stream Only	200$
Radeon HD 2900 PRO	Sep 25, 2007	R600 PRO	80	720	420	PCIe 1.0 ×16	600 600	800 925	320:16:16	9.6	9.6	512 1024	51.2 102.4 118.4	GDDR3 GDDR4	256 512	384.0	No		200	10.0	3.3	APP Stream Only	250$ (512mb GDDR3) 300$ (1GB GDDR4)
Radeon HD 2900 XT	May 14, 2007	R600 XT	80	720	420	PCIe 1.0 ×16	743 743	828 1000	320:16:16	11.9	11.9	512 1024	105.6 128.0	GDDR3 GDDR4	512	475.5	No		215	10.0	3.3	APP Stream Only	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)		API support (version)			Release Price (USD)
Model	Launch	Code name	Fab (nm)	Transistors (million)	Die size (mm²)	Bus interface	Core (MHz)	Memory (MHz)	Core config	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, ATI Stream	Release Price (USD)
Radeon HD 3410	May 7, 2009	RV610	65	180	85	PCIe 1.0 x16	519	396	40:4:4	2.08	2.08	256	6.34	DDR2	64	41.52	No		20	10.0	3.3	No, Yes	?
Radeon HD 3450	Jan 23, 2008	RV620 LE	55	181	67	PCIe 2.0 x16 PCI AGP 8x	600	500	40:4:4	2.40	2.40	256 512	8.00	DDR2	64	48.0	No		25	10.1	3.3	No, Yes	?
Radeon HD 3470	Jan 23, 2008	RV620 PRO	55	181	67	PCIe 2.0 x16	800	950	40:4:4	3.20	3.20	256 512	15.2	DDR2 GDDR3	64	64.0	No		30	10.1	3.3	No,Yes	?
Radeon HD 3550	Aug 4, 2008	RV620 PRO	55	181	67	PCIe 2.0 x16	594	396	40:4:4	2.38	2.38	512	6.34	DDR2	64	47.52	No		30	10.1	3.3	No,Yes	?
Radeon HD 3570	Jul 5, 2010	RV620 PRO	55	181	67	PCIe 2.0 x16	796	495	40:4:4	3.18	3.18	512	7.92	DDR2	64	63.68	No		30	10.1	3.3	No,Yes	?
Radeon HD 3610	Sep 24, 2009	RV630 PRO	65	390	153	PCIe 1.0 x16	594	396	120:8:4	2.38	4.75	512 1024	12.7	DDR2	128	142.6	No		35	10.1	3.3	No,Yes	?
Radeon HD 3650	Jan 23, 2008	RV635 PRO	55	378	135	PCIe 2.0 x16 AGP 8x	725	405 800	120:8:4	2.90	5.80	256 512 1024	13.0 25.6	DDR2 GDDR3 GDDR4	128	174.0	No		65	10.1	3.3	No,Yes	?
Radeon HD 3730	Oct 5, 2008	RV635 PRO	55	378	135	PCIe 2.0 x16	722	405	120:8:4	2.89	5.78	512	13.0	DDR2	128	173.3	No		65	10.1	3.3	No,Yes	?
Radeon HD 3750	Oct 5, 2008	RV635 PRO	55	378	135	PCIe 2.0 x16	796	693	120:8:4	3.18	6.37	512	22.2	GDDR3	128	191.0	No		65	10.1	3.3	No, Yes	?
Radeon HD 3830	Apr 1, 2008	RV670 PRO	55	666	192	PCIe 2.0 x16	668	828	320:16:16	10.7	10.7	256	26.5	GDDR3	128	427.5	85.4		75	10.1	3.3	No, Yes	129
Radeon HD 3850	Nov 19, 2007	RV670 PRO	55	666	192	PCIe 2.0 x16 AGP 8x	668	830 900	320:16:16	10.7	10.7	256 512 1024	53.1 57.6	GDDR3 GDDR4	256	427.5	85.4		75	10.1	3.3	No,Yes	179
Radeon HD 3870	Nov 19, 2007	RV670 XT	55	666	192	PCIe 2.0 x16 AGP 8x	777 777	900 1126	320:16:16	12.4	12.4	512 1024	57.6 72.1	GDDR3 GDDR4	256	497.3	99.2		106	10.1	3.3	No,Yes	219
Radeon HD 3850 X2	Apr 4, 2008	RV670 PRO	55	666×2	192×2	PCIe 2.0 x16	668	828	320:16:16×2	10.7×2	10.7×2	512×2	53.0×2	GDDR3	256×2	855.0	171		140	10.1	3.3	No,Yes	349
Radeon HD 3870 X2	Jan 28, 2008	R680	55	666×2	192×2	PCIe 2.0 x16	825 825	900 1125	320:16:16×2	13.2×2	13.2×2	512×2	57.6×2 72.0×2	GDDR3 GDDR4	256×2	1056	211.2		165	10.1	3.3	No,Yes	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
Model	Launch	Code name	Graphics core	Fab (nm)	Transistors (million)	Die size (mm²)	Bus interface	Core clock² (MHz)	Core config¹	Pixel (GP/s)	Texture (GT/s)	FP32 (GP/s)	Size (MB)	Bandwidth (GB/s)	Bus type	Effective clock (MHz)	Bus width (bit)	Processing power (GFLOPS)	Features / Notes
Radeon 3000 Graphics (760G Chipset)	2009	RS780L^[20]	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)	N/A	N/A	28	AVIVO
Radeon 3100 Graphics (780V Chipset)	2008 Jan 23 (China) Mar 4 (Worldwide)	RS780C						350		1.4	1.4	0.7	Up to 512 system	20.8 (system)	HT (system)	N/A	N/A	28	AVIVO
Radeon HD 3200 Graphics (780G Chipset)	2008 Jan 23 (China) Mar 4 (Worldwide)	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	UVD2, 8x 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	20.8 (system) + 2.6 (sideport)	HT (system) + DDR3-1333 (sideport)	1333 (sideport)	16 (sideport)	56	UVD2, PowerPlay

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 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)
Model	Launch	Code name	Fab (nm)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config¹	MPixels/s	MTexels/s	MVertices/s	Size (MB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Direct3D	OpenGL
All-in-Wonder Radeon	Jul 31, 2000	R100	180	AGP 4x	166	332	2:1:6:2	332	996	41.5	32	5.312	DDR	128	7.0	1.4
All-in-Wonder 7500	Jan 22, 2002	RV200	150	AGP 4x	260	360	2:0:6:2	520	1560	0	64	11.52	DDR	128	7.0	1.4
All-in-Wonder VE	Dec 2, 2002	RV200	150	AGP 4x	250	500	2:0:6:2	500	1500	0	64	8	DDR	128	7.0	1.4
All-in-Wonder 8500	Apr 4, 2002	R200	150	AGP 4x	260	550	4:2:8:4	1100	2200	137.5	128	8.8	DDR	128	8.1	1.4
All-in-Wonder 8500 DV	Aug 30, 2001	R200	150	AGP 4x	230	380	4:2:8:4	920	1840	115	64	6.08	DDR	128	8.1	1.4
All-in-Wonder 9000 Pro	Mar 31, 2003	RV250	150	AGP 8x	275	550	4:1:4:4	1110	1110	68.75	64, 128	8.8	DDR	128	8.1	1.4
All-in-Wonder 9200	Jan 26, 2004	RV250	150	AGP 8x	250	400	4:1:4:4	1000	1000	62.5	128	6.4	DDR	128	8.1	1.4
All-in-Wonder 9200 SE	N/A	RV250	150	AGP 8x	250	332	4:1:4:4	1000	1000	62.5	128	2.656	DDR	64	8.1	1.4
All-in-Wonder 9600	Jan 26, 2004	RV350	130	AGP 8x	325	400	4:2:4:4	1300	1300	162.5	128	6.4	DDR	128	9.0	2.0
All-in-Wonder 9600 Pro	Aug 05, 2003	RV350	130	AGP 8x	400	650	4:2:4:4	1600	1600	200	128	10.4	DDR	128	9.0	2.0
All-in-Wonder 9600 XT	Jan 26, 2004	RV360	130	AGP 8x	525	650	4:2:4:4	2100	2100	262.5	128	10.4	DDR	128	9.0	2.0
All-in-Wonder 9700 Pro	Dec 30, 2002	R300	150	AGP 8x	325	620	8:4:8:8	2600	2600	325	128	19.84	DDR	256	9.0	2.0
All-in-Wonder 9800 Pro	Apr 7, 2003	R350	150	AGP 8x	380	680	8:4:8:8	3040	3040	380	128	21.76	DDR	256	9.0	2.0
All-in-Wonder 9800 SE	Nov 1, 2003	R350	150	AGP 8x	380	680	4:4:4:8	3040	1520	380	128	10.88	DDR	128	9.0	2.0
All-in-Wonder X600 Pro	Sept 21, 2004	RV370	110	AGP 8x	400	600	4:2:4:4	1600	1600	200	256	9.6	DDR	128	9.0	2.0
All-in-Wonder X800 GT	Aug 8, 2005	R430	110	PCI-E x16	490	980	8:6:8:16	6400	3200	600	128	31.36	GDDR3	256	9.0b	2.0
All-in-Wonder X800 XL	Jul 5, 2005	R430	110	PCI-E x16 AGP 8X	400	980	16:6:16:16	6400	6400	600	256	31.36	GDDR3	256	9.0b	2.0
All-in-Wonder X800 XT	Sept 9, 2004	R420	130	AGP 8x	500	1000	16:6:16:16	8000	8000	750	256	32	GDDR3	256	9.0b	2.0
All-in-Wonder 2006	Dec 22, 2005	RV515	90	PCI-E x16	450	800	4:2:4:4	1800	1800	225	256	12.8	DDR2	128	9.0c	2.0
All-in-Wonder X1800 XL	Nov 21, 2005	R520	90	PCI-E x16	500	1000	16:8:16:16	8000	8000	1000	256	32	GDDR3	256	9.0c	2.0
All-in-Wonder X1900	Jan 24, 2006	R580	90	PCI-E x16	500	960	48:8:16:16	8000	8000	1000	256	30.72	GDDR3	256	9.0c	2.0
All-in-Wonder HD 3650	Jun 28, 2008	RV635	55	PCI-E x16	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)		API support (version)			Release Price (USD)
Model⁴	Launch	Code name	Fab (nm)	Transistors (million)	Die size (mm²)	Bus interface	Core (MHz)	Memory (MHz)	Core config¹	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	Release Price (USD)
Radeon HD 4350	Sep 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	10.1	3.3	1.0	?
Radeon HD 4550	Sep 30, 2008	RV710	55	242	73	PCIe 2.0 ×16	600 600	655 800	80:8:4	2.40	4.80	256 512 1024	10.5 12.8	DDR2 GDDR3	64	96.0	No		25	10.1	3.3	1.0	?
Radeon HD 4570	Nov 25, 2008	RV710	55	242	73	PCIe 2.0 ×16	650	500	80:8:4	2.60	5.20	1024	8.00	DDR2	64	104.0	No		25	10.1	3.3	1.0	?
Radeon HD 4580	Nov 20, 2011	RV635 PRO	55	378	135	PCIe 2.0 ×16	796	693	120:8:4	3.18	6.37	512	22.2	GDDR3	128	191.0	No		65	10.1	3.3	1.0	?
Radeon HD 4650	Sep 10, 2008	RV730 PRO	55	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	10.1	3.3	1.0	?
Radeon HD 4670	Sep 10, 2008	RV730 XT	55	514	146	PCIe 2.0 ×16 AGP 8×	750 750	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	10.1	3.3	1.0	79
Radeon HD 4730	Jun 8, 2009	RV770 CE	55	956	256	PCIe 2.0 ×16	700 750	900 900	640:32:8	5.60 6.00	22.4 24.0	512	57.6	GDDR5	128	896.0 960.0	179.2 192.0		110	10.1	3.3	1.0	?
Radeon HD 4750	Sep 9, 2009	RV740	40	826	137	PCIe 2.0 ×16	730	800	640:32:16	11.7	23.4	512	51.2	GDDR5	128	934.4			80	10.1	3.3	1.0	?
Radeon HD 4770	Apr 28, 2009	RV740	40	826	137	PCIe 2.0 ×16	750	800	640:32:16	12.0	24.0	512	51.2	GDDR5	128	960.0	192.0		80	10.1	3.3	1.0	109
Radeon HD 4810	May 28, 2009	RV770 CE	55	956	256	PCIe 2.0 ×16	625 750	900 900	640:32:8	5.00 6.00	20.0 24.0	512	57.6	GDDR5	128	800.0 960.0	160.0 192.0		95	10.1	3.3	1.0	?
Radeon HD 4830	Oct 21, 2008	RV770 LE	55	956	256	PCIe 2.0 ×16	575	900	640:32:16	9.20	18.4	512 1024	57.6	GDDR3 GDDR4	256	736.0	147.2		95	10.1	3.3	1.0	130$
Radeon HD 4850	Jun 25, 2008	RV770 PRO	55	956	256	PCIe 2.0 ×16	625	993	800:40:16	10.0	25.0	512 1024 2048	63.55	GDDR3 GDDR4 GDDR5	256	1000	200.0		110	10.1	3.3	1.0	199 (149)
Radeon HD 4860	Sep 9, 2009	RV790 GT	55	959	282	PCIe 2.0 ×16	700	750	640:32:16	11.2	22.4	512 1024	96	GDDR5	256	896.0	179.2		130	10.1	3.3	1.0	?
Radeon HD 4870	Jun 25, 2008	RV770 XT	55	956	256	PCIe 2.0 ×16	750	900	800:40:16	12.0	30.0	512 1024 2048	115.2	GDDR5	256	1200	240.0		150	10.1	3.3	1.0	299 (225)
Radeon HD 4890	Apr 2, 2009	RV790 XT	55	959	282	PCIe 2.0 ×16	850	975	800:40:16	13.6	34.0	1024 2048	124.8	GDDR5	256	1360	272.0		190	10.1	3.3	1.0	249
Radeon HD 4850 X2	Nov 7, 2008	R700 (2xRV770 PRO)	55	956×2	256×2	PCIe 2.0 ×16	625	995	800:40:16×2	10.0×2	25.0×2	512×2 1024×2	63.7×2	GDDR3	256x2	2000	400.0		250	10.1	3.3	1.0	339
Radeon HD 4870 X2	Aug 12, 2008	R700 (2xRV770 XT)	55	956×2	256×2	PCIe 2.0 ×16	750	900	800:40:16×2	12×2	30×2	1024×2	115.2×2	GDDR5	256x2	2400	480.0		286	10.1	3.3	1.0	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)		API support (version)			Release Price (USD)
Model⁴	Launch	Code name	Fab (nm)	Transistors (million)	Die size (mm²)	Bus interface	Core (MHz)	Memory (MHz)	Core config¹	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	Release Price (USD)

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 & PowerPlay.

IGP (HD 4000)

All Radeon HD 4000 IGP models include Direct3D 10.1 and OpenGL 2.0^[21]

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
Model	Launch	Code name	Graphics core	Fab (nm)	Transistors (million)	Die size (mm²)	Bus interface	Core clock² (MHz)	Core config¹	Pixel (GP/s)	Texture (GT/s)	FP32 (GP/s)	Size (MB)	Bandwidth (GB/s)	Bus type	Effective clock (MHz)	Bus width (bit)	Processing power (GFLOPS)	Features / Notes
Radeon HD 4200 Graphics (785G Chipset)	Aug 2009	RS880	RV620	55	>205	~73 (~9 × 8.05)	HT 3.0	500	40:4:4	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	Up to 512 system + optional 128 sideport		HT (system) + DDR3-1333 (sideport)			44.8
Radeon HD 4290 Graphics (890GX Chipset)	Mar 2010	RS880D						700		2.8	2.8	1.4	Up to 512 system + 128 sideport		HT (system) + DDR3-1333 (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]}		API support (version)				Release Price (USD)
Model	Launch	Code name	Fab (nm)	Transistors (million)	Die size (mm²)	Bus interface	Core (MHz)	Memory (MHz)	Core config^{[lower-alpha 1]}	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	Vulkan	Release Price (USD)
Radeon HD 5450	Feb 4, 2010	Cedar PRO	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	N/A	6.4	19.1	11.3 (11_0)	4.5	1.2	N/A	~50
Radeon HD 5550	Feb 9, 2010	Redwood LE		627	104	PCIe 2.1 x16	550 550 550	400 800 800	320:16:8	4.4	8.8		12.8 25.6 51.2	DDR2 GDDR3 GDDR5	128	352		10	39					~70
Radeon HD 5570	Feb 9, 2010	Redwood PRO					650 650	400 900	400:20:8	5.2	13.0		12.8 28.8 57.6	DDR2 GDDR3 GDDR5		520		10						80
Radeon HD 5610	May 14, 2011	Redwood PRO					650	500		5.2	13.0	1024	16.0	GDDR3		520
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					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	Oct 13, 2009	Juniper XT		1040	170		850 850	1200 1200	800:40:16	13.6	34.0	512 1024	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	128.0			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	1024 2048	153.6			2720	544		188 228					379
Radeon HD 5870 Eyefinity Edition^{[lower-alpha 3]}^[22]	Mar 11, 2010	Cypress XT					850	1200	1600:80:32	27.2	68.0	2048	153.6			2720	544		228					479
Radeon HD 5970	Nov 18, 2009	Hemlock XT		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					599
Model	Launch	Code name	Fab (nm)	Transistors (Million)	Die Size (mm²)	Bus interface	Core (MHz)	Memory (MHz)	Core config^{[lower-alpha 1]}	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	Vulkan	Release Price (USD)
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 (W)^{[lower-alpha 2]}		API support (version)				Release Price (USD)

1 2 Unified Shaders : Texture Mapping Units : Render Output Units
1 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.
↑ 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

Model (Codename)	Launch	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	Release Price (USD)
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock (MHz)	Texture (GT/s)	Pixel (GP/s)	Single	Double	Size (MB)	Clock (MHz)	Bus type & width (bit)	Bandwidth (GB/s)	Idle	Max.	Bus interface	Release Price (USD)
Radeon HD 6350 (Cedar)	April 7, 2011	TeraScale 2 (40 nm)	7008292000000000000♠292×10⁶ 59 mm²	80:8:4	650	5.2	2.6	104	N/A	512	800	DDR3 64-bit	12.8	6.4	19.1	PCIe 2.1 ×16	$23
Radeon HD 6450 (Caicos)	February 7, 2011		7008370000000000000♠370×10⁶ 67 mm²	160:8:4	625 750	5.0 6.0	2.5 3.0	200 240	N/A	512	533 800	DDR3 64-bit	8.5 12.8	9	18 27		OEM
Radeon HD 6450 (Caicos)	April 7, 2011		7008370000000000000♠370×10⁶ 67 mm²	160:8:4	625 750	5.0 6.0	2.5 3.0	200 240	N/A	512 1024 2048	800 900	DDR3 64-bit	12.8 14.4	9	18 27		$55
Radeon HD 6570 (Turks Pro)	February 7, 2011		7008716000000000000♠716×10⁶ 118 mm²	480:24:8	650	15.6	5.2	624	N/A	1024	900	DDR3 128-bit	28.8	10	44		OEM
Radeon HD 6570 (Turks Pro)	April 19, 2011			480:24:8	650	15.6	5.2	624	N/A	2048 4096	667 1000	DDR3 GDDR5 128-bit	21.3 64	11	60		$79
Radeon HD 6670 (Turks XT)	April 19, 2011			480:24:8	800	19.2	6.4	768	N/A	512 1024 2048	800 1000	DDR3 GDDR5 128-bit	25.6 64	12	66		$99
Radeon HD 6750 (Juniper Pro)	January 21, 2011		7009104000000000000♠1040×10⁶ 166 mm²	720:36:16	700	25.2	11.2	1008	N/A	512 1024	1150	GDDR5 128-bit	73.6	16	86		OEM
Radeon HD 6770 (Juniper XT)	April 19, 2011		7009104000000000000♠1040×10⁶ 166 mm²	800:40:16	850	34.0	13.6	1360	N/A	512 1024	1200 1050	GDDR5 128-bit	76.8 67.2	18	108		Unknown
Radeon HD 6790 (Barts LE)	April 4, 2011		7009170000000000000♠1700×10⁶ 255 mm²	800:40:16	840	33.6	13.4	1344	N/A	1024	1050	GDDR5 256-bit	134.4	19	150		$149
Radeon HD 6850 (Barts Pro)	October 22, 2010			960:48:32	775	37.2	24.8	1488	N/A	1024	1000		128	19	127		$179
Radeon HD 6870 (Barts XT)	October 22, 2010			1120:56:32	900	50.4	28.8	2016	N/A	1024 2048	1050		134.4	19	151		$239
Radeon HD 6930 (Cayman CE)	December 2011	TeraScale 3 (40 nm)	7009264000000000000♠2640×10⁶ 389 mm²	1280:80:32	750	60.0	24.0	1920	480	1024 2048	1200	GDDR5 256-bit	153.6	18	186		$180
Radeon HD 6950 (Cayman Pro)	December 15, 2010			1408:88:32	800	70.4	25.6	2253	563	1024 2048	1250 1250		160	20	200		$259 $299
Radeon HD 6970 (Cayman XT)	December 15, 2010			1536:96:32	880	84.5	28.2	2703	675	2048	1375		176	20	250		$369
Radeon HD 6990 (Antilles XT)	March 8, 2011		2×7009264000000000000♠2640×10⁶ 2×389 mm²	2× 1536:96:32	830	2× 79.6	2× 26.5	5099	1276.88	2× 2048	1250	GDDR5 256-bit	2× 160	37	375		$699

↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with DDR memory.
↑ 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.

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
Model	Launch	Codename	Architecture	Fab (nm)	Core Clock rate (MHz)	Config core^{[lower-alpha 1]}	Pixel (GP/s)	Texture (GT/s)	Bus width (bit)	Bus type	Bandwidth (GB/s)	Processing power (GFLOPS)	Direct3D	OpenGL	OpenCL	Vulkan	Idle (W)	Max. (W)	APU
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	N/A	Unknown	65	E2-3200
Radeon HD 6410D	June 20, 2011	WinterPark			600	160:8:4	2.4	4.8		DDR3-1866	29.9	192						65	A4-3300, A4-3400
Radeon HD 6530D		BeaverCreek			443	320:16:8	3.54	7.08				284						65–100	A6-3500, A6-3600, A6-3620, A6-3650, A6-3670K
Radeon HD 6550D		BeaverCreek			600	400:20:8	4.8	12				480						65–100	A8-3800, A8-3820, A8-3850, A8-3870K

↑ Unified Shaders : Texture Mapping Units : Render Output Units
↑ TDP specified for AMD reference designs, includes CPU power consumption. Actual TDP of retail products may vary.

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)
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 (MB)	Clock (MHz)	Bus type & width (bit)	Bandwidth (GB/s)	Idle	Max.	Bus interface	Release Price (USD)
Radeon HD 7350 (Cedar)	January 2012	TeraScale 2 40 nm	7008292000000000000♠292×10⁶ 59 mm²	80:8:4	400 650	3.2 5.2	1.6 2.6	104	N/A	256 512	400 800 900	DDR2 DDR3 64-bit	6.4 12.8	6.4	19.1	PCIe 2.1 ×16	OEM
Radeon HD 7450 (Caicos)	January 2012		7008370000000000000♠370×10⁶ 67 mm²	160:8:4	625 750	5.0 6.0	2.5 3.0	200 240	N/A	512 1024	533 800	DDR3 64-bit	8.5 12.8	9	18	PCIe 2.1 ×16	OEM
Radeon HD 7470 (Caicos)	January 2012		7008370000000000000♠370×10⁶ 67 mm²	160:8:4	625 775	5.0 6.2	2.5 3.1	200 248	N/A	512 1024	800 900	DDR3 GDDR5 64-bit	12.8 14.4	9	27	PCIe 2.1 ×16	OEM
Radeon HD 7510 (Turks LE)	February 2013		7008716000000000000♠716×10⁶ 118 mm²	320:16:4	650	10.4	2.6	416	N/A	1024	667	DDR3 128-bit	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	N/A	512 1024	900 1000	DDR3 GDDR5 128-bit	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	N/A	512 1024	1000	GDDR5 128-bit	64	12	66	PCIe 2.1 ×16	OEM
Radeon HD 7730 (Cape Verde LE)	April 2013	GCN 1^st gen 28 nm	7009150000000000000♠1500×10⁶ 123 mm²	384:24:8	800	19.2	6.4	614.4	38.4	1024	1125	DDR3 GDDR5 128-bit	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	800 1125	DDR3 GDDR5 128-bit	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	1125	GDDR5 128-bit	72	10	80	PCIe 3.0 ×16	$160
Radeon HD 7790 (Bonaire XT)	March 2013	GCN 2^nd gen 28 nm	7009208000000000000♠2080×10⁶ 160²	896:56:16	1000	56.0	16.0	1792	128	1024 2048	1500	GDDR5 128-bit	96	10	85	PCIe 3.0 ×16	$150
Radeon HD 7850 (Pitcairn Pro)	March 2012	GCN 1^st gen 28 nm	7009280000000000000♠2800×10⁶ 212mm²	1024:64:32	860	55.04	27.52	1761.28	110.08	1024 2048	1200	GDDR5 256-bit	153.6	10	130	PCIe 3.0 ×16	$250
Radeon HD 7870 GHz Edition (Pitcairn XT)	March 2012		7009280000000000000♠2800×10⁶ 212mm²	1280:80:32	1000	80	32	2560	160	2048	1200	GDDR5 256-bit	153.6	10	175	PCIe 3.0 ×16	$350
Radeon HD 7870 XT (Tahiti LE)	November 2012		7009431300000000000♠4313×10⁶ 352mm²	1536:96:32	925 975	88.8	29.6	2841.6 2995.2	710.4 748.8	2048	1500	GDDR5 256-bit	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	1250	GDDR5 384-bit	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	1250	GDDR5 384-bit	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	1375	GDDR5 384-bit	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	1024 1075	3072 6144	1500	GDDR5 384-bit	288	15	250	PCIe 3.0 ×16	$500
Radeon HD 7990 (New Zealand)	April 2013		2× 7009431300000000000♠4313×10⁶ 352 mm²	2× 2048:128:32	950 1000	2× 128	2× 32	8200	1894	2× 3072	1500	GDDR5 384-bit	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)	Clock (MHz)	Bus type & width (bit)	Bandwidth (GB/s)	Idle	Max.	Bus interface	Release Price (USD)
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)

1 2 3 4 5 6 Boost values (if available) are stated below the base value in italic.
1 2 Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
1 2 Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
1 2 Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
1 2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with DDR memory.
1 2 Unified Shaders : Texture Mapping Units : Render Output Units

IGP (HD 7000)

All models feature the UNB/MC Bus interface
All models do not support double-precision FP
All models feature angle independent anisotropic filtering, UVD3.2, and Eyefinity capabilities, with up to four outputs.
All models are based on the TeraScale 3 (VLIW4) used in the Radeon HD 69xx Series (Cayman) GPUs.

Model	Released	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
Model	Released	Codename	Architecture	Fab (nm)	Core Clock rate (MHz)	Config core^{[lower-alpha 1]}	Pixel (GP/s)	Texture (GT/s)	Bus width (bit)	Bus type	Bandwidth (GB/s)	Processing power (GFLOPS)	Direct3D	OpenGL^{[lower-alpha 3]}	OpenCL	Vulkan	Idle (W)	Max. (W)	APU
Radeon HD 7340^[24]	June 6, 2012	Ontario	TeraScale 2	40	523	80:8:4	2.1	4.2	128	DDR3-1333	21.3	60	11.0					9	E2-1800
Radeon HD 7480D	June 1, 2012	Scrapper	TeraScale 3	32	723	128:8:4	2.9	11.6	128	DDR3-1600	25.6	185	11.3 (11_0)	4.5	1.2	N/A	Unknown	65	A4-4000, A4-5300
Radeon HD 7540D		Scrapper			760	192:12:4	Unknown			DDR3-1866	29.9	292						65	A6-5400K
Radeon HD 7560D		Devastator			760	256:16:4	Unknown					389						65–100	A8-5500, A8-5600K
Radeon HD 7660D		Devastator			760–800	384:24:8	2.7	16.2				584–614						65–100	A10-5700 (760 MHz), A10-5800K (800 MHz)

↑ Unified Shaders : Texture Mapping Units : Render Output Units
↑ TDP specified for AMD reference designs, includes CPU power consumption. Actual TDP of retail products may vary.
↑ OpenGL 4.5 possible for Terascale 3 with AMD Radeon Software Crimson Beta (driver 15.30 or higher).^[23]

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
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 6]}	Clock^{[lower-alpha 1]} (MHz)	Pixel (GP/s)	Texture (GT/s)	Single	Double	Bus type & width (bit)	Size (MiB)	Clock (MHz)	Band- width (GB/s)	Idle Max	Bus interface
Radeon HD 8350 (Cedar)	January 8, 2013	TeraScale 2 (40 nm)	7008292000000000000♠292×10⁶ 59 mm²	80:8:4	400–650	1.6 2.6	3.2 5.2	104	N/A	DDR2 DDR3 64-bit	256 512	400 800	6.4 12.8	6.4 19.1	PCIe 2.1 ×16
Radeon HD 8450 (Caicos)	January 8, 2013		7008370000000000000♠370×10⁶ 67 mm²	160:8:4	625	2.5	5.0	200	N/A	DDR3 64-bit	512	533	8.53	9 18
Radeon HD 8470 (Caicos)	January 8, 2013				750	3.0	6.0	240	N/A	GDDR5 64-bit	1024	800	25.6	9 35
Radeon HD 8490 (Caicos)	July 23, 2013				875	3.5	7.0	280	N/A	GDDR5 64-bit	1024	900	28.8	9 35
Radeon HD 8570 (Oland)	January 8, 2013	GCN 1^st gen (28 nm)	7009104000000000000♠1040×10⁶ 90 mm²	384:24:8	730	6.4	19.2	560	35	DDR3 GDDR5 128-bit	2048	900 1150	28.8 72	12 66	PCIe 3.0 ×8
Radeon HD 8670 (Oland)	January 8, 2013		7009104000000000000♠1040×10⁶ 90 mm²	384:24:8	1000	8	24	768	48	GDDR5 128-bit	2048	1150	72	16 86	PCIe 3.0 ×8
Radeon HD 8730 (Cape Verde LE)	September 5, 2013		7009150000000000000♠1500×10⁶ 123 mm²	384:24:8	800	6.4	19.2	614.4	44.8	GDDR5 128-bit	1024	1125	72	10 47	PCIe 3.0 ×16
Radeon HD 8760 (Cape Verde XT)	January 8, 2013		7009150000000000000♠1500×10⁶ 123 mm²	640:40:16	1000	16	40	1280	80	GDDR5 128-bit	2048	1125	72	16 80	PCIe 3.0 ×16
Radeon HD 8770 (Bonaire XT)	September 2, 2013	GCN 2^nd gen (28 nm)	7009208000000000000♠2080×10⁶ 160 mm²	896:56:16	1000	16.0	56.0	1792	128	GDDR5 128-bit	2048	1500	96	10 85	PCIe 3.0 ×16
Radeon HD 8870 (Pitcairn XT)^[25]	January 8, 2013	GCN 1^st gen (28 nm)	7009280000000000000♠2800×10⁶ 212 mm²	1280:80:32	1000	32	80	2560	160	GDDR5 256-bit	2048	1200	153.6	15 150	PCIe 3.0 ×16
Radeon HD 8950 (Tahiti Pro)	January 8, 2013		7009431300000000000♠4313×10⁶ 352 mm²	1792:112:32	850 925	27.2 29.6	95.2 103.6	3046.4 3315.2	761.6 828.8	GDDR5 384-bit	3072	1250	240	15 225	PCIe 3.0 ×16
Radeon HD 8970 (Tahiti XT2)	January 8, 2013		7009431300000000000♠4313×10⁶ 352 mm²	2048:128:32	1000 1050	32 33.6	128.0 134.4	4096 4301	1024 1075	GDDR5 384-bit	3072	1500	288	15 250	PCIe 3.0 ×16
Radeon HD 8990 (Malta)	April 24, 2013		2× 7009431300000000000♠4313×10⁶ 2× 352 mm²	2× 2048:128:32	950 1000	2× 32	2× 128	7782 8192	1946 2048	GDDR5 384-bit	2× 3072	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)	Pixel (GP/s)	Texture (GT/s)	Single	Double	Bus type & width (bit)	Size (MiB)	Clock (MHz)	Band- width (GB/s)	Idle Max	Bus interface
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

1 2 3 4 5 6 Boost values (if available) are stated below the base value in italic.
1 2 Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
1 2 Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
1 2 Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
1 2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as with DDR memory.
1 2 Unified Shaders : Texture Mapping Units : Render Output Units

Radeon R5/R7/R9 200 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				TBP (W)	Bus interface	Release Price (USD)
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Texture (GT/s)	Pixel (GP/s)	Single	Double	Bus type & width	Size (MiB)	Clock (MT/s)	Band- width (GB/s)	TBP (W)	Bus interface	Release Price (USD)
Radeon R5 210^[26] (Cedar)	Unknown	Terascale 2 (40 nm)	7008292000000000000♠292×10⁶ 59 mm²	80:8:4	400	1.6	3.2	64	N/A	DDR3 64-bit	256	900	7.2	19	PCIe 2.1 ×16	OEM
Radeon R5 220^[26] (Caicos Pro)	Unknown		7008370000000000000♠370×10⁶ 67 mm²	80:8:4	625 650	2.5	5	200	N/A	DDR3 64-bit	1024	1066	8.53	18		OEM
Radeon R5 230^[27] (Caicos Pro)	April 3, 2014^[28]			160:8:4	625	2.5	5	200	N/A	DDR3 64-bit	1024 2048	1066	8.53	19^[29]		Unknown
Radeon R5 235^[26] (Caicos XT)	Unknown			160:8:4	775	3.1	6.2	248	N/A	DDR3 64-bit	1024	1800	14.4	35^[30]		OEM
Radeon R5 235X^[26] (Caicos XT)	Unknown			160:8:4	875	3.5	7.0	280	N/A	DDR3 64-bit	1024	1800	14.4	18		OEM
Radeon R5 240^[26] (Oland)	November 1, 2013^[31]	GCN 1^st gen (28 nm)	7009104000000000000♠1040×10⁶ 90 mm²	320:20:8	730 780	5.84	14.6	467.2 499.2	29.2	DDR3 GDDR5 128-bit	1024 2048	1800 ?	28.8 ?	50	PCIe 3.0 ×8	OEM
Radeon R7 240^[32] (Oland Pro)	August 8, 2013			320:20:8	730 780	5.84	14.6	467.2 499.2	29.2	DDR3 GDDR5 128-bit	2048	1800 4500	28.8 72	30		$69
Radeon R7 250^[32] (Oland XT)	August 8, 2013			384:24:8	1000 (1050)	8	24	768 806.4	48	DDR3 GDDR5 128-bit	1024 2048	1800 4600	73.6	75		$89
Radeon R7 250E^[33] (Cape Verde Pro)	December 21, 2013		7009150000000000000♠1500×10⁶ 123 mm²	512:32:16	800	12.8	25.6	819.2	51.2	GDDR5 128-bit	1024 2048	4500	72	55	PCIe 3.0 ×16	Unknown
Radeon R7 250X^[32] (Cape Verde XT)	February 10, 2014		7009150000000000000♠1500×10⁶ 123 mm²	640:40:16	1000	16	40	1280	80	GDDR5 128-bit	1024 2048	4500	72	95		$99
Radeon R7 260^[32] (Bonaire)	December 17, 2013	GCN 2^nd gen (28 nm)	7009208000000000000♠2080×10⁶ 160 mm²	768:48:16	1000	16	48	1536	96	GDDR5 128-bit	1024	6000	96	95		$109
Radeon R7 260X^[32] (Bonaire XTX)	August 8, 2013	GCN 2^nd gen (28 nm)	7009208000000000000♠2080×10⁶ 160 mm²	896:56:16	1100	17.6	61.6	1971.2	123.2	GDDR5 128-bit	1024 2048	6500	104	115		$139
Radeon R7 265^[32] (Pitcairn Pro)	February 13, 2014	GCN 1^st gen (28 nm)	7009280000000000000♠2800×10⁶ 212 mm²	1024:64:32	900 925	28.8	57.6	1843.2	115.2	GDDR5 256-bit	2048	5600	179.2	150		$149
Radeon R9 270^[34] (Pitcairn XT)	November 13, 2013			1280:80:32	900 925	28.8	72	2304 2368	144 148	GDDR5 256-bit	2048	5600	179.2	150		$179
Radeon R9 270X)^[34] (Pitcairn XT)	August 8, 2013			1280:80:32	1000 1050	32	80	2560 2688	160 168	GDDR5 256-bit	2048 4096	5600	179.2	180		$199
Radeon R9 280^[34] (Tahiti Pro)	March 4, 2014		7009431300000000000♠4313×10⁶ 352 mm²	1792:112:32	827 933	26.5	92.6	2964 3343.9	741 836	GDDR5 384-bit	3072	5000	240	250		$249
Radeon R9 280X^[34] (Tahiti XTL)^[35]	August 8, 2013		7009431300000000000♠4313×10⁶ 352 mm²	2048:128:32	850 1000	27.2–32	109–128	3481.6 4096	870.4 1024	GDDR5 384-bit	3072	6000	288	250		$299
Radeon R9 285^[34] (Tonga Pro)	September 2, 2014	GCN 3^rd gen (28 nm)	7009500000000000000♠5000×10⁶ 359 mm²^[36]	1792:112:32	918	29.4	102.8	3290	206.6^[37]	GDDR5 256-bit	2048	5500	176^{[lower-alpha 6]}	190		$249
Radeon R9 290^[34] (Hawaii Pro)	November 5, 2013	GCN 2^nd gen (28 nm)	7009620000000000000♠6200×10⁶ 438 mm²^[39]	2560:160:64	up to 947^{[lower-alpha 7]}	60.608	151.52	4848.6	606.1	GDDR5 512-bit	4096	5000	320	250^[41]		$399
Radeon R9 290X^[34] (Hawaii XT)	October 24, 2013 November 6, 2014^[42]		7009620000000000000♠6200×10⁶ 438 mm²^[39]	2816:176:64	1000^{[lower-alpha 7]}	64	176	5632	704	GDDR5 512-bit	4096 8192	5000	320	250^[41]		$549
Radeon R9 295X2^[34]^[43] (Vesuvius)	April 8, 2014		2× 7009620000000000000♠6200×10⁶ 2× 438 mm²	2× 2816:176:64	1018	130.3	358.33	11466.75	1433.34	GDDR5 512-bit	2× 4096	5000	2× 320	500		$1499
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Pixel (GP/s)	Texture (GT/s)	Single	Double	Bus type & width	Size (MiB)	Clock (MT/s)	Band- width (GB/s)	TBP (W)	Bus interface	Release Price (USD)
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				TBP (W)	Bus interface	Release Price (USD)

1 2 3 4 5 6 Boost values (if available) are stated below the base value in italic.
1 2 Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
1 2 Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
1 2 Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
1 2 Unified Shaders : Texture Mapping Units : Render Output Units
↑ The R9 285 utilizes loss-less colour compression which can increase effective memory performance (relative to GCN 1^st gen and 2^nd gen cards) in certain situations.^[36]^[38]
1 2 Base clock of R9 290 and R9 290X will maintain at 947 MHz and 1000 MHz before reaching 95 °C, respectively.^[40]

Radeon R5/R7/R9 300 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				TBP (W)	Bus interface	Release Price (USD)
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Pixel (GP/s)	Texture (GT/s)	Single	Double	Bus type & width	Size (MiB)	Clock (MT/s)	Band- width (GB/s)	TBP (W)	Bus interface	Release Price (USD)
Radeon R5 330 (Oland Pro)	May 2015	GCN 1^st gen (28 nm)	7009104000000000000♠1040×10⁶ 90 mm²	320:20:8	Unknown 855	6.84	17.1	547.2	34.2	DDR3 128-bit	1024 2048	1800	28.8	30	PCIe 3.0 ×16	OEM
Radeon R5 340 (Oland XT)	May 2015			384:24:8	Unknown 825	6.6	19.8	633.6	39.6	DDR3 GDDR5 128-bit	1024 2048	1800 4500	72	75		OEM
Radeon R7 340 (Oland XT)	May 2015			384:24:8	730 780	5.8	17.5	560.6 599	35	DDR3 GDDR5 128-bit	1024 2048 4096	1800 4500	72	75		OEM
Radeon R7 350 (Oland XT)	May 2015			384:24:8	1000 1050	8	24	768 806.4	48	DDR3 GDDR5 128-bit	1024 2048	1800 4500	72	75		OEM
Radeon R7 350 ^[44] (Cape Verde XTL)	February 2016		7009150000000000000♠1500×10⁶ 123 mm²	512:32:16	925	14.8	29.6	947.2	59.2	GDDR5 128-bit	2048	4500	72	75	PCIe 3.0 ×16	$89
Radeon R7 360^[45]^[46] (Bonaire Pro)	June 2015	GCN 2^nd gen (28 nm)	7009208000000000000♠2080×10⁶ 160 mm²	768:48:16	1050	16.8	50.4	1612.8	100.8	GDDR5 128-bit	2048	6500	104	100		$109
Radeon R9 360 (Bonaire Pro)	May 2015	GCN 2^nd gen (28 nm)	7009208000000000000♠2080×10⁶ 160 mm²	768:48:16	1000 1050	16	48	1536 1612.8	96	GDDR5 128-bit	2048	6500	104	85		OEM
Radeon R7 370^[45] (Pitcairn Pro)	June 2015	GCN 1^st gen (28 nm)	7009280000000000000♠2800×10⁶ 212 mm²	1024:64:32	975	31.2	62.4	1996.8	124.8	GDDR5 256-bit	2048 4096	5600	179.2	110		$149 $149+
Radeon R9 370 (Curaçao Pro)	May 2015			1024:64:32	950 975	30.4	60.8	1945.6 1996.8	121.6	GDDR5 256-bit	2048 4096	5600	179.2	150		OEM
Radeon R9 370X (Pitcairn XT)	August 2015			1280:80:32	1000	32	80	2560	160	GDDR5 256-bit	2048 4096	5600	179.2	185		$179 $179+
Radeon R9 380 (Tonga Pro)	May 2015	GCN 3^rd gen (28 nm)	7009500000000000000♠5000×10⁶ 359 mm²	1792:112:32	918	29.4	102.8	3290	206.6	GDDR5 256-bit	4096	5500	176	190		OEM
Radeon R9 380^[47] (Tonga Pro)	June 2015			1792:112:32	970	31.0	108.6	3476.5	217.3	GDDR5 256-bit	2048 4096	5700	182.4^{[lower-alpha 6]}	190		$199 $199+
Radeon R9 380X^[47] (Tonga XT)	November 2015			2048:128:32	970	31.0	124.2	3973.1	248.3	GDDR5 256-bit	4096	5700	182.4	190		$229
Radeon R9 390^[47] (Hawaii Pro)	June 2015	GCN 2^nd gen (28 nm)	7009620000000000000♠6200×10⁶ 438 mm²	2560:160:64	1000	64	160	5120	640	GDDR5 512-bit	8192	6000	384	275		$329
Radeon R9 390X^[47] (Hawaii XT)	June 2015	GCN 2^nd gen (28 nm)	7009620000000000000♠6200×10⁶ 438 mm²	2816:176:64	1050	67.2	184.8	5913.6	739.2	GDDR5 512-bit	8192	6000	384	275		$429
Radeon R9 Fury^[48] (Fiji Pro)	July 2015	GCN 3^rd gen (28 nm)	7009890000000000000♠8900×10⁶ 596 mm²	3584:224:64	1000	64	224	7168	448	HBM 4096-bit	4096	1000	512	275		$549
Radeon R9 Nano^[49] (Fiji XT)	August 2015			4096:256:64	1000	64	256	8192	512					175		$649
Radeon R9 Fury X^[47]^[50] (Fiji XT)	June 2015			4096:256:64	1050	67.2	268.8	8601.6	537.6					275		$649
Radeon Pro Duo^[51]^[52]^[53]^[54] (Fiji XT)	April 2016		2× 7009890000000000000♠8900×10⁶ 2× 596 mm²	2× 4096:256:64	1000	128	512	16384	1024	HBM 4096-bit	2× 4096	1000	2× 512	350		$1499
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Pixel (GP/s)	Texture (GT/s)	Single	Double	Bus type & width	Size (MiB)	Clock (MT/s)	Band- width (GB/s)	TBP (W)	Bus interface	Release Price (USD)
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				TBP (W)	Bus interface	Release Price (USD)

1 2 3 4 5 6 Boost values (if available) are stated below the base value in italic.
1 2 Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
1 2 Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
1 2 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.
1 2 Unified Shaders : Texture Mapping Units : Render Output Units
↑ The R9 380 utilizes loss-less color compression which can increase effective memory performance (relative to GCN 1^st gen and 2^nd gen cards) in certain situations.

Radeon RX 400 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				TBP (W)	Bus interface	Release Price (USD)
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Texture (GT/s)	Pixel (GP/s)	Single	Double	Bus type & width	Size (GiB)	Clock (MT/s)	Band- width (GB/s)	TBP (W)	Bus interface	Release Price (USD)
Radeon R5 430^[55]^[56] (Oland Pro)	June 2016	GCN 1^st gen (28 nm)	7009104000000000000♠1040×10⁶ 90 mm²	384:24:8	730 780	17.52 18.72	5.84 6.24	560 599	37.4	DDR3 GDDR5 128-bit	1 2	1800 4500	28.8 72	50	PCIe 3.0 ×8	OEM
Radeon R5 435^[55]^[57] (Oland)	June 2016			320:20:8	1030	20.6	8.24	659	41.2	DDR3 64-bit	2	2000	16	50		OEM
Radeon R7 430^[58]^[59] (Oland Pro)	June 2016			384:24:8	730 780	17.52 18.72	5.84 6.24	560 599	37.4	DDR3 GDDR5 128-bit	1 2 4	1800 4500	28.8 72	50		OEM
Radeon R7 435^[58]^[60] (Oland)	June 2016			320:20:8	920	18.4	7.36	589	36.8	DDR3 64-bit	2	2000	16	50		OEM
Radeon R7 450^[58]^[61] (Cape Verde Pro)	June 2016		7009150000000000000♠1500×10⁶ 123 mm²	512:32:16	1050	33.6	16.8	1075	65.2	GDDR5 128-bit	2	4500	72	65	PCIe 3.0 ×16	OEM
Radeon RX 455^[58]^[62] (Bonaire Pro)	June 2016	GCN 2^nd gen (28 nm)	7009208000000000000♠2080×10⁶ 160 mm²	768:48:16	1050	50.4	16.8	1613	100.8	GDDR5 128-bit	2	6500	104	100	PCIe 3.0 ×16	OEM
Radeon RX 460^[63]^[64]^[65]^[66]^[67] (Baffin)	August 2016	GCN 4^th gen (14 nm)	7009300000000000000♠3000×10⁶ 123 mm²	896:56:16	1090 1200	61 67.2	17.4 19.2	1953 2150	122 132	GDDR5 128-bit	2 4	7000	112	<75	PCIe 3.0 x8	$109 (2 GB) $139 (4 GB)
Radeon RX 470D^[68] (Ellesmere)	October 2016 (China Only)		7009570000000000000♠5700×10⁶ 232 mm²	1792:112:32	926 1206	103.7 135.1	29.6 38.6	3319 4322	207 270	GDDR5 256-bit	4	7000	224	120	PCIe 3.0 ×16	CNY ¥1299
Radeon RX 470^[63]^[65]^[66] (Ellesmere Pro)	August 2016			2048:128:32	926 1206	118.5 154.4	29.6 38.6	3793 4940	237 309	GDDR5 256-bit	4 8	6600	211	120		$179
Radeon RX 480^[69]^[70]^[71]^[72] (Ellesmere XT)	June 2016			2304:144:32	1120 1266	161.3 182.3	35.8 40.5	5161 5834	323 365	GDDR5 256-bit	4 8	7000 8000	224 256	150		$199 (4 GB) $239 (8 GB)

1 2 3 Boost values (if available) are stated below the base value in italic.
↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ Unified Shaders : Texture Mapping Units : Render Output Units

Radeon RX 500 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				TBP (W)	Bus interface	Release Price (USD)
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Texture (GT/s)	Pixel (GP/s)	Single	Double	Bus type & width	Size (GiB)	Clock (MT/s)	Band- width (GB/s)	TBP (W)	Bus interface	Release Price (USD)
Radeon 520^[73]	April 18, 2017	GCN 1^st gen (28 nm)	Unknown	320:20:4:5	1030	20.6	4.1	659	Unknown	GDDR5 64-bit	1 2	4500	48	Unknown	Unknown	OEM
Radeon 530 GDDR5^[74]	April 18, 2017	GCN 3^rd gen (28 nm)	Unknown	320:20:8:6 384:24:8:6	1024	24.6	8.2	655 786	Unknown	GDDR5 64-bit	1 2 4^[75]	4500	48	Unknown	Unknown	OEM
Radeon 530 DDR3^[74]	April 18, 2017	GCN 3^rd gen (28 nm)	Unknown	320:20:8:6 384:24:8:6	1024	24.6	8.2	655 786	Unknown	DDR3	1 2 4^[75]	Unknown	Unknown	Unknown	Unknown	OEM
Radeon RX 540 RX 540X (Lexa)^[76]^[77]	April 18, 2017 April 3, 2018	GCN 4^th gen (14 nm)	7009220000000000000♠2.2×10⁹ 101 mm²	512:32:16:8	1219	39	19.5	1248	78	GDDR5 128-bit	2 4	6000	96	Unknown	PCIe 3.0 x8	OEM
Radeon RX 550 (Lexa)^[78]^[79]	April 20, 2017			640:40:16:10	1100^[80] 1183	35.2 37.9	17.6 18.9	1126 1211	70.4 75.7	GDDR5 128-bit		7000	112	50		$79
Radeon 550X (Lexa)^[81]	April 11, 2018			640:40:16:10	1287	51.48	20.6	1647	103	GDDR5 64-bit		7000	56	50		Unknown
Radeon RX 550X (Lexa)^[82]	April 3, 2018			512:40:16:8 640:40:16:10	1287	51.48	20.6	1318 1647	82.4 103	GDDR5 128-bit		7000	112	50		$79
Radeon RX 560D^[83]^[84]^[85]	July 2017		7009300000000000000♠3.0×10⁹ 123 mm²	896:56:16:14	1090 1175	61.0 65.8	17,4 18.8	1953 2106	122,0 131.6			6000	96	65		Only available in China and through OEMs
Radeon RX 560^{[lower-alpha 6]} RX 560X (Baffin)^[86]^[83]	October 2017 April 3, 2018			896:56:16:14	1090 1175	61.0 65.8	17.4 18.8	1953 2106	122.0 131.6			7000	112	60-80		$99
Radeon RX 560^{[lower-alpha 6]} RX 560X (Baffin)^[87]^[79]^[88]	May 2017 April 3, 2018			1024:64:16:16	1175 1275	75.2 81.6	18.8 20.4	2406 2611	150.4 163.2			7000	112	60–80		$99
Radeon RX 570 RX 570X (Polaris 20 XL)^[89]^[79]^[90]	April 18, 2017 April 11, 2018		7009570000000000000♠5.7×10⁹ 232 mm²	2048:128:32:32	1168 1244	149.5 159.2	37.4 39.8	4784 5095	299.0 318.4	GDDR5 256-bit	4 8	7000	224	150	PCIe 3.0 x16	$169
Radeon RX 580 RX 580X (Polaris 20 XT)^[91]^[79]^[92]	April 18, 2017 April 3, 2018		7009570000000000000♠5.7×10⁹ 232 mm²	2304:144:32:36	1257 1340	181.0 193.0	40.2 42.9	5792 6175	362.0 385.9	GDDR5 256-bit	4 8	8000	256	185	PCIe 3.0 x16	$199 (4 GB) $229 (8 GB)

1 2 3 Boost values (if available) are stated below the base value in italic.
↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ Unified Shaders : Texture Mapping Units : Render Output Units : Compute Units
1 2 The RX 460 and RX 560 use the same Polaris 11 chip with 16 CUs (Compute Units). The RX 460 had two CUs disabled, while the original RX 560 had all 16 CUs available. In October 2017. AMD began selling RX 560s in identical configurations to the RX 460, as RX 560 (14CU).

Radeon RX Vega 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				TBP	Bus interface	Release price (USD)
Model (codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Texture (GT/s)	Pixel (GP/s)	Half	Single	Double	Bus type & width	Size (GiB)	Clock (MT/s)	Bandwidth (GB/s)	TBP	Bus interface	Release price (USD)
Radeon RX Vega 56^[93]^[94]^[95]	August 28, 2017	GCN 5^th gen (14 nm)	7010125000000000000♠12.5×10⁹ 486 mm²	3584:224:64	1156 1471	258.9 329.5	74.0 94.1	16572 21088	8286 10544	518 659	HBM2 2048-bit	8	1600	410	210 W	PCIe 3.0 ×16	$399
Radeon RX Vega 64^[93]^[95]^[96]	August 14, 2017			4096:256:64	1247 1546	319.2 395.8	79.8 98.9	20431 25330	10215 12665	638 792			1890	483.8	295 W		$499
Radeon RX Vega 64 Liquid^[93]^[95]^[96]	August 14, 2017			4096:256:64	1406 1677	359.9 429.3	90.0 107.3	23036 27476	11518 13738	720 859			1890	483.8	345 W		$699

1 2 3 Boost values (if available) are stated below the base value in italic.
↑ Texture fillrate is calculated as the number of texture mapping units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of render output units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ Unified shaders : texture mapping units : render output units

Mobile GPUs

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
Model	Launch	Fab (nm)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Hardware T&L	Core config¹	Pixel (GP/s)	Texture (GT/s)	Size (MB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Direct3D	OpenGL	Notes
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	No	0:1:1:1	0.075	0.075	8	0.80	EDO, SDR, SGR	64	6	1.1	Motion Compensation
Rage Mobility M/P (Rage 128)	Nov 1998	250	AGP, PCI	90	Unknown	No	0:2:2:2	0.18	0.18	8	Unknown	SDR, SGR	64	Unknown	Unknown	M had 4 MB of integrated SDRAM, P had none. IDCT, Motion Compensation.
Rage Mobility M1 (Rage 128)	Feb 1999	250	AGP, PCI	90	90	No	0:2:2:2	0.18	0.18	8	0.72	SDR	64	6	1.2	M1 had 8 MB of integrated SDRAM, P had none. IDCT, Motion Compensation.
Rage 128 GL	Aug 1998	250	AGP, PCI	103	103	No	0:2:2:2	0.206	0.206	32	1.65	SDR	128	6	1.2
Rage Mobility 128 (Rage 128 Pro)	Oct 1999	250	AGP, PCI	105	105	No	0:2:2:2	0.21	0.21	16	2.28	SDR	128	6	1.2	IDCT, Motion Compensation
Rage Mobility M3 (AGP 4x) (Rage 128 Pro)	Oct 1999	250	AGP, PCI	105	105	No	0:2:2:2	0.21	0.21	16	2.28	SDR	128	6	1.2	M3 had 8 MB of integrated SDRAM, IDCT, Motion Compensation.
Rage Mobility M4 (AGP 4x) (Rage 128 Pro)	Oct 1999	250	AGP, PCI	105	105	No	0:2:2:2	0.21	0.21	32	2.28	SDR	128	6	1.2	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
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	Notes
Mobility Radeon 7000	Feb 2001	M6	RV100	180	AGP 4x	144 167	144 183	0:1:3:1	0.167	0.5	8 16 32	1.464 2.928	SDR DDR	32 64	6	1.3
Mobility Radeon 7500	Dec 2001	M7	RV200	150	AGP 4x	280	200	1:2:6:2	0.56	1.68	32 64	3.2 6.4	DDR	64 128	7	1.3	PowerPlay II, DX7 T&L
Mobility Radeon 9000	Aug 2002	M9	RV250	150	AGP 4x	250	200	1:4:4:4	1.0	1.0	32 64	3.2 6.4	DDR	64 128	8.1	1.4	PowerPlay 3.0, Fullstream
Mobility Radeon 9200	Mar 2003	M9+	RV280	150	AGP 8x	250/250	200/220	1:4:4:4	1.0	1.0	32 64	3.2/3.52 6.4/7.04	DDR	64 128	8.1	1.4	PowerPlay 3.0, Fullstream
Mobility Radeon 9500	2004?	M11	RV360	130	AGP 8x	Unknown	Unknown	2:4:4:4	Unknown	Unknown	64	Unknown	DDR	64 128	9.0	2.0
Mobility Radeon 9550	2005	M12	RV360	130	AGP 8x	210	183	2:4:4:4	0.84	0.84	64	2.928 5.856	DDR	64 128	9.0	2.0
Mobility Radeon 9600	Mar 2003	M10, M11	RV350	130	AGP 8x	300	300	2:4:4:4	1.2	1.2	64 128	4.8 9.6	DDR	64 128	9.0	2.0
Mobility Radeon 9600 Pro	2004	M10	RV350	130	AGP 8x	350	350	2:4:4:4	1.4	1.4	128	11.2	DDR	128	9.0	2.0
Mobility Radeon 9700	Feb 2004	M11	RV360	130	AGP 8x	450	275	2:4:4:4	1.8	1.8	128	8.8	DDR	128	9.0	2.0
Mobility Radeon 9800	Sep 2004	M18	R420	130	AGP 8x	350	300	4:8:8:8	2.8	2.8	256	19.2	DDR	256	9.0	2.0

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
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	Notes
Mobility Radeon X300	Nov 2005	M22	RV370	110	PCI-E x16	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	PCI-E x16	400	250	2:4:4:4	1.6	1.6	64, 128	8	DDR	128	9.0b	2.0
Mobility Radeon X700	Mar 2005	M26	RV410	110	PCI-E x16	400-100 (PowerPlay)	350-200	6:8:8:4	1.4	2.8	Shared-128? 64, 128	11.2	DDR, GDDR3	128	9.0b	2.0	3DC, Dynamic Lane Count Switching,
Mobility Radeon X800	Nov 2004	M28	R423	130	PCI-E x16	400	400	6:12:12:12	4.8	4.8	256	25.6	GDDR3	256	9.0b	2.0	3DC, DLCS, Clock Gating
Mobility Radeon X800 XT	Jun 2005	M28 PRO	R423	130	PCI-E x16	480	550	6:16:16:16	7.68	7.68	256	35.2	GDDR3	256	9.0b	2.0	3DC, DLCS, Clock Gating

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
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	Notes
Mobility Radeon X1300	January 19, 2006	M52	RV515	90	PCIe x16	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	RV515	90	PCIe x16	470	350	2:4:4:4	1.88	1.88	128 + shared	11.2	DDR2 GDDR3	128	9.0c	2.0
Mobility Radeon X1400	January 19, 2006	M54	RV515	90	PCIe x16	445	250	2:4:4:4	1.78	1.78	128 + shared	8	DDR DDR2	128	9.0c	2.0
Mobility Radeon X1450	September 18, 2006	M64	RV515	90	PCIe x16	550	450	2:4:4:4	2.2	2.2	128 + Shared	14.4	DDR2 GDDR3	128	9.0c	2.0
Mobility Radeon X1600	February 1, 2006	M56	RV530	90	PCIe x16	425 450	375 470	5:12:4:4	1.7 1.8	1.7 1.8	256	12.0 15.04	DDR2 GDDR3	128	9.0c	2.0
Mobility Radeon X1700	February 1, 2006	M66	RV535	80	PCIe x16	475	400 550	5:12:4:4	1.9	1.9	256	11.2 17.6	DDR2 GDDR3	128	9.0c	2.0	strained silicon
Mobility Radeon X1800	March 1, 2006	M58	R520	90	PCIe x16	450	500	8:12:12:12	5.4	5.4	256	32	GDDR3	256	9.0c	2.0
Mobility Radeon X1800 XT	March 1, 2006	M58	R520	90	PCIe x16	550	650	8:16:16:16	8.8	8.8	256	41.6	GDDR3	256	9.0c	2.0
Mobility Radeon X1900	January 11, 2007	M59	RV570	80	PCIe x16	400	480	8:36:12:12	4.8	4.8	256	30.72	GDDR3	256	9.0c	2.0	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
Model	Launch	Model Number	Code name	Fab (nm)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config	Pixel (GP/s)	Texture (GT/s)	Size (MB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Direct3D	OpenGL	Processing power (GFLOPS)	Notes
Mobility Radeon X2300	March 1, 2007	M64	RV515	90	PCIe x16	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	90	PCIe x16	460	400	5:12:4:4¹	1.84	1.84	256	12.8	DDR DDR2 GDDR3	128	9.0c	2.0	Unknown	based on X1600/1700, HM up to 768Mb, no UVD, PowerPlay 6.0
Mobility Radeon HD 2300	March 1, 2007	M71	RV515	90	PCIe x16	480	400	2:4:4:4¹	1.92	1.92	128 256 512	6.4 12.8	DDR DDR2 GDDR3	64 128	9.0c	2.0	Unknown	same as X2300, but with UVD, PowerPlay 6.0
Mobility Radeon HD 2400	May 14, 2007	M72S	RV610	65	PCIe x16	450	400	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	May 14, 2007	M72M	RV610	65	PCIe x16	600 600	400 700	40:4:4²	2.4	2.4	256+ Hyper Memory	6.4 11.2	DDR2 GDDR3	64	10.0	2.0 (3.3)	48	UVD, PowerPlay 7.0
Mobility Radeon HD 2600	May 14, 2007	M76M	RV630	65	PCIe x16	500 500	400 600	120:8:4²	2.0	4.0	256+ Hyper Memory	12.8 19.2	DDR2 GDDR3	128	10.0	2.0 (3.3)	120	UVD, PowerPlay 7.0
Mobility Radeon HD 2600 XT	May 14, 2007	M76XT	RV630	65	PCIe x16	680	750	120:8:4²	2.72	5.44	256+ Hyper Memory	24	GDDR3	128	10.0	2.0 (3.3)	168	UVD, PowerPlay 7.0
Mobility Radeon HD 2700	December 12, 2007	M76	RV630	65	PCIe x16	650	700	120:8:4²	2.6	5.2	256+ Hyper Memory (total 768)	22.4	GDDR3	128	10.0	2.0 (3.3)	168	UVD, PowerPlay 7.0

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^[97]	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
Model^[97]	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)	Notes
Mobility Radeon HD 3100	August 1, 2008	RS780MC	RV620	55	PCIe x16 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	RV620	55	PCIe x16 1.1	500	800 (system memory)	40:4:4	2	2	up to 512 from system memory	6.4/12.8	DDR2	64/128	10.1	2.0 (3.3)	40	UVD, PowerPlay 7.0
Mobility Radeon HD 3410	July 25, 2008	M82-MPE	RV620	55	PCIe x16 1.1	400	400	40:4:4	1.6	1.6	256, 512	6.4	DDR2	64	10.1	2.0 (3.3)	32	UVD, PowerPlay 7.0
Mobility Radeon HD 3430	July 25, 2008	M82-SE	RV620	55	PCIe x16 2.0	450	400	40:4:4	1.8	1.8	256	6.4	DDR2	64	10.1	2.0 (3.3)	36	UVD, PowerPlay 7.0
Mobility Radeon HD 3450	January 7, 2008	M82	RV620	55	PCIe x16 2.0	500	400 700	40:4:4	2	2	256	6.4 11.2	DDR2 GDDR3	64	10.1	2.0 (3.3)	40	UVD, PowerPlay 7.0
Mobility Radeon HD 3470	January 7, 2008	M82-XT	RV620	55	PCIe x16 2.0	680	400 800	40:4:4	2.72	2.72	256	6.4 12.8	DDR2 GDDR3	64	10.1	2.0 (3.3)	54.4	UVD, PowerPlay 7.0
Mobility Radeon HD 3650	January 7, 2008	M86	RV635	55	PCIe x16 2.0	500	500 700	120:8:4	2	4	512 1024	16.0 22.4	DDR2 GDDR3 GDDR4	128	10.1	3.3	120	UVD, PowerPlay 7.0
Mobility Radeon HD 3670	January 7, 2008	M86-XT	RV635	55	PCIe x16 2.0	680	800	120:8:4	2.72	5.44	512 1024	25.6	DDR2 GDDR3 GDDR4	128	10.1	2.0 (3.3)	163.2	UVD, PowerPlay 7.0. TDP 30 watts
Mobility Radeon HD 3850	June 4, 2008	M88-L/M88-LP	RV670	55	PCIe x16 2.0	580	750	320:16:16	9.28	9.28	512	48.0	GDDR3	256	10.1	2.0 (3.3)	371.2	UVD, PowerPlay 7.0
Mobility Radeon HD 3870	June 4, 2008	M88-LXT	RV670	55	PCIe x16 2.0	660	850	320:16:16	10.56	10.56	512	54.4	GDDR3	256	10.1	2.0 (3.3)	422.4	UVD, PowerPlay 7.0. TDP 55 watts.
Mobility Radeon HD 3850 X2	June 5, 2008	2x M88-L/M88-LP	R680	55	PCIe x16 2.0	580	750	2x [320:16:16]	2x 9.28	2x 9.28	2x 512	2x 48.0	GDDR3	2x 256	10.1	2.0 (3.3)	2x 371.2	UVD, PowerPlay 7.0
Mobility Radeon HD 3870 X2	September 1, 2008	2x M88-LXT	R680	55	PCIe x16 2.0	660	850	2x [320:16:16]	2x 10.56	2x 10.56	2x 512	2x 54.4	GDDR3	2x 256	10.1	2.0 (3.3)	2x 422.4	UVD, PowerPlay 7.0. TDP 110 watts

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
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)	Notes
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	RV620	55	Internal PCIe x16 1.1	380	800 (system memory)	40:4:4	1.52	1.52	up to 512 from system memory	6.4/12.8	DDR2 DDR3	64/128	10.1	3.3	30.4	UVD2, PowerPlay 7.0
Mobility Radeon HD 4250	May 1, 2010	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 4270	May 1, 2010	Unknown	RV620	55	Internal PCIe x16 1.1	590	800 (system memory)	40:4:4	2.36	2.36	up to 512 from system memory	6.4/12.8	DDR2 DDR3	64/128	10.1	3.3	47.2	UVD2, PowerPlay 7.0
Mobility Radeon HD 4330	January 9, 2009	M92	RV710	55	PCIe x16 2.0	450	600	80:8:4	1.8	3.6	512	9.6	DDR2 DDR3 GDDR3	64	10.1	3.3	72	UVD2, PowerPlay 7.0
Mobility Radeon HD 4530	January 9, 2009	M92	RV710	55	PCIe x16 2.0	500	700	80:8:4	2	4	512	11.2	DDR2 DDR3 GDDR3	64	10.1	3.3	80	UVD2, PowerPlay 7.0
Mobility Radeon HD 4550	January 1, 2010	M92	RV710	55	PCIe x16 2.0	550	700	80:8:4	2.2	4.4	512	11.2	DDR2 DDR3 GDDR3	64	10.1	3.3	80	UVD2, PowerPlay 7.0
Mobility Radeon HD 4570	January 9, 2009	M92	RV710	55	PCIe x16 2.0	680	800	80:8:4	2.72	5.44	512	12.8	DDR2 DDR3 GDDR3	64	10.1	3.3	108.8	UVD2, PowerPlay 7.0
Mobility Radeon HD 4650	January 9, 2009	M96	RV730	55	PCIe x16 2.0	500 550	600 800	320:32:8	4 4.4	16 17.6	512 1024	19.2 25.6	DDR2 DDR3 GDDR3	128	10.1	3.3	320 352	UVD2, PowerPlay 7.0
Mobility Radeon HD 4670	January 9, 2009	M96-XT	RV730	55	PCIe x16 2.0	675	800	320:32:8	5.4	21.6	512 1024	12.8 25.6	DDR2 DDR3 GDDR3	128	10.1	3.3	432	UVD2, PowerPlay 7.0
Mobility Radeon HD 4830	March 3, 2009^[98]	M97	RV740	40	PCIe x16 2.0	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	512 1024	25.6/28.8 25.6/28.8	GDDR3 DDR3	128	10.1	3.3	512/768 512/768	UVD2, PowerPlay 7.0
Mobility Radeon HD 4850^[99]	January 9, 2009	M98	RV770	55	PCIe x16 2.0	500	850 700	800:40:16	8	20	1024	54.4 89.6	GDDR3 GDDR5²	256	10.1	3.3	800	UVD2, PowerPlay 7.0
Mobility Radeon HD 4860	March 3, 2009^[98]	M97	RV740	40	PCIe x16 2.0	650	1000	640:32:16	10.4	20.8	1024	64.0	GDDR5²	128	10.1	3.3	832	UVD2, PowerPlay 7.0
Mobility Radeon HD 4870	January 9, 2009	M98-XT	RV770	55	PCIe x16 2.0	550	888 700	800:40:16	8.8	22	512 1024	56.832 89.6	GDDR3 GDDR5²	256	10.1	3.3	880	UVD2, PowerPlay 7.0
Mobility Radeon HD 4870 X2	January 9, 2009	M98-XT	RV770	55	PCIe x16 2.0	550	700	2x [800:40:16]	2x 8.8	2x 22	2048	2x 89.6	GDDR5²	2x 256	10.1	3.3	2x 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)
Model: Mobility Radeon	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)
Mobility Radeon HD 530v^[100]	May 5, 2010	M92	RV710	55	PCIe x16 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^[101]	May 5, 2010	M92	RV710	55	PCIe x16 2.0	720	800	80:8:4	2.88	5.76	1024	12.8	DDR2 DDR3 GDDR3	64	10.1	3.3	115.2	15
Mobility Radeon HD 550v^[102]	May 5, 2010	M96	RV730	55	PCIe x16 2.0	450	600	320:32:8	3.6	14.4	1024	19.2	DDR2 DDR3 GDDR3	128	10.1	3.3	288	10
Mobility Radeon HD 560v^[103]	May 5, 2010	M96	RV730	55	PCIe x16 2.0	550	800	320:32:8	4.4	17.6	1024	25.6	DDR2 DDR3 GDDR3	128	10.1	3.3	352	15
Mobility Radeon HD 565v^[104]	May 5, 2010	M96-XT	RV730	55	PCIe x16 2.0	675	800	320:32:8	5.4	21.6	1024	25.6	DDR2 DDR3 GDDR3	128	10.1	3.3	432	20
Mobility Radeon HD 5145	January 7, 2010	M92	RV710	55	PCIe x16 2.0	720	900	80:8:4	2.88	5.76	1024	14.4	DDR3 GDDR3	64	10.1	3.3	115.2	15
Mobility Radeon HD 5165	January 7, 2010	M96	RV730	55	PCIe x16 2.0	600	900	320:32:8	4.8	19.2	1024	28.8	DDR3 GDDR3	128	10.1	3.3	384	35
Mobility Radeon HD 5430	January 7, 2010	Park LP	Cedar (RV 810)	40	PCIe x16 2.1	500 550	800 800	80:8:4	2.0 2.2	4.0 4.4	1024	12.8	DDR3 GDDR3	64	11	4.4	80 88	7
Mobility Radeon HD 5450	January 7, 2010	Park PRO	Cedar (RV 810)	40	PCIe x16 2.1	675	800	80:8:4	2.7	5.4	1024	12.8	DDR3 GDDR3	64	11	4.4	108	11
Mobility Radeon HD 5470	January 7, 2010	Park XT	Cedar (RV 810)	40	PCIe x16 2.1	750	800	80:8:4	3	6	1024 1024 512	12.8 12.8 25.6	DDR3 GDDR3 GDDR5	64	11	4.4	120	13 15
Mobility Radeon HD 5650	January 7, 2010	Madison PRO	Redwood (RV 830))	40	PCIe x16 2.1	450 650	800 800	400:20:8	3.6 5.2	9.0 13.0	1024	25.6 25.6	DDR3 GDDR3	128	11	4.4	360 520	15 19
Mobility Radeon HD 5730	January 7, 2010	Madison LP	Redwood (RV 830)	40	PCIe x16 2.1	650	800	400:20:8	5.2	13	1024	25.6	DDR3 GDDR3	128	11	4.4	520	26
Mobility Radeon HD 5750	January 7, 2010	Madison PRO	Redwood (RV 830)	40	PCIe x16 2.1	550	800	400:20:8	4.4	11	1024	51.2	GDDR5	128	11	4.4	440	25
Mobility Radeon HD 5770	January 7, 2010	Madison XT	Redwood (RV 830)	40	PCIe x16 2.0/2.1	650	800	400:20:8	5.2	13	1024	51.2	GDDR5	128	11	4.4	520	30
Mobility Radeon HD 5830	January 7, 2010	Broadway LP	Juniper (RV 840)	40	PCIe x16 2.1	500	800	800:40:16	8	20	1024	25.6	DDR3 GDDR3	128	11	4.4	800	24
Mobility Radeon HD 5850	January 7, 2010	Broadway PRO	Juniper (RV 840)	40	PCIe x16 2.1	625 500 625	900 1000 1000	800:40:16	10 8 10	25 20 25	2048 1024 1024	28.8 64 64	DDR3 GDDR5 GDDR5	128	11	4.4	1000 800 1000	31 30 39
Mobility Radeon HD 5870	January 7, 2010	Broadway XT	Juniper (RV 840)	40	PCIe x16 2.1	700	1000	800:40:16	11.2	28	1024	64	GDDR5	128	11	4.4	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)
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)	TDP (Watts)

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^[105]	Launch	Architecture Fab	Core		Fillrate^{[lower-alpha 1]}^{[lower-alpha 2]}		Processing power^{[lower-alpha 3]} (GFLOPS)	Memory				TDP (Watts)	Bus interface
Model^[105]	Launch	Architecture Fab	Config^{[lower-alpha 4]}	Clock (MHz)	Pixel (GP/s)	Texture (GT/s)	Processing power^{[lower-alpha 3]} (GFLOPS)	Size (MiB)	Bus type & width (bit)	Clock (MHz)	Bandwidth (GB/s)	TDP (Watts)	Bus interface
Radeon HD 6330M (Robson LP)^[106]	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)^[106]	November 2010			500	2.0	4.0	80	1024	DDR3 64-bit	800 900	12.8 14.4	7
Radeon HD 6370M (Robson XT)^[106]	November 2010			750	3.0	6.0	120	1024	DDR3 64-bit	900	14.4	11
Radeon HD 6430M (Seymour LP)^[107]	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)^[107]	January 2011			600	2.4	4.8	192	1024	DDR3 64-bit	800	12.8	Unknown
Radeon HD 6470M (Seymour XT)^[107]	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)^[107]	January 2011			800	3.2	6.4	256	512	GDDR5 64-bit	800	25.6	Unknown
Radeon HD 6530M (Capilano Pro)^[108]	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)^[108]	November 2010			600	4.8	12.0	480	1024	DDR3 128-bit	900	28.8	26
Radeon HD 6570M (Capilano XT)^[108]	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)^[109]	January 2011	TeraScale 2 40 nm	480:24:8	485	3.88	11.64	465.6	256(mac) 1024	GDDR5 128-bit(mac) DDR3	800	51.2 (mac) 25.6	Unknown	PCIe 2.1 x16
Radeon HD 6650M (Whistler Pro)^[109]	January 2011			600	4.8	14.4	576	1024	DDR3 128-bit	900	28.8	Unknown
Radeon HD 6730M (Whistler XT)^[109]	January 2011			725	5.8	17.4	696	1024	DDR3 128-bit	800	25.6	Unknown
Radeon HD 6750M (Whistler Pro)^[109]	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)^[109]	January 2011			725	5.8	17.4	696	1024	GDDR5 128-bit	900	57.6	Unknown
Radeon HD 6830M (Granville Pro)^[110]	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)^[110]	January 2011			675	10.8	27.0	1080	2048	DDR3 128-bit	800	25.6	50
Radeon HD 6850M (Granville Pro)^[110]	January 2011			575	9.2	23.0	920	1024	GDDR5 128-bit	800	57.6	39
Radeon HD 6870M (Granville XT)^[110]	January 2011			675	10.8	27	1080	1024	GDDR5 128-bit	1000	64	50
Radeon HD 6950M (Blackcomb Pro)^[111]	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)^[111]	January 2011	TeraScale 2 40 nm	960:48:32	680	21.76	32.64	1305.6	2048	GDDR5 256-bit	900	115.2	75	PCIe 2.1 x16
Radeon HD 6990M (Blackcomb XTX)^[112]	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

↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the core clock speed.
↑ Single Precision performance is calculated from the core clock speed based on a FMA operation.
↑ 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
All models feature Angle independent anisotropic filtering, UVD3, and Eyefinity capabilities, with up to three outputs.

Model	Released	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
Model	Released	Codename	Architecture	Fab (nm)	Core Clock rate (MHz)	Config core^{[lower-alpha 1]}	Pixel (GP/s)	Texture (GT/s)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Processing power (GFLOPS)	Direct3D	OpenGL	OpenCL	Vulkan	Idle (W)	Max. (W)	APU
Radeon HD 6250^[113]	November 9, 2010^[114]	Wrestler^[115]	TeraScale 2	40	280–400	80:8:4:2	1.12–1.6	2.24–3.2	8.525	DDR3-1066	64	44.8–64	11.3 (11_0)	4.5	1.2	N/A	Unknown	9	C-30, C-50, Z-60
Radeon HD 6290	January 7, 2011	Ontario			276–400		1.12–1.6	2.24–3.2				44.8–64						9	C-60
Radeon HD 6310^[113]	November 9, 2010^[114]	Wrestler^[115]			492		2.0	4.0				80						18	E-240, E-300, E-350
Radeon HD 6320	August 15, 2011	Wrestler^[115]			508–600		2.032–2.4	4.064–4.8	10.6	DDR3-1333		82–97						18	E-450
Radeon HD 7340^[24]	June 6, 2012	Ontario			523		2.1	4.2	21.3	DDR3-1333	128	60	11.0					9	E2-1800

↑ Unified Shaders : Texture Mapping Units : Render Output Units : Compute units
↑ 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)	Fusion_APU
Model	Released	Code name	Fab (nm)	Core Clock (MHz)	Core config¹	Pixel (GP/s)	Texture (GT/s)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Processing power (GFLOPS)	Max. Combined TDP² (Watts)	Fusion_APU
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	June 14, 2011	BeaverCreek	32	444	240:12:4:3	1.77	3.55	17.06	DDR3-1333	128	213.1	35 - 45	A4-3300M A4-3310MX
Radeon HD 6520G	June 14, 2011	BeaverCreek	32	400	320:16:8:4	3.2	6.4	17.06	DDR3-1333	128	256	35 - 45	A6-3400M A6-3410MX A6-3420M
Radeon HD 6620G	June 14, 2011	BeaverCreek	32	444	400:20:8:5	3.55	8.88	25.6	DDR3-1600	128	355.2	35 - 45	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

Model (Codename)	Launch	Architecture (Fab)	Core		Fillrate		Processing power (GFLOPS)	Memory				Bus interface	TDP (W)
Model (Codename)	Launch	Architecture (Fab)	Config^{[lower-alpha 1]}	Clock (MHz)	Texture (GT/s)	Pixel (GP/s)	Processing power (GFLOPS)	Size (GiB)	Bus type & width (bit)^{[lower-alpha 2]}	Memory (MHz)	Bandwidth (GB/s)	Bus interface	TDP (W)
Radeon HD 7430M (Seymour Pro)	January 2012	TeraScale 2 (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 (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 (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 (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 (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 (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 (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 (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 1^st 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 1^st 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)	April 2012	GCN 1^st gen (28 nm)	640:40:16:10	800	32	12.8	1024	2	GDDR5 128-bit	1000	64	PCIe 3.0 ×16	40–45
Radeon HD 7970M (Wimbledon XT)	April 2012	GCN 1^st 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

↑ Unified Shaders : Texture Mapping Units : Render Output Units
↑ The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.

IGP (HD 7000G)

Model (Codename)	Launch	Architecture (Fab)	Core config^{[lower-alpha 1]}	Clock rate (MHz)		Fillrate		Processing power (GFLOPS)	Shared memory
Model (Codename)	Launch	Architecture (Fab)	Core config^{[lower-alpha 1]}	Core (MHz)	Boost (MHz)	Pixel (GP/s)	Texture (GT/s)	Processing power (GFLOPS)	Bus type & width (bit)	Clock	Bandwidth (GB/s)
Radeon HD 7400G (Scrapper)	September 2012	TeraScale 3 (32 nm)	192:12:4	327	424	1.31	3.92	125.57	DDR3 128-bit	1333 to 2133	21.33–34.13
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		384:24:8	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	496	685	3.97	11.9	380.93

↑ Unified Shaders : Texture Mapping Units : Render Output Units

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)
Model (Codename)	Launch	Architecture (Fab)	Config^{[lower-alpha 6]}	Clock^{[lower-alpha 1]} (MHz)	Texture (GT/s)	Pixel (GP/s)		Bus type & width (bit)	Size (GiB)	Clock (MHz)	Band- width (GB/s)	TDP (W)
Radeon HD 8550M / 8630M (Sun LE)	8 January 2013	GCN 1^st gen (28 nm)	384:24:8	650 700	5.2 5.6	15.6 16.8	537.6	DDR3 64	1	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	GDDR5 64	1	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	DDR3 64	1	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	GDDR5 64	1	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	DDR3 128	2	1000	32	Unknown
Radeon HD 8750M (Mars Pro)	8 January 2013		384:24:8	620–775 670–825	4.96 6.6	14.88 19.8	514.56 633.6	DDR3 GDDR5 128	2	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	GDDR5 128	2	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	GDDR5 128	2	1125	72	Unknown
Radeon HD 8830M (Venus LE)	8 January 2013		640:40:16	575 625	9.2 10	23 25	800	DDR3 128	2	1000	32	Unknown
Radeon HD 8850M (Venus Pro)	8 January 2013		640:40:16	575–725 625–775	9.2 12.4	23 31	800 992	DDR3 GDDR5 128	2	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	DDR3 GDDR5 128	2	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	GDDR5 256	2 4	1200	153.6	100

1 2 3 Boost values (if available) are stated below the base value in italic.
↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with other DDR memory.
↑ Unified Shaders : Texture Mapping Units : Render Output Units

Radeon R5/R7/R9 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
Model (Codename)	Launch	Architecture (Fab)	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Texture (GT/s)	Pixel (GP/s)		Bus type & width	Size (GiB)	Clock (MT/s)	Band- width (GB/s)	TDP
Radeon R5 M230 (Jet Pro)	2014	GCN 1^st gen (28 nm)	320:20:8:5	780 855	3.4	17.1	547	DDR3 64-bit	2 4	1000	16	Unknown
Radeon R5 M255 (Jet Pro)	June 2014		320:20:8:5	925 940	7.5	18.8	601	DDR3 64-bit	2 4	1000	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	DDR3 64-bit	2 4	1000	32 16	Unknown
Radeon R7 M260X (Opal)	June 2014		384:24:8:6	620 715	5.7	17.2	549	GDDR5 128-bit	2 4	1000	64	Unknown
Radeon R7 M265 (Opal XT)	May 2014		384:24:8:6	725 825	6.6	19.8	633.6	DDR3 64-bit	2 4	1000	16 32	Unknown
Radeon R9 M265X (Venus Pro)	May 2014		640:40:16:10	575 625	10	25	800	GDDR5 128-bit	2 4	1125	72	Unknown
Radeon R9 M270X (Venus XT)	May 2014		640:40:16:10	725 775	12.4	31	992	GDDR5 128-bit	2 4	1125	72	Unknown
Radeon R9 M275X (Venus XTX)	May 2014		640:40:16:10	900 925	14.8	37	1184	GDDR5 128-bit	2 4	1125	72	50 W
Radeon R9 M280X (Saturn XT)	February 2015	GCN 2^nd gen (28 nm)	896:56:16:14	1000 1100	17.6	61.6	1792	GDDR5 128-bit	2 4	1500	96	~75 W
Radeon R9 M290X (Neptune XT)	May 2014	GCN 1^st gen (28 nm)	1280:80:32:20	850 900	28.8	72	2176 2304	GDDR5 256-bit	4	1200	153.6	100 W
Radeon R9 M295X (Amethyst XT)	2014	GCN 3^rd gen (28 nm)	2048:128:32:32	750 800	25.6	102.4	3276.8	GDDR5 256-bit	4	1375	176	250 W

1 2 3 Boost values (if available) are stated below the base value in italic.
↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ Unified Shaders : Texture Mapping Units : Render Output Units

Radeon R5/R7/R9 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
Model (Codename)	Launch	Architecture (Fab)	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Texture (GT/s)	Pixel (GP/s)		Bus type & width	Size (GiB)	Clock (MT/s)	Band- width (GB/s)	TDP
Radeon R5 M330^[116] (Exo Pro)	2015	GCN 1^st gen (28 nm)	320:20:8	Unknown 1030	8.2	20.6	659.2	DDR3 64-bit	2 4	1000	14.4 16	18 W
Radeon R5 M335^[116] (Exo Pro)	2015		320:20:8	Unknown 1070	8.6	21.4	684.8	DDR3 64-bit	2 4	1100	17.6	Unknown
Radeon R7 M360^[117] (Meso XT)	2015		384:24:8	Unknown 1125	9	27	864	DDR3 64-bit	2 4	1000	16	Unknown
Radeon R9 M365X^[118] (Strato Pro)	2015		640:40:16	Unknown 925	14.8	37	1184	GDDR5 128-bit	4	1125	72	50 W
Radeon R9 M370X^[118] (Strato Pro)	May 2015		640:40:16	800	12.8	32	1024	GDDR5 128-bit	2	1125	72	40–45 W
Radeon R9 M375^[118] (Strato Pro)	2015		640:40:16	Unknown 1015	16.2	40.6	1299.2	GDDR5 128-bit	4	1100	35.2	Unknown
Radeon R9 M375X^[118] (Strato Pro)	2015		640:40:16	Unknown 1015	16.2	40.6	1299.2	GDDR5 128-bit	4	1125	72	Unknown
Radeon R9 M380^[118] (Strato Pro)	2015		640:40:16	Unknown 900	14.4	36	1152	GDDR5 128-bit	4	1500	96	Unknown
Radeon R9 M385X^[118] (Strato)	2015	GCN 2^nd gen (28 nm)	896:56:16	Unknown 1100	17.6	61.6	1971.2	GDDR5 128-bit	4	1500	96	~75 W
Radeon R9 M390^[118] (Pitcairn)	June 2015	GCN 1^st gen (28 nm)	1024:64:32	Unknown 958	30.7	61.3	1962	GDDR5 256-bit	2	1365	174.7	~100 W
Radeon R9 M390X^[118] (Amethyst XT)	2015	GCN 3^rd gen (28 nm)	2048:128:32	Unknown 723	23.1	92.5	2961.4	GDDR5 256-bit	4	1250	160	125 W
Radeon R9 M395^[118] (Amethyst Pro)	2015		1792:112:32	Unknown 834	26.6	93.4	2989.0	GDDR5 256-bit	2	1365	174.7	125 W
Radeon R9 M395X^[118] Amethyst XT)	2015		2048:128:32	Unknown 909	29.1	116.3	3723.3	GDDR5 256-bit	4	1365	174.7	125 W

1 2 3 Boost values (if available) are stated below the base value in italic.
↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ Unified Shaders : Texture Mapping Units : Render Output Units

Radeon RX 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
Model (Codename)	Launch	Architecture (Fab)	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)	TDP
Radeon R5 M420^[119] (Jet Pro)	15 May 2016	GCN 1^st 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^[120] (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^[121] (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^[122] (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^[123] (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^[124]^[125] (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^[126] (Baffin)	August 2016	GCN 4^th gen (14 nm)	896:56:16	Unknown	Unknown	Unknown	Unknown	GDDR5 128-bit	2	1750	112	35 W?
Radeon R7 M465^[127]^[128] (Litho XT)	May 2016	GCN 1^st 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^[129] (Tropo XT)	May 2016	GCN 1^st gen (28 nm)	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^[130] (Strato Pro)	May 2016	GCN 2^nd 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^[131] (Strato XT)	May 2016	GCN 2^nd gen (28 nm)	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^[132] (Ellesmere Pro)	August 2016	GCN 4^th gen (14 nm)	2048:128:32	Unknown	Unknown	Unknown	Unknown	GDDR5 256-bit	4	1650	211	85 W?
Radeon RX 480M (Baffin)	TBA	GCN 4^th gen (14 nm)	1024:xx:xx	Unknown	Unknown	Unknown	Unknown	GDDR5 128-bit	Unknown	Unknown	Unknown	35 W
Radeon R9 M485X^[133] (Antigua XT)	May 2016	GCN 3^rd gen (28 nm)	2048:128:32	723	92.5	23.14	2961	GDDR5 256-bit	8	1250	160	~100 W

1 2 3 Boost values (if available) are stated below the base value in italic.
↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ Unified Shaders : Texture Mapping Units : Render Output Units

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
Model	Launch	Micro-archi-tecture	Core	Fab (nm)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config	Pixel (GP/s)	Texture (GT/s)	Size (MB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Single precision	Direct3D	OpenGL	Vulkan	Notes
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	N/A
FireGL 8800	2001	R200	Radeon 8500	150	AGP	300	290	2:4:8:4¹	1.2	2.4	128	9.28	DDR	64 × 2	Unknown	8.1	1.4
FireGL T2-64	2003	R300	Radeon 9600 Pro	130	AGP	325	200	2:4:4:4¹	1.3	1.3	64	6.4	DDR	128	Unknown	9.0	2.0
FireGL T2-128	2003	R300	Radeon 9600 Pro	130	AGP	400	320	2:4:4:4¹	1.6	1.6	128	10.2	DDR	128	Unknown	9.0	2.0
FireGL Z1-128	2002	R300	Radeon 9500 Pro	150	AGP	325	310	4:4:4:4¹	1.3	1.3	128	19.8	DDR	256	Unknown	9.0	2.0
FireGL X1-128	2002	R300	Radeon 9700	150	AGP	325	310	4:8:8:8¹	2.6	2.6	128	19.84	DDR	256	Unknown	9.0	2.0
FireGL X1-256	2002	R300	Radeon 9700 Pro	150	AGP Pro	325	310	4:8:8:8¹	2.6	2.6	256	19.84	DDR	256	Unknown	9.0	2.0
FireGL X2-256	2003	R300	Radeon 9800 Pro	150	AGP	380	350	4:8:8:8¹	3.04	3.04	256	22.4	DDR2	256	Unknown	9.0	2.0
FireGL X2-256T	2003	R300	Radeon 9800 XT	150	AGP	412	344	4:8:8:8¹	3.3	3.3	256	22.0	DDR2	256	Unknown	9.0	2.0
FireGL X3-256	2004	R300	Radeon X800 XT	130	AGP	450	450	6:12:12:12¹	5.4	5.4	256	28.8	GDDR3	256	Unknown	9.0b	2.0
FireGL V3100	2005	R300	Radeon X300 XT	110	PCIe x16	400	200	2:4:4:4¹	1.6	1.6	128	6.4	DDR	128	Unknown	9.0	2.0
FireGL V3200	2005	R300	Radeon X600 XT	130	PCIe x16	500	400	2:4:4:4¹	2	2	128	12.8	DDR2	128	Unknown	9.0b	2.0
FireGL V3300	2006	R500	Radeon 1300 Pro	90	PCIe x16	600	400	2:4:4:4¹	2.4	2.4	128	6.4	GDDR2	64	Unknown	9.0c	2.0
FireGL V3350	2006	R500	Radeon 1300 Pro	90	PCIe x16	600	400	2:4:4:4¹	2.4	2.4	256	6.4	GDDR2	64	Unknown	9.0c	2.0
FireGL V3400	2006	R500	Radeon 1600 Pro/XT	90	PCIe x16	500	500	5:12:4:4¹	2	2	128	16	GDDR3	128	Unknown	9.0c	2.0
FireGL V3600^[134]	2007	Tera-Scale 1	RV630 GL, HD 2600 Pro	65	PCIe x16	600	500	120²(24×5):8:4:3	2.4	4.8	256	16.0	GDDR3	128	144	10	3.3		Shader Model 4.0, APP Stream
FireGL V5000	2005	R400	Radeon X700 Pro/XT	130	PCIe x16	425	430	6:8:8:8¹	3.4	3.4	128	13.6	GDDR3	128	Unknown	9.0b	2.0
FireGL V5100	2005	R400	Radeon X800 Pro	130	PCIe x16	450	350	6:12:12:12¹	5.4	5.4	128	22.4	DDR	256	Unknown	9.0b	2.0
FireGL V5200	2005	R500	Radeon X1600 XT	90	PCIe x16	600	700	5:12:4:4¹	2.4	2.4	256	22.4	GDDR3	128	Unknown	9.0c	2.0
FireGL V5600^[135]	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	128	192	10	3.3		Shader Model 4.0, APP Stream
FireGL V7100	2005	R400	Radeon X800 XT	130	PCIe	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 x16	600	650	8:16:16:16¹	9.6	9.6	256	41.6	GDDR3	256	Unknown	9.0c	2.0
FireGL V7300^[136]	2006	R500	R520 GL, X1800 XT	90	PCIe	600	650	8:16:16:16¹	9.6	9.6	512	41.6	GDDR3	256	Unknown	9.0c	2.0
FireGL V7350^[137]	2006	R500	R520 GL, X1800 XT	90	PCIe	600	650	8:16:16:16¹	9.6	9.6	1024	41.6	GDDR3	256	Unknown	9.0c	2.0
FireGL V7400	2006 (Canceled)	R500	Radeon X1950 Pro	80	PCIe	550?	650?	8:36:16:16¹	19.8?	19.8?	512?	41.6?	GDDR3	256	Unknown	9.0c	2.0		never released, superseded by 2007 Series
FireGL V7600^[138]	2007	Tera-Scale 1	R600 GL, HD 2900 GT	80	PCIe	600	800	240²(48×5):12:12:3	9.6	9.6	512	51.2	GDDR3	256	288	10	3.3		Shader Model 4.0, APP Stream
FireGL V7700^[139]	2007 (2008)	Tera-Scale 1	R670 GL, HD 3870	55	PCIe 2.0	775	1125	320²(64×5):16:16:4	12.4	12.4	512	72	GDDR4	256	496	10.1 (SM4.1)	3.3		DisplayPort. Can do double precision computation via the AMD Stream SDK.
FireGL V8600^[140]	2007	Tera-Scale 1	R600 GL, HD 2900 XT	80	PCIe	688	868	320²(64×5):16:16:4	11.008	11.008	1024	111.1^[141]	GDDR4	512	440.32	10	3.3		Shader Model 4.0, APP Stream
FireGL V8650^[142]	2007	Tera-Scale 1	R600 GL, HD 2900 XT	80	PCIe	688	868	320²(64×5):16:16:4	11.008	11.008	2048	111.1	GDDR4	512	440.32	10	3.3		Shader Model 4.0, APP Stream

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
Model	Launch	Core	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config¹	Fillrate (GT/s)	Size (MB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Direct3D	OpenGL	TDP / idle (watts)	Notes
FireMV 2200 PCI.^[143]	jan 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.^[144]	jan 2006	RV370	PCIe x16	324	196	2:4:4:4	1.296	128	3.2	DDR	64	9.0	2.1	15	DMS-59 for dual DVI-D output
FireMV 2260^[145]	Jan 2008	RV620	PCIe 2.0 x1/x16, PCI	600	500	40(8×5):4:4	2.4	256	32	DDR2	256	10.1^[146]	3.3	15/8	Dual DisplayPort (with adapters: DVI-D)
FireMV 2400 PCI.^[147]	jan 2008	RV380	PCI	500	500	2:4:4:4	2.0	128	16	DDR	128	9.0b	2.1	20	2x VHDCI for quad DVI-D output, VGA
FireMV 2400 PCIe.^[148]	jan 2008	RV380	PCIe x1	500	500	2:4:4:4	2.0	256	16	DDR3	128	9.0b	2.1	20	2x VHDCI for quad DVI-D output, VGA

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
Model	Launch	Core	Fab (nm)	Transistors (million)	Die size (mm²)	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 (OpenCL)	TDP / idle (watts)	Notes
FirePro 2250^[149]	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^[150]	2011-01-31	Cedar GL (RV810)	40	292	59	PCIe 2.1 x1/x16	600	600	80(16×5):8:4:1	2.4	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^[151]	2009-01-01	2x RV620 (Terascale 1)	55	2× 181	2× 61	PCIe 2.0 x1/x16	600	600	2× 40(8×5):4:4:1	2.4	4.8	512	38.4	GDDR3	256	10.1	3.3 (APP)	36/18	2x VHDCI for quad output: DVI-I or D-sub
FirePro 2460 Multi-View^[152]^[153]	2010-04-01	Cedar GL (RV810) (Tera-scale2)	40	292	59	PCIe 2.1 x16	500	500	80(16×5):8:4:1	2.0	4.0	512	32	GDDR5	64	11.0	4.3 (1.2)	17/13	4x Mini DP for quad output: DP or DVI-D, UVD2, PowerPlay, Eyefinity

FirePro 3D Series (V000)

Model	Launch	Micro-archi-tecture	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
Model	Launch	Micro-archi-tecture	Code name	Fab (nm)	Transistors (million)	Die size (mm²)	Bus interface	Core (MHz)	Memory (MHz)	Core config¹	Pixel (GP/s)	Texture (GT/s)	Size (MB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Single precision	Double precision	Direct3D	OpenGL	OpenCL	Vulkan	TDP (Watts)	Notes
FirePro 3D V3700^[154]	August 8, 2008	Terascale 1	RV620 PRO^[155]	55	181	67	PCIe 2.0 x16	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	N/A	32	UVD+, PowerPlay
FirePro 3D V3750^[156]	September 11, 2008	Terascale 1	RV730 PRO	55	514	146	PCIe 2.0 x16	550	750	320(64×5):32:8:4	4.4	17.6	256	24	GDDR3	128	352	-	10.1	3.3	1.0		48	UVD2, PowerPlay
FirePro 3D V3800,^[157]^[158]	April 26, 2010	TeraScale 2	Redwood Pro GL (RV830)	40	627	104	PCIe 2.1 x16	650	900	400(80×5):20:8:5	5.2	13	512	14.4	GDDR3	64	520	?	11.0	4.3 SM5.0	1.2		43	UVD2, PowerPlay, Eyefinity
FirePro 3D V4800,^[159]^[160]	April 26, 2010	TeraScale 2	Redwood XT GL (RV830)	40	672	104	PCIe 2.1 x16	775	900²	400(80×5):20:8:5	6.2	15.5	1024	57.6	GDDR5²	128	620	?	11.0	4.3	1.2		69	UVD2, PowerPlay, Eyefinity
FirePro 3D V5700^[161]	August 8, 2008	TeraScale 1	RV730 XT	55	514	146	PCIe 2.0 x16	700	900	320(64×5):32:8:4	5.6	22.4	512	28.8	GDDR3	128	448	-	10.1	3.3	1.0		58	UVD2, PowerPlay
FirePro 3D V5800,^[157]^[162]	April 26, 2010	TeraScale 2	Juniper XT GL (RV840)	40	1040	166	PCIe 2.1 x16	700	1000²	800(160×5):40:16:10	11.2	28	1024	64	GDDR5²	128	1120	?	11.0	4.3	1.2		74	UVD2, PowerPlay, Eyefinity
FirePro 3D V7750^[163]	March 27, 2009	TeraScale 1	RV730 XTX	55	514	146	PCIe 2.0 x16	800	900	320(64×5):32:8:4	6.4	25.6	1024	28.8	GDDR3	128	512	-	10.1	3.3	1.0		76	UVD2, PowerPlay
FirePro 3D V7800,^[159]^[164]	April 26, 2010	TeraScale 2	Cypress Pro GL (RV870)	40	2154	334	PCIe 2.1 x16	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^[165]	September 11, 2008	TeraScale 1	RV770 XT	55	956	256	PCIe 2.1 x16	750	850²	800(160×5):40:16:10	12	30	1024	108.8	GDDR5²	256	1200	240	10.1	3.3	1.0		151	UVD2, PowerPlay
FirePro 3D V8750^[166]	July 28, 2009	TeraScale 1	RV770 XT	55	956	256	PCIe 2.1 x16	750	900²	800(160×5):40:16:10	12	30	2048	115.2	GDDR5²	256	1200	240	10.1	3.3	1.0		154	UVD2, PowerPlay
FirePro 3D V8800^[167]	April 7, 2010	TeraScale 2	Cypress XT GL (RV870)	40	2154	334	PCIe 2.1 x16	825	1150²	1600(320×5):80:32:20	26.4	66	2048	147.2	GDDR5²	256	2640	528	11.0	4.3	1.2		208	UVD2, PowerPlay, Eyefinity
FirePro 3D V9800^[168]	September 9, 2010	TeraScale 2	Cypress XT GL (RV870)	40	2154	334	PCIe 2.1 x16	850	1150²	1600(320×5):80:32:20	27.2	68	4096	147.2	GDDR5²	256	2720	544	11.0	4.3	1.2		225	UVD2, PowerPlay, Eyefinity

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^[169]

FirePro Series (Vx900)

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
Model	Launch	Micro-archi-tecture	Code name	Fab (nm)	Bus interface	Core (MHz)	Memory (MHz)	Core config¹	Pixel (GP/s)	Texture (GT/s)	Size (GiB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Single precision	Double precision	Direct3D	OpenGL	OpenCL	Vulkan	TDP (Watts)	Notes
FirePro V3900^[170]	February 7, 2012	TeraScale 2	Turks GL	40	PCIe 2.1 x16	650	900	480(96×5):24:8:6	5.2	15.6	1	28.8	GDDR3	128	624	-	11.0	4.3	1.2	N/A	50	HD3D, UVD3, DP 1.2, PowerPlay, Eyefinity
FirePro V4900^[171]	November 1, 2011	TeraScale 2	Turks XT GL	40	PCIe 2.1 x16	800	1000	480(96×5):24:8:6	6.4	19.2	1	64	GDDR5²	128	768	-	11.0	4.3	1.2		<75 Max	HD3D, UVD3, DP 1.2, PowerPlay, Eyefinity
FirePro V5900^[172]	May 24, 2011	TeraScale 3	Cayman LE GL	40	PCIe 2.1 x16	600	500²	512(128×4):32:32:8	19.2	19.2	2	64	GDDR5²	256	610	154	11.0	4.3	1.2		<75 Max	HD3D, UVD3, DP 1.2, PowerPlay, Eyefinity
FirePro V7900^[173]	May 24, 2011	TeraScale 3	Cayman Pro GL	40	PCIe 2.1 x16	725	1250²	1280(320×4):80:32:20	23.2	58	2	160	GDDR5²	256	1860	464	11.0	4.3	1.2		<150 Max	HD3D, UVD3, DP 1.2, PowerPlay, Eyefinity

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^[174]

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.^[175]^[176]
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.^[177]

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
Model	Launch	Micro-archi-tecture	Code name	Fab (nm)	Bus interface	Core (MHz)	Memory (MHz)	Core config¹	Pixel (GP/s)	Texture (GT/s)	Size (GiB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Single precision	Double precision	Direct3D	OpenGL	OpenCL	Vulkan	TDP (Watts)	Notes
FirePro W600^[178]	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	Six Mini DisplayPort
FirePro W5000^[179]	June 13, 2012	GCN 1st Gen.	Pitcairn LE GL	28	PCIe 3.0 x16	825	800	768:48:32:12	26.4	39.6	2	102.4	GDDR5	256	1267.2	79.2	11.1/12	4.5	1.2		<75	Two DisplayPort, One DVI-I
FirePro W7000^[180]	June 13, 2012	GCN 1st Gen.	Pitcairn XT GL	28	PCIe 3.0 x16	950	1200	1280:80:32:20	30.4	76.0	4	153.6	GDDR5	256	2432	152	11.1/12	4.5	1.2		<150	ECC RAM, Four DisplayPort
FirePro W8000^[181]	June 14, 2012	GCN 1st Gen.	Tahiti PRO GL	28	PCIe 3.0 x16	900	1375	1792:112:32:28	28.8	100.8	4	176	GDDR5	256	3225.6	806.4	11.1/12	4.5	1.2		<225	ECC RAM, Four DisplayPort + SDI-Link
FirePro W9000^[182]^[183]	June 14, 2012	GCN 1st Gen.	Tahiti XT GL	28	PCIe 3.0 x16	975	1375	2048:128:32:32	31.20	124.8	6	264	GDDR5	384	3993.6	998.4	11.1/12	4.5	1.2		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^[184]

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.^[175]^[176] 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.^[185]
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.^[177]

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
Model	Launch	Micro-archi-tecture	Code name	Fab (nm)	Bus interface	Core (MHz)	Memory (MHz)	Core config¹	Pixel (GP/s)	Texture (GT/s)	Size (GiB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Single precision	Double precision	Direct3D	OpenGL	OpenCL	Vulkan	TDP (Watts)	Notes
FirePro W2100^[186]	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	Two Standard DisplayPort DP 1.2a outputs
FirePro W4100^[187]	August 13, 2014	GCN 1st gen	Cape Verde	28	PCIe 3.0 x16	630	1125	512:32:16:8	10.08	20.16	2	72	GDDR5	128	645.1	40.3	11.2a/12.0	4.5	2.0 (new)		<50	Four Standard Mini-DP 1.2a outputs
FirePro W5100^[188]	August 13, 2014	GCN 2nd gen	Bonaire Pro	28	PCIe 3.0 x16	930	1500	768:48:16:12	14.88	44.64	4	96	GDDR5	128	1430	89.2	11.2b/12.0	4.5	2.0		<75	DirectGMA, GeometryBoost, 4 DP 1.2a, including Adaptive-Sync and HBR2
FirePro W7100^[189]	August 13, 2014	GCN 3rd gen	Tonga Pro GL	28	PCIe 3.0 x16	920	1400	1792:112:32:28	29.4	103	8	160	GDDR5	256	3297	206	11.2b/12.0	4.5	2.0	1.1	<150	DirectGMA, GeometryBoost, 4 DP 1.2a, including Adaptive-Sync and HBR2
FirePro W8100^[190]	June 26, 2014	GCN 2nd gen	Hawaii Pro GL	28	PCIe 3.0 x16	824	1250	2560:160:64:40	52.7	145	8	320	GDDR5	512	4218.9	2109.45	11.2b/12.0	4.5	2.0	1.0	220	ECC RAM, 4 DP + SDI-Link
FirePro W9100^[191]	March 26, 2014	GCN 2nd gen	Hawaii XT	28	PCIe 3.0 x16	930	1250	2816:176:64:44	59.5	163.7	16 32	320	GDDR5	512	5237.8	2618.9	11.2b/12.0	4.5	2.0^[192]	1.0	275	ECC RAM, Six Mini DP + 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^[184]

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.^[177]

Model	Launch	Code name	Fab (nm)	Bus interface	Clock rate		Core config¹	Fillrate		Memory				Processing power (GFLOPS)		API compliance (version)				TDP (Watts)	Notes
Model	Launch	Code name	Fab (nm)	Bus interface	Core (MHz)	Memory (MHz)	Core config¹	Pixel (GP/s)	Texture (GT/s)	Size (GiB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Single precision	Double precision	Direct3D	OpenGL	OpenCL	Vulkan	TDP (Watts)	Notes
FirePro W4300^[193]	December 1, 2015	Bonaire PRO (GCN 2nd Gen)	28	PCIe 3.0 x16	930	1500	768:48:16:12^[194]	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 WX x100

4th Quarter 2016 Launch by AMD

Vulkan 1.1 possible for GCN with Radeon Pro Software 18.Q1.1 or higher.^[177]

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]} (TFLOPS)			Memory				TBP (W)	Bus interface	Graphic output Port	Release Price (USD)
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Texture (GT/s)	Pixel (GP/s)	Half	Single	Double^{[lower-alpha 6]}	Bus type & width (bit)	Size (GiB)	Clock (MT/s)	Band- width (GB/s)	TBP (W)	Bus interface	Graphic output Port	Release Price (USD)
Radeon Pro WX 2100^[195]^[196]^[197]	June 2017	GCN 4^th gen (14 nm)	103 mm²	512:32:16 (8)	1219	39.0	19.5	SP	1.25	0.078	GDDR5 64	2	6000	48	<35	PCIe 3.0 ×16	1x DP 1.4 2x mini-DP 1.4	$150
Radeon Pro WX 3100^[195]^[198]	June 2017	GCN 4^th gen (14 nm)	103 mm²	512:32:16 (8)	1219	39.0	19.5	SP	1.25	0.078	GDDR5 128	4	6000	96	<50	PCIe 3.0 ×16	1x DP 1.4 2x mini-DP 1.4	$200
Radeon Pro WX 4100 (Polaris 11)^[199]^[200]^[201]^[202]^[203]^[204]	November 2016	GCN 4^th gen (14 nm)	7009300000000000000♠3000×10⁶ 123 mm²	1024:64:16 (16)	925 1170	59.2 74.9	14.8 18.7	SP	1.89 2.40	0.118 0.15	GDDR5 128	4	7000	112	50	PCIe 3.0 ×16	4x mini-DP 1.4	$399
Radeon Pro WX 5100 (Polaris 10)^[200]^[201]^[202]^[205]^[204]	November 2016	GCN 4^th gen (14 nm)	7009570000000000000♠5700×10⁶ 232 mm²	1792:112:32 (28)	926 1090	103.7 122.1	29.6 34.9	SP	3.32 3.91	0.208 0.244	GDDR5 256	8	6600	211.2	75	PCIe 3.0 ×16	4x Display Port 1.4	$499
Radeon Pro WX 7100 (Polaris 10)^[200]^[201]^[202]^[206]^[207]^[204]	November 2016	GCN 4^th gen (14 nm)	7009570000000000000♠5700×10⁶ 232 mm²	2304:144:32 (36)	900 1240	115.2 158.7	28.8 39.7	SP	4.15 5.71	0.259 0.357	GDDR5 256	8	8000	256	130	PCIe 3.0 ×16	4x Display Port 1.4	$799
Radeon Pro WX 8200 (Vega) ^[208]	August 2018	GCN 5^th gen (14 nm)	7010125000000000000♠12500×10⁶ 484mm²	3584:224:64 (56)	1200 1530	342.7	97.92	2x SP	10.967	1/16 SP	HBM2 2048	8	2000	512	<230	PCIe 3.0 ×16	4x mini-DP 1.4	$999
Radeon Pro WX 9100 (Vega)^[209]^[210]^[211]^[212]^[213]^[214]^[215]	September 2017	GCN 5^th gen (14 nm)	7010125000000000000♠12500×10⁶ 484mm²	4096:256:64^[216] (64)	1500	384.0	96.0	24.576 2x SP	12.288	0.768 1/16 SP	HBM2 2048	16	1890	483.84	<250	PCIe 3.0 ×16	6x mini-DP 1.4	$2,199
Radeon Pro SSG (Fiji) (prototype only)^[217]	July 2016	GCN 3^rd gen (28 nm)	7009890000000000000♠8900×10⁶ 596 mm²	4096:256:64 (64)	1000?	256?	64.0?	8.192?	8.192?	0.512?	HBM + SSG 4096	4 + 1TB	1000	512	200?	PCIe 3.0 ×16	Unknown	$9,999
Radeon Pro SSG (Vega)^[218]^[211]^[213]^[214]	September 2017	GCN 5^th gen (14 nm)	7010125000000000000♠12500×10⁶ 484 mm²	4096:256:64^[216] (64)	1500	384.0	96.0	24.6	12.29	0.768	HBM2 + SSG 2048	16 + 2TB	1890	483.84	<300	PCIe 3.0 ×16	6x mini-DP 1.4	$6,999
Radeon Pro Duo Polaris (Polaris 10)^[200]^[201]^[202]^[219]^[220]^[204]^[221]	April 2017	GCN 4^th gen (14 nm)	2×7009570000000000000♠5700×10⁶ 2x232 mm²	2× 2304:128:32 (2x36)	1243	179.0 ×2	39.78 ×2	SP	2x 5.728 =11.45	1/16 SP	GDDR5 2x256	2x16	7000	2x224	<250	PCIe 3.0 ×16	3x DP 1.4 1x HDMI 2.0	$999
Radeon Pro V340 (Vega) (Single for server)^[222]	Q4 2018	GCN 5^th gen (14 nm)	7010125000000000000♠12500×10⁶ 2x484 mm²	3584:224:64 (2x56)	852 1000	224.0	64.0	2x SP	7.168	1/16 SP	HBM2 2048	16	2000	512	230	PCIe 3.0 ×16	no outputs	Unknown
Radeon Pro V340 MxGPU (Vega) (Dual for server)^[223]^[224]^[225]	Q4 2018	GCN 5^th gen (14 nm)	2×7010125000000000000♠12500×10⁶ 2x484 mm²	2× 3584:224:64 (2x56)	852 1000	2x 224.0	2x 64.0	2x SP	2x 7.168 =14.34	1/16 SP	HBM2 2x2048	2x16	2000?	2x512	300	PCIe 3.0 ×16	no outputs	Unknown

1 2 3 Boost values (if available) are stated below the base value in italic.
↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ Unified Shaders : Texture Mapping Units : Render Output Units and (Compute Units)
↑ To calculate driver enabled FP64 processing power see driver.

Radeon Vega Series

Vulkan 1.1 possible for GCN with Radeon Pro Software 18.Q1.1 or higher.^[177]

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				TBP	Bus interface	Release Price (USD)
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Texture (GT/s)	Pixel (GP/s)	Half	Single	Double	Bus type & width	Size (GiB)	Clock (MT/s)	Band- width (GB/s)	TBP	Bus interface	Release Price (USD)
Radeon Vega Frontier Edition (Air Cooled)^[226]^[227]	27 June 2017	GCN 5^th gen (14 nm)	7010125000000000000♠12.5×10⁹ 484 mm²	4096:256:64	1382 1600	409.6	102.4	22643 26214	11321 13107	707.6 819.2	HBM2 2048-bit	16	1890	483.8	300 W	PCIe 3.0 ×16	$999
Radeon Vega Frontier Edition (Liquid Cooled)^[226]^[227]	27 June 2017	GCN 5^th gen (14 nm)	7010125000000000000♠12.5×10⁹ 484 mm²	4096:256:64	1382 1600	409.6	102.4	22643 26214	11321 13107	707.6 819.2	HBM2 2048-bit	16	1890	483.8	350 W	PCIe 3.0 ×16	$1499

1 2 3 Boost values (if available) are stated below the base value in italic.
↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ Unified Shaders : Texture Mapping Units : Render Output Units

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
Model (Codename)	Launch	Architecture (Fab)	Config	Clock (MHz)	Texture (GT/s)	Pixel (GP/s)	Processing power^{[lower-alpha 3]} (GFLOPS)	Size (MB)	Bus type & width (bit)	Clock (MHz)	Band- width (GB/s)	Bus interface	Notes
Mobility FireGL 7800 ^[228] (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	27 Watt TDP
Mobility FireGL 9000 ^[229] (M7-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 ^[230] (M7-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 ^[231] (M7-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
Mobility FireGL V3100 ^[232] (M7-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 x16
Mobility FireGL V3200 ^[233] (M7-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 x16
Mobility FireGL V5000 ^[234] (M7-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 x16
Mobility FireGL V5200 ^[235] (M7-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 x16
Mobility FireGL V5250 ^[236] (M7-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 x16
Mobility FireGL V5600 ^[237] (M7-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 ^[238] (M7-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 ^[239] (M7-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

↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
1 2 3 4 5 6 7 8 9 Vertex shader : Pixel shaders: Texture Mapping Units : Render Output Units
1 2 3 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
Model (Codename)	Launch	Architecture (Fab)	Config^{[lower-alpha 4]} (CU)	Clock (MHz)	Texture (GT/s)	Pixel (GP/s)	Processing power^{[lower-alpha 3]} (GFLOPS)	Size (MB)	Bus type & width (bit)	Clock (MHz)	Band- width (GB/s)	Bus interface	Notes
FirePro M5725 ^[240] (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 ^[241] (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 ^[242] (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 ^[243] (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 ^[244] (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 ^[245] (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 ^[246] (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 ^[247] (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 ^[248] (Chelsea XT GL)	2012-06-27	GCN 1^st 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 ^[249] (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 ^[250] (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 ^[251] (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 ^[252] (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 ^[253]
FirePro M5100 ^[254] (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 ^[255] (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 ^[256]
FirePro W5170M ^[257] (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 ^[258]
FirePro M6100 ^[259] (Saturn XT GL)	2013-10-16	GCN 2^nd 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 ^[260] (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 ^[261]
FirePro W6170M ^[262] (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 ^[263] (Amethyst XT)	2015-10-02	GCN 3^rd 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 ^[264]

↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ Unified Shaders : Texture Mapping Units : Render Output Units

Radeon Pro

Radeon Pro 400 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				TBP (W)	Bus interface	Release Price (USD)
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Texture (GT/s)	Pixel (GP/s)	Half	Single	Double	Bus type & width (bit)	Size (GiB)	Clock (MT/s)	Band- width (GB/s)	TBP (W)	Bus interface	Release Price (USD)
Radeon Pro 450^[265]^[266]^[267]^[268]^[269]	October 2016	GCN 4^th gen (14 nm)	7009300000000000000♠3.0×10⁹ 123 mm²	640:40:16	725 775	11.6 12.4	29 31	SP	928 992	1/16 SP	GDDR5 128-bit	2	5000	80	35	PCIe 3.0 ×16	Unknown
Radeon Pro 455^[265]^[266]^[267]^[270]	October 2016			768:48:16	850	13.6	40.8	SP	1305.6	1/16 SP	GDDR5 128-bit	2	5000	80	35		Unknown
Radeon Pro 460^[265]^[266]^[267]^[271]	October 2016			1024:64:16	850 910	13.6 14.56	54.4 58.2	SP	1740.8 1863.7	1/16 SP	GDDR5 128-bit	4	5000	80	35		Unknown

1 2 3 Boost values (if available) are stated below the base value in italic.
↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ Unified Shaders : Texture Mapping Units : Render Output Units

Radeon Pro 500 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				TDP (W)	Bus interface	Release Price (USD)
Model (Codename)	Launch	Architecture (Fab)	Transistors Die Size	Config^{[lower-alpha 5]}	Clock^{[lower-alpha 1]} (MHz)	Texture (GT/s)	Pixel (GP/s)	Single	Double	Bus type & width (bit)	Size (GiB)	Clock (MT/s)	Band- width (GB/s)	TDP (W)	Bus interface	Release Price (USD)
Radeon Pro 555 (Polaris 21)^[272]^[273]^[274]^[275]	June 2017	GCN 4^th gen (14 nm)	7009300000000000000♠3.0×10⁹ 123 mm²	768:48:16:12	850	13.6	40.8	1306	1/16 SP	GDDR5 128-bit	2	5100	81.60	75	PCIe 3.0 ×16	Unknown
Radeon Pro 555X (Polaris 21)^[272]^[273]^[274]^[276]	July 2018			768:48:16:12	907	14.51	43.54	1393	1/16 SP	GDDR5 128-bit	4	5100	81.60	75		Unknown
Radeon Pro 560 (Polaris 21)^[272]^[273]^[274]^[277]	June 2017			1024:64:16:16	907	14.51	58.05	1858	1/16 SP	GDDR5 128-bit	4	5080	81.28	75		Unknown
Radeon Pro 560X (Polaris 21)^[272]^[273]^[274]^[278]	July 2018			1024:64:16:16	1004	16.06	64.26	2056	1/16 SP	GDDR5 128-bit	4	5080	81.28	75		Unknown
Radeon Pro 570 (Polaris 20)^[272]^[273]^[274]^[279]	June 2017		7009570000000000000♠5.7×10⁹ 232 mm²	1792:112:32:28	1000	32	112	3584	1/16 SP	GDDR5 256-bit	4	6800	217.6	120		Unknown
Radeon Pro 575 (Polaris 20)^[272]^[273]^[274]^[280]	June 2017			2048:128:32:32	1100	35.2	140.8	4506	1/16 SP	GDDR5 256-bit	4	6800	217.6	120		Unknown
Radeon Pro 580 (Polaris 20)^[272]^[273]^[274]^[281]	June 2017			2304:144:32:36	1100 1200	38.4	172.8	5530	1/16 SP	GDDR5 256-bit	8	6800	217.0	150		Unknown

1 2 3 Boost values (if available) are stated below the base value in italic.
↑ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
↑ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
↑ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
↑ Unified Shaders : Texture Mapping Units : Render Output Units : Compute Units

Server GPUs

FireStream Series

Model (Codename)	Launch	Architecture (Fab)	Bus interface	Stream processors	Clock rate		Memory				Processing power^{[lower-alpha 1]} (GFLOPS)		TDP (Watts)
Model (Codename)	Launch	Architecture (Fab)	Bus interface	Stream processors	Core (MHz)	Memory (MHz)	Size (MB)	Type	Bus width (bit)	Bandwidth (GB/s)	Single	Double	TDP (Watts)
Stream Processor (R580)	2006	R500 80 nm		240	600		1024	GDDR3	256	83.2	375^[282]	N/A	165
FireStream 9170 (RV670)^[283]^[284]	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)^[285]^[286]	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)^[287]^[288]	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)^[289]	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)^[290]	June 23, 2010	TeraScale 2 40 nm	PCIe 2.1 x16	1600	825	1150	4096	GDDR5	256	147.2	2640	528	225

↑ 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
Model	Launch	Code name	Fab (nm)	Bus interface	Core (MHz)	Memory (MHz)	Core config¹	Pixel (GP/s)	Texture (GT/s)	Size (MB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Single precision	Double precision	Direct3D	OpenGL	OpenCL	TDP (Watts)	Notes
FirePro RG220^[291]	May 2010	RV711	55	PCIe 2.0 x16	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^[292]	February 25, 2013	Pitcairn LE GL (GCN 1st gen)	28	PCIe 3.0 x16	825	800	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 Two Mini DisplayPort w/ 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.^[175] OpenGL 4.5 was only in Windows available.^[176] Actual Linux Driver support OpenGL 4.5 and Vulkan 1.0, but only OpenCL 1.2 by AMDGPU Driver 16.60.^[185]
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.^[177]

Model	Launch	Micro-archi-tecture	Code name	Fab (nm)	Bus inter- face	Clock rate		Core config¹	Fillrate		Memory				Processing power (GFLOPS)		API compliance (version)				TDP (Watts)	Notes
Model	Launch	Micro-archi-tecture	Code name	Fab (nm)	Bus inter- face	Core (MHz)	Memory (MHz)	Core config¹	Pixel (GP/s)	Texture (GT/s)	Size (GiB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Single precision	Double precision	Direct X	OpenGL	OpenCL	Vulkan	TDP (Watts)	Notes
FirePro S4000x^[293]^[294]	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^[295]	August 27, 2012	GCN 1st gen	Pitcairn XT	28	PCIe 3.0 x16	950	1200	1280:80:32:20	30.4	76	4	153.6	GDDR5	256	2432	152	11.1 12.0	4.5	1.2	1.0	<150	One DP
FirePro S7100X^[296]^[297]^[298]^[299]	May 25, 2016	GCN 3rd gen	Amethyst XT	28	PCIe 3.0 x16	723	1050	2048:128:32:32	23.14	92.5	8	160	GDDR5	256	2961	TBA	11.2 12.0	4.5	2.0	1.1	100	For Blade Servers, MXM Module 3.1
FirePro S7150^[300]^[301]^[302]^[303]	February 1, 2016	GCN 3rd gen	Tonga PRO GL	28	PCIe 3.0 x16	1050	1250	1792:112:32:28	33.6	117.6	8	160	GDDR5	256	3763	250	11.2 12.0	4.5	2.0		150	ECC RAM, two Slots
FirePro S7150 X2^[300]^[302]^[304]^[305]	February 1, 2016	GCN 3rd gen	2× Tonga PRO GL	28	PCIe 3.0 x16	1050	1250	2× 1792:112:32:28	33.6	117.6	16	2× 160	GDDR5	256	7540	500	11.2 12.0	4.5	2.0		265	ECC RAM, no physical display outputs
FirePro S9000^[306]	August 27, 2012	GCN 1st gen	Tahiti PRO GL	28	PCIe 3.0 x16	900	1375	1792:112:32:28	28.8	100.8	6	264	GDDR5	384	3225.6	806.4	11.1 12.0	4.5	1.2	1.0	<225	ECC RAM, One DP
FirePro S9050^[307]^[308]	August 6, 2014	GCN 1st gen	Tahiti PRO GL	28	PCIe 3.0 x16	900	1375	1792:112:32:28	28.8	100.8	12	264	GDDR5	384	3225.6	806.4	11.1 12.0	4.5	1.2		<225	ECC RAM, One DP
FirePro S9150^[309]^[310]^[311]	August 6, 2014	GCN 2nd gen	Hawaii XT GL	28	PCIe 3.0 x16	900	1250	2816:176:64:44	57.6	158.4	16	320	GDDR5	512	5070	2530	11.2 12.0	4.5	2.0		<235	ECC RAM, No physical display outputs
FirePro S9170^[312]^[313]	July 8, 2015	GCN 2nd gen	Grenada XT GL	28	PCIe 3.0 x16	930	1375	2816:176:64:44	59.52	163.68	32	320	GDDR5	512	5240	2620	11.2 12.0	4.5	2.0		<275	ECC RAM, Full Throughput double precision, no physical display outputs
FirePro S9300 x2^[314]^[315]^[316]^[317]^[318]	March 31, 2016	GCN 3rd gen	2× Capsaicin XT	28	PCIe 3.0 x16	850	2x 500	2× 4096:256:64:64	54.4	217.6	2× 4	2× 512	HBM	2x 4096	13900	868	11.2 12.0	4.5	2.0	1.1	300	Non-ECC RAM, half-precision (FP16) support, no physical display outputs
FirePro S10000^[319]	November 12, 2012	GCN 1st gen	2× Zaphod (Tahiti Pro GL)	28	PCIe 3.0 x16	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	4.5	1.2	1.0	<375	ECC RAM, 4x DP, 1x DVI-I
FirePro S10000 passive^[320]	November 12, 2012	GCN 1st gen	2× Tahiti PRO GL	28	PCIe 3.0 x16	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	4.5	1.2	1.0	<375	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^[184]

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
Model	Launch	Code name	Fab (nm)	Bus interface	Core (MHz)	Memory (MHz)	Core config¹	Pixel (GP/s)	Texture (GT/s)	Size (GiB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Single precision	Double precision	Direct3D	OpenGL	OpenCL	Vulkan	TDP (Watts)	Notes
Radeon Sky 500^[321]	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^[322]	April, 2013	Tahiti PRO	28	PCIe 3.0 x16	900	1375	1792:112:32:28	28.8	100.8	6	264	GDDR5	384	3225.6	806.4	12.0	4.5	1.2		225	One DisplayPort
Radeon Sky 900^[323]	April, 2013	2× Tahiti PRO	28	PCIe 3.0 x16	825 950	1250	2× 1792:112:32:28	52.8	184.8	2× 3	2× 240	GDDR5	2x 384	5913.6	1478.4	12.0	4.5	1.2		300	Four Mini DisplayPort, One 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 Instinct Series

Model	Launch	Code Name	Archi- tecture	Fab (nm)	Transistors (Billion)	Die Size (mm²)	Bus interface	Clock rate			Core config^{[lower-alpha 1]}	Fillrate		Memory				Processing Power (GFLOPS)			TDP (Watts)	API support (version)
Model	Launch	Code Name	Archi- tecture	Fab (nm)	Transistors (Billion)	Die Size (mm²)	Bus interface	Core (MHz)	Boost (MHz)	Memory (MT/s)	Core config^{[lower-alpha 1]}	Pixel (GP/s) (Boost)^{[lower-alpha 2]}	Texture (GT/s) (Boost)^{[lower-alpha 3]}	Size (GiB)	Bus width (bit)	Bus type	Bandwidth (GB/s)	Half Precision (Boost)	Single Precision (Boost)^{[lower-alpha 4]}	Double Precision	TDP (Watts)	OpenCL
Radeon Instinct MI6 ^[324]^[325]^[326]^[327]^[328]	2016-12-12	Polaris 10	GCN 4^th gen	14	5.7	232	PCIe 3.0 x16	1120	1233	1750 7000 eff	2304:144:32:36	39.46	177.6	16	256	GDDR5	224	5800	5800	358	150	2.0
Radeon Instinct MI8 ^[324]^[325]^[326]^[329]^[330]		Fiji XT	GCN 3^rd gen	28	8.9	596		1000	1000	1000	4096:256:64:64	64.0	256.0	4	4096	HBM	512	8200	8200	512	175	2.0
Radeon Instinct MI25 ^[324]^[325]^[326]^[331]^[332]^[333]		Vega 10 XT	GCN 5^th gen	14	12.5	510		1400	1500	1704	4096:256:64:64	96.0	384	16	2048	HBM2	436.2	24600	12300	768	300	2.0
Radeon Instinct MI25 mxgpu (Prototype, near equal Radeon Pro V340 mxgpu)^[334]	2017-06-17	Vega 10 XT	GCN 5^th gen	14	2x 12.5	2x 510		1400 ?	1500 ?	1704	2x 4096:256:64:64	2x 96.0 ?	2x 384 ?	16	2048	HBM2	2x 436.2	2x 24600 ?	2x 12300 ?	2x 768 ?	300	2.0

↑ Single-precision shader processors : Texture Mapping Units : Render Output Units (Compute Units)
↑ Pixel fillrate is calculated as the number of ROPs multiplied by the base (or boost) core clock speed.
↑ Texture fillrate is calculated as the number of TMUs multiplied by the base (or boost) core clock speed.
↑ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.

Console GPUs


Model	Launch	Code name	Fab (nm)	Core config¹,²	Core clock (MHz)	Fillrate				Memory					Bus interface	API compliance (version)			Processing power (GFLOPS)	Notes
Model	Launch	Code name	Fab (nm)	Core config¹,²	Core clock (MHz)	MOperations/s	MPixels/s	MTexels/s	MVertices/s	Size (MiB)	Clock (MHz)	RAM type	Bus width (bit)	Bandwidth (GB/s)	Bus interface	Direct3D	OpenGL	other	Processing power (GFLOPS)	Notes
Flipper (GameCube)^[335]^[336]^[337]^[338]^[339]	September 14, 2001		180	4(Pixel Pipelines):1(Vertex Pipeline):4:4	162	648	648	648	90	24 shared 16 shared 3 eDRAM	324 81 162	1T-SRAM SDRAM eDRAM	64 8 512	3.2 1.6 12.8/9.6³	Integrated	No	Unknown	Unknown	9.4	Fixed-function T&L, TEV register combiner
Xenos (Xbox 360)^[340]	November 22, 2005	Xenon Zephyr Opus Falcon Jasper Vejle Corona	90/90 90/90 65/80 65/80 65/65^[341] 45^[342] 45	240(48x5):16:8	500	240,000	4000	8000	6000	512 (shared) 10 eDRAM	700 500	GDDR3 eDRAM	128	22.4 32 (GPU to daughter die) 256 (Daughter die ROP to eDRAM)	Integrated	9.0c+	No	Unknown	240	Surface tessellation
Hollywood (Wii)^[343]	November 19, 2006	Hollywood	90	4(Pixel Pipelines):1(Vertex Pipeline):4:4	243	972	972	972	135	24 shared 64 shared 3 eDRAM	486 Unknown 243	1T-SRAM GDDR3 eDRAM	64 Unknown 512	4.8 4 19.2/14.4	Integrated	No	Unknown	Unknown	14.1	Fixed-function T&L, TEV register combiner
Latte (Wii U)^[344]	November 18, 2012	Latte	45	320:16:8	550	176,000-352,000	4400	8800	Unknown	2048 (shared) 32 eDRAM	800 (1600 effective) 550	DDR3 eDRAM	64 1024	12.8 70.4	Integrated	No	Unknown	Unknown	176-352
Liverpool (PlayStation 4)^[345]	November 15, 2013	Liverpool (GCN based)	28 16	1152:72:32	800	1,843,200	25,600	57,600	Unknown	8192 (shared)	1375 (5500 effective)	GDDR5	256	176	Integrated	No	4.2	GNM, GNMX, PlayStation Shader Language, Mantle technically possible	1843.2	HDR possible (only 2K)
Durango (Xbox One)^[346]	November 22, 2013	Durango (GCN based)	28 (One S) 16	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	Unknown	8192 (shared) 32 eSRAM	1066.5 (2133 effective) 1706 (3412 effective)	DDR3 eSRAM	256	68.3 218, 219 (One S)	Integrated	11.2^[347] 12	No	Mantle technically possible	1310.2, (One S) 1403.9	Tiled resources, (One S) Upscaled 4K HDR support
Neo (PlayStation 4 Pro)^[348]^[349]^[350]	November 10, 2016	Ellesmere GCN 4	16	2304:144:32	911	4,197,888	29,152	131,200	Unknown	8192	1700 (6800 effective)	GDDR5	256	217.6	Integrated	No	4.2 (4.5)	GNM, GNMX, PlayStation Shader Language, Mantle technically possible	4197.8	4K HDR possible, Full Compatible PS4 mode with reduced power consumption
Scorpio Engine (Xbox One X)^[351]^[352]	November 7, 2017	Jaguar (GCN custom-based)	16	2560:160:32	1172	6,000,640	37,504 ^[353]	187,520	Unknown	12288 (shared)	1700 (6800 effective)	GDDR5	384	326	Integrated	11.2 12	No	Unknown	6000.6	4K HDR support, supersampling
Model	Launch	Code name	Fab (nm)	Core config¹, ²	Core clock (MHz)	Million Operations/s	Million Pixels/s	MTexels/s	MVertices/s	Size (MiB)	Clock (MHz)	RAM type	Bus width (bit)	Bandwidth (GB/s)	Bus interface	Direct3D	OpenGL	Other	Processing power (GFLOPS)	Notes
Model	Launch	Code name	Fab (nm)	Core config¹, ²	Core clock (MHz)	Fillrate				Memory					Bus interface	API compliance (version)			Processing power (GFLOPS)	Notes

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

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.^[354] Although It's an even closer possibly exact specification match to the HD5550 as it has exactly the same clock, number of Shaders, Texture mapping units & Render Outputs^[355]

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External links

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.

[r100_shader-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.

[nonpot-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.

[nofp64-3] OpenGL 4+ compliance requires supporting FP64 shaders and these are emulated on some TeraScale chips using 32-bit hardware.

[vcn-5] 1 2 The UVD and VCE were replaced by the Video Core Next (VCN) ASIC in the Raven Ridge APU implementation of Vega.

[DRM-6] 1 2 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.

[max_display-7] More displays may be supported with native DisplayPort connections, or splitting the maximum resolution between multiple monitors with active converters.

[drm-9] 1 2 DRM (Direct Rendering Manager) is a component of the Linux kernel. Support in this table refers to the most current version.

[r100_shader-12] 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.

[nonpot-13] These series do not fully comply with OpenGL 2+ as the hardware does not support all types of non-power-of-two (NPOT) textures.

[nofp64-15] OpenGL 4+ compliance requires supporting FP64 shaders and these are emulated on some TeraScale chips using 32-bit hardware.

[a-32] 1 2 Unified Shaders : Texture Mapping Units : Render Output Units

[TDP-33] 1 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.

[Eyefinity-34] 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.

[texture_fill-36] Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.

[pixel_fill-37] Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.

[FLOPS-38] Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.

[GDDR5_transfer_rate-39] The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with DDR memory.

[cconfig-40] Unified Shaders : Texture Mapping Units : Render Output Units

[a-41] Unified Shaders : Texture Mapping Units : Render Output Units

[TDP-42] TDP specified for AMD reference designs, includes CPU power consumption. Actual TDP of retail products may vary.

[boost-43] 1 2 3 4 5 6 Boost values (if available) are stated below the base value in italic.

[texture_fill-44] 1 2 Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.

[pixel_fill-45] 1 2 Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.

[FLOPS-46] 1 2 Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.

[GDDR5_transfer_rate-47] 1 2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as it is with DDR memory.

[cconfig-48] 1 2 Unified Shaders : Texture Mapping Units : Render Output Units

[a-49] Unified Shaders : Texture Mapping Units : Render Output Units

[TDP-50] TDP specified for AMD reference designs, includes CPU power consumption. Actual TDP of retail products may vary.

[t3beta-52] OpenGL 4.5 possible for Terascale 3 with AMD Radeon Software Crimson Beta (driver 15.30 or higher).^[23]

[boost-54] 1 2 3 4 5 6 Boost values (if available) are stated below the base value in italic.

[texture_fill-55] 1 2 Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.

[pixel_fill-56] 1 2 Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.

[FLOPS-57] 1 2 Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.

[GDDR5_transfer_rate-58] 1 2 The effective data transfer rate of GDDR5 is quadruple its nominal clock, instead of double as with DDR memory.

[cconfig-59] 1 2 Unified Shaders : Texture Mapping Units : Render Output Units

[boost-61] 1 2 3 4 5 6 Boost values (if available) are stated below the base value in italic.

[texture_fill-62] 1 2 Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.

[pixel_fill-63] 1 2 Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.

[FLOPS-64] 1 2 Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.

[cconfig-65] 1 2 Unified Shaders : Texture Mapping Units : Render Output Units

[79] The R9 285 utilizes loss-less colour compression which can increase effective memory performance (relative to GCN 1^st gen and 2^nd gen cards) in certain situations.^[36]^[38]

[290/290X_base_clock-82] 1 2 Base clock of R9 290 and R9 290X will maintain at 947 MHz and 1000 MHz before reaching 95 °C, respectively.^[40]

[boost-86] 1 2 3 4 5 6 Boost values (if available) are stated below the base value in italic.

[texture_fill-87] 1 2 Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.

[pixel_fill-88] 1 2 Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.

[FLOPS-89] 1 2 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.

[cconfig-90] 1 2 Unified Shaders : Texture Mapping Units : Render Output Units

[memory-95] The R9 380 utilizes loss-less color compression which can increase effective memory performance (relative to GCN 1^st gen and 2^nd gen cards) in certain situations.