List of Intel graphics processing units

The Intel Graphics badge

This article contains information about Intel's GPUs (see Intel Graphics Technology) 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][2]

First generation

Main article: Intel740

Intel's first generation GPUs:

Graphics Launch Market Chipset Code name Device
ID[3] 		RAMDAC
clock (MHz) 		Pixel
pipelines 		Shader model
(vertex/pixel) 		API support Memory bandwidth
(GB/s) 		DVMT
(MB) 		Hardware acceleration
Direct3D OpenGL OpenCL MPEG-2 VC-1 AVC
i740 1998 Desktop stand-alone Auburn 7800 220 1 3.0 (SW) / No 5.0 1.1 No 0.8 2–8 Optional external MPEG-2 decoder via Video Module Interface No No
i752 1999 Portola 1240 250 6.0 (full)
8.0 (some features, no hardware shaders) 		0.8(PC100)–1.067(PC133)
1.067(AGP 4× for AIMM) 		8–16 MC
3D graphics
with
Direct AGP 		810 Whitney 7121 230 32
810-DC100 7123
810E
810E2 		7125
2000 815
815E
8925G
815EG 		Solano 1132 6.0 (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.

Graphics Launch Market Chipset Code name Device
ID[3] 		Core render
clock (MHz) 		Pixel
pipelines 		Shader model
(vertex/pixel) 		API support[4] Memory bandwidth
(GB/s) 		DVMT
(MB) 		Hardware acceleration
Direct3D OpenGL OpenCL MPEG-2 VC-1 AVC
Extreme
Graphics 		2002 Desktop 845G
845GE
845GL
845GV 		Brookdale 2562 200 2 3.0 (SW) / No 6.0 (full)
9.0 (some features, no hardware shaders) 		1.3
ES 1.1Linux 		No 2.1 64 MC No No
2001 Mobile 830M
830MG 		Almador 3577 166[5] 1
Extreme
Graphics 2 		2003 Desktop 865G
865GV 		Springdale 2572 266 6.4
Mobile 852GM
852GME
852GMV 		Montara 3582 133–266 2.1–2.7
854 358E
855GM
855GME 		3582

Third generation

Main article: Intel GMA § Gen3

Intel's first DirectX 9 GPUs with hardware Pixel Shader 2.0 support.

Graphics Launch Market Chipset Device
ID[3]		 Pixel
pipelines		 Clock rate
(MHz)		 Memory API support[4] Hardware acceleration
Code name Name DVMT
(MB) 		Bandwidth
(GB/s) 		Shader model
(vertex/pixel) 		Direct3D OpenGL OpenCL MPEG-2 VC-1 AVC
GMA 900 2004 Desktop Grantsdale 910GL 2582
258A		 4 333 128 3.2 3.0 (SW) / 2.0 9.0 (No WDDM nor Aero support) 1.4Windows
1.4macOS
2.1Linux[6]
ES 2.0Linux		 No MC[7][8] No No
915GL
915GV 8.5
915G
2005 Mobile Alviso Mobile 915
Family		 2592 133–333
GMA 950 Desktop Lakeport 945GZ 2772 400 256[8][9] 9.0c
FL9_1
945GC 10.7
945G
2006 Mobile Calistoga Mobile 945
Family		 27A2
27AE		 166–400[10]
GMA 3100 2007 Desktop Bearlake Q33 29D2 400[11][12] 12.8
Q35 29B2
G31 29C2
G33 12.8 (DDR2)
17 (DDR3)		 Variable-Length Decoding (VLD) + iDCT + MC (Full)[8]
GMA 3150 2010 Nettop Pineview Atom D4xx
Atom D5xx		 A001 2 384 6.4 1.5Windows
2.1Linux[6]
ES 2.0Linux
Netbook Atom N4xx
Atom N5xx		 A011 200 5.3

Gen4

Main article: Intel GMA § Gen4

The last generation of motherboard integrated graphics. Full hardware DirectX 10 support starting with GMA X3500.

  • Each EU has a 128-bit wide FPU that natively executes four 32-bit operations per clock cycle.
Graphics Launch Market Code name Chipset Device
ID[3]		 Core render
clock (MHz)		 Execution
units		 Shader model
(vertex/pixel)		 API support[13] Memory
bandwidth
(GB/s)		 DVMT
(MB)		 Hardware acceleration
Direct3D OpenGL OpenCL MPEG-2 VC-1 AVC
GMA 3000 2006 Desktop Lakeport 946GZ 2972 667[14][15] 8[14][16] 3.0 (SW) / 2.0 9.0c
FL9_1		 1.5Windows
2.1macOS
2.1Linux
ES 2.0Linux		 No 10.6 256 MC[8] No No
Broadwater Q963 2992
Q965 12.8
GMA X3000 G965 29A2 3.0 384 Full[8] MC + (LF −
WMV9 only)
GMA X3500 2007 Bearlake G35 2982 4.0 10.0
FL10_0		 MC + LF
GMA X3100 Mobile Crestline GL960 2A02
2A12		 400[17] 8.5 MC + (LF −
WMV9 only)
GLE960
GM965 500[17] 10.7
GME965
GMA 4500 2008 Desktop Eaglelake B43 2E42
2E92		 533 10 2.1
ES 2.0Linux		 12.8 (DDR2)
17 (DDR3)[18]		 1720 MC + LF MC + LF
Q43 2E12
Q45
GMA X4500 G41 2E32 800
G43 2E22
GMA X4500HD G45 Full Full
GMA 4500MHD Mobile Cantiga GL40 2A42 400[19]
GS40
GM45 533[19]
GS45
GM47 640

Gen5

Main article: Intel Graphics Technology § Gen5
  • Integrated graphics chip moved from motherboard into the processor.
  • Improved gaming performance
  • Can access CPU's cache
  • Each EU has a 128-bit wide FPU that natively executes eight 16-bit or four 32-bit operations per clock cycle.[20]
  • Hierarchical-Z compression and fast Z clear[21]
Specifications of Intel Gen5 graphics processing units[22][23]
Name Launch Market Processor Device
ID 		Execution
units 		Core clock
(MHz) 		Memory API support Intel Clear
Video HD
Code name Model DVMT
(MB) 		Bandwidth
(GB/s) 		Direct3D OpenGL OpenCL
HD Graphics 2010 Desktop Ironlake (Clarkdale) Celeron G1101 0042 12 533 1720 17 10.1
FL10_0 		2.1
ES 2.0Linux 		No No
 
Core i3-5x0 733 21.3 Yes
Core i5-6x0
Core i5-655K
Core i5-661 900
Laptop Ironlake (Arrandale) Celeron U3xxx 0046 166–500 12.8 No
Pentium U5xxx
Core i3-3x0UM Yes
Core i5-5x0UM
Core i7-6x0UE
Core i7-6x0UM
Core i7-620LE 266–566 17.1
Core i7-6x0LM
Celeron P4xxx 500–667 No
Pentium P6xxx
Core i3-330E Yes
Core i3-3x0M
Core i5-4x0M 500–766
Core i5-520E
Core i5-5x0M
Core i7-610E
Core i7-6x0M

Gen6

Main article: Intel Graphics Technology § Gen6
  • Each EU has a 128-bit wide FPU that natively executes eight 16-bit or four 32-bit operations per clock cycle.[20]
  • Double peak performance per clock cycle compared to previous generation due to fused multiply-add instruction.[20]
  • The entire GPU shares a sampler and an ROP.[20]
Specifications of Intel HD Graphics series[24]
Graphics Launch Market Processor Code name Device id.[3] Core clock (MHz) Execution
units		 API support[13] Memory
bandwidth
(GB/s)		 DVMT
(MB)		 QSV
Direct3D OpenGL OpenCL
HD Graphics 2011 Mobile Celeron B7x0
Celeron 7x7
Celeron 8x7
Celeron B8xx
Pentium B9x0
Pentium 9x7 		Sandy Bridge 010A 350–1150 6
(GT1) 		10.1
11.1Windows 8+
FL10_1 		3.1Windows
3.3macOS[25]
3.3Linux
ES 3.0Linux 		No 21.3 1720 No
Desktop Celeron G4x0
Celeron G5x0
Celeron G530T
Pentium G6xx
Pentium G6x0T
Pentium G8x0 		650–1100
HD Graphics 2000 Desktop Core i3-2102
Core i3-21x0
Core i3-21x0T
Core i5-2xx0
Core i5-2x00S
Core i5-2xx0T
Core i7-2600
Core i7-2600S		 0102 650–1350 Yes
Workstation Xeon E3-1260L
HD Graphics 3000 Mobile Core i3-23x0E
Core i3-23xxM
Core i5-251xE
Core i5-2xxxM
Core i7-2xxxM
Core i7-2xxxQM
Core i7-271xQE
Core i7-29x0XM 		0116
0126 		650–1300 12
(GT2)
Desktop Core i3-21x5
Core i5-2405S
Core i5-2500K
Core i7-2x00K 		0112
0122 		850–1350
HD Graphics P3000 Workstation Xeon E3-12x5 850–1350

Gen7

Main article: Intel Graphics Technology § Gen7
  • 1 FP32 ALUs : EUs : Subslices
  • Each EU contains 2 × 128-bit FPUs and has double peak performance per clock cycle compared to previous generation. One supports FP32 and FP64, and the other supports only FP32. Since the throughput of FP64 instructions are 2 cycles, the FP64 FLOPS is a quarter of the FP32 FLOPS. Only one of the FPUs supports 32-bit integer instructions.
  • Each Subslice contains 6 or 8 (or 10 in Haswell GPUs) EUs and a sampler, and has 64 KB shared memory.
Specifications of Intel HD Graphics series[26][27][28][29][30][31][32]
Graphics Launch Market Processor Code name Device ID[3] Core clock
(MHz) 		Core config1 API support[13][33][34][35] Memory
bandwidth
(GB/s) 		DVMT
(MB) 		QSV
Direct3D OpenGL[25] OpenCL Vulkan
HD Graphics 2012 Desktop Celeron G16x0
Celeron G1610T
Pentium G2xx0
Pentium G2xx0T 		Ivy Bridge 015A 650–1050 48:6:1[36]
(GT1) 		11.1
FL11_0 		4.0Windows
4.1macOS
4.2Linux
ES 3.0Linux 		1.2 1.0Linux 25.6 1720 No
Mobile Celeron 10x0M
Celeron 10x7U
Pentium 2117U
Pentium 20x0M		 350–1100
HD Graphics 2500[37] Workstation Xeon E3-1265LV2 0152 650–1150 Yes
Desktop Core i3-32x0
Core i3-32x0T
Core i5-3xx0
Core i5-3xx0S
Core i5-3xx0T
HD Graphics 4000[29] Core i3-3225
Core i3-3245
Core i5-3475S
Core i5-3570K
Core i7-3770
Core i7-3770x		 0162 128:16:2
(GT2)
Mobile Core i3-3110M 0166 650–1000
Core i3-3120M
Core i5-3210M		 650–1100
Core i3-3120ME 650–900
Core i3-3217U
Core i5-3317U		 350–1050
Core i3-3217UE 350–900
Core i3-3229Y
Core i5-3339Y
Core i5-3439Y		 350–850
Core i5-33x0M 650–1200
Core i5-3337U 350–1100
Core i5-3427U 350–1150
Core i5-3610ME 650–950
Core i7-3520M
Core i7-3xx7U
Core i7-3xxxQM
Core i7-3920XM		 350–1300
HD Graphics P4000[38] Workstation Xeon E3-12x5V2 016A 650–1250

Gen7.5

Main article: Intel Graphics Technology § Gen7.5
  • 1 FP32 ALUs : EUs : Subslices
  • Each EU contains 2 × 128-bit FPUs and has double peak performance per clock cycle compared to previous generation. One supports FP32 and FP64, and the other supports only FP32. Since the throughput of FP64 instructions are 2 cycles, the FP64 FLOPS is a quarter of the FP32 FLOPS. Only one of the FPUs supports 32-bit integer instructions.
  • Each Subslice contains 6 or 8 (or 10 in Haswell GPUs) EUs and a sampler, and has 64 KB shared memory.
Graphics Launch Market Processor Code name Device ID[3] Core clock
(MHz) 		Core config1 API support[13][33][34][35] Memory
bandwidth
(GB/s) 		DVMT
(MB) 		QSV
Direct3D OpenGL[25] OpenCL Vulkan
HD Graphics 2013 Tablet Atom Z3735D
Atom Z3735E
Atom Z3735F
Atom Z3735G
Atom Z3736F
Atom Z3736G 		Valleyview
(Bay Trail) 		0F30
0F31
0F32
0F33
0155
0157 		311-646 32:4:1[39] 11[40] 4.0
ES 2.0/1.1Linux[41] 		1.2 1.0Linux 10.7 2048
Atom Z3680 311-667 8.5
Atom Z3740
Atom Z3770 		17.1
Atom Z3680D
Atom Z3740D
Atom Z3770D 		313-688 10.7
Atom Z3745
Atom Z3775
Atom Z3795 		311-778 17.1
Atom Z3745D
Atom Z3775D 		311-792 10.7
Atom Z3785 313-833 21.3
Laptop Celeron N2805 313-667 11.2 4.0Windows
4.2Linux
ES 3.0Linux 		1.2 8.5
Celeron N2807 313-750 10.7
Celeron N2830
Pentium N3510 		21.3
Celeron N2806 313-756 8.5
Celeron N2810
Celeron N2815
Celeron N2820
Celeron N2910 		17.1
Celeron N2808 311-792 10.7
Celeron N2840 21.3
Celeron N2920 313-844 17.1
Celeron N2930
Celeron N2940
Pentium N3520 		313-854 21.3
Pentium N3530
Pentium N3540 		313-896
Embedded Atom E3815 400-400 8.5
Atom E3825 533-533
Atom E3826 533-667 17.1
Atom E3827
Atom E3845 		542-792 21.3
Desktop Celeron J1750 688-750
Celeron J1800
Celeron J1850 		688-792
Celeron J1900
Pentium J2850 		688-854
Pentium J2900 688-896
?? Pentium A1020
HD Graphics[42] 2013 Desktop Pentium G3xxx Haswell 0402
0406
040A
040B
040E

ULT:
0A02
0A06
0A0A
0A0B
0A0E 		350–1150 80:10:1[43]
(GT1) 		12[44]
FL11_1 		4.3Windows
4.1macOS
4.6Linux[45]
ES 3.2Linux[46] 		1.2 1.0Linux 25.6 2048
Pentium G3xxxT 200–1100
Celeron G18xx 350-1050
Celeron G18xxT 200-1050
Mobile Celeron 2950M
Pentium 3550M		 400–1100
Celeron 29xxU
Pentium 35xxU		 200–1000
Celeron 29xxY
Pentium 35xxY		 200–850
HD Graphics 4200 ULT
Mobile		 Core i3-40xxY
Core i5-4xxxY
Core i7-4610Y		 0412
0416
041A
041B
041E

ULT:
0A12
0A16
0A1A
0A1B
0A1E		 200–850 160:20:2
(GT2)		 Yes
HD Graphics 4400 Desktop Core 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
Mobile Core 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 4600 Desktop Core i3-4330
Core i3-4340
Core i5-4570
Core i5-4570S
Core i5-4590
Core i5-4590S
Core i5-4590T		 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 i5-4690
Core i5-4690K
Core i5-4690S
Core i5-4690T
Core i7-4765T
Core i7-4770
Core i7-4770S
Core i7-4770T
Core i7-4771
Core i7-4790		 350–1200
Core i7-4770K
Core i7-4790K 		350–1250
Mobile Core i3-4xxxE
Core i5-4402E		 400–900
Core i3-4xxxM 400–1100
Core i5-4200M
Core i5-4200H
Core i7-47xxMQ
Core i7-4702HQ		 400–1150
Core i5-43xxM 400–1250
Core i5-4400E
Core i7-4700EQ		 400–1000
Core i7-4700HQ 400–1200
Core i7-4xxxM
Core i7-4800MQ
Core i7-4900MQ		 400–1300
Core i7-4930MX 400–1350
HD Graphics P4600 Workstation Xeon E3-1225 v3
Xeon E3-1226 v3
Xeon E3-1245 v3
Xeon E3-1246 v3		 350–1200
Xeon E3-1275 v3
Xeon E3-1276 v3		 350–1250
HD Graphics P4700 Workstation Xeon E3-1285L v3
Xeon E3-1286L v3		 350–1250
Xeon E3-1285 v3
Xeon E3-1286 v3		 350–1300
HD Graphics 5000 ULT
Mobile		 Core i5-4250U 0422
0426
042A
042B
042E

ULT:
0A22
0A26
0A2A
0A2B
0A2E		 200–1000 320:40:4
(GT3)
Core i5-4350U
Core i7-4550U
Core i7-4650U		 200–1100
Iris Graphics 5100 Core i3-4158U
Core i5-4258U		 200–1100
Core i5-4288U
Core i7-4558U		 200–1200
Iris Pro Graphics 5200 Desktop Core i5-4570R 0D22
0D26
0D2A
0D2B
0D2E		 200–1150 320:40:4
+
eDRAM
(GT3e)
Core i5-4670R
Core i7-4770R		 200–1300
Mobile Core i7-4750HQ
Core i7-4850HQ		 200–1200
Core i7-49xxHQ 200–1300

Gen8

Main article: Intel Graphics Technology § Gen8
  • 1 FP32 ALUs : EUs : Subslices
  • Each EU contains 2 x 128-bit FPUs. One supports 32-bit and 64-bit integer, FP16, FP32, FP64, and transcendental math functions, and the other supports only 32-bit and 64-bit integer, FP16 and FP32. Thus the FP16 (or 16-bit integer) FLOPS is twice the FP32 (or 32-bit integer) FLOPS. Since the throughput of FP64 instructions is one per 2 cycles, the FP64 FLOPS is a quarter of the FP32 FLOPS.
  • Each Subslice contains 8 EUs and a sampler (4 tex/clk[47]), and has 64 KB shared memory.
  • Intel Quick Sync Video
  • For Windows 10, the total system memory that is available for graphics use is half the system memory. For Windows 8, it is up to 3840 MB. On Windows 7, it is up to about 1.7 GB through DVMT.
Specifications of Intel HD Graphics series[48][49]
Graphics Launch Market Processor Code name Device ID[3] Clock rate
(MHz) 		Core config1 API support[13][33][50][51][52] eDRAM
(MB) 		Memory
bandwidth
(GB/s)
Direct3D OpenGL OpenCL Vulkan
HD Graphics 2015 Ultramobile Atom x5-Z8300 Cherryview
Braswell
(Gen8LP) 		22B0
22B1
22B2
22B3 		200-500 96:12:2 11.2 4.3Windows
4.6Linux
ES 3.2Linux 		2.0Windows
1.2Linux 		1.1Linux - 12.8
Atom x5-Z8500 200-600 25.6
Atom x5-E8000
Celeron N3000
Celeron N3050 		320-600
Celeron N3150 320-640
Atom x7-Z8700 200-600 128:16:2
Pentium N3700 400-700
HD Graphics 400 2016 Atom x5-Z8350[53] 200-500 96:12:2
Celeron N3010
Celeron N3060		 320-600
Celeron N3160 320-640
Celeron J3060
Celeron J3160		 320-700
HD Graphics 405 Pentium N3710 400-700 128:16:2
Pentium J3710 400-740 144:18:2
HD Graphics 2015 Mobile Celeron 3205U
Celeron 3755U
Pentium 3805U 		Broadwell
(Gen8) 		1606 100–800 96:12:2
(GT1) 		12
FL11_1 		4.4Windows
4.1macOS
4.6Linux
ES 3.2Linux 		2.0Windows
1.2macOS
2.1Linux 		1.1Linux - 25.6
Celeron 3215U
Celeron 3765U
Pentium 3825U		 300–850
HD Graphics 5300 2014 Ultramobile Core M-5Y10
Core M-5Y10a		 161E 100–800 192:24:3
(GT2)
Core M-5Y10c 300–800
Core M-5Y70 100–850
Core M-5Y31 300–850
Core M-5Y51
Core M-5Y71		 300–900
HD Graphics 5500 2015 Mobile Core i3-5005U
Core i3-5015U		 1616 300–850 184:23:3
(GT2)
Core i3-5010U
Core i3-5020U		 300–900
Core i5-5200U
Core i5-5300U		 192:24:3
(GT2)
Core i7-5500U
Core i7-5600U		 300–950
HD Graphics 5600 Mobile Core i7-5700EQ 1612 300–1000
Core i7-5700HQ 300–1050
HD Graphics P5700 Mobile Xeon E3-1258L v4 ? 700-1000
HD Graphics 6000 Mobile Core i5-5250U 1626 300–950 384:48:6
(GT3)
Core i5-5350U
Core i7-5550U
Core i7-5650U		 300–1000
Iris Graphics 6100 Mobile Core i3-5157U 162B 300–1000
Core i5-5257U 300–1050
Core i5-5287U
Core i7-5557U		 300–1100
Iris Pro Graphics 6200 Desktop Core i5-5575R 1622 300–1050 128
Core i5-5675C
Core i5-5675R		 300–1100
Core i7-5775C
Core i7-5775R		 300–1150
Mobile Core i7-5850EQ 300–1000
Core i5-5350H 300–1050
Core i7-5750HQ
Core i7-5850HQ		 300–1100
Core i7-5950HQ 300–1150
Iris Pro Graphics P6300 Workstation Xeon E3-1278L v4 162A 800–1000
Xeon E3-1265L v4 300–1050
Xeon E3-1285 v4
Xeon E3-1285L v4		 300–1150

Gen9

Main article: Intel Graphics Technology § Gen9
  • 1 FP32 ALUs : EUs : Subslices
  • Each EU contains 2 x 128-bit FPUs. One supports 32-bit and 64-bit integer, FP16, FP32, FP64, and transcendental math functions, and the other supports only 32-bit and 64-bit integer, FP16 and FP32. Thus the FP16 (or 16-bit integer) FLOPS is twice the FP32 (or 32-bit integer) FLOPS. Since the throughput of FP64 instructions are 2 cycles, the FP64 FLOPS is a quarter (eighth in Apollo Lake) of the FP32 FLOPS.
  • Each Subslice contains 8 EUs (two of which are disabled in GT1) and a sampler (4 tex/clk), and has 64 KB shared memory.
  • Intel Quick Sync Video
  • For Windows 10, the total system memory that is available for graphics use is half the system memory. For Windows 8, it is up to 3840 MB. On Windows 7, it is up to about 1.7 GB through DVMT.
  • WDDM 2.2 support with Windows Mixed Reality begins with KabyLake-based GPUs.[54]
Specifications of Gen9 Intel graphics processing units[55][56][57][58][59][60][61][62][63]
Name Release year Market Processor Code name Device ID Clock rate Core config1 API support[64][13][33][51][52] eDRAM
(MB) 		Memory
bandwidth
(GB/s)
Min
(MHz)		 Max
(MHz) 		Direct3D OpenGL OpenCL Vulkan
HD Graphics 500 2016 Mobile/ Embedded Atom x5-E3930 Apollo Lake
(Gen9LP) 		5A85 400 550 96:12:2 12 4.6Windows
4.6Linux
ES 3.2Linux 		3.0Windows
3.0Linux 		1.3Windows
1.2Linux 		- 68.2
Atom x5-E3940 600
Mobile Celeron N3350 200 650 38.4
Celeron N3450 700
Desktop Celeron J3355 250 700
Celeron J3455 750
HD Graphics 505 Mobile/ Embedded Atom x7-E3950 5A84 500 650 144:18:3 76.8
Mobile Pentium N4200 200 750 38.4
Desktop Pentium J4205 250 800
HD Graphics 510 2015 Mobile Celeron 3855U
Celeron 3955U 		Skylake
(Gen9) 		1906 300 900 96:12:2
(GT1) 		12
FL12_1 		4.6Windows
4.1macOS
4.6Linux
ES 3.2Linux 		3.0Windows
1.2macOS
3.0Linux 		1.3Windows
1.2Linux 		- 34.1
Pentium 4405U 950
Desktop Celeron G3900TE
Celeron G3900E
Celeron G3900T
Celeron G3900
Celeron G3902E
Celeron G3920
Pentium G4400TE
Pentium G4400T
Core i5-6402P		 1902 350
Pentium G4400 1000
Core i3-6098P 1050
HD Graphics 515 Mobile Pentium 4405Y 191E 300 800 192:24:3
(GT2)		 29.8
Core m3-6Y30 850
Core m5-6Y54
Core m5-6Y57		 900
Core m7-6Y75 1000
HD Graphics 520 Mobile Core i3-6006U 1916 900 34.1
Core i3-6100U
Core i5-6200U
Core i5-6300U		 1000
Core i7-6500U
Core i7-6600U		 1050
HD Graphics 530 Mobile Core i3-6100H 191B 350 900
Core i3-6100E
Core i3-6102E
Core i5-6300HQ
Core i5-6440HQ		 950
Core i5-6440EQ
Core i5-6442EQ
Core i7-6820EQ
Core i7-6822EQ		 1000
Core i7-6700HQ
Core i7-6820HK
Core i7-6820HQ
Core i7-6920HQ		 1050
Desktop Pentium G4500T
Core i3-6100T
Core i3-6300T
Core i5-6400T
Core i5-6400
 1912 950
Core i3-6100TE
Core i5-6500TE
Core i7-6700TE
Core i7-6700T		 1000
Pentium G4500
Pentium G4520
Core i3-6100
Core i5-6500
 1050
Core i5-6500T
Core i5-6600T
Core i7-6700
 1100
Core i3-6300
Core i3-6320
Core i5-6600
Core i5-6600K
Core i7-6700K
 1150
HD Graphics P530 Workstation Xeon E3-1268L v5 191D 1000
Mobile
Workstation 		Xeon E3-1505L v5
Xeon E3-1505M v5
Xeon E3-1535M v5 		1050
Workstation Xeon E3-1225 v5 400 1150
Xeon E3-1235L v5 ?
Xeon E3-1245 v5
Xeon E3-1275 v5 		1150
Iris Graphics 540 Mobile Core i5-6260U 1926 300 950 384:48:6
(GT3) 		64
Core i5-6360U 1000
Core i7-6560U
Core i7-6650U
Core i7-6660U		 1050
Iris Graphics 550 Mobile Core i3-6157U
Core i3-6167U 		1927 1000
Core i5-6267U 1050
Core i5-6287U
Core i7-6567U		 1100
Iris Pro Graphics P555 2016 Workstation Xeon E3-1558L v5 192D 650 1000 128
Iris Pro Graphics 580 Mobile Core i5-6350HQ 193B 350 900 576:72:9
(GT4)
Core i7-6770HQ 950
Core i7-6870HQ 1000
Core i7-6970HQ 1050
Desktop Core i5-6585R 1100
Core i5-6685R
Core i7-6785R		 1150
Iris Pro Graphics P580 Workstation Xeon E3-1578L v5 193D 700 1000
Mobile
Workstation 		Xeon E3-1515M v5 350
Xeon E3-1545M v5 1050
Xeon E3-1575M v5 1100
Workstation Xeon E3-1565L v5 193A 1050
Xeon E3-1585L v5
Xeon E3-1585 v5 		1150
UHD Graphics 600 2017 Mobile Celeron N4000
Celeron N4020 		Gemini Lake
Gemini Lake Refresh
(Gen9LP) 		3185 200 650 96:12:2 12 4.6Windows
4.6Linux
ES 3.2Linux 		3.0Windows
3.0Linux 		1.2Windows
1.2Linux 		- 38.4
Celeron N4100
Celeron N4120 		700
Desktop Celeron J4005
Celeron J4025 		250 700
Celeron J4105
Celeron J4125 		750
UHD Graphics 605 Mobile Pentium Silver N5000
Pentium Silver N5030 		3184 200 750 144:18:3 38.4
Desktop Pentium Silver J5005
Pentium Silver J5040 		250 800
HD Graphics 610 2017 Mobile Celeron 3865U
Celeron 3965U 		Kaby Lake
(Gen9p5) 		5906 300 900 96:12:2
(GT1) 		12
FL12_1 		4.6Windows
4.1macOS
4.6Linux
ES 3.2Linux 		3.0Windows
1.2macOS
3.0Linux 		1.3Windows
1.2Linux 		- 34.1
Pentium 4415U 950
Desktop Celeron G3930TE 5902 350 950
Celeron G3930E
Celeron G3930T 		1000
Celeron G3930
Celeron G3950 		1050
Pentium G4560T
Pentium G4560 		38.4
Core i3-7101TE
Core i3-7101E 		1100
HD Graphics 615 Mobile Celeron 3965Y
Pentium 4410Y
Pentium 4415Y 		591E 300 850 192:24:3
(GT2) 		29.8
Pentium Gold 6500Y

Core m3-7Y30
Core m3-7Y32

Core m3-8100Y

900
Core i5-7Y54
Core i5-7Y57

Core m3-8300Y

950
Core i7-7Y75

Core m3-8500Y

1050
HD Graphics 620 Core i3-7020U
Core i3-7100U
Core i3-7130U
Core i5-7200U 		5916 1000 34.1
Core i7-7500U 1050
Core i5-7300U 1100
Core i7-7600U 1150
UHD Graphics 620 Core i3-8130U 5917 1000 38.4
Core i5-8250U
Core i5-8350U 		1100
Core i7-8550U
Core i7-8650U 		1150
HD Graphics 630 Desktop Core i5-7400T
Core i5-7400 		5912 350 1000 38.4
Pentium G4600T 1050
Pentium G4600
Pentium G4620
Core i3-7100T
Core i3-7100
Core i3-7300T
Core i5-7500T
Core i5-7500
Core i5-7600T 		1100
Core i3-7300
Core i3-7320
Core i3-7350K
Core i5-7600
Core i5-7600K
Core i7-7700T
Core i7-7700
Core i7-7700K 		1150
Mobile Core i3-7100E
Core i3-7100H
Core i3-7102E 		591B 950
Core i5-7300HQ
Core i5-7440EQ
Core i5-7440HQ
Core i5-7442EQ
Core i7-7820EQ 		1000
Core i7-7700HQ
Core i7-7820HK
Core i7-7820HQ
Core i7-7920HQ 		1100
Core i5-8305G ? 1000
Core i7-8705G
Core i7-8706G
Core i7-8709G
Core i7-8809G 		1100
HD Graphics P630 Mobile
Workstation 		Xeon E3-1501L v6
Xeon E3-1501M v6
Xeon E3-1505L v6 		591D 1000
Xeon E3-1505M v6
Xeon E3-1535M v6 		1100
Workstation Xeon E3-1225 v6
Xeon E3-1245 v6
Xeon E3-1275 v6
Xeon E3-1285 v6 		1150
Iris Plus Graphics 640 Mobile Core i5-7260U 5926 300 950 384:48:6
(GT3) 		64 34.1
Core i5-7360U 1000
Core i7-7560U 1050
Core i7-7660U 1100
Iris Plus Graphics 650 Core i3-7167U 5927 1000
Core i5-7267U 1050
Core i5-7287U 1100
Core i7-7567U 1150
UHD Graphics 610 2018 Desktop Celeron G4900T Coffee Lake 3E93 350 1000 96:12:2
(GT1) 		12 4.6Windows
4.6Linux
ES 3.2Linux 		3.0Windows
3.0Linux 		1.3Windows
1.2Linux 		- 38.4
Celeron G4900
Celeron G4920
Celeron G4930
Pentium Gold G5400T
Pentium Gold G5400 		1050
UHD Graphics 630 Desktop Pentium Gold G5500T 3E91 1050 184:23:3
(GT2) 		38.4
Pentium Gold G5500
Pentium Gold G5600
Core i3-8100T
Core i3-8100
Core i3-8300T 		1100
Core i3-8300
Core i3-8350K 		1150
Core i5-8400T
Core i5-8400
Core i5+8400 		3E92 1050 192:24:3
(GT2) 		42.7
Core i5-8500T
Core i5-8500
Core i5+8500 		1100
Core i5-8600T
Core i5-8600
Core i5-8600K
Core i5-9600K 		1150
Core i7-8700T
Core i7-8700
Core i7+8700
Core i7-8700K
Core i7-8086K
Core i7-9700K
Core i9-9900K
Core i9-9900KS 		1200
Mobile Core i5-8300H 3E9B 1000
Core i5-8400B 1050
Core i5-8400H
Core i7-8750H 		1100
Core i5-8500B
Core i7-8850H
Core i7-9750H
Core i7-9850H 		1150
Core i7-8700B
Core i9-8950HK 		1200
Mobile
Workstation 		Xeon E-2176M
Xeon E-2186M
Iris Plus Graphics 645 Mobile Core i5-8257U 3EA6 300 1050 384:48:6
(GT3) 		128 38.4
Core i7-8557U 1150
Iris Plus Graphics 655 Core i3-8109U
Core i5-8259U 		3EA5 1050
Core i5-8259U 1100
Core i7-8559U
Core i7-8569U 		1200

Gen11

Main article: Intel Graphics Technology § Gen11
  • 1 FP32 ALUs : EUs : Subslices
  • Each EU contains 2 x 128-bit FPUs. One supports 32-bit and 64-bit integer, FP16, FP32, FP64, and transcendental math functions, and the other supports only 32-bit and 64-bit integer, FP16 and FP32. Thus the FP16 (or 16-bit integer) FLOPS is twice the FP32 (or 32-bit integer) FLOPS. Since the throughput of FP64 instructions are 2 cycles, the FP64 FLOPS is a quarter of the FP32 FLOPS.
  • Each Subslice contains 8 EUs and a sampler (4 tex/clk), and has 64 KB shared memory.
  • Intel Quick Sync Video
  • For Windows 10, the total system memory that is available for graphics use is half the system memory.
  • No eDRAM.
Specifications of Intel HD Graphics series[55][56][65]
Name Release year Market Processor Device ID Core config1 Clock rate API support[66][13][33][51][52] Memory bandwidth (GB/s)
Code name Model Min (MHz) Max (MHz) Direct3D OpenGL OpenCL Vulkan
UHD Graphics 2019 Mobile Ice Lake Core i3-1000G1
Core i3-1005G1 		8A58 256:32:4
(GT1) 		300 900 12
FL12_1 		4.6Windows
4.6Linux
ES 3.2Linux 		3.0Windows
3.0Linux 		1.3Windows
1.2Linux 		59.7
Core i5-1035G1 8A56 1050
Iris Plus Graphics Core i3-1000G4 8A5C 384:48:6
(GT1.5) 		900
Core i5-1030G4 1050
Core i5-1035G4 8A5A
Core i5-1030G7
Core i5-1030NG7 		8A51 512:64:8
(GT2) 		1050
Core i7-1060G7
Core i7-1060NG7 		1100
Core i5-1035G7 8A52 1050
Core i7-1065G7 1100
Core i5-1038G7 8A53 1050
Core i7-1068G7 1100

Gen12

Main article: Intel Graphics Technology § Gen12

Intel Xe is a GPGPU and dGPU product line first released in 2020, in the mobile Tiger Lake line and Rocket Lake, Alder Lake and Raptor Lake line.

  • 1 FP32 ALUs: EUs: Subslices
Name Release year Market Processor Device ID[67][68][69] Core config1 Clock rate API support[70][71][13][33][51][52] Memory bandwidth (GB/s)
Code name Model Min (MHz) Max (MHz) Direct3D OpenGL OpenCL Vulkan
UHD Graphics 730 2020 Desktop Rocket Lake Core i5-11400T 4C8B 192:24:3 350 1200 12
FL12_1 		4.6Windows
4.6Linux
ES 3.2Linux 		3.0Windows
3.0Linux 		1.3Windows
1.2Linux 		51.2
Core i5-11400 1300
UHD Graphics 750 Core i5-11500T 4C8A 256:32:4 1200
Core i5-11500

Core i5-11600
Core i5-11600K
Core i5-11600T
Core i7-11700
Core i7-11700K
Core i7-11700T
Core i9-11900
Core i9-11900K
Core i9-11900T

1300
UHD Graphics Mobile Tiger Lake Core i3-1110G4

Core i3-1120G4

9A78 384:48:6 400 1100 59.7
Celeron 6305

Pentium Gold 7505
Core i3-1115G4
Core i3-1125G4

1250
Iris Xe Graphics Core i5-1130G7

Core i5-1140G7

9A40 640:80:6 1100 68.2
Core i7-1160G7

Core i7-1180G7

768:96:6
Core i5-1135G7

Core i5-11300H

Core i5-1145G7

9A49 640:80:6 400 1300
Core i7-1165G7 768:96:6 1300
Core i5-11320H

Core i7-1185G7
Core i7-11370H
Core i7-11375H

1350
Core i7-1195G7

Core i7-11390H

1400
Iris Xe Max[72] 2021 Mobile DG1 4905 300 1650
Iris Xe Pod Desktop 4906
GPU SG-18M Server 4907
Iris Xe Graphics Desktop 4908
UHD Graphics 710 2021 Desktop Alder Lake Celeron G6900

Celeron G6900T

 4693 128:16:2 300 1300 76.8
Pentium Gold G7400

Pentium Gold G7400T

1350
UHD Graphics 730 i3-12100

i3-12100T

4692 192:24:3 300 1400
i3-12300

i3-12300T
i5-12400
i5-12400T

1450
UHD Graphics 770 i5-12500

i5-12500T
i5-12600
i5-12600T

 4690 256:32:4 300 1450
i5-12600K

i7-12700
i7-12700T
i7-12700K

4680 1500
i9-12900

i9-12900T
i9-12900K
i9-12900KS

1550
UHD Graphics Mobile Celeron 7300

Pentium 8500

46C3 384:48:6 300 800
i3-1210U 512:64:8 850
Celeron 7305

Pentium 8505

46B3 384:48:6 300 1100
i3-1215U

i3-1220P

512:64:8
i5-12450H 46A3 384:48:6 300 1200
i7-12650H 512:64:8 1400
Iris Xe Graphics i5-1230U 46AA 640:80:6 300 850
i5-1240U 900
i7-1250U

i7-1260U

768:96:6 950
i5-1235U

i5-1245U

46A8 640:80:6 300 1200
i7-1255U

i7-1265U

768:96:6 1250
i5-1240P

i5-12500H

46A6 640:80:6 300 1300
i5-1250P

i5-12600H

1400
i7-1260P

i7-1270P
i7-12700H
i7-12800H

768:96:6 1400
i7-1280P

i9-12900H
i9-12900HK

1450
UHD Graphics 770 2022 Desktop Raptor Lake i5-13600K A780 256:32:4 300 1500 89.6
i7-13700K 1600
i9-13900K 1650

Gen 12.5

Model[73][74] Launch Code name(s) Process Transistors (billion) Die size
(mm2) 		Core config[a] Cache Core clock
(MHz)[b] 		Fillrate[c][d] Memory Processing power (TFLOPS) TDP Bus
interface
L1 L2 Pixel
(GP/s) 		Texture
(GT/s) 		Type Size Bandwidth
(GB/s) 		Bus width Clock
(MT/s) 		Bfloat16 Single
precision 		Double
precision
Data Center GPU Max 1100 Jan 10, 2023 Xe-HPC
(Ponte Vecchio) 		Multiple[75] 100 1280 7168:448:0:56:448:448 28 MB 204 MB 1000
1550 		0 448.0
694.4 		HBM2E 48 GB 1228.8 3072-bit 3200
352		 14.336
22.221 		300 W PCIe 5.0 x16
Data Center GPU Max 1350 abandoned 14336:896:0:112:896:896 56 MB 408 MB 750
1550 		672.0
1388.8 		96 GB 2457.6 6144-bit
704		 21.504
44.442 		450 W
Data Center GPU Max 1550 Jan 10, 2023 16384:1024:0:128:1024:1024 64 MB 408 MB 900
1600 		921.6
1638.4 		128 GB 3276.8 8192-bit
832		 29.491
54.423 		600 W
  1. ^ shading cores (ALU):texture mapping units (TMU):render output units (ROP):ray tracing units:tensor cores (XMX):execution Units
  2. ^ Boost values (if available) are stated below the base value in italic.
  3. ^ Pixel fillrate is calculated as the lowest of three numbers: number of ROPs multiplied by the base core clock speed, number of rasterizers multiplied by the number of fragments they can generate per rasterizer multiplied by the base core clock speed, and the number of streaming multiprocessors multiplied by the number of fragments per clock that they can output multiplied by the base clock rate.
  4. ^ Texture fillrate is calculated as the number of texture mapping units (TMUs) multiplied by the base (or boost) core clock speed.

Gen 12.7

Desktop

Branding and Model[76] Launch MSRP
(USD) 		Code name Process Transistors (billion) Die size
(mm2) 		Core config [a] L2 cache Clock rate
(MHz)[b] 		Fillrate Memory Processing power (TFLOPS) TDP Bus
interface
Pixel
(GP/s) 		Texture
(GT/s) 		Type Size (GB) Bandwidth
(GB/s) 		Bus width Clock
(MT/s) 		Half
precision
(base) 		Single
precision
(base) 		Double
precision
(base)
Arc 3 A310 Sep 28, 2022 $110 ACM-G11
(DG2-128) 		TSMC
N6 		7.2 157 6 Xe cores
768:32:16:6
(192:96:2) 		4 MB 2000
2000 		32 64 GDDR6 4 GB 124 64-bit 15500 6.144 3.072 0.768 75 W PCIe 4.0 x8
A380 Jun 14, 2022 $139 8 Xe cores
1024:64:32:8
(256:128:2) 		2000
2050 		64
65.6 		128
131.2 		6 GB 186 96-bit 8.192
8.3968 		4.096
4.1984 		1.024
1.0496
Arc 5 A580 Oct 10, 2023 $179 ACM-G10
(DG2-512) 		21.7 406 24 Xe cores
3072:192:96:24
(768:384:6) 		8 MB 1700
1700 		163.2 326.4 8 GB 512 256-bit 16000 20.890 10.445 2.611 175 W PCIe 4.0 x16
Arc 7 A750 Oct 14, 2022 $289 28 Xe cores
3584:224:112:28
(896:448:7) 		16 MB 2050
2400 		229.6
268.8 		393.6
460.8 		29.3888
34.4064 		14.6944
17.2032 		3.6736
4.3008 		225 W
A770 8GB $329 32 Xe cores
4096:256:128:32
(1024:512:8) 		2100
2400 		268.8
307.2 		537.6
614.4 		34.4064
39.3216 		17.2032
19.6608 		4.3008
4.9152
A770 16GB $349 16 GB 560 17500
  1. ^ Shading cores (ALU): texture mapping units (TMU): render output units (ROP): ray tracing units
       (tensor cores (XMX): execution units: render slices)
  2. ^ Boost values (if available) are stated below the base value in italic.

Mobile

Branding and Model[77] Launch Code name Process Transistors (billion) Die size
(mm2) 		Core config[a][b] L2
cache 		Core clock
(MHz)[c] 		Fillrate[d] Memory Processing power (TFLOPS) TDP Bus
interface
Pixel
(GP/s) 		Texture
(GT/s) 		Type Size Bandwidth
(GB/s) 		Bus width Clock
(MT/s) 		Half
precision 		Single
precision 		Double
precision
Arc 3 A350M Mar 30, 2022 ACM-G11
(DG2-128) 		TSMC
N6 		7.2 157 6 Xe cores
768:48:24:6
(96:96:2) 		4 MB 1150
2200 		27.6
52.8 		55.2
105.6 		GDDR6 4 GB 112 64-bit 14000 3.5328
6.7584 		1.7664
3.3792 		0.4416
0.8448 		25–35 W PCIe 4.0 ×8
A370M 8 Xe cores
1024:64:32:8
(128:128:2) 		1550
2050 		49.6
65.6 		99.2
131.2 		6.3488
8.3968 		3.1744
4.1984 		0.7936
1.0496 		35–50 W
Arc 5 A530M Q3 2023 ACM-G12
(DG2-256) 		12 Xe cores
1536:96:48:12
(192:192:3) 		8 MB 1300 4 GB
8 GB 		224 128-bit 65–95 W
A550M Q2 2022 ACM-G10
(DG2-512) 		21.7 406 16 Xe cores
2048:128:64:16
(256:256:4) 		900
1700 		57.6
108.8 		115.2
217.6 		8 GB 7.3728
13.9264 		3.6864
6.9632 		0.9216
1.7408 		60–80 W
A570M Q3 2023 ACM-G12
(DG2-256) 		1300 75–95 W
Arc 7 A730M Q2 2022 ACM-G10
(DG2-512) 		21.7 406 24 Xe cores
3072:192:96:24
(384:384:6) 		12 MB 1100
2050 		105.6
196.8 		211.2
393.6 		12 GB 336 192-bit 13.5168
25.1904 		6.7584
12.5952 		1.6896
3.1488 		80–120 W PCIe 4.0 ×16
A770M 32 Xe cores
4096:256:128:32
(512:512:8) 		16 MB 1650
2050 		211.2
262.4 		422.4
524.8 		16 GB 512 256-bit 16000 27.0336
33.5872 		13.5168
16.7936 		3.3792
4.1984 		120–150 W
  1. ^ Shading cores (ALU): texture mapping units (TMU): render output units (ROP): ray tracing units
       (tensor cores (XMX): execution units: render slices)
  2. ^ Texture fillrate is calculated as the number of texture mapping units (TMUs) multiplied by the base (or boost) core clock speed.
  3. ^ Boost values (if available) are stated below the base value in italic.
  4. ^ Pixel fillrate is calculated as the lowest of three numbers: number of ROPs multiplied by the base core clock speed, number of rasterizers multiplied by the number of fragments they can generate per rasterizer multiplied by the base core clock speed, and the number of streaming multiprocessors multiplied by the number of fragments per clock that they can output multiplied by the base clock rate.

Workstation

Branding and Model[78] Launch Code name Process Transistors (billion) Die size
(mm2) 		Core config[a] L2
cache 		Core clock
(MHz)[b] 		Fillrate[c][d] Memory Processing power (TFLOPS) TDP Bus
interface
Pixel
(GP/s) 		Texture
(GT/s) 		Type Size Bandwidth
(GB/s) 		Bus width Clock
(MT/s) 		Half
precision 		Single
precision 		Double
precision
Arc Pro A30M
(Mobile) 		Aug 8, 2022 ACM-G11
(DG2-128) 		TSMC
N6 		7.2 157 8 Xe cores
1024:64:32:8
(128:128:2) 		4 MB 1550 GDDR6 4 GB 112 64-bit 14000
4.20[78] 		50 W PCIe 4.0 x8
A40 6 GB 192 96-bit 16000
5.02[78]
A50 2050 75 W
A60M
(Mobile) 		June 6, 2023 ACM-G12
(DG2-256) 		16 Xe cores
2048:128:64:16
(256:256:4) 		1300 8 GB 256 128-bit
9.42[78] 		95 W PCIe 4.0 x16
A60 2000 12 GB 384 192-bit
10.04[78] 		130 W
  1. ^ Shading cores (ALU): texture mapping units (TMU): render output units (ROP): ray tracing units
       (tensor cores (XMX): execution Units: render slices)
  2. ^ Boost values (if available) are stated below the base value in italic.
  3. ^ Pixel fillrate is calculated as the lowest of three numbers: number of ROPs multiplied by the base core clock speed, number of rasterizers multiplied by the number of fragments they can generate per rasterizer multiplied by the base core clock speed, and the number of streaming multiprocessors multiplied by the number of fragments per clock that they can output multiplied by the base clock rate.
  4. ^ Texture fillrate is calculated as the number of texture mapping units (TMUs) multiplied by the base (or boost) core clock speed.

Battlemage based

Branding and Model Launch MSRP
(USD) 		Codename Process Transistors (billion) Die size
(mm2) 		Core config [a] L2 cache Clock rate
(MHz)[b] 		Fillrate Memory Processing power (TFLOPS) TDP Bus
interface
Pixel
(GP/s) 		Texture
(GT/s) 		Type Size (GB) Bandwidth
(GB/s) 		Bus width Clock
(MT/s) 		Half
precision 		Single
precision 		Double
precision 		XMX Half
precision
Arc 5 B580 Dec 13, 2024 $249 BMG-G21 TSMC N5 19.6 272 20 Xe-cores
2560:160:80:20
(160:160:5) 		18 MB 2670
2850 		213.6
228 		427.2
456 		GDDR6 12 GB 456 192-bit 19000 27.341
29.184 		13.670
14.592 		1.709
1.824 		218.726
233.472 		190 W PCIe 4.0 x8

B570

Jan 16, 2025 $219 18 Xe-cores
2304:144:80:18
(144:144:5) 		13.5 MB 2500
2750 		180
198 		360
396 		10 GB 380 160-bit 19000 23.040
25.344 		11.520
12.672 		1.440
1.584 		184.320
202.752 		150 W
  1. ^ Shading cores (ALU): texture mapping units (TMU): render output units (ROP): ray tracing units
       (tensor cores (XMX): execution units: render slices)
  2. ^ Boost values (if available) are stated below the base value in italic.

PowerVR based

Main article: PowerVR
Specifications of Intel PowerVR-based series[7][8][9][14][15][17][18][19][79][80][81][82][83][84][85][31][86][87][88][89][90][91][92][93][94][95][96][97][98][99][100][101][102][103]
Graphics Launch PowerVR core Market Chipset Code name Device id. Core render
clock (MHz)		 Pixel
pipelines		 Shader model
(vertex/pixel)		 API support Memory bandwidth
(GB/s)		 DVMT
(MB)		 Hardware acceleration
Direct3D OpenGL OpenCL MPEG-2 VC-1 AVC
GMA 500 2008 SGX535 CE CE3100

Atom Z520

Canmore 2E5B ? 2[104] 3.0 9.0c 2.0 4.2 256 Full Full Full
2009 Atom CE4100 Sodaville
Atom CE4110 200
Atom CE4130
Atom CE4150 400
Atom CE4170
2010 Atom CE4200 Groveland ?
2008 MID UL11L Poulsbo (Menlow) 8108
8109		 100
US15L 200
US15W
GMA 600 2010 MID Atom Z6xx Lincroft (Moorestown) 4102 400[105] 2 3.0 9.0c 2.0 6.4 759 Full Full Full
GMA 2012 SGX540 Smartphone Atom Z24xx Penwell (Medfield) ? 400[106] 4 ES 2.0 6.4 1024 Full Full Full
GMA 3600 2011 SGX545 Nettop
Netbook		 Atom D2500
Atom N2600		 Cedarview (Cedar Trail) 0BE0
0BE1
0BE2
0BE3
 400[107] 4 3.0 9.0c 3.0 8.5
6.4		 1024[108] Full Full Full
GMA 3650 Atom D2700
Atom N2800		 640[107] 8.5
GMA 2012 Tablet Atom Z2760 Cloverview (Clover Trail) 08C7
08C8
08C9
08CA
08CB
08CC
08CD
08CE
08CF
 533 4 3.0 9.0c 2.0 6.4 2048 Full Full Full
GMA 2012 SGX544 MP2 Tablet Atom Z2520
Atom Z2560
Atom Z2580		 Cloverview (Clover Trail+) ? 300Mhz
400 MHz
533 MHz		 ? ? 9.0 L3 2.0ES, 2.0? 1.1 ? ? Full Full Full

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 2 VLD, iDCT, and MC
VC-1 VLD, iMDCT, MC, and LF
H.264/MPEG-4 AVC VLD, iMDCT, MC, and LF
Calculation
The raw performance of integrated GPU, in FLOPS, can be calculated as follows:
GPU FLOPS
FP16 FP32 FP64
Gen4 (GMA 3, 4) - (clock speed) * (# of FP32 ALUs) -
Gen5 (HD Graphics)
Gen6 (HD Graphics 2000, 3000) (clock speed) * 2 * (# of FP32 ALUs)
Gen7 (HD Graphics 2500, 4000 ~ 5200) (clock speed) * (# of FP32 ALUs) / 2
Gen8 (HD Graphics 5300 ~ 6300) (clock speed) * 2 * (# of FP32 ALUs) * 2
Gen9 (HD Graphics 5xx, 6xx)
Gen11
For example, the HD Graphics 3000 is rated at 125 GFLOPS,[109] which is consistent with the formula (12 * 4 * 2 * 1,300 MHz).

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