List of Intel graphics processing units (2013 or earlier)

This page contains information about Intel's GPUs and motherboard graphics chipsets in table form. In 1982 Intel licensed the NEC µPD7220 and announced it as the Intel 82720 Graphics Display Controller.[1]

First generation

GraphicsLaunchMarketChipsetCode nameDevice id.RAMDAC
clock (MHz)		Pixel
pipelines		Shader model
(vertex/pixel)		API supportMemory bandwidth
(GB/s)		DVMT
(MB)		Hardware acceleration
DirectXOpenGLOpenCLMPEG-2VC-1AVC
Intel7401998Desktopstand-aloneAuburn780022023.0 (SW)/No5.01.1No1.3
0.533(AGP 2×)		2–8Optional external MPEG-2 decoder via Video Module InterfaceNoNo
7521999Portola12402506.0 (full)
8.0 (some features, no hardware shaders)		0.8(PC100)–1.067(PC133)
1.067(AGP 4× for AIMM)		8–16MC
3D graphics with Direct AGP810
810-DC100
810E
810E2		Whitney7121
7123
7125		23032
2000815
815E
815G
815EG		Solano11326.0 (full)
9.0 (some features, no hardware shaders)

Second generation

Intel marketed its second generation using the brand Extreme Graphics. These chips added support for texture combiners allowing support for OpenGL 1.3

GraphicsLaunchMarketChipsetCode nameDevice id.Core render
clock (MHz)		Pixel
pipelines		Shader model
(vertex/pixel)		API supportMemory bandwidth
(GB/s)		DVMT
(MB)		Hardware acceleration
DirectXOpenGLOpenCLMPEG-2VC-1AVC
Extreme Graphics2002Desktop845G
845GL
845GV		Brookdale256220023.0 (S/W)/No6.0 (full)
9.0 (some features, no hardware shaders)		1.3No2.164MCNoNo
2001Mobile830M
830MG		Almador3577166[2]1
Extreme Graphics 22003Desktop865G
865GV		Springdale25722666.4
Mobile852GM
852GME
852GMV
854
855GM
855GME		Montara3582
358E		133–2662.1–2.7

Third generation

GraphicsLaunchMarketChipsetCode nameDevice id.Core render
clock (MHz)		Pixel
pipelines		Shader model
(vertex/pixel)		API supportMemory bandwidth
(GB/s)		DVMT
(MB)		Hardware acceleration
DirectXOpenGLOpenCLMPEG-2VC-1AVC
GMA 9002004Desktop910GLGrantsdale2582
2782
258A		33343.0 (SW) / 2.09.0 (No WDDM nor Aero support)1.4 on Windows
1.4 on OS X
2.1 on Linux[3]		No3.2128MC[4][5]NoNo
915GL
915GV8.5
915G
2005MobileMobile 915
Family		Alviso2592
2792		133–333
GMA 950Desktop945GZLakeport2772
2776		4009.0c256[5][6]
945GC10.7
945G
2006MobileMobile 945
Family		Calistoga27A2
27A6
27AE		166–400[7]
GMA 31002007DesktopQ33Bearlake29D2
29D3		400[8][9]12.8
Q3529B2
29B3
G3129C2
29C3
G3312.8 (DDR2)
17 (DDR3)		Full[5]
GMA 31502010NettopAtom D4xx
Atom D5xx		PineviewA001
A002		21.5 on Windows
2.1 on Linux[3]		6.4384
NetbookAtom N4xx
Atom N5xx		A011
A012		2005.3

Fourth generation

GraphicsLaunchMarketChipsetCode nameDevice id.Core render
clock (MHz)		Execution
units		Shader model
(vertex/pixel)		API supportMemory bandwidth
(GB/s)		DVMT
(MB)		Hardware acceleration
DirectXOpenGLOpenCLMPEG-2VC-1AVC
GMA 30002006Desktop946GZLakeport2972
2973		667[10][11]8[10][12]3.0 (SW) / 2.09.0c /9_31.5 on Windows
2.1 on OS X
2.1 on Linux		10.6256MC[5]NoNo
Q963Broadwater2992
2993
Q96512.8
GMA X3000G96529A2
29A3		3.0384Full[5]MC + (LF −
WMV9 only)
GMA X35002007G35Bearlake2982
2983		4.010.0MC + LF
GMA X3100MobileGL960Crestline2A02
2A03
2A12
2A13		400[13]8.5MC + (LF −
WMV9 only)
GLE960
GM965500[13]10.7
GME965
GMA 45002008DesktopB43Eaglelake2E42
2E43
2E92
2E93		533102.0 on Windows 7
2.1 on Linux		12.8 (DDR2)
17 (DDR3)[14]		512MC + LFMC + LF
Q432E12
2E13
Q45
GMA X4500G412E32
2E33		800
G432E22
2E23
GMA X4500HDG45FullFull
GMA 4500MHDMobileGL40Cantiga2A42
2A43		400[15]12.8
GS40
GM45533[15]12.8 (DDR2)
17 (DDR3)
GS45

Fifth generation

  • Each EU has a 128-bit wide FPU that natively executes eight 16-bit or four 32-bit operations per clock cycle.[16]
Specifications of Intel HD Graphics series[17]
GraphicsLaunchMarketCPUCode nameDevice id.Core clock (MHz)Execution
units		Shader
model		API supportMemory bandwidth
(GB/s)		DVMT
(MB)		Hardware acceleration
DirectXOpenGLOpenCLCVT HDQSV
HD Graphics2010DesktopCeleron G1101
Pentium G69xx		Ironlake (Clarkdale)0042533124.110.12.1No171720NoNo
Core i3-5x0
Core i5-6x0
Core i5-655K		73321.3Yes
Core i5-661900
MobileCeleron U3xxx
Pentium U5xxx		Ironlake (Arrandale)0046166–50012.8No
Core i3-3x0UM
Core i5-5x0UM
Core i7-6x0UE
Core i7-6x0UM		Yes
Core i7-620LE
Core i7-6x0LM		266–56617.1
Celeron P4xxx
Pentium P6xxx		500–667No
Core i3-330E
Core i3-3x0M		Yes
Core i5-4x0M
Core i5-520E
Core i5-5x0M
Core i7-610E
Core i7-6x0M		500–766

Sixth generation

  • Each EU has a 128-bit wide FPU that natively executes eight 16-bit or four 32-bit operations per clock cycle.[16]
  • Double peak performance per clock cycle compared to previous generation due to fused multiply-add instruction[16]
  • The entire GPU shares a sampler and an ROP.[18]
Specifications of Intel HD Graphics series[17][19]
GraphicsLaunchMarketCPUCode nameDevice id.Core clock (MHz)Execution
units		Shader
model		API supportMemory bandwidth
(GB/s)		DVMT
(MB)		Hardware acceleration
DirectXOpenGLOpenCLCVT HDQSV
HD Graphics2011DesktopCeleron G4x0
Celeron G5x0
Celeron G530T
Pentium G6xx
Pentium G6x0T
Pentium G8x0		Sandy Bridge0102
0106
0112
0116
0122
0126
010A		650–11006
(GT1)		4.110.13.1 on Windows
3.3 on OS X[19]
3.3 on Linux[20]		No21.31720NoNo
MobileCeleron B7x0
Celeron 8x7
Celeron B8xx
Pentium B9x0
Pentium 9x7		350–1150
HD Graphics 2000DesktopCore i3-2102
Core i3-21x0
Core i3-21x0T
Core i5-2xx0
Core i5-2x00S
Core i5-2xx0T
Core i7-2600
Core i7-2600S		650–1350YesYes
WorkstationXeon E3-1260L
HD Graphics 3000DesktopCore i3-21x5
Core i5-2405S
Core i5-2500K
Core i7-2x00K		850–135012
(GT2)
MobileCore i3-23x0E
Core i3-23xxM
Core i5-251xE
Core i5-2xxxM
Core i7-2xxxQM
Core i7-271xQE
Core i7-29x0XM		650–1300
HD Graphics P3000WorkstationXeon E3-12x5850–1350

Seventh generation

  • 1 FP32 ALUs : EUs : Subslices
  • Each EU contains 2 × SIMD-4 FPUs and has double peak performance per clock cycle compared to previous generation.
  • Each Subslice contains 6 or 8 (or 10 in Haswell GPUs) EUs and a sampler, and has 64KiB shared memory.
  • 64bit floating-point performance is 1/4 of 32bit floating-point performance.
Specifications of Intel HD Graphics series[17][19][21][22][23][24][25]
GraphicsLaunchMarketCPUCode nameDevice id.[26]Core clock (MHz)Core config1Shader
model		API supportMemory bandwidth
(GB/s)		DVMT
(MB)		Hardware acceleration
DirectXOpenGLOpenCLCVT HDQSV
HD Graphics2012DesktopCeleron 16x0
Celeron 1610T
Pentium 2xx0
Pentium G2xx0T		Ivy Bridge0152
0156
015A		650–105048:6:1[27]
(GT1)		5.011.14.0 on Windows[28]
4.1 on OS X
3.3 on Linux[29]		1.2[23]25.61720NoNo
MobileCeleron 10x0M
Celeron 10x7U
Pentium 2117U
Pentium 20x0M		350–1100
HD Graphics 2500[30]WorkstationXeon E3-1265LV2650–1150YesYes
DesktopCore i3-32x0
Core i3-32x0T
Core i5-3xx0
Core i5-3xx0S
Core i5-3xx0T
HD Graphics 4000[22]Core i3-3225
Core i3-3245
Core i5-3475S
Core i5-3570K
Core i7-3770
Core i7-3770x		0162
0166
016A		128:16:2
(GT2)
MobileCore i3-3110M650–1000
Core i3-3120M
Core i5-3210M		650–1100
Core i3-3120ME650–900
Core i3-3217U
Core i5-3317U		350–1050
Core i3-3217UE350–900
Core i3-3229Y
Core i5-3339Y
Core i5-3439Y		350–850
Core i5-3320M
Core i5-3360M		650–1200
Core i5-3337U350–1100
Core i5-3427U350–1150
Core i5-3610ME650–950
Core i7-3520M
Core i7-3xx7U
Core i7-3xxxQM
Core i7-3920XM		350–1300
HD Graphics P4000[31]WorkstationXeon E3-12x5V2650–1250
HD Graphics[32] 2013DesktopPentium G3xxxHaswell0402
0406
040A
040B
040E

ULT:
0A02
0A06
0A0A
0A0B
0A0E

SDV:
0C02
0C06
0C0A
0C0B
0C0E

CRW:
0D02
0D06
0D0A
0D0B
0D0E		350–115080:10:1[33]
(GT1)		5.012[34]4.3 on Windows[25][35]
4.1 on OS X
3.3 on Linux		1.225.62048YesYes[36]
Pentium G3xxxT200–1100
Celeron G18xx350-1050
Celeron G18xxT200-1050
MobileCeleron 2950M
Pentium 3550M		400–1100
Celeron 29xxU
Pentium 35xxU		200–1000
Celeron 29xxY
Pentium 35xxY		200–850
HD Graphics 4200ULT
Mobile		Core i3-40xxY
Core i5-4xxxY
Core i7-4610Y		0412
0416
041A
041B
041E

ULT:
0A12
0A16
0A1A
0A1B
0A1E

SDV:
0C12
0C16
0C1A
0C1B
0C1E

CRW:
0D12
0D16
0D1A
0D1B
0D1E		200–850160:20:2
(GT2)		YesYes
HD Graphics 4400DesktopCore i3-4130
Core i3-4150
Core i3-4160
Core i3-4170		350–1150
Core i3-4130T
Core i3-4150T
Core i3-4160T
Core i3-4170T		200–1150
MobileCore i3-4005U
Core i3-4025U		200–950
Core i3-4010U
Core i3-4100U
Core i5-4200U
Core i3-4030U
Core i3-4120U		200–1000
Core i5-4300U
Core i7-4500U
Core i7-4600U		200–1100
HD Graphics 4600DesktopCore i3-4330
Core i3-4340
Core i5-4570
Core i5-4570S		350-1150
Core i3-4330T
Core i5-4570T		200-1150
Core i5-4430
Core i5-4430S
Core i5-4440
Core i5-4440S		350–1100
Core i5-4670
Core i5-4670K
Core i5-4670S
Core i5-4670T
Core i7-4765T
Core i7-4770
Core i7-4770S
Core i7-4770T
Core i7-4771		350–1200
Core i7-4770K350–1250
MobileCore i3-4xxxE
Core i5-4402E		400–900
Core i3-4xxxM400–1100
Core i5-4200M
Core i5-4200H
Core i7-47xxMQ
Core i7-4702HQ		400–1150
Core i5-43xxM400–1250
Core i5-4400E
Core i7-4700EQ		400–1000
Core i7-4700HQ400–1200
Core i7-4xxxM
Core i7-4800MQ
Core i7-4900MQ		400–1300
Core i7-4930MX400–1350
HD Graphics P4600WorkstationXeon E3-1225 v3
Xeon E3-1226 v3
Xeon E3-1245 v3
Xeon E3-1246 v3		350–12005.0
Xeon E3-1275 v3
Xeon E3-1276 v3		350–1250
HD Graphics P4700WorkstationXeon E3-1285L v3
Xeon E3-1286L v3		350–1250
Xeon E3-1285 v3
Xeon E3-1286 v3		350–1300
HD Graphics 5000ULT
Mobile		Core i5-4250U0422
0426
042A
042B
042E

ULT:
0A22
0A26
0A2A
0A2B
0A2E

SDV:
0C22
0C26
0C2A
0C2B
0C2E

CRW:
0D22
0D26
0D2A
0D2B
0D2E		200–1000320:40:4
(GT3)		5.0
Core i5-4350U
Core i7-4550U
Core i7-4650U		200–1100
Iris Graphics 5100Core i3-4158U
Core i5-4258U		200–1100
Core i5-4288U
Core i7-4558U		200–1200
Iris Pro Graphics 5200DesktopCore i5-4570R200–1150320:40:4
+
eDRAM
(GT3e)
Core i5-4670R
Core i7-4770R		200–1300
MobileCore i7-4750HQ
Core i7-4850HQ		200–1200
Core i7-49xxHQ200–1300
HD Graphics2013UltramobileZ3680
Z3680D
Z3740
Z3740D
Z3770
Z3770D
Celeron N28xx
Celeron N29x0
Pentium N35x0		ValleyView (Bay Trail)0F30
0F31
0F32
0F33
0155
0157
[37]		313-89632:4:1[38]5.011.04.0 on Windows
3.3 on Linux
ES 3.1 on Android		1.210.6 (64bit DDR3-1333)
17.1 (128bit DDR3-1066)
21.3 (128bit DDR3-1333)[39]		2048YesYes

See also

Notes

Acronyms
The following acronyms are used throughout the article.
Full hardware acceleration techniques
Intel graphic processing units employ the following techniques in hardware acceleration of digital video playback.
Codec used to encode the video Technique employed
MPEG-2 Part 2VLD, iDCT, and MC
VC-1VLD, iMDCT, MC, and LF
H.264/MPEG-4 AVCVLD, iMDCT, MC, and LF
Calculation
The raw performance of integrated GPU, in single-precision FLOPS, can be calculated as follows:
  • Fourth generation (GMA 3, 4) - EU * 2 * 2 [multiply + accumulate] * clock speed
  • Fifth generation (HD Graphics) - EU * 2 * 2 [multiply + accumulate] * clock speed
  • Sixth generation (HD Graphics 2000, 3000) - EU * 4 [dual-issue x 2 SP] * 2 [multiply + accumulate] * clock speed
  • Seventh generation (HD Graphics 2500, 4000 ~ 5200) - EUs * 8 [2 x SIMD-4 FPU] * 2 [MUL + ADD] * clock speed
  • Eighth generation (HD Graphics 5300 ~ 6300) - EUs * 8 [2 x SIMD-4 FPU] * 2 [MUL + ADD] * clock speed
  • Ninth generation (HD Graphics 5xx) - EUs * 8 [2 x SIMD-4 FPU] * 2 [MUL + ADD] * clock speed
Double-precision FLOPS:[40]
  • Seventh generation (HD Graphics 2500, 4000 ~ 5200) - EUs * 4 [SIMD-4 FPU] * 2 [MUL + ADD] * clock speed / 2
  • Eighth generation (HD Graphics 5300 ~ 6300) - EUs * 4 [SIMD-4 FPU] * 2 [MUL + ADD] * clock speed / 2
  • Ninth generation (HD Graphics 5xx) - EUs * 4 [SIMD-4 FPU] * 2 [MUL + ADD] * clock speed / 2
For example, the HD Graphics 3000 is rated at 125 GFLOPS,[41] which is consistent with the formula (12 * 4 * 2 * 1,300 MHz).

References

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  20. Michael Larabel (2012-08-30). "OpenGL 3.3 / GLSL 3.30 Lands For Intel Sandy Bridge On Mesa". phoronix. Retrieved 2012-09-07.
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