List of Nvidia graphics processing units

This list contains general information about graphics processing units (GPUs) and video cards from Nvidia, based on official specifications. In addition some Nvidia motherboards come with integrated onboard GPUs. Limited/Special/Collectors' Editions or AIB versions are not included.

Field explanations

The fields in the table listed below describe the following:

  • Model – The marketing name for the processor, assigned by Nvidia.
  • Launch – Date of release for the processor.
  • Code name – The internal engineering codename for the processor (typically designated by an NVXY name and later GXY where X is the series number and Y is the schedule of the project for that generation).
  • Fab – Fabrication process. Average feature size of components of the processor.
  • Bus interface – Bus by which the graphics processor is attached to the system (typically an expansion slot, such as PCI, AGP, or PCI-Express).
  • Memory – The amount of graphics memory available to the processor.
  • SM Count – Number of streaming multiprocessors.[1]
  • Core clock – The factory core clock frequency; while some manufacturers adjust clocks lower and higher, this number will always be the reference clocks used by Nvidia.
  • Memory clock – The factory effective memory clock frequency (while some manufacturers adjust clocks lower and higher, this number will always be the reference clocks used by Nvidia). All DDR/GDDR memories operate at half this frequency, except for GDDR5, which operates at one quarter of this frequency.
  • Core config – The layout of the graphics pipeline, in terms of functional units. Over time the number, type, and variety of functional units in the GPU core has changed significantly; before each section in the list there is an explanation as to what functional units are present in each generation of processors. In later models, shaders are integrated into a unified shader architecture, where any one shader can perform any of the functions listed.
  • Fillrate – Maximum theoretical fill rate in textured pixels per second. This number is generally used as a maximum throughput number for the GPU and generally, a higher fill rate corresponds to a more powerful (and faster) GPU.
  • Memory subsection
    • Bandwidth – Maximum theoretical bandwidth for the processor at factory clock with factory bus width. GHz = 109 Hz.
    • Bus type – Type of memory bus or buses used.
    • Bus width – Maximum bit width of the memory bus or buses used. This will always be a factory bus width.
  • API support section
    • Direct3D – Maximum version of Direct3D fully supported.
    • OpenGL – Maximum version of OpenGL fully supported.
    • OpenCL – Maximum version of OpenCL fully supported.
    • Vulkan – Maximum version of Vulkan fully supported.
    • CUDA - Maximum version of Cuda fully supported.
  • Features – Added features that are not standard as a part of the two graphics libraries.

Desktop GPUs

Pre-GeForce

Further information: Fahrenheit (microarchitecture)
Model name Launch Code name Fab (nm)[2] Transistors (million) Die size (mm2) Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate Latest API support TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOps/s MPixels/s MTexels/s MVertices/s Direct3D OpenGL
NV1 May 22, 1995 NV1 SGS
500 nm 		1[3] 90 PCI 75 60 1:1:1 2
4 		0.48 FPM
EDO
VRAM 		64 75 75 75 0 1.0 n/a ?
Riva 128 August 25, 1997 NV3 SGS 350 nm 4[4] 90 AGP 1x,[5] PCI 100 100 4 1.6 SDR 128 100 100 100 5.0 1.0 ?
Riva 128ZX February 23, 1998 SGS/TSMC 350 nm AGP 2x, PCI 8 ?
Riva TNT June 15, 1998 NV4 TSMC 350 nm 7[6] 90 90 110 2:2:2 8
16 		1.76 180 180 180 6.0 1.2 ?
Vanta March 22, 1999 NV6 TSMC 250 nm AGP 4x, PCI 100 125 8
16 		1.0 64 200 200 200 ?
Vanta LT March 2000 AGP 2x 80 100 8
16 		0.8 160 160 160 ?
Riva TNT2 M64 October 1999 AGP 4x, PCI 125 150 8
16
32 		1.2 250 250 250 ?
Riva TNT2 March 15, 1999 NV5 15[7] 90 16
32 		2.4 128 ?
Riva TNT2 Pro October 12, 1999 TSMC 220 nm 143 166 16
32 		2.656 286 286 286 ?
Riva TNT2 Ultra March 15, 1999 TSMC 250 nm 150 183 16
32 		2.928 300 300 300 ?
  1. ^ Pixel pipelines: texture mapping units: render output units

GeForce 256 series

Further information: GeForce 256 and Celsius (microarchitecture)
  • All models are made via TSMC 220 nm fabrication process
  • All models support Direct3D 7.0 and OpenGL 1.2
  • All models support hardware Transform and Lighting (T&L) and Cube Environment Mapping
Model name Launch Code name Transistors (million) Die size (mm2) Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate Performance (MFLOPS FP32) TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOps/s MPixels/s MTexels/s MVertices/s
GeForce 256 SDR[8] Oct 11, 1999 NV10 17 139 AGP 4x, PCI 120 166 4:4:4 32
64 		2.656 SDR 128 480 480 480 0 960 13
GeForce 256 DDR[9] Dec 13, 1999 150 4.800 DDR 12
  1. ^ Pixel pipelines: texture mapping units: render output units

GeForce2 series

Further information: GeForce 2 series and Celsius (microarchitecture)
  • All models support Direct3D 7 and OpenGL 1.2
  • All models support TwinView Dual-Display Architecture, Second Generation Transform and Lighting (T&L),
    Nvidia Shading Rasterizer (NSR), High-Definition Video Processor (HDVP)
  • GeForce2 MX models support Digital Vibrance Control (DVC)
Model name Launch Code name Fab (nm)[2] Transistors (million) Die size (mm2) Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate Performance (GFLOPS FP32) TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOps/s MPixels/s MTexels/s MVertices/s
GeForce2 MX IGP + nForce 220/420 June 4, 2001 NV1A (IGP)/
NV11 (MX) 		TSMC
180 nm 		20[10] 64 FSB 175 133 2:4:2 Up to 32 system RAM 2.128
4.256 		DDR 64
128 		350 350 700 0 0.700 3
GeForce2 MX200 March 3, 2001 AGP 4x, PCI 166 32
64 		1.328 SDR 64 1
GeForce2 MX June 28, 2000 2.656 128 4
GeForce2 MX400 March 3, 2001 200 166/200 (SDR)
166 (DDR) 		1.328 3.200 2.656 SDR
DDR 		64/128 (SDR)
64 (DDR) 		400 400 800 0.800 5
GeForce2 GTS April 26, 2000 NV15 25[11] 88 AGP 4x 166 4:8:4 5.312 DDR 128 800 800 1,600 1.600 6
GeForce2 Pro December 5, 2000 200 6.4 ?
GeForce2 Ti October 1, 2001 TSMC
150 nm 		250 1,000 1,000 2,000 2.000 ?
GeForce2 Ultra August 14, 2000 TSMC
180 nm 		230 64 7.36 ?
  1. ^ Pixel pipelines: texture mapping units: render output units

GeForce3 series

Further information: GeForce 3 series and Kelvin (microarchitecture)
  • All models are made via TSMC 150 nm fabrication process
  • All models support Direct3D 8.0 and OpenGL 1.3
  • All models support 3D Textures, Lightspeed Memory Architecture (LMA), nFiniteFX Engine, Shadow Buffers
Model name Launch Code name Transistors (million) Die size (mm2) Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate Performance (GFLOPS FP32) TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOps/s MPixels/s MTexels/s MVertices/s
GeForce3 Ti200 October 1, 2001 NV20 57 128 AGP 4x, PCI 175 200 4:1:8:4 64
128 		6.4 DDR 128 700 700 1400 43.75 8.750 ?
GeForce3 February 27, 2001 200 230 64 7.36 800 800 1600 50 10.00 ?
GeForce3 Ti500 October 1, 2001 240 250 64
128 		8.0 960 960 1920 60 12.00 29
  1. ^ Pixel shaders: vertex shaders: texture mapping units: render output units

GeForce4 series

Further information: GeForce 4 series and Kelvin (microarchitecture)
  • All models are manufactured via TSMC 150 nm manufacturing process
  • All models support Accuview Antialiasing (AA), Lightspeed Memory Architecture II (LMA II), nView
Model name Launch Code name Transistors (million) Die size (mm2) Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate Performance (GFLOPS FP32) Supported API version TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOps/s MPixels/s MTexels/s MVertices/s Direct3D OpenGL
GeForce4 MX IGP + nForce2 October 1, 2002 NV1F ? ? FSB 250 133
200 		2:0:4:2 Up to 128 system RAM 2.128
6.4 		DDR 64
128 		500 500 1,000 125 1.000 7.0 1.2 ?
GeForce4 MX420 February 6, 2002 NV17 29[12] 65 AGP 4x
PCI 		166 64 2.656 SDR
DDR 		128 (SDR)
64 (DDR) 		14
GeForce4 MX440 SE 2002 133
166 		64
128 		2.128
5.312 [13] 		DDR 64
128 		500 [13]
1000 		13
GeForce MX4000 December 14, 2003 NV18B 29 65 AGP 8x
PCI 		166 2.656 64 1000 14
GeForce PCX4300 February 19, 2004 PCIe x16 128 16
GeForce4 MX440 February 6, 2002 NV17 29 65 AGP 4x
PCI 		275 200 64
128 		6.4 128 550 550 1,100 137.5 1.100 18
GeForce4 MX440 8x September 25, 2002 NV18 29[14] 65 AGP 8x
PCI 		166
250 		2.656 [15]
8.0 		64
128 		19
GeForce4 MX460 February 6, 2002 NV17 29 65 AGP 4x
PCI 		300 275 8.8 128 600 600 1,200 150 1.200 22
GeForce4 Ti4200 April 16, 2002 NV25 63[16] 142 AGP 4x 250 222 (128 MiB)
250 (64 MiB) 		4:2:8:4 7.104 (128 MiB)
8.0 (64 MiB) 		1,000 1,000 2,000 125 15.00 8.0a 1.3 33
GeForce4 Ti4200 8x September 25, 2002 NV28 63[17] 142 AGP 8x 250 8.0 34
GeForce4 Ti4400 February 6, 2002 NV25 63 142 AGP 4x 275 275 128 8.8 1,100 1,100 2,200 137.5 16.50 37
GeForce4 Ti4400 8x
(Ti4800SE[b]) 		January 20, 2003 NV28 63 101 AGP 8x 38
GeForce4 Ti4600 February 6, 2002 NV25 63 142 AGP 4x 300 325 10.4 1,200 1,200 2,400 150 18.00 ?
GeForce4 Ti4600 8x
(Ti4800[c]) 		January 20, 2003 NV28 63 101 AGP 8x 43
  1. ^ Pixel shaders: vertex shaders: texture mapping units: render output units
  2. ^ GeForce4 Ti4400 8x: Card manufacturers utilizing this chip labeled the card as a Ti4800SE. The surface of the chip has "Ti-8x" printed on it.
  3. ^ GeForce4 Ti4600 8x: Card manufacturers utilizing this chip labeled the card as a Ti4600, and in some cases as a Ti4800. The surface of the chip has "Ti-8x" printed on it, as well as "4800" printed at the bottom.
Model Features
nFiniteFX II Engine Video Processing Engine (VPE)
GeForce4 MX420 No Yes
GeForce4 MX440 SE No Yes
GeForce4 MX4000 No Yes
GeForce4 PCX4300 No Yes
GeForce4 MX440 No Yes
GeForce4 MX440 8X No Yes
GeForce4 MX460 No Yes
GeForce4 Ti4200 Yes No
GeForce4 Ti4200 8x Yes No
GeForce4 Ti4400 Yes No
GeForce4 Ti4400 8x Yes No
GeForce4 Ti4600 Yes No
GeForce4 Ti4600 8x Yes No

GeForce FX (5xxx) series

Further information: GeForce FX series and Rankine (microarchitecture)
  • All models support Direct3D 9.0a and OpenGL 1.5 (2.1 (software) with latest drivers)
  • The GeForce FX series runs vertex shaders in an array
Model Launch Code name Fab (nm)[2] Transistors (million) Die size (mm2) Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate Performance (GFLOPS
FP32) 		TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOperations/s MPixels/s MTexels/s MVertices/s
GeForce FX 5100 March 2003 NV34 TSMC 150 nm 45[18] 124 AGP 8x 200 166 4:2:4:4 64
128 		2.6 DDR 64 800 800 800 100.0 12.0 ?
GeForce FX 5200 LE 250 64
128
256 		2.6
5.3 		64
128 		1,000 1,000 1,000 125.0 15.0 ?
GeForce FX 5200 AGP 8x
PCI 		200 3.2
6.4 		64
128 		21
GeForce FX 5200 Ultra March 6, 2003 AGP 8x 325 325 10.4 128 1,300 1,300 1,300 162.5 19.5 32
GeForce PCX 5300 March 17, 2004 PCIe x16 250 166 128
256 		2.6 64 1,000 1,000 1,000 125.0 15.0 21
GeForce FX 5500 March 2004 NV34B 45[19] 91 AGP 8x
AGP 4x
PCI 		270 166
200 		64
128
256 		5.3
6.4 		128 1,080 1,080 1,080 135.0 16.2 ?
GeForce FX 5600 XT October 2003 NV31 TSMC 130 nm 80[20] 121 AGP 8x 235 200 64
128 		3.2
6.4 		64
128 		940 940 940 117.5 14.1 ?
GeForce FX 5600 March 2003 AGP 8x
PCI 		325 275 64
128
256[21] 		8.8 128 1,300 1,300 1,300 162.5 19.5 25
GeForce FX 5600 Ultra March 6, 2003 AGP 8x 350 350 64
128 		11.2 1,400 1,400 1,400 175.0 21.0 27
GeForce FX 5600 Ultra Rev.2 400 400 12.8 1,600 1,600 1,600 200.0 24.0 31
GeForce FX 5700 VE September 2004 NV36 82[22] 133 250 200 4:3:4:4 128
256 		3.2
6.4 		64
128 		1000 1000 1000 187.5 17.5 20
GeForce FX 5700 LE March 2004 AGP 8x
PCI 		21
GeForce FX 5700 2003 AGP 8x 425 250 8.0 128 1,700 1,700 1,700 318.7 29.7 20
GeForce PCX 5750 March 17, 2004 PCIe x16 128 25
GeForce FX 5700 Ultra October 23, 2003 AGP 8x 475 453 128
256 		14.4 GDDR2 1,900 1,900 1,900 356.2 33.2 43
GeForce FX 5700 Ultra GDDR3 March 15, 2004 475 15.2 GDDR3 38
GeForce FX 5800 January 27, 2003 NV30 125[23] 199 400 400 4:2:8:4 128 12.8 GDDR2 1,600 1,600 3,200 300.0 24.0 55
GeForce FX 5800 Ultra 500 500 16.0 2,000 2,000 4,000 375.0 30.0 66
GeForce FX 5900 ZT December 15, 2003 NV35 135[24] 207 325 350 4:3:8:4 22.4 DDR 256 1,300 1,300 2,600 243.7 22.7 ?
GeForce FX 5900 XT December 15, 2003[25] 390 1,600 1,600 3,200 300.0 27.3 48
GeForce FX 5900 May 2003 400 425 27.2 28.0 55
GeForce FX 5900 Ultra May 12, 2003 450 128
256 		1,800 1,800 3,600 337.5 31.5 65
GeForce PCX 5900 March 17, 2004 PCIe x16 350 275 17.6 1,400 1,400 2,800 262.5 24.5 49
GeForce FX 5950 Ultra October 23, 2003 NV38 135[26] 207 AGP 8x 475 475 256 30.4 1,900 1,900 3,800 356.2 33.2 83
GeForce PCX 5950 February 17, 2004 PCIe x16 425 27.2 GDDR3 83
Launch Code name Fab (nm)[2] Transistors (million) Die size (mm2) Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate Performance (GFLOPS
FP32) 		TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOperations/s MPixels/s MTexels/s MVertices/s
  1. ^ a b Pixel shaders: vertex shaders: texture mapping units: render output units

GeForce 6 (6xxx) series

Further information: GeForce 6 series and Curie (microarchitecture)
  • All models support Direct3D 9.0c and OpenGL 2.1
  • All models support Transparency AA (starting with version 91.47 of the ForceWare drivers) and PureVideo
Model Launch Code name Fab (nm)[2] Transistors (million)
Die size (mm2) 		Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate Performance (GFLOPS) TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOperations/s MPixels/s MTexels/s MVertices/s
GeForce 6100 + nForce 410 October 20, 2005 MCP51 TSMC 90 nm HyperTransport 425 100–200 (DDR)
200–533 (DDR2) 		2:1:2:1 Up to 256 system RAM 1.6–6.4 (DDR)
3.2–17.056 (DDR2) 		DDR
DDR2 		64
128 		850 425 850 106.25 ? ?
GeForce 6150 SE + nForce 430 June 2006 MCP61 200
400[citation needed] 		3.2
16.0[citation needed] 		DDR2 ? ?
GeForce 6150 LE + nForce 430 MCP61 100–200 (DDR)
200–533 (DDR2) 		1.6–6.4 (DDR)
3.2–17.056 (DDR2) 		DDR
DDR2 		? ?
GeForce 6150 + nForce 430 October 20, 2005 MCP51 475 1.6–6.4 (DDR)
3.2–17.056 (DDR2) 		950 475 950 118.75 ? ?
GeForce 6200 LE April 4, 2005 NV44 TSMC 110 nm 75
110[27] 		AGP 8x
PCIe x16 		350 266 128
256 		4.256 DDR 64 700 700 700 87.5 ? ?
GeForce 6200A April 4, 2005 NV44A 75
110[28] 		AGP 8x

PCI

300

350[29]

250 (DDR)
250-333 (DDR2)[29] 		4:3:4:2 128
256[29]
512[29] 		4
4-5.34 (DDR2)[30] 		DDR
DDR2[31] 		64[31] 1,400[29] 700[29] 1400[29] 175
225[31] 		? ?
GeForce 6200 October 12, 2004 (PCIe)
January 17, 2005 (AGP) 		NV43 146
154[32] 		AGP 8x
PCI
PCIe x16 		300 275 4:3:4:4 128
256 		8.8 DDR 128 1,200 1,200 1,200 225 1.2 20
GeForce 6200 TurboCache December 15, 2004 NV44 75
110[27] 		PCIe x16 350 200
275
350 		4:3:4:2 128–256 System RAM incl.16/32–64/128 onboard 3.2
4.4
5.6 		DDR 64 1,400 700 1,400 262.5 1.4 25
GeForce 6500 October 1, 2005 400 333 128
256 		5.328 1,600 800 1,600 300 ? ?
GeForce 6600 LE 2005 NV43 146
154[32] 		AGP 8x
PCIe x16 		300 200 4:3:4:4 6.4 128 1,200 1,200 1,200 225 1.3 ?
GeForce 6600 August 12, 2004 275
400 		8:3:8:4 8.8
12.8 		DDR
DDR2 		2,400 2,400 2.4 26
GeForce 6600 GT August 12, 2004 (PCIe)
November 14, 2004 (AGP) 		500 475 (AGP)
500 (PCIe) 		15.2 (AGP)[33]
16 (PCIe) 		GDDR3 4,000 2,000 4,000 375 4.0 47
GeForce 6800 LE July 22, 2004 (AGP)
January 16, 2005 (PCIe) 		NV40 (AGP)
NV41, NV42 (PCIe) 		IBM 130 nm 222
287 (NV40)[34]
222
225 (NV41)[35]
198
222 (NV42)[36] 		320 (AGP)
325 (PCIe) 		350 8:4:8:8 128 22.4 DDR 256 2,560 (AGP)
2,600 (PCIe) 		2,560 (AGP)
2,600 (PCIe) 		2,560 (AGP)
2,600 (PCIe) 		320 (AGP)
325 (PCIe) 		2.6 ?
GeForce 6800 XT September 30, 2005 300 (64 Bit)
325 		266 (64 Bit)
350
500 (GDDR3) 		256 4.256
11.2
22.4
32 (GDDR3) 		DDR
DDR2
GDDR3 		64[37]
128[38]
256 		2,400
2,600 		2,400
2,600 		2,400
2,600 		300
325 		2.6 36
GeForce 6800 April 14, 2004 (AGP)
November 8, 2004 (PCIe) 		325 350 12:5:12:12 128
256 		22.4 DDR 256 3,900 3,900 3,900 406.25 3.9 40
GeForce 6800 GTO April 14, 2004 NV45 222
287 (NV45)[39] 		PCIe x16 450 256 28.8 GDDR3 4,200 4,200 4,200 437.5 ? ?
GeForce 6800 GS December 8, 2005 (AGP)
November 7, 2005 (PCIe) 		NV40 (AGP)
NV42 (PCIe) 		TSMC 110 nm 222
287 (NV40)[34]
198
222 (NV42)[36] 		AGP 8x
PCIe x16 		350 (AGP)
425 (PCIe) 		500 128
256 		32 5,100 5,100 5,100 531.25 4.2
5.1 		59
GeForce 6800 GT May 4, 2004 (AGP)
June 28, 2004 (PCIe) 		NV40 (AGP)
NV45 (PCIe) 		IBM 130 nm 222
287 (NV40)[34]
222
287 (NV45)[39] 		AGP 8x
PCIe x16 		350 16:6:16:16 5,600 5,600 5,600 525 5.6 67
GeForce 6800 Ultra May 4, 2004 (AGP)
June 28, 2004 (PCIe)
March 14, 2005 (512 MiB) 		400 525 (512 MiB)
550 (256 MiB) 		256
512 		33.6 (512 MiB)
35.2 (256 MiB) 		6,400 6,400 6,400 600 6.4 105
GeForce 6800 Ultra Extreme Edition May 4, 2004 NV40 222
287 (NV40)[34] 		AGP 8x 450 600 256 35.2 7,200 7,200 7,200 675 ? ?
Model Launch Code name Fab (nm)[2] Transistors (million)
Die size (mm2) 		Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate Performance (GFLOPS) TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOperations/s MPixels/s MTexels/s MVertices/s
  1. ^ a b Pixel shaders: vertex shaders: texture mapping units: render output units

Features

Model Features
OpenEXR HDR Scalable Link Interface (SLI) TurboCache PureVideo WMV9 Decoding
GeForce 6100 No No No Limited
GeForce 6150 SE No No Driver-Side Only Limited
GeForce 6150 No No No Yes
GeForce 6150 LE No No Driver-Side Only Yes
GeForce 6200 No No Yes (PCIe only) Yes
GeForce 6500 No Yes Yes Yes
GeForce 6600 LE Yes Yes (No SLI Connector) No Yes
GeForce 6600 Yes Yes (SLI Connector or PCIe Interface) No Yes
GeForce 6600 DDR2 Yes Yes (SLI Connector or PCIe Interface) No Yes
GeForce 6600 GT Yes Yes No Yes
GeForce 6800 LE Yes No No No
GeForce 6800 XT Yes Yes (PCIe only) No Yes (NV42 only)
GeForce 6800 Yes Yes (PCIe only) No Yes (NV41, NV42 only)
GeForce 6800 GTO Yes Yes No No
GeForce 6800 GS Yes Yes (PCIe only) No Yes (NV42 only)
GeForce 6800 GT Yes Yes (PCIe only) No No
GeForce 6800 Ultra Yes Yes (PCIe only) No No

GeForce 7 (7xxx) series

Further information: GeForce 7 series and Curie (microarchitecture)
  • All models support Direct3D 9.0c and OpenGL 2.1
  • All models support Transparency AA (starting with version 91.47 of the ForceWare drivers)
Model Launch Code name Fab (nm)[2] Transistors (million) Die size (mm2) Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate Performance (GFLOPS) TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOperations/s MPixels/s MTexels/s MVertices/s
GeForce 7025 + nForce 630a July 2007 MCP68S TSMC 110 nm HyperTransport 425 200 (DDR)
400 (DDR2)
933 (DDR3) 		2:1:2:2 Up to 256 system RAM 6.4
12.8
34 		DDR
DDR2
DDR3 		64
128 		850 850 850 106.25 ? ?
GeForce 7050PV + nForce 630a MCP67QV ? ?
GeForce 7050 + nForce 610i/630i MCP73 TSMC 90 nm HyperTransport/FSB 500 333 5.336 DDR2 64 1,000 1,000 1,000 125 ? ?
GeForce 7100 + nForce 630i MCP76 FSB 600 400 6.4 1,200 1,200 1,200 150 ? ?
GeForce 7150 + nForce 630i 630 1,260 1,260 1,260 157.5 ? ?
GeForce 7100 GS August 8, 2006 NV44 TSMC 110 nm 75[27] 110 PCIe x16 350 266
333 		4:3:4:2 128
256 		2.4
4.8 		DDR2 32
64 		1,400 700 1,400 262.5 ? ?
GeForce 7200 GS January 18, 2006 G72 TSMC 90 nm 112[40] 81 450 400 2:2:4:2 3.2
6.4 		DDR2 1,800 900 1,800 337.5 0.9 11
GeForce 7300 SE March 22, 2006 350 333 4:3:4:2 128 2.656
5.328 		? ?
GeForce 7300 LE 1.4 13
GeForce 7300 GS January 18, 2006 550 400 128
256 		6.4 64 2,200 1,100 2,200 412.5 2.2 10
GeForce 7300 GT May 15, 2006 G73 177[41] 125 AGP 8x
PCIe x16 		350 325 (DDR2)
700 (GDDR3) 		8:5:8:4 10.4
22.4 		DDR2
GDDR3 		128 2,800 1,400 2,800 437.5 2.8 24
GeForce 7500 LE 2006 G72 112[40] 81 PCIe x16 475
550 		405
324 		4:3:4:2 64
128
256 		6.480
5.2 		DDR2 64 2,200 1,100 2,200 593.8 ? 10
GeForce 7600 GS March 22, 2006 (PCIe)
July 1, 2006 (AGP) 		G73 177[41] 125 AGP 8x
PCIe x16 		400 400 (DDR2)
700 (GDDR3) 		12:5:12:8 256 12.8
22.4 		DDR2
GDDR3 		128 4,800 3,200 4,800 500 4.8 30
GeForce 7600 GT March 9, 2006 (PCIe)
July 15, 2006 (AGP) 		560 6,720 4,480 6,720 700 6.7 ?
GeForce 7600 GT 80 nm January 8, 2007 G73-B1 TSMC 80 nm ? 48
GeForce 7650 GS March 22, 2006 G73 PCIe x16 450 400 12.7 DDR2 5,400 3,600 5,400 562.5 ? ?
GeForce 7800 GS February 2, 2006 G70 TSMC 110 nm 302[42] 333 AGP 8x 375 600 16:8:16:8 38.4 GDDR3 256 6,000 3,000 6,000 750 6 70
GeForce 7800 GT August 11, 2005 PCIe x16 400 500 20:7:20:16 32 8,000 6,400 8,000 700 8 59
GeForce 7800 GTX June 22, 2005 (256 MiB)
November 14, 2005 (512 MiB) 		430 (256 MiB)
550 (512 MiB) 		600 (256 MiB)
850 (512 MiB) 		24:8:24:16 256
512 		38.4 (256 MiB)
54.4 (512 MiB) 		10,320 (256 MiB)
13,200 (512 MiB) 		6,880 (256 MiB)
8800 (512 MiB) 		10,320 (256 MiB)
13,200 (512 MiB) 		860 (256 MiB)
1,100 (512 MiB) 		10.3
13.2 		100 (256 MiB)
116 (512 MiB)
GeForce 7900 GS May 2006 (PCIe)
April 2, 2007 (AGP) 		G71 TSMC 90 nm 278[43] 196 AGP 8x
PCIe x16 		450 660 20:7:20:16 256 42.24 9,000 7,200 9,000 787.5 9 50
GeForce 7900 GT March 9, 2006 PCIe x16 24:8:24:16 10,800 10,800 900 10.8 65
GeForce 7900 GTO October 1, 2006 650 512 15,600 10,400 15,600 1,300 15.6 ?
GeForce 7900 GTX March 9, 2006 800 51.2 15.6 105
GeForce 7900 GX2 2x G71 500 600 2x 24:8:24:16 2x 512 2x 38.4 24,000 16,000 24,000 2,000 ? ?
GeForce 7950 GT September 6, 2006 (PCIe)
April 2, 2007 (AGP) 		G71 AGP 8x
PCIe x16 		550 700 24:8:24:16 512 44.8 13,200 8,800 13,200 1,100 13.2 90
GeForce 7950 GX2 June 5, 2006 2x G71 PCIe x16 500 600 2x 24:8:24:16 2x 512 2x 38.4 24,000 16,000 24,000 2000 24 136
Model Launch Code name Fab (nm)[2] Transistors (million) Die size (mm2) Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOperations/s MPixels/s MTexels/s MVertices/s Performance (GFLOPS) TDP (Watts)
Memory Fillrate
  1. ^ a b Pixel shaders: vertex shaders: texture mapping units: render output units

Features

Model Features
Gamma-correct antialiasing 64-bit OpenEXR HDR Scalable Link Interface (SLI) TurboCache Dual Link DVI
GeForce 7100 GS No No Yes (PCIe only, No SLI bridge) Yes No
GeForce 7200 GS Yes Yes No Yes No
GeForce 7300 SE Yes Yes No Yes No
GeForce 7300 LE Yes Yes No Yes No
GeForce 7300 GS Yes Yes Yes (PCIe only) Yes No
GeForce 7300 GT Yes Yes Yes (PCIe only, No SLI bridge) No One port
GeForce 7600 GS Yes Yes Yes (PCIe only) No One port
GeForce 7600 GT Yes Yes Yes (PCIe only) No One port
GeForce 7600 GT (80 nm) Yes Yes Yes No One port
GeForce 7650 GS (80 nm) Yes Yes Yes (Depending on OEM Design) No One port
GeForce 7800 GS Yes Yes No No One port
GeForce 7800 GT Yes Yes Yes No One port
GeForce 7800 GTX Yes Yes Yes No One port
GeForce 7800 GTX 512 Yes Yes Yes No One port
GeForce 7900 GS Yes Yes Yes (PCIe only) No Two ports
GeForce 7900 GT Yes Yes Yes No Two ports
GeForce 7900 GTO Yes Yes Yes No Two ports
GeForce 7900 GTX Yes Yes Yes No Two ports
GeForce 7900 GX2 (GTX Duo) Yes Yes Yes No Two ports
GeForce 7950 GT Yes Yes Yes (PCIe only) No Two ports
GeForce 7950 GX2 Yes Yes Yes No Two ports

GeForce 8 (8xxx) series

Further information: GeForce 8 series and Tesla (microarchitecture)
  • All models support coverage sample anti-aliasing, angle-independent anisotropic filtering, and 128-bit OpenEXR HDR.
Model Launch Code name Fab (nm)[2] Transistors (million) Die size (mm2) Bus interface Clock rate Core config[a] Fillrate Memory Processing power (GFLOPS)[b] Supported API version TDP (Watts) Comments
Core (MHz) Shader (MHz) Memory (MHz) Pixel (GP/s) Texture (GT/s) Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Direct3D OpenGL OpenCL CUDA
GeForce 8100 mGPU[44] 2008 MCP78 TSMC 80 nm Un­known Un­known PCIe 2.0 x16 500 1200 400
(system memory) 		8:8:4 2 4 Up to 512 from system memory 6.4
12.8 		DDR2 64
128 		28.8 10.0 3.3 n/a n/a Un­known The block of decoding of HD-video PureVideo HD is disconnected
GeForce 8200 mGPU[44] Un­known Un­known gt Un­known PureVideo 3 with VP3
GeForce 8300 mGPU[44] Un­known Un­known 1500 Up to 512 from system memory 36 Un­known
GeForce 8300 GS[45] July 2007 G86 210 127 PCIe 1.0 x16 450 900 400 1.8 3.6 128
512 		6.4 64 14.4 1.1 1.1 40 OEM only
GeForce 8400 GS June 15, 2007 PCIe 1.0 x16
PCI 		16:8:4 128
256
512 		28.8
GeForce 8400 GS rev.2 December 10, 2007 G98 TSMC 65 nm 86 PCIe 2.0 x16
PCIe x1
PCI 		567 1400 8:8:4 2.268 4.536 22.4 25
GeForce 8400 GS rev.3 July 12, 2010 GT218 TSMC 40 nm 260 57 PCIe 2.0 x16 520
589 		1230 400 (DDR2)
600 (DDR3) 		8:4:4 2.08
2.356 		2.08
2.356 		512
1024 		4.8
6.4
9.6 		DDR2
DDR3 		32
64 		19.7 10.1 1.2
GeForce 8500 GT April 17, 2007 G86 TSMC 80 nm 210 127 PCIe 1.0 x16
PCI 		450 900 400 16:8:4 1.8 3.6 256
512
1024 		12.8 DDR2 128 28.8 10.0 1.1 45
GeForce 8600 GS April 2007 G84 289 169 PCIe 1.0 x16 540 1180 16:8:8 4.32 4.32 256
512 		75.5 47 OEM only
GeForce 8600 GT April 17, 2007 PCIe 1.0 x16
PCI 		1188 400
700 		32:16:8 8.64 256
512
1024 		12.8
22.4 		DDR2
GDDR3 		76
GeForce 8600 GTS PCIe 1.0 x16 675 1450 1000 5.4 10.8 256
512 		32 GDDR3 92.8 71
GeForce 8800 GS January 2008 G92 TSMC 65 nm 754 324 PCIe 2.0 x16 550 1375 800 96:48:12 6.6 26.4 384
768 		38.4 192 264 105
GeForce 8800 GTS (G80) February 12, 2007 (320)
November 8, 2006 (640) 		G80 TSMC 90 nm 681 484 PCIe 1.0 x16 513 1188 96:24:20 10.3 12.3 320
640 		64 320 228 1.0 146
GeForce 8800 GTS 112 (G80) November 19, 2007 500 1200 112:28:[c]20 10 14 640 268.8 150 only XFX, EVGA and BFG models, very short-lived[48]
GeForce 8800 GT October 29, 2007 (512)
December 11, 2007 (256, 1024) 		G92 TSMC 65 nm 754 324 PCIe 2.0 x16 600 1500 700 (256)
900 (512, 1024) 		112:56:16 9.6 33.6 256
512
1024 		57.6 256 336 1.1 125
GeForce 8800 GTS (G92) December 11, 2007 650 1625 970 128:64:16 10.4 41.6 512 62.1 416 135
GeForce 8800 GTX November 8, 2006 G80 TSMC 90 nm 681 484 PCIe 1.0 x16 575 1350 900 128:32:[c]24 13.8 18.4 768 86.4 384 345.6 1.0 145
GeForce 8800 Ultra May 2, 2007 612 1500 1080 14.7 19.6 103.7 384 175
Model Launch Code name Fab (nm)[2] Transistors (million) Die size (mm2) Bus interface Core (MHz) Shader (MHz) Memory (MHz) Core config[a] Pixel (GP/s) Texture (GT/s) Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Single precision Direct3D OpenGL OpenCL CUDA TDP (Watts) Comments
Clock rate Fillrate Memory Processing power (GFLOPS)[b] Supported API version
  1. ^ a b Unified shaders: texture mapping units: render output units
  2. ^ a b To calculate the processing power, see Performance.
  3. ^ a b Full G80 contains 32 texture address units and 64 texture filtering units unlike G92 which contains 64 texture address units and 64 texture filtering units[46][47]

Features

  • Compute Capability 1.1: has support for Atomic functions, which are used to write thread-safe programs.
  • Compute Capability 1.2: for details see CUDA
Model Features
Scalable
Link
Interface
(SLI) 		3-Way
SLI 		PureVideo HD
with VP1 		PureVideo 2 with VP2,
BSP Engine, and AES128 Engine 		PureVideo 3 with VP3,
BSP Engine, and AES128 Engine 		PureVideo 4 with VP4 Compute
ability
GeForce 8300 GS (G86) No No No Yes No No 1.1
GeForce 8400 GS Rev. 2 (G98) No No No No Yes No 1.1
GeForce 8400 GS Rev. 3 (GT218) No No No No No Yes 1.2
GeForce 8500 GT Yes No No Yes No No 1.1
GeForce 8600 GT Yes No No Yes No No 1.1
GeForce 8600 GTS Yes No No Yes No No 1.1
GeForce 8800 GS (G92) Yes No No Yes No No 1.1
GeForce 8800 GTS (G80) Yes No Yes No No No 1.0
GeForce 8800 GTS Rev. 2 (G80) Yes No Yes No No No 1.0
GeForce 8800 GT (G92) Yes No No Yes No No 1.1
GeForce 8800 GTS (G92) Yes No No Yes No No 1.1
GeForce 8800 GTX Yes Yes Yes No No No 1.0
GeForce 8800 Ultra Yes Yes Yes No No No 1.0

GeForce 9 (9xxx) series

Further information: GeForce 9 series and Tesla (microarchitecture)
  • All models support Coverage Sample Anti-Aliasing, Angle-Independent Anisotropic Filtering, 128-bit OpenEXR HDR
Model Launch Code name Fab (nm)[2] Transistors (million) Die size (mm2) Bus interface Clock rate Core config[a] Memory Fillrate Processing power (GFLOPS)[b] Supported API version TDP (Watts) Comments
Core (MHz) Shader (MHz) Memory (MHz) Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL
GeForce 9300 mGPU October 2008 MCP7A-S 65 nm 282 162 PCIe 2.0 x16 450 1200 400
666 		16:8:4 Up to 512 from system memory 6.4/12.8
10.664/21.328 		DDR2
DDR3 		64
128 		1.8 3.6 57.6 10.0 3.3 Un­known based on 8400 GS
GeForce 9400 mGPU MCP7A-U 580 1400 2.32 4.64 67.2 12
GeForce 9300 GE[49] June 2008 G98 TSMC 65 nm 210 86 540 1300 500 8:8:4 256 6.4[50] DDR2 64 2.16 4.32 20.8 25
GeForce 9300 GS[49] 567 1400 2.268 4.536 22.4
GeForce 9400 GT August 27, 2008 G96-200-c1
G96a
G96b 		TSMC 55 nm 314 144 PCIe 2.0 x16
PCI 		550 400
800 		16:8:4 256
512
1024 		12.8
25.6 		DDR2
GDDR3 		128 2.2 4.4 44.8 50
GeForce 9500 GS 500 24:12:4 16.0 DDR2 60 OEM
GeForce 9500 GT July 29, 2008 G96-300-C1 UMC 65 nm 500
800 		32:16:8 16.0
25.6 		DDR2
GDDR3 		4.4 8.8 89.6
GeForce 9600 GS G94a TSMC 65 nm 505 240 PCIe 2.0 x16 500 1250 500 48:24:12 768 24.0 DDR2 192 6 12 120 Un­known OEM
GeForce 9600 GSO May 2008 G92-150-A2 754 324 550 1375 800 96:48:12 384
768
1536 		38.4 GDDR3 6.6 26.4 264 84
GeForce 9600 GSO 512 October 2008 G94a
G94b 		TSMC 65 nm
TSMC 55 nm 		505 240
196?[citation needed] 		650 1625 900 48:24:16 512 57.6 256 10.4 15.6 156 90
GeForce 9600 GT Green Edition 2009 G94b TSMC 55 nm 196?[citation needed] 600
625 		1500
1625 		700/900
900[citation needed] 		64:32:16 512
1024 		44.8/57.6
57.6[citation needed] 		9.6
10.0 		19.2
20.0 		192
208 		59 Core Voltage = 1.00v
GeForce 9600 GT February 21, 2008 G94-300-A1 TSMC 65 nm 240 650 1625 900 57.6 10.4 20.8 208 95
GeForce 9800 GT Green Edition 2009 G92a2
G92b 		TSMC/UMC 65 nm
TSMC/UMC 55 nm 		754 324
260 		550 1375 700
800
900 		112:56:16 44.8
51.2
57.6 		8.8 30.8 308 75 Core Voltage = 1.00v
GeForce 9800 GT July 2008 G92a
G92b 		65 nm
UMC 55 nm 		600 1500 900 57.6 9.6 33.6 336 125
105
GeForce 9800 GTX April 1, 2008 G92-420-A2 TSMC 65 nm 324 675 1688 1100 128:64:16 512 70.4 10.8 43.2 432 140
GeForce 9800 GTX+ July 16, 2008 G92b TSMC 55 nm 260 738 1836 1100 512
1024 		11.808 47.232 470 141
GeForce 9800 GX2 March 18, 2008 2x G92 TSMC/UMC 65 nm 2x 754 2x 324 600 1500 1000 2x 128:64:16 2x 512 2x 64.0 2x 256 2x 9.6 2x 38.4 2x 384 197
Model Launch Code name Fab (nm)[2] Transistors (million) Die size (mm2) Bus interface Core (MHz) Shader (MHz) Memory (MHz) Core config[a] Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL TDP (Watts) Comments
Clock rate Memory Fillrate Processing power (GFLOPS)[b] Supported API version
  1. ^ a b Unified shaders: texture mapping units: render output units
  2. ^ a b To calculate the processing power see Tesla (microarchitecture)#Performance.

Features

  • Compute Capability: 1.1 has support for Atomic functions, which are used to write thread-safe programs.
Model Features
Scalable Link Interface (SLI) PureVideo 2 with VP2,
BSP Engine, and AES128 Engine 		PureVideo 3 with VP3,
BSP Engine, and AES128 Engine
GeForce 9300 GE (G98) Yes No Yes
GeForce 9300 GS (G98)
GeForce 9400 GT Yes No
GeForce 9500 GT
GeForce 9600 GSO
GeForce 9600 GT
GeForce 9800 GT
GeForce 9800 GTX Yes
3-way
GeForce 9800 GTX+
GeForce 9800 GX2 Yes

GeForce 100 series

Further information: GeForce 100 series and Tesla (microarchitecture)
Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate Core config[a] Memory configuration Fillrate Processing power (GFLOPS)[b] Supported API version TDP (Watts) Comments
Core (MHz) Shader (MHz) Memory (MHz) Size (MiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL
GeForce G 100 March 10, 2009 G98 TSMC 65 nm 210 86 PCIe 2.0 x16 567 1400 500 8:8:4 512 8.0 DDR2 64 2.15 4.3 22.4 10.0 3.3 35 OEM products
GeForce GT 120 G96b TSMC 55 nm 314 121 500 800 32:16:8 16.0 128 4.4 8.8 89.6 50
GeForce GT 130 G94b 505 196 1250 500 48:24:12 1536 24.0 192 6 12 120 75
GeForce GT 140 650 1625 1800 64:32:16 512 1024 57.6 GDDR3 256 10.4 20.8 208 105
GeForce GTS 150 G92b 754 260 738 1836 1000 128:64:16 1024 64.0 11.808 47.232 470 141
  1. ^ Unified shaders: texture mapping units: render output units
  2. ^ To calculate the processing power see Tesla (microarchitecture)#Performance.

GeForce 200 series

Further information: GeForce 200 series and Tesla (microarchitecture)
  • All models support Coverage Sample Anti-Aliasing, Angle-Independent Anisotropic Filtering, 240-bit OpenEXR HDR
Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate Core config[a] Memory configuration Fillrate Processing power (GFLOPS)[b] Supported API version TDP (Watts) Comments Release Price (USD)
Core (MHz) Shader (MHz) Memory (GT/s) Size (MiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL
GeForce 205 November 26, 2009 GT218 TSMC 40 nm 260 57 PCIe 2.0 x16 589 1402 1 8:4:4 512 8 DDR2 64 2.356 2.356 22.4 10.1 3.3 30.5 OEM only
GeForce 210 October 12, 2009 GT218-325-B1 PCIe 2.0 x16
PCIe x1
PCI 		520
589 		1230
1402 		0.8
1–1.6 		16:8:4 512
1024 		4.0
8.0
12.8 		DDR2
DDR3 		32
64 		2.356 4.712 36.4
44.9 		30.5
GeForce GT 220 GT216-300-A2 TSMC 40 nm 486 100 PCIe 2.0 x16 615(OEM)
625 		1335(OEM)
1360 		1
1.58 		48:16:8 512
1024 		16.0
25.3 		DDR2
DDR3 		64
128 		5 10 128.2(OEM)
130.6 		58
GeForce GT 230 October 12, 2009[51] G94b TSMC/UMC 55 nm 505 196? 650 1625 1.8 48:24:16 512
1024 		57.6 GDDR3 256 10.4 15.6 156 10 75 OEM only
April 27, 2009[52] G92b 754 260 500 1242 1 96:48:12 1536 24 DDR2 192 6 24 238.5
GeForce GT 240 November 17, 2009 GT215-450-A2 TSMC 40 nm 727 139 550 1340 1.8
2
3.4(GDDR5) 		96:32:8 512
1024 		28.8(OEM)
32
54.4(GDDR5) 		DDR3
GDDR3
GDDR5 		128 4.4 17.6 257.3 10.1 69
GeForce GTS 240 July 1, 2009[53] G92a
G92b 		TSMC 65 nm
TSMC/UMC 55 nm 		754 324
260 		675 1620 2.2 112:56:16 1024 70.4 GDDR3 256 10.8 37.8 362.9 10.0 120 OEM only
GeForce GTS 250 2009 G92b TSMC/UMC 55 nm 260 702 1512 2 128:64:16 512
1024 		64.0 11.2 44.9 387 130
March 3, 2009 G92-428-B1 TSMC 65 nm
TSMC/UMC 55 nm 		738 1836 2
2.2 		512
1024 		64.0
70.4 		11.808 47.232 470 150 Some cards are rebranded GeForce 9800 GTX+ $150
($130 512 MiB)
GeForce GTX 260 June 16, 2008 GT200-100-A2 65 nm 1400 576 576 1242 1.998 192:64:28 896 111.9 448 16.128 36.864 477 182 Replaced by GTX 260 Core 216 $400 (dropped to $270 after 3 months[54])
September 16, 2008
November 27, 2008 (55 nm) 		GT200-103-A2
G200-103-B2 		65 nm
55 nm 		576
470 		576 1242
1350 		1.998 216:72:28 896 (1792) 111.9 16.128 41.472 536.5
583.2 		182
171 		55 nm version has less TDP $300
GeForce GTX 275 April 9, 2009 GT200-105-B3 TSMC/UMC 55 nm 470 633 1404 2.268 240:80:28 896 (1792) 127.0 17.724 50.6 674 219 Effectively one-half of the GTX 295 $250
GeForce GTX 280 June 17, 2008 GT200-300-A2 65 nm 576 602 1296 2.214 240:80:32 1024 141.7 512 19.264 48.16 622 236 Replaced by GTX 285 $650 (dropped to $430 after 3 months[54])
GeForce GTX 285 January 15, 2009 GT200-350-B3 TSMC/UMC 55 nm 470 648 1476 2.484 1024 (2048) 159.0 512 20.736 51.84 708.48 204 EVGA GTX285 Classified supports 4-way SLI $400
GeForce GTX 295 January 8, 2009 2x GT200-400-B3 2x 1400 2x 470 576 1242 1.998 2x 240:80:28 2x 896 2x 111.9 2x 448 2x 16.128 2x 46.08 1192.3 289 Dual PCB models were replaced with a single PCB model with 2 GPUs $500
Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Core (MHz) Shader (MHz) Memory (GT/s) Core config[a] Size (MiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL TDP (Watts) Comments Release Price (USD)
Clock rate Memory configuration Fillrate Processing power (GFLOPS)[b] Supported API version
  1. ^ a b Unified shaders: texture mapping units: render output units
  2. ^ a b To calculate the processing power see Tesla (microarchitecture)#Performance.

Features

  • Compute Capability: 1.1 (G92 [GTS250] GPU)
  • Compute Capability: 1.2 (GT215, GT216, GT218 GPUs)
  • Compute Capability: 1.3 has double precision support for use in GPGPU applications. (GT200a/b GPUs only)
Model Features
Scalable Link Interface (SLI) PureVideo 2 with VP2
Engine: (BSP and 240 AES) 		PureVideo 4 with VP4 Engine
GeForce 210 No No Yes
GeForce GT 220
GeForce GT 240
GeForce GTS 250 Yes
3-Way (4-way for EVGA 285 Classified) 		Yes No
GeForce GTX 260
GeForce GTX 260 Core 216
GeForce GTX 260 Core 216 (55 nm)
GeForce GTX 275
GeForce GTX 280
GeForce GTX 285
GeForce GTX 295 Yes

GeForce 300 series

Further information: GeForce 300 series and Tesla (microarchitecture)
Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate Core config[a] Memory configuration Fillrate Processing power (GFLOPS)[b] TDP (Watts) Comments
Core (MHz) Shader (MHz) Memory (MHz) Size (MiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision
GeForce 310 November 27, 2009 GT218 TSMC 40 nm 260 57 PCIe 2.0 x16 589 1402 1000 16:8:4 512 8 DDR2 64 2.356 4.712 44.8 30.5 OEM Card, similar to Geforce 210
GeForce 315 February 2010 GT216 486 100 475 1100 1580 48:16:4 512 12.6 DDR3 3.8 7.6 105.6 33 OEM Card, similar to Geforce GT220
GeForce GT 320 GT215 727 144 540 1302 72:24:8 1024 25.3 GDDR3 128 4.32 12.96 187.5 43 OEM Card
GeForce GT 330[55] GT215-301-A3[56] 550 1350 96:32:8 512 32.00 128 4.40 17.60 257.3 75 Specifications vary depending on OEM, similar to GT230 v2.
G92[57] 500 1250 256 51.20 256 4.000 24.00 240.0
G92B[58] 96:32:16 1024 16.32 DDR2 128 8.000
GeForce GT 340 GT215 550 1340 3400 96:32:8 512
1024 		54.4 GDDR5[59] 128 257.3 69 OEM Card, similar to GT240
  1. ^ Unified shaders: texture mapping units: render output units
  2. ^ To calculate the processing power see Tesla (microarchitecture)#Performance.

GeForce 400 series

Further information: GeForce 400 series and Fermi (microarchitecture)
  • All cards have a PCIe 2.0 x16 Bus interface.
  • The base requirement for Vulkan 1.0 in terms of hardware features was OpenGL ES 3.1 which is a subset of OpenGL 4.3, which is supported on all Fermi and newer cards.
  • Memory bandwidths stated in the following table refer to Nvidia reference designs. Actual bandwidth can be higher or lower depending on the maker of the graphic board.
Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Clock rate SM count Core config[a][b] Memory configuration Fillrate Processing power (GFLOPS)[c] Supported API version TDP (Watts)[d] Release Price (USD)
Core (MHz) Shader (MHz) Memory (MHz) Size (GiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Vulkan Direct3D OpenGL OpenCL[e] CUDA
GeForce 405[f] September 16, 2011 GT216
GT218 		40 nm 486
260 		100
57 		475
589 		1100
1402 		800
790 		1 48:16:8
16:8:4 		0.5
1 		12.6 DDR3 64 3.8
2.36 		7.6
4.71 		105.6
44.86 		Un­known n/a[63] 10.1 3.3 1.1 1.2 30.5 OEM
GeForce GT 420 September 3, 2010 GF108 TSMC 40 nm 585 116 700 1400 1800 48:4:4 0.5 28.8 GDDR3 128 2.8 2.8 134.4 Un­known 12 FL 11_1 4.6 2.1 50
GeForce GT 430 October 11, 2010 GF108
GF108-300-A1 		1600
1800 		2 96:16:4 0.5 25.6
28.8 		11.2 268.8 Un­known 1.2 60
1800 0.5
1
2 		28.8 128 268.8 Unknown 1.1 49 $79
1300 10.4 64
GeForce GT 440 February 1, 2011 GF108 810 1620 1800
3200 		0.5
1 		28.8
51.2 		GDDR3
GDDR5 		128 3.2 12.9 311.04 Un­known 65 $100
October 11, 2010 GF106 1170 238 594 1189 1600
1800 		3 144:24:24 1.5
3 		43.2 DDR3 192 4.86 19.44 342.43 Un­known 56 OEM
GeForce GTS 450 790 1580 4000 1.5 96.0 GDDR5 4.7 18.9 455.04 Un­known 106
September 13, 2010
March 15, 2011 		GF106-250
GF116-200 		783 1566 1200-1600 (GDDR3)
3608 (GDDR5) 		4 192:32:16 0.5
1 		57.7 128 6.2 25.0 601.34 Un­known 106 $129
GeForce GTX 460 SE November 15, 2010 GF104-225-A1 1950 332 650 1300 3400 6 288:48:32 1 108.8 256 7.8 31.2 748.8 Un­known 150 $160
GeForce GTX 460 October 11, 2010 GF104 7 336:56:32 1 108.8 9.1 36.4 873.6 Un­known OEM
July 12, 2010 GF104-300-KB-A1 675 1350 3600 336:56:24 0.75 86.4 192 9.4 37.8 907.2 Unknown $199
336:56:32 1
2 		115.2 256 160 $229
September 24, 2011 GF114 779 1557 4008 336:56:24 1 96.2 192 10.9 43.6 1045.6 Un­known $199
GeForce GTX 465 May 31, 2010 GF100-030-A3 3000[64] 529 608 1215 3206 11 352:44:32 1 102.7 256 13.3 26.7 855.36 106.92 1.2 2.0 200[d] $279
GeForce GTX 470 March 26, 2010 GF100-275-A3 3348 14 448:56:40 1.25 133.9 320 17.0 34.0 1088.64 136.08 215[d] $349
GeForce GTX 480 March 26, 2010 GF100-375-A3 701 1401 3696 15 480:60:48 1.5 177.4 384 21.0 42.0 1344.96 168.12 250[d] $499
Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Clock rate SM count Core config[a][b] Memory configuration Fillrate Processing power (GFLOPS)[c] Supported API version TDP (Watts)[d] Release Price (USD)
Core (MHz) Shader (MHz) Memory (MHz) Size (GiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Vulkan Direct3D OpenGL OpenCL[e] CUDA
  1. ^ a b Unified shaders: texture mapping units: render output units
  2. ^ a b Each SM in the GF100 contains 4 texture filtering units for every texture address unit. The complete GF100 die contains 64 texture address units and 256 texture filtering units.[60] Each SM in the GF104/106/108 architecture contains 8 texture filtering units for every texture address unit but has doubled both addressing and filtering units. The complete GF104 die also contains 64 texture address units and 512 texture filtering units despite the halved SM count, the complete GF106 die contains 32 texture address units and 256 texture filtering units and the complete GF108 die contains 16 texture address units and 128 texture filtering units.[61]
  3. ^ a b To calculate the processing power see Fermi (microarchitecture)#Performance.
  4. ^ a b c d e Note that while GTX 460's TDP is comparable to that of AMD's HD5000 series, GF100-based cards (GTX 480/470/465) are rated much lower but pull significantly more power, e.g. GTX 480 with 250W TDP consumes More power than an HD 5970 with 297W TDP.[62]
  5. ^ a b The 400 series is the only non-OEM family from GeForce 9 to 700 series not to include an official dual-GPU system. However, on March 18, 2011, EVGA released the first single-PCB card with dual 460s on board. The card came with 2048 MiB of memory at 3600 MHz and 672 shader processors at 1400 MHz and was offered at the MSRP of $429.
  6. ^ The GeForce 405 card is a rebranded GeForce 310 which itself is a rebranded GeForce 210.

GeForce 500 series

Further information: GeForce 500 series and Fermi (microarchitecture)
Model name Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate SM count Core config [a][b] Memory configuration Fillrate Processing power (GFLOPS) [c] Supported API version TDP (Watts) [d] Release Price (USD)
Core (MHz) Shader (MHz) Memory (MHz) Size (GiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Vulkan Direct3D OpenGL OpenCL 8 CUDA
GeForce 510 September 29, 2011 GF119 TSMC
40 nm 		292 79 PCIe 2.0 x16 523 1046 1800 1 48:8:4 1
2 		14.4 DDR3 64 2.1 4.5 100.4 Un­known n/a [63] 12 FL 11_1 4.6 1.1 2.1 25 OEM
GeForce GT 520 April 12, 2011 PCIe 2.0 x16
PCIe 2.0 x1
PCI 		810 1620 14.4 3.25 6.5 155.5 Un­known 29 $59
GeForce GT 530 [67] May 14, 2011 GF108-220 585 116 PCIe 2.0 x16 700 1400 2 96:16:4 28.8 128 2.8 11.2 268.8 22.40 50 OEM
GeForce GT 545 GF116 ~1170 ~238 720 1440 3 144:24:16 1.5
3 		43 192 11.52 17.28 415.07 Un­known 70 $149
870 1740 3996 1 64 GDDR5 128 13.92 20.88 501.12 Un­known 105 OEM
GeForce GTX 550 Ti March 15, 2011 GF116-400 900 1800 4104 4 192:32:24 0.75+0.25
1.5 		65.7+32.8
98.5 		128+64 [e]
192 		21.6 28.8 691.2 Un­known 116 $149
GeForce GTX 555 May 14, 2011 GF114 1950 332 736 1472 3828 6 288:48:24 1 91.9 128+64 [e] 17.6 35.3 847.9 Un­known 150 OEM
GeForce GTX 560 SE February 20, 2012 [68] GF114-200-KB-A1[f] Un­known
GeForce GTX 560 May 17, 2011 GF114-325-A1 [f] 810 1620 4008 7 336:56:32 1 2 128.1 256 25.92 45.36 1088.6 Un­known $199
GeForce GTX 560 Ti January 25, 2011 GF114-400-A1 [f] 822 1645 8 384:64:32 128.26 26.3 52.61 1263.4 110 170 $249
May 30, 2011 GF110 [g] 3000 [70] 520 [70] 732 1464 3800 11 352:44:40 1.25
2.5 		152 320 29.28 32.21 1030.7 128.83 210 [d] OEM
GeForce GTX 560 Ti (448 Cores) November 29, 2011 GF110-270-A1 [g] 14 448:56:40 1.25 40.99 1311.7 163.97 $289
GeForce GTX 570 December 7, 2010 GF110-275-A1 [g] 15 480:60:40 1.25 2.5 43.92 1405.4 175.68 2.0 219 [d] $349
GeForce GTX 580 November 9, 2010 GF110-375-A1 [g] 772 1544 4008 16 512:64:48 1.5
3 [h] 		192.384 384 37.05 49.41 1581.1 197.63 244 [d][72] $499
GeForce GTX 590 March 24, 2011 2x GF110-351-A1 2x 3000 2x 520 607 1215 3414 2x 16 2x 512:64:48 2x 1.5 2x 163.87 2x 384 2x 29.14 2x 38.85 2488.3 311.04 365 $699
Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate SM count Core config [a][b] Memory configuration Fillrate Processing power (GFLOPS) [c] Supported API version TDP (Watts) [d] Release Price (USD)
Core (MHz) Shader (MHz) Memory (MHz) Size (GiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Vulkan Direct3D OpenGL OpenCL 8 CUDA
  1. ^ a b Unified shaders: texture mapping units: render output units
  2. ^ a b Each SM in the GF110 contains 4 texture filtering units for every texture address unit. The complete GF110 die contains 64 texture address units and 256 texture filtering units.[65] Each SM in the GF114/116/118 architecture contains 8 texture filtering units for every texture address unit but has doubled both addressing and filtering units.
  3. ^ a b To calculate the processing power see Fermi (microarchitecture)#Performance.
  4. ^ a b c d e Similar to previous generation, GTX 580 and most likely future GTX 570[needs update], while reflecting its improvement over GF100, still have lower rated TDP and higher power consumption, e.g. GTX580 (243W TDP) is slightly less power hungry than GTX 480 (250W TDP). This is managed by clock throttling through drivers when a dedicated power hungry application is identified that could breach card TDP. Application name changing will disable throttling and enable full power consumption, which in some cases could be close to that of GTX480.[66]
  5. ^ a b 1024 MiB RAM on 192-bit bus assemble with 4 x (128 MiB) + 2 x (256 MiB).
  6. ^ a b c Internally referred to as GF104B[69]
  7. ^ a b c d Internally referred to as GF100B[69]
  8. ^ Some companies have announced that they will be offering the GTX580 with 3GB RAM.[71]

GeForce 600 series

Further information: GeForce 600 series and Kepler (microarchitecture)
  • Add NVENC on GTX cards
  • Several 600 series cards are rebranded 400 or 500 series cards.
Model name Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate SM count Core config [a] Memory configuration Fillrate Processing power (GFLOPS) [b] Supported API version TDP (Watts) Release Price (USD)
Core (MHz) Average Boost (MHz) Max Boost (MHz) Shader (MHz) Memory (MHz) Size (GiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Vulkan [c] Direct3D OpenGL OpenCL
GeForce 605 [d] April 3, 2012 GF119 TSMC
40 nm 		292 79 PCIe 2.0 x16 523 1046 898
(1796) 		1 48:8:4 0.5 1 14.4 DDR3 64 2.09 4.2 100.4 Un­known 12 4.6 1.2 25 OEM
GeForce GT 610 [e] May 15, 2012 GF119-300-A1 PCIe 2.0 x16, PCIe x1, PCI 810 1620 1000
1800 		48:8:4 0.5
1
2 		8
14.4 		3.24 6.5 155.5 Un­known 29 Retail
GeForce GT 620 [f] April 3, 2012 GF119 PCIe 2.0 x16 898
(1796) 		48:8:4 0.5
1 		14.4 6.5 155.5 Un­known 30 OEM
May 15, 2012 GF108-100-KB-A1 585 116 700 1400 1000–1800 2 96:16:4 1
2 		8–14.4 2.8 11.2 268.8 Un­known 49 Retail
GeForce GT 625 February 19, 2013 GF119 292 79 810 1620 898
(1796) 		1 48:8:4 0.5 1 14.4 3.24 6.5 155.5 Un­known 30 OEM
GeForce GT 630 [g][h] April 24, 2012 GK107 TSMC 28 nm 1300 118 PCIe 3.0 x16 875 875 891
(1782) 		192:16:16 1
2 		28.5 128 14 14 336 14 1.2 50
May 15, 2012 GF108-400-A1 TSMC
40 nm 		585 116 PCIe 2.0 x16 700 1620 1600–1800 2 96:16:4 1
2
4 		25.6–28.8 2.8 11.2 311 Un­known 49 Retail
GF108 810 1620 800
(3200) 		96:16:4 1 51.2 GDDR5 3.2 13 311 Un­known 65
May 29, 2013 GK208-301-A1 TSMC
28 nm 		1020 79 PCIe 2.0 x8 902 902 900
(1800) 		1 384:16:8 1
2 		14.4 DDR3 64 7.22 14.44 692.7 Un­known 1.2 25
GeForce GT 635 February 19, 2013 GK208 PCIe 3.0 x8 967 967 1001
(2002) 		384:16:8 16 7.74 15.5 742.7 Un­known 35 OEM
GeForce GT 640 [i] April 24, 2012 GF116 TSMC
40 nm 		1170 238 PCIe 2.0 x16 720 1440 891
(1782) 		3 144:24:24 1.5
3 		42.8 192 17.3 17.3 414.7 Un­known 75
GK107 TSMC
28 nm 		1300 118 PCIe 3.0 x16 797 797 891
(1782) 		2 384:32:16 1
2 		28.5 128 12.8 25.5 612.1 25.50 1.2 50
June 5, 2012 900 900 891
(1782) 		2
4 		28.5 14.4 28.8 691.2 28.8 65 $100
April 24, 2012 950 950 1250
(5000) 		1
2 		80 GDDR5 15.2 30.4 729.6 30.40 75 OEM
May 29, 2013 GK208-400-A1 TSMC
28 nm 		1020 79 PCIe 2.0 x8 1046 1046 1252
(5008) 		384:16:8 1 40.1 64 8.37 16.7 803.3 Un­known 49
GeForce GT 645 [j] April 24, 2012 GF114-400-A1 TSMC
40 nm 		1950 332 PCIe 2.0 x16 776 1552 1914 6 288:48:24 91.9 192 18.6 37.3 894 Un­known 140 OEM
GeForce GTX 645 April 22, 2013 GK106 TSMC
28 nm 		2540 221 PCIe 3.0 x16 823.5 888.5 823 1000
(4000) 		3 576:48:16 64 128 14.16 39.5 948.1 39.53 1.2 64
GeForce GTX 650 September 13, 2012 GK107-450-A2 1300 118 1058 1058 1250
(5000) 		2 384:32:16 1
2 		80 16.9 33.8 812.54 33.86 $110
November 27, 2013 [73] GK-106-400-A1 2540 221 65 ?
GeForce GTX 650 Ti October 9, 2012 GK106-220-A1 928 928 1350
(5400) 		4 768:64:16 86.4 14.8 59.4 1425.41 59.39 110 $150 (130)
GeForce GTX 650 Ti (Boost) March 26, 2013 GK106-240-A1 980 1032 980 1502
(6008) 		768:64:24 144.2 192 23.5 62.7 1505.28 62.72 134 $170 (150)
GeForce GTX 660 September 13, 2012 GK106-400-A1 1084 1502
(6008) 		5 960:80:24 1.5+0.5
3 		96.1+48.1
144.2 		128+64
192 		23.5 78.4 1881.6 78.40 140 $230 (180)
August 22, 2012 GK104-200-KD-A2 3540 294 823.5 888.5 899 823 1450
(5800) 		6 1152:96:24
1152:96:32 		1.5
2
3 		139
186 		192
256 		19.8 79 2108.6 79.06 130 OEM
GeForce GTX 660 Ti August 16, 2012 GK104-300-KD-A2 915 980 1058 915 1502
(6008) 		7 1344:112:24 2 96.1+48.1
144.2 		128+64
192 		22.0 102.5 2459.52 102.48 150 $300
GeForce GTX 670 May 10, 2012 GK104-325-A2 1084 1502
(6008) 		1344:112:32 2
4 		192.256 256 29.3 102.5 2459.52 102.48 170 $400
GeForce GTX 680 March 22, 2012 GK104-400-A2 1006 [74] 1058 1110 1006 1502
(6008) 		8 1536:128:32 192.256 32.2 128.8 3090.43 128.77 195 $500
GeForce GTX 690 April 29, 2012 2x GK104-355-A2 2x 3540 2x 294 915 1019 1058 915 1502
(6008) 		2x 8 2x 1536:128:32 2x 2 2x 192.256 2x 256 2x 29.28 2x 117.12 2x 2810.88 2x 117.12 300 $1000
Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate SM count Core config [a] Memory configuration Fillrate Processing power (GFLOPS) [b] Supported API version TDP (Watts) Release Price (USD)
Core (MHz) Average Boost (MHz) Max Boost (MHz) Shader (MHz) Memory (MHz) Size (GiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Vulkan [c] Direct3D OpenGL OpenCL
  1. ^ a b Unified shaders: texture mapping units: render output units
  2. ^ a b To calculate the processing power see Kepler (microarchitecture)#Performance, or Fermi (microarchitecture)#Performance.
  3. ^ a b Vulkan 1.2 is only supported on Kepler cards.[63]
  4. ^ The GeForce 605 (OEM) card is a rebranded GeForce 510.
  5. ^ The GeForce GT 610 card is a rebranded GeForce GT 520.
  6. ^ The GeForce GT 620 (OEM) card is a rebranded GeForce GT 520.
  7. ^ The GeForce GT 630 (DDR3, 128-bit, retail) card is a rebranded GeForce GT 430 (DDR3, 128-bit).
  8. ^ The GeForce GT 630 (GDDR5) card is a rebranded GeForce GT 440 (GDDR5).
  9. ^ The GeForce GT 640 (OEM) GF116 card is a rebranded GeForce GT 545 (DDR3).
  10. ^ The GeForce GT 645 (OEM) card is a rebranded GeForce GTX 560 SE.

GeForce 700 series

Further information: GeForce 700 series and Kepler (microarchitecture)

The GeForce 700 series for desktop. The GM107-chips are Maxwell-based, the GF1xx are Fermi-based, and the GKxxx-chips Kepler.

Model name Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate SMX count Core config [a] Memory configuration Fillrate Processing power (GFLOPS) [b] Supported API version TDP (Watts) Release Price (USD)
Base (MHz) Average Boost (MHz) Max Boost [c] (MHz) Memory (MHz) Size (GiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Vulkan [d] Direct3D [e] OpenGL OpenCL
GeForce GT 705 [77] [f] March 27, 2014 GF119-300-A1 TSMC
40 nm 		292 79 PCIe 2.0 x16 810 898
(1796) 		1 48:8:4 0.5
1 		14.4 DDR3 64 3.24 6.5 155.5 19.4 n/a 12 4.6 1.1 29 OEM
GeForce GT 710 [78] GK208-301-A1 TSMC
28 nm 		1020 79 PCIe 2.0 x8 823 900 (1800) 192:16:8 0.5 64 6.6 13.2 316.0 13.2 1.2 1.2
January 26, 2016 GK208-203-B1 PCIe 2.0 x8, PCIe x1 954 900 (1800)
1253 (5010) 		192:16:8 1
2 		14.4
40.0 		DDR3
GDDR5 		7.6 15.3 366 15.3 19 $35–45
GeForce GT 720 [79] March 27, 2014 GK208-201-B1 PCIe 2.0 x8 797 900 (1800)
1253 (5010) 		192:16:8 1
2 		14.4
40.0 		6.4 12.8 306 12.8 $49–59
GeForce GT 730
[80][g] [h] 		June 18, 2014 GK208-301-A1 902 900
(1800) 		2 384:16:8 1 [81]
2
4 		14.4 DDR3 7.22 14.44 692.7 28.9 23 $69–79
GK208-400-A1 902 1250
(5000) 		384:16:8 1
2 [82] 		40.0 GDDR5 7.22 14.44 25
GF108 TSMC
40 nm 		585 116 PCIe 2.0 x16 700 900
(1800) 		96:16:4 1
2
4 		28.8 DDR3 128 2.8 11.0 268.8 33.6 n/a 1.1 49
GeForce GT 740 [i] May 29, 2014 GK107-425-A2 TSMC
28HP 		1270 118 PCIe 3.0 x16 993 891
(1782) 		384:32:16 28.5 128 15.9 31.8 762.6 31.8 1.2 1.2 64 $89–99
993 1252
(5008) 		384:32:16 80.1 GDDR5 15.9 31.8
GeForce GTX 745 February 18, 2014 GM107-220-A2 1870 148 1033 Un­known Un­known 900
(1800) 		3 384:24:16 1
4 		28.8 DDR3 16.5 24.8 793.3 24.8 1.3 55 OEM
GeForce GTX 750 GM107-300-A2 1020 1085 1163 1250
(5000) 		4 512:32:16 1
2
4 [83] 		80 GDDR5 16.3 32.6 1044.5 32.6 $119
GeForce GTX 750 Ti GM107-400-A2 1020 1085 1200 1350
(5400) 		5 640:40:16 1
2
4 		86.4 16.3 40.8 1305.6 40.8 60 $149
GeForce GTX 760 (192-bit) October 17, 2013 GK104-200-KD-A2 3540 294 824 888 889 1450
(5800) 		6 1152:96:24 1.5
3 		139.2 192 19.8 79.1 1896.2 79.0 1.2 130 OEM
GeForce GTX 760 June 25, 2013 GK104-225-A2 980 1033 1124 1502
(6008) 		1152:96:32 2
4 		192.3 256 31.4 [j] 94 2257.9 94.1 170 $249 ($219)
GeForce GTX 760 Ti [k] September 27, 2013 [84] GK104 915 980 1084 1502
(6008) 		7 1344:112:32 2 192.3 29.3 102.5 2459.5 102.5 OEM
GeForce GTX 770 May 30, 2013 GK104-425-A2 1046 1085 1130 1752.5
(7010) 		8 1536:128:32 2 4 224 33.5 134 3213.3 133.9 230 $399 ($329)
GeForce GTX 780 May 23, 2013 GK110-300-A1 7080 561 863 900 1002 1502
(6008) 		12 2304:192:48 3 6 [85] 288.4 384 41.4 [j] 160.5 3976.7 165.7 $649 ($499)
GeForce GTX 780 Ti [86][87][88] November 7, 2013 GK110-425-B1 876 928 1019 1752.5
(7010) 		15 2880:240:48 3 336.5 42.0 [j] 210.2 5045.7 210.2 $699
GeForce GTX TITAN [89][90][91] February 21, 2013 GK110-400-A1 837 876 993 1502
(6008) 		14 2688:224:48 6 288.4 40.2 187.5 4499.7 1300 [92]
-1499.9 		$999
GeForce GTX TITAN Black February 18, 2014 GK110-430-B1 889 980 1058 1752.5
(7010) 		15 2880:240:48 336.5 42.7 213.4 5120.6 1706.9
GeForce GTX TITAN Z May 28, 2014 2x GK110-350-B1 [93] 2x
7080 		2x
561 		705 876 Un­known 1752.5
(7010) 		2x 15 2x
2880:240:48 		2x 6 2x 336.5 2x 384 2x 33.8 2x 169 5046 x2 1682 x2 [94] 4.5 375 $2999
Model Launch Code name Fab (nm) Transistors (million) Die size (mm2) Bus interface Clock rate SMX count Core config [a] Memory configuration Fillrate Processing power (GFLOPS) [b] Supported API version TDP (Watts) Release Price (USD)
Base (MHz) Average Boost (MHz) Max Boost [c] (MHz) Memory (MHz) Size (GiB) Bandwidth (GB/s) DRAM type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Vulkan [d] Direct3D [e] OpenGL OpenCL
  1. ^ a b Unified shaders: texture mapping units: render output units
  2. ^ a b To calculate the processing power see Maxwell (microarchitecture)#Performance, or Kepler (microarchitecture)#Performance.
  3. ^ a b Max Boost depends on ASIC quality. For example, some GTX TITAN with over 80% ASIC quality can hit 1019 MHz by default, lower ASIC quality will be 1006 MHz or 993 MHz.
  4. ^ a b Maxwell supports Vulkan version 1.3, while Kepler only support Vulkan version 1.2, Fermi does not support the Vulkan API at all.[63]
  5. ^ a b Kepler supports some optional 11.1 features on feature level 11_0 through the Direct3D 11.1 API, however Nvidia did not enable four non-gaming features to qualify Kepler for level 11_1.[75][76]
  6. ^ The GeForce GT 705 (OEM) is a rebranded GeForce GT 610, which itself is a rebranded GeForce GT 520.
  7. ^ The GeForce GT 730 (DDR3, 64-bit) is a rebranded GeForce GT 630 (Rev. 2).
  8. ^ The GeForce GT 730 (DDR3, 128-bit) is a rebranded GeForce GT 630 (128-bit).
  9. ^ The GeForce GT 740 (OEM) is a rebranded GeForce GTX 650
  10. ^ a b c As a Kepler GPC is able to rasterize 8 pixels per clock, fully enabled GK110 GPUs (780 Ti/TITAN Black) can only output 40 pixels per clock (5 GPCs), despite 48 ROPs and all SMX units being physically present. For GTX 780 and GTX 760, multiple GPC configurations with differing pixel fillrate are possible, depending on which SMXs were disabled in the chip: 5/4 GPCs, or 4/3 GPCs, respectively.
  11. ^ The GeForce GTX 760 Ti (OEM) is a rebranded GeForce GTX 670.

GeForce 900 series

Further information: GeForce 900 series and Maxwell (microarchitecture)
Model Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Clock Speeds Core config[a] L2 Cache
(MiB) 		Memory Fillrate[b] Processing power (GFLOPS)[b][c] TDP (Watts) SLI support Release price (USD)
Base (MHz) Boost (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s)[d] Texture (GT/s)[e] Single precision Double precision MSRP
GeForce GT 945A[95][96][97] February, 2016 GM108 TSMC
28HP 		Un­known Un­known PCIe 3.0 x8 1072 1176 1.8 512:24:8 (4) ? 1 / 2 14.4 DDR3 / GDDR5 64 8.5
9.4 		25.7
28.2 		1,097.7
1,204.2 		34.3
37.6 		33 No OEM
GeForce GTX 950[98] August 20, 2015 GM206-250 2.94 227 PCIe 3.0 x16 1024 1188 6.6 768:48:32 (6) 1 2 105.7 GDDR5 128 32.7
38.0 		49.1
57.0 		1,572.8
1,824.7 		49.1
57.0 		90 (75[f]) 2-way SLI $159
GeForce GTX 950 (OEM)[100] Un­known GM206 935 Un­known 5 1024:64:32 (8) 80.0 29.9
  		59.8
  		1,914.9
, 		59.8
  		Un­known OEM
GeForce GTX 960[101] January 22, 2015 GM206-300 1127 1178 7 2
4 		112.1 36.0
37.6 		72.1
75.3 		2,308.0
2,412.5 		72.1
75.3 		120 $199
GeForce GTX 960 (OEM)[102] Un­known GM204 5.2 398 924 Un­known 5 1280:80:48 (10) 3 120.0 192 44.3
  		73.9
  		2,365.4
, 		73.9
  		Un­known OEM
GeForce GTX 970[103] September 18, 2014 GM204-200 1050 1178 7 1664:104:56 (13) 1.75 3.5 +
0.5[g] 		196.3 +
28.0[g] 		224 +
32[g] 		58.8
65.9 		109.2
122.5 		3,494.4
3,920.3 		109.2
122.5 		145 4-way SLI $329
GeForce GTX 980[105] September 18, 2014 GM204-400 1126 1216 2048:128:64 (16) 2 4 224.3 256 72.0
77.8 		144.1
155.6 		4,612.0
4,980.7 		144.1
155.6 		165 $549
GeForce GTX 980 Ti[106] June 1, 2015 GM200-310 8 601 1000 1075 2816:176:96 (22) 3 6 336.5 384 96.0
103.2 		176.0
189.2 		5,632.0
6,054.4 		176.0
189.2 		250 $649
GeForce GTX TITAN X[107] March 17, 2015 GM200-400 3072:192:96 (24) 12 192.0
206.4 		6,144.0
6,604.8 		192.0
206.4 		$999
  1. ^ Main shader processors : texture mapping units : render output units (streaming multiprocessors)
  2. ^ a b Base clock, Boost clock
  3. ^ To calculate the processing power see Maxwell (microarchitecture)#Performance.
  4. ^ Pixel fillrate is calculated as the number of ROPs multiplied by the respective core clock speed.
  5. ^ Texture fillrate is calculated as the number of TMUs multiplied by the respective core clock speed.
  6. ^ Some GTX950 cards were released without power connector powered only by PCIe slot. These had limited power consumption and TPD to 75W.[99]
  7. ^ a b c For accessing its memory, the GTX 970 stripes data across 7 of its 8 32-bit physical memory lanes, at 196 GB/s. The last 1/8 of its memory (0.5 GiB on a 4 GiB card) is accessed on a non-interleaved solitary 32-bit connection at 28 GB/s, one seventh the speed of the rest of the memory space. Because this smaller memory pool uses the same connection as the 7th lane to the larger main pool, it contends with accesses to the larger block reducing the effective memory bandwidth not adding to it as an independent connection could.[104]

GeForce 10 series

Further information: GeForce 10 series and Pascal (microarchitecture)
Model name Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Clock speeds Core config [b] L2 Cache
(MiB) 		Memory Fillrate [c] Processing power (GFLOPS) [c][d] TDP (Watts) SLI support Release price (USD)
Base core (MHz) Boost core (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) [e][f] Texture (GT/s) [g] Half precision Single precision Double precision MSRP Founders Edition
GeForce GT 1010 [111][112] January 13, 2021 GP108-200-A1 Samsung
14LPP 		1.8 74 PCIe 3.0 x4 1228 1468 5 256:16:16
(2) (1) 		0.25 2 40.1 GDDR5 64 9.8
11.8 		19.7
23.5 		? 628.7
751.6 		26.2
31.3 		30 No OEM
1152 1380 2.1 16.8 DDR4 9.2
11.0 		18.4
22.0 		? 590.0
706.6 		24.6
29.4 		20
GeForce GT 1030 [113][114][115][116] March 12, 2018 GP108-310-A1 1379 384:24:16
(3) (1) 		0.5 18.4
22.0 		27.6
33.0 		13.8
16.5 		884.7
1,059.0 		27.6
33.0 		$79
May 17, 2017 GP108-300-A1 1227 1468 6 48.0 GDDR5 19.6
23.4 		29.4
35.2 		14.7
17.6 		942.3
1,127.4 		29.4
35.2 		30 $69
GeForce GTX 1050 [117] October 25, 2016 GP107-300-A1 3.3 132 PCIe 3.0 x16 1354 1455 7 640:40:32
(5) (2) 		1 112.0 128 43.3
46.6 		54.1
58.8 		27.0
29.1 		1,733.1
1,862.4 		54.1
58.2 		75 $109
May 21, 2018 GP107-301-A1 1392 1518 768:48:24
(6) (2) 		0.75 3 84.0 96 33.4
36.4 		66.8
72.9 		33.4
36.4 		2,138.1
2,331.6 		66.8
72.9
GeForce GTX 1050 Ti [117] October 25, 2016 GP107-400-A1 1290 1392 768:48:32
(6) (2) 		1 4 112.0 128 41.2
44.5 		61.9
66.8 		30.9
33.4 		1,981.4
2,138.1 		61.9
66.8 		$139
GeForce GTX 1060
[118][119][120][121] 		December 25, 2016 GP104-140-A1 TSMC
16FF 		7.2 314 1506 1708 8 1152:72:48
(9) (2) 		1.5 3 192.0 192 72.2
81.9 		108.4
122.9 		54.2
61.4 		3,469.8
3,935.2 		108.4
122.9 		120 $199
August 18, 2016 GP106-300-A1 4.4 200
December 26, 2017 GP106-350-K3-A1 1280:80:48
(10) (2) 		1.25 5 160.0 160 60.2
68.3 		120.4
136.7 		60.2
68.3 		3,855.3
4,375.0 		120.4
136.7 		OEM
March 8, 2018 GP104-150-A1 7.2 314 1.5 6 192.0 192 72.2
82.0 		$299
October 18, 2018 GP104-150-KA-A1 GDDR5X
July 19, 2016 GP106-400-A1 4.4 200 GDDR5 $249 $299
April 20, 2017 GP106-410-A1 9 216.0 $299
GeForce GTX 1070 [122][123] Jun 10, 2016 / Dec 4, 2018 GP104-200-A1 7.2 314 1683 8 1920:120:64
(15) (3) 		2 8 256.0 GDDR5
GDDR5X 		256 96.3
107.7 		180.7
201.9 		90.3
100.9 		5,783.0
6,462.7 		180.7
201.9 		150 4-way SLI
or
2-way SLI HB[124] 		$379 $449
GeForce GTX 1070 Ti [122] November 2, 2017 GP104-300-A1 1607 2432:152:64
(19) (4) 		GDDR5 102.8
107.7 		244
256 		122.1
127.9 		7,816.4
8,186.1 		244.2
255.8 		180 $449
GeForce GTX 1080 [125][126] May 27, 2016 GP104-400-A1 1733 10 2560:160:64
(20) (4) 		320.0 GDDR5X 102.8
110.9 		257.1
277.2 		128.5
138.6 		8,227.8
8,872.9 		257.1
277.2 		$599 $699
April 20, 2017 GP104-410-A1 11 352.0
GeForce GTX 1080 Ti [127] March 5, 2017 GP102-350-K1-A1 12 471 1480 1582 3584:224:88
(28) (6) 		2.75 11 484.0 352 130.2
139.2 		331.5
354.3 		165.7
177.1 		10,608.6
11,339.7 		331.5
354.3 		250 $699
TITAN X Pascal [128] August 2, 2016 GP102-400-A1 1417 1531 10 3584:224:96
(28) (6) 		3 12 480.0 384 136.0
146.9 		317.4
342.9 		158.7
171.4 		10,157.0
10,974.2 		317.4
342.9 		$1199
TITAN Xp [129] April 6, 2017 GP102-450-A1 1405 1582 11.4 3840:240:96
(30) (6) 		547.7 134.8
142.0 		337.2
355.2 		168.6
177.6 		10,790.4
12,149.7 		337.2
355.2
Model Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Base core (MHz) Boost core (MHz) Memory (GT/s) Core config [b] L2 Cache
(MiB) 		Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) [e][h] Texture (GT/s) [g] Half precision Single precision Double precision TDP (Watts) SLI support MSRP Founders Edition
Clock speeds Memory Fillrate [c] Processing power (GFLOPS) [c][d] Release price (USD)
  1. ^ The NVIDIA TITAN Xp and the Founders Edition GTX 1080 Ti do not have a dual-link DVI port, but a DisplayPort to single-link DVI adapter is included in the box.
  2. ^ a b Main shader processors : texture mapping units : render output units (streaming multiprocessors) (graphics processing clusters)
  3. ^ a b c d Base clock, Boost clock
  4. ^ a b To calculate the processing power see Pascal (microarchitecture)#Performance.
  5. ^ a b 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.
  6. ^ As the GTX 1070 has one of the four GP104 GPCs disabled in the die, its frontend is only able to rasterize 48 pixels per clock.[109] Analogically, the GTX 1060 features only two GPCs on its GP106 die, meaning that its frontend can only rasterize 32 pixels per clock. The remaining backend ROPs can still be used for tasks such as MSAA.[110]
  7. ^ a b Texture fillrate is calculated as the number of TMUs multiplied by the base core clock speed.
  8. ^ As the GTX 1070 has one of the four GP104 GPCs disabled in the die, its frontend is only able to rasterize 48 pixels per clock.[109] Analogically, the GTX 1060 features only two GPCs on its GP106 die, meaning that its frontend can only rasterize 32 pixels per clock. The remaining backend ROPs can still be used for tasks such as MSAA.[110]

Volta series

Further information: Volta (microarchitecture)
Model name Launch Code name Process Transistors (billion) Die size (mm2) Bus Interface Clock speeds Core config [a] L2 Cache
(MiB) 		Memory Fillrate [b] Processing power (GFLOPS) [b] TDP (Watts) NVLink Support Release price (USD)
Base core clock (MHz) Boost core clock (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) [c] Texture (GT/s) [d] Half precision Single precision Double precision Tensor compute + Single precision MSRP Founders Edition
Nvidia Titan V [130] December 7, 2017 GV100-400-A1 TSMC
12FFN 		21.1 815 PCIe 3.0 x16 1200 1455 1.7 5120:320 :96:640
(80) (6) 		4.5 12 652.8 HBM2 3072 153.6
186.2 		384.0
465.6 		24,576.0
29,798.4 		12,288.0
14,899.2 		6,144.0
7,449.6 		110,592.0
134,092.8 		250 No $2999
Nvidia Titan V
(CEO Edition) [131][132] 		June 21, 2018 GV100-???-A1 5120:320 :128:640
(80) (6) 		6 32 870.4 4096 No
  1. ^ Main shader processors : texture mapping units : render output units : tensor cores (streaming multiprocessors) (graphics processing clusters)
  2. ^ a b Base clock, Boost clock
  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 TMUs multiplied by the base core clock speed.

GeForce 16 series

Further information: GeForce 16 series and Turing (microarchitecture)
Model name Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Clock speeds Core config [a] L2 Cache (MiB) Memory Fillrate [b] Processing power (GFLOPS) [b] TDP (Watts) NVLink support Release price (USD)
Base core clock (MHz) Boost core clock (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) [c] Texture (GT/s) [d] Half precision Single precision Double precision
GeForce GTX 1630 June 28, 2022 [133] TU117-150-A1 TSMC
12FFN 		4.7 200 PCIe 3.0 x16 1740 1785 12 512:32 :16:1024:0
(8) (?) 		1 4 96 GDDR6 64 27.84
28.56 		55.68
57.12 		3,563.52
3,655.68 		1,781.76
1,827.84 		55.68
57.12 		75 No ?
GeForce GTX 1650 [134] April 23, 2019 TU117-300-A1 1485 1665 8 896:56 :32:1792:0
(14) (2) 		128 GDDR5 128 47.52
53.28 		83.16
93.24 		5,322
5,967 		2,661
2,984 		83.16
93.24 		$149
April 3, 2020 [135] 1410 1590 12 192 GDDR6 45.12
50.88 		78.96
89.04 		5,053.44
5,698.56 		2,526.72
2,849.28 		78.96
89.04
June 18, 2020 [136] TU106-125-A1 10.8 445 90
GeForce GTX 1650 Super [137] November 22, 2019 [138] TU116-250-KA-A1 [139] 6.6 284 1530 1725 1280:80 :32:2560:0
(20) (3) 		1.5 48.96
55.20 		122.40
138.0 		7,833.60
8,832 		3,916.80
4,416 		122.40
138.00 		100 $159
GeForce GTX 1660 [140] March 14, 2019 TU116-300-A1 1785 8 1408:88 :48:2816:0
(22) (3) 		6 GDDR5 192 73.44
85.68 		134.64
157.1 		8,616
10,053 		4,308
5,027 		134.64
157.08 		120 $219
GeForce GTX 1660 Super [141] October 29, 2019 TU116-300-A1 14 336 GDDR6 125 $229
GeForce GTX 1660 Ti [142] February 21, 2019 TU116-400-A1 1500 1770 12 1536:96 :48:3072:0
(24) (3) 		288 72.0
84.96 		144.0
169.9 		9,216
10,874.88 		4,608
5,437.44 		144.00
169.92 		120 $279

RTX 20 series

Further information: GeForce 20 series and Turing (microarchitecture)
  • Supported APIs: Direct3D 12 Ultimate (12_2), OpenGL 4.6, OpenCL 3.0, Vulkan 1.3[63] and CUDA 7.5
  • Unlike previous generations the RTX Non-Super (RTX 2070, RTX 2080, RTX 2080 Ti) Founders Edition cards no longer have reference clocks, but are "Factory-OC". However, RTX Supers (RTX 2060 Super, RTX 2070 Super, and RTX 2080 Super) Founders Edition are reference clocks.
  • NVENC 6th generation (B-frame, etc.)
Model name Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Clock speeds Core config [a] L2 Cache
(MiB) 		Memory Fillrate[b] Processing power (GFLOPS) [b] Ray-tracing Performance TDP (Watts) NVLink support Release price (USD)
Base core clock (MHz) Boost core clock (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s)[c] Texture (GT/s) [d] Half precision Single precision Double precision Tensor compute (FP16) Rays/s (Billions) RTX OPS/s (Trillions) MSRP Founders Edition
GeForce RTX 2060 [143] January 15, 2019 TU106-200-KA-A1 TSMC
12FFN 		10.8 445 PCIe 3.0 x16 1365 1680 14 1920:120 :48:240:30
(30) (3) 		3 6 336.0 GDDR6 192 65.52
80.64 		163.80
201.60 		10 483.20
12 902.40 		5 241.60
6,451.20 		163.80
201.60 		41 932.80
51 609.60 		5 37 160 No $349
January 10, 2020 TU104-150-KC-A1 [144] 13.6 545 $299
December 7, 2021 [145] TU106-300-KA-A1 10.8 445 1470 1650 2176:136 :64:272:34
(34) (3) 		12
79.20 		199.92
224.40 		12 800
14 360 		6 400
7 180 		199.92
224.40 		185
GeForce RTX 2060 Super [146][147] July 9, 2019 TU106-410-A1 4 8 448.0 256 94.08
105.60 		51,200
57,440 		6 41 175 $399
GeForce RTX 2070 [148][149] October 17, 2018 TU106-400-A1 1410 1620 2304:144 :64:288:36
(36) (3) 		90.24
103.68 		203.04
233.28 		12,994.56
14,929.92 		6,497.28
7,464.96 		203.04
233.28 		51,978.24
59,719.68 		42 $499 $599
GeForce RTX 2070 Super [146][150] July 9, 2019 TU104-410-A1 13.6 545 1605 1770 2560:160 :64:320:40
(40) (5) 		102.70
113.28 		256.80
283.20 		16,440
18,120 		8,220
9,060 		256.80
283.20 		65,760
72,480 		7 52 215 2-way NVLink $499
GeForce RTX 2080 [151][152] September 20, 2018 TU104-400-A1 1515 1710 2944:184 :64:368:46
(46) (6) 		96.96
109.44 		278.76
314.64 		17,840.64
20,136.96 		8,920.32
10,068.48 		278.76
314.64 		71,362.56
80,547.84 		8 57 $699 $799
GeForce RTX 2080 Super [146][153] July 23, 2019 TU104-450-A1 1650 1815 15.5 3072:192 :64:384:48
(48) (6) 		496.0 105.60
116.16 		316.80
348.48 		20,280
22,300 		10,140
11,150 		316.80
348.50 		81,120
89,200 		63 250 $699
GeForce RTX 2080 Ti [154] September 27, 2018 TU102-300-K1-A1 18.6 754 1350 1545 14 4352:272 :88:544:68
(68) (6) 		5.5 11 616.0 352 118.80
135.96 		367.20
420.24 		23,500.80
26,895.36 		11,750.40
13,447.68 		367.20
420.24 		94,003.20
107,581.44 		10 76 $999 $1,199
Nvidia Titan RTX [155] December 18, 2018 TU102-400-A1 1770 [e] 4608:288 :96:576:72
(72) (6) 		6 24 672.0 384 129.60
169.92 		388.80
509.76 		24 883.20
32 624.64 		12 441.60
16 312.32 		388.80
509.76 		99 532.80
130 498.56 		11 84 280 $2,499
  1. ^ a b Main shader processors : texture mapping units : render output units : tensor cores (or FP16 cores in GeForce 16 series) : ray-tracing cores (streaming multiprocessors) (graphics processing clusters)
  2. ^ a b c d Base clock, Boost clock
  3. ^ a b 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. ^ a b Texture fillrate is calculated as the number of TMUs multiplied by the base core clock speed.
  5. ^ Boost of the Founders Editions, as there is no reference version of this card.

RTX 30 series

Further information: GeForce 30 series and Ampere (microarchitecture)
Model name Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Clock speeds Core config [a] L2 Cache
(MiB) 		Memory Fillrate Processing power (TFLOPS) Ray-tracing Performance (TFLOPS) TDP (Watts) NVLink support Release price (USD)
Base core clock (MHz) Boost core clock (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Half precision Single precision Double precision Tensor compute (FP16) (2:1 sparse) MSRP Founders Edition
GeForce RTX 3050 [156] February 2, 2024 GA107-325 Samsung
8LPP 		8.7 200 PCIe 4.0
x8 		1042 1470 14 2304:72 :32:72:18
(18) (2) 		2 6 168.0 GDDR6 96 33.34
47.04 		75.02
105.8 		4.802
6.774 		4.802
6.774 		0.075
0.105 		30.1
60.2 		70 No $169
December 16, 2022 GA107-150-A1 1552 1777 2560:80 :32:80:20
(20) (2) 		8 224.0 128 49.6
59.86 		124.2
142.2 		7.95
9.01 		7.95
9.01 		0.124
0.142 		63.6
72.8 		18.2 115 $249
July 18, 2022 GA106-150 13.25 276 1515 1755 2304:72 :32:72:18
(18) (2) 		48.48
56.16 		109.1
126.4 		6.981
8.087 		6.981
8.087 		0.109
0.126 		130 OEM [157]
January 27, 2022 [158] GA106-150-A1 1552 1777 2560:80 :32:80:20
(20) (2) 		49.6
59.86 		124.2
142.2 		7.95
9.01 		7.95
9.01 		0.124
0.142 		63.6
72.8 		18.2 $249
GeForce RTX 3060 [159] October 27, 2022 [160] GA106-302 PCIe 4.0
x16 		1320 1777 15 3584:112 :48:112:28
(28) (3) 		3 240.0 63.4
85.3 		147.8
199.0 		9.46
12.74 		9.46
12.74 		0.148
0.199 		75.7
101.9 		25 170 $329
May 2021 12 360.0 192
February 25, 2021 GA106-300-A1
September 1, 2021 GA104-150-A1 [161] 17.4 392.5
GeForce RTX 3060 Ti [162] December 2, 2020 GA104-200-A1 1410 1665 14 4864:152 :80:152:38
(38) (5) 		4 8 448.0 256 112.8
133.2 		214.3
253.1 		13.70
16.20 		13.72
16.20 		0.214
0.253 		109.7
129.6 		32.4 200 $399
October 27, 2022 [160] GA104-202 19 608.0 GDDR6X
GeForce RTX 3070 [163][164] October 29, 2020 [165] GA104-300-A1 1500 1725 14 5888:184 :96:184:46
(46) (6) 		448.0 GDDR6 144.0
165.6 		276.0
317.4 		17.66
20.31 		17.66
20.31 		0.276
0.318 		141.31
162.98 		40.6 220 $499
GeForce RTX 3070 Ti [166] June 10, 2021 GA104-400-A1 1575 1770 19 6144:192 :96:192:48
(48) (6) 		608.3 GDDR6X 151.18
169.9 		302.36
339.8 		19.35
21.75 		19.35
21.75 		0.302
0.340 		154.8
174.0 		43.5 290 $599
GeForce RTX 3080 [167][164] September 17, 2020 GA102-200-A1 28.3 628.4 1440 1710 8704:272 :96:272:68
(68) (6) 		5 10 760.0 320 138.2
164.2 		391.68
465.12 		25.06
29.76 		25.07
29.77 		0.392
0.465 		200.54
238.14 		59.5 320 $699
January 27, 2022 GA102-220-A1 1260 8960:280 :96:280:70
(70) (6) 		6 12 912.0 384 131.0
177.8 		352.8
478.8 		22.6
30.6 		22.6
30.6 		0.353
0.479 		180.6
245.1 		61.3 350 $799
GeForce RTX 3080 Ti [168] June 3, 2021 GA102-225-A1 1365 1665 10240:320 :112:320:80
(80) (7) 		153.5
186.5 		438.5
532.8 		28.06
34.10 		28.57
34.1 		0.438
0.533 		228.6
272.8 		68.2 $1199
GeForce RTX 3090 [169][164] September 24, 2020 GA102-300-A1 1395 1695 19.5 10496:328 :112:328:82
(82) (7) 		24 935.8 156.2
189.8 		457.6
555.96 		29.38
35.68 		29.28
35.58 		0.459
0.558 		235.08
285.48 		71.1 2-way NVLink $1499
GeForce RTX 3090 Ti [170][171] March 29, 2022 GA102-350-A1 1560 1860 21 10752:336 :112:336:84
(84) (7) 		1008.3 174.7
208.3 		524.2
625 		33.5
40 		33.5
40 		0.524
0.625 		269.1
320.9 		79.9 450 $1999
  1. ^ Main shader processors : texture mapping unit : render output units : tensor cores : ray-tracing cores (streaming multiprocessors) (graphics processing clusters)

RTX 40 series

Further information: GeForce 40 series and Ada Lovelace (microarchitecture)
Model name Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Clock speeds Core config [a] L2 Cache (MiB) Memory Fillrate Processing power (TFLOPS) Ray-tracing Performance (TFLOPS) TDP (Watts) Release price (USD)
Base core clock (MHz) Boost core clock (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Half precision Single precision Double precision Tensor compute (FP16) (2:1 sparse) MSRP Founders Edition
GeForce RTX 4060 [177] June 29, 2023 AD107-400 TSMC 4N [178] 18.9 158.7 PCIe 4.0 x8 1830 2460 17 3072:96 :48:96:24
(24)(3) 		24 8 272 GDDR6 128 118.1 236.2 11.2
15.1 		11.2
15.1 		0.176
0.236 		60 (121) 35 115 $299
GeForce RTX 4060 Ti [177] May 24, 2023 AD106-350 22.9 187.8 2310 2540 18 4352:136 :48:136:34
(34)(3) 		32 288 121.9 345.4 20.1
22.1 		20.1
22.1 		0.314
0.345 		88 (177) 51 160 $399
July 18, 2023 AD106-351 16 $499
GeForce RTX 4070 [179] April 13, 2023 AD104-250 35.8 294.5 PCIe 4.0 x16 1920 2475 21 5888:184 :64:184:46
(46)(4) 		36 12 504 GDDR6X 192 158.4 455.4 22.6
29.1 		22.6
29.1 		0.353
0.455 		117 (233) 67 200 $599
GeForce RTX 4070 Super [180][181] January 17, 2024 AD104-350 1980 7168:224 :80:224:56
(56)(5) 		48 198.0 554.4 28.39

35.48

28.39

35.48

0.444

0.554

114 (227)

142 (284)

82 220
GeForce RTX 4070 Ti [182] January 5, 2023 AD104-400 2310 2610 7680:240 :80:240:60
(60)(5) 		208.8 626.4 35.5
40.1 		35.5
40.1 		0.554
0.627 		142 (284)
160 (321) 		92.7 285 $799
GeForce RTX 4070 Ti Super [181][183] January 24, 2024 AD103-275 45.9 378.6 2340 8448:264 :112:264:66
(66) (6) 		16 672 256 292.3 689.0 39.54

44.10

39.54

44.10

0.618

0.689

158 (316)

176 (353)

102
GeForce RTX 4080 [184] Unlaunched [185][186] AD104-400 35.8 294.5 2310 7680:240 :80:240:60
(60) (5) 		12 504 192 208.8 626.4 35.5

40.1

35.5

40.1

0.554

0.627

142 (284)
160 (321) 		92.7 $899
November 16, 2022 AD103-300 45.9 378.6 2210 2505 22.4 9728:304 :112:304:76
(76)(7) 		64 16 717 256 280.6 761.5 43.0
48.8 		43.0
48.7 		0.672
0.761 		172 (344)
195 (390) 		112.7 320 $1199
GeForce RTX 4080 Super [187][188] January 31, 2024 AD103-400 2295 2550 23 10240:320 :112:320:80
(80) (7) 		736 285.6 816.0 47.0

52.22

47.0

52.22

0.734

0.816

188 (376)

209 (418)

121 $999
GeForce RTX 4090 D [189][190] December 28, 2023 AD102-250 76.3 608.5 2280 2520 21 14592:456 :176:456:114
(114) (11) 		72 24 1008 384 443.5 1149.1 66.5
73.5 		66.5
73.5 		1.040
1.149 		266 (532)
294 (588) 		170 425 ¥12,999
GeForce RTX 4090 [191][192] October 12, 2022 AD102-300 2235 16384:512 :176:512:128
(128) (11) 		1290.2 73.1
82.6 		73.1
82.6 		1.142
1.291 		292 (585)
330 (661) 		191 450 $1599
  1. ^ Main shader processors : texture mapping unit : render output units : tensor cores : ray-tracing cores (streaming multiprocessors) (graphics processing clusters)

RTX 50 series

Further information: GeForce 50 series and Blackwell (microarchitecture)

GeForce RTX 50 series desktop GPUs are the first consumer GPUs to utilize a PCIe 5.0 interface and GDDR7 video memory.

Model name Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Clock speeds Core config [a] L2 Cache (MiB) Memory Fillrate Processing power (TFLOPS) Ray-tracing Performance (TFLOPS) TDP (Watts) Release price (USD)
Base core clock (MHz) Boost core clock (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Half precision Single precision Double precision Tensor compute FP16 (2:1 sparse) Tensor compute FP4 (2:1 sparse) MSRP Founders Edition
GeForce RTX 5060 May 19, 2025 GB206-250 TSMC 4N 21.9 181 mm2 PCIe 5.0 x8 2280 2497 28 3840:120 :48:120:30
(30) (3) 		32 8 448 GDDR7 128 119.9 299.6 19.18 19.18 0.1996 77 (154) 307 (614) 58 145 W $299 N/A
GeForce RTX 5060 Ti April 16, 2025 GB206-300 2407 2572 4608:144 :48:144:36
(36) (3) 		123.5 370.4 23.7 23.7 0.370 95 (190) 380 (760) 72 180 W $379 N/A
16 $429 N/A
GeForce RTX 5070 Mar 5, 2025 GB205-300 31.1 263 mm2 PCIe 5.0 x16 2160 2512 6144:192 :80:192:48
(48) (5) 		48 12 672 192 201 483.8 30.97 30.97 0.4838 123 (247) 494 (988) 94 250 W $549
GeForce RTX 5070 Ti Feb 20, 2025 GB203-300 45.6 378 mm2 2300 2452 8960:280 :96:280:70
(70) (6) 		64 16 896 256 235.4 693.0 44.35 44.35 0.693 176 (352) 703 (1406) 133 300 W $749 N/A
GeForce RTX 5080 [193] Jan 30, 2025 GB203-400 2300 2617 30 10752:336 :112:336:84
(84) (7) 		960 293.1 879.3 56.28 56.28 0.8793 225 (450) 900 (1801) 171 360 W $999
GeForce RTX 5090 [194] GB202-300 92.2 750 mm2 2010 2407 28 21760:680 :176:680:170
(170) (11) 		96 32 1,792 512 423.6 1637 104.8 104.8 1.637 419 (838) 1676 (3352) 318 575 W $1,999
  1. ^ Main shader processors : texture mapping unit : render output units : tensor cores : ray-tracing cores (streaming multiprocessors) (graphics processing clusters)

Mobile GPUs

Mobile GPUs are either soldered to the mainboard or to some Mobile PCI Express Module (MXM).

GeForce2 Go series

Model Launch Code name Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOperations/s MPixels/s MTexels/s MVertices/s
GeForce2 Go 100 February 6, 2001 NV11M AGP 4x 125 332 2:0:4:2 8, 16 1.328 DDR 32 250 250 500 0
GeForce2 Go November 11, 2000 143 166
332 		16, 32 2.656 SDR
DDR 		128
64 		286 286 572
GeForce2 Go 200 February 6, 2001 332 DDR 64
  1. ^ Pixel shaders: vertex shaders: texture mapping units: render output units

GeForce4 Go series

  • All models are made via 150 nm fabrication process
Model Launch Code name Bus interface Core clock (MHz) Memory clock (MHz) Core config[a] Memory Fillrate API support
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOperations/s MPixels/s MTexels/s MVertices/s Direct3D OpenGL
GeForce4 Go 410 February 6, 2002 NV17M AGP 8x 200 200 2:0:4:2 16 1.6 SDR 64 400 400 800 0 8.0a 1.3
GeForce4 Go 420 400 32 3.2 DDR
GeForce4 Go 440 220 440 64 7.04 128 440 440 880
GeForce4 Go 460 October 14, 2002 250 500 8 500 500 1000
GeForce4 Go 488 NV18M 300 550 8.8 600 600 1200
GeForce4 Go 4200 November 14, 2002 NV28M 200 400 4:2:8:4 6.4 800 800 1600 100
  1. ^ Pixel shaders: vertex shaders: texture mapping units: render output units

GeForce FX Go 5 (Go 5xxx) series

The GeForce FX Go 5 series for notebooks architecture.

Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Supported API version TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
Hardware Drivers (Software)
GeForce FX Go 5100* March 2003 NV34M 150 AGP 8x 200 400 4:2:4:4 64 3.2 DDR 64 0.8 0.8 9.0 1.5 2.1** Un­known
GeForce FX Go 5500* 300 600 32
64 		9.6 128 1.2 1.2 Un­known
GeForce FX Go 5600* NV31M 130 350 32 1.4 1.4 Un­known
GeForce FX Go 5650* 350 Un­known
GeForce FX Go 5700* February 1, 2005 NV36M 450 550 4:3:4:4 8.8 1.8 1.8 Un­known

GeForce Go 6 (Go 6xxx) series

Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOperations/s MPixels/s MTexels/s MVertices/s
GeForce Go 6100 + nForce Go 430 Un­known C51M 110 HyperTransport 425 System memory 2:1:2:1 Up to 128 MiB system System memory DDR2 64/128 850 425 850 106.25
GeForce Go 6150 + nForce Go 430 February 1, 2006
GeForce Go 6200 February 1, 2006 NV44M PCIe x16 300 600 4:3:4:2 16 2.4 DDR 32 1200 600 1200 225
GeForce Go 6400 February 1, 2006 400 700 5.6 64 1600 800 1600 250
GeForce Go 6600 September 29, 2005 NV43M 300 8:3:8:4 128 11.2 128 3000 1500 3000 281.25
GeForce Go 6800 November 8, 2004 NV41M 130 700
1100 		12:5:12:12 22.4
35.2 		DDR, DDR2
DDR3 		256 375
GeForce Go 6800 Ultra February 24, 2005 450 256 5400 3600 5400 562.5

GeForce Go 7 (Go 7xxx) series

The GeForce Go 7 series for notebooks architecture.

Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Supported API version TDP (Watts) Features
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
GeForce 7000M February 1, 2006 MCP67MV 90 Hyper Transport 350 System memory 1:2:2:2 Up to 256 from system memory System memory DDR2 64/128 0.7 0.7 9.0c 2.1 Un­known
GeForce 7150M MCP67M 425 0.85 0.85 Un­known
GeForce Go 72002 January 2006 G72M PCIe x16 450 700 3:4:4:1 64 2.8 GDDR3 32 0.45 1.8 Un­known Transparency Anti-Aliasing
GeForce Go 73002 350 3:4:4:2 128, 256, 512 5.60 64 0.7 1.4 Un­known
GeForce Go 74002 450 900 64, 256 7.20 0.9 1.8 Un­known
GeForce Go 7600 March 2006 G73M 1000 5:8:8:8 256, 512 16 128 3.6 3.6 Un­known Scalable Link Interface (SLI), Transparency Anti-Aliasing
GeForce Go 7600 GT 2006 500 1200 5:12:12:8 256 19.2 4 6 Un­known
GeForce Go 7700 G73-N-B1 80 450 1000 512 16 3.6 5.4 Un­known
GeForce Go 7800 March 3, 2006 G70M 110 400 1100 6:16:16:8 256 35.2 256 3.2 6.4 35
GeForce Go 7800 GTX October 2005 8:24:24:16 6.4 9.6 65
GeForce Go 7900 GS April 2006 G71M 90 375 1000 7:20:20:16 32.0 6 7.5 20
GeForce Go 7900 GTX 500 1200 8:24:24:16 256 512 38.4 8 12 45
GeForce Go 7950 GTX October 2006 575 1400 512 44.8 9.2 13.8

GeForce 8M (8xxxM) series

The GeForce 8M series for notebooks architecture Tesla.

Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts) Notes
Core (MHz) Shader (MHz) Memory (MHz) Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
GeForce 8200M G[195] June 2008 MCP77MV, MCP79MVL 80 Integrated (PCIe 2.0 x16) 400 800 800
1066
(system memory) 		8:8:4 Up to 256 from system memory 12.8
17.056 		DDR2
DDR3 		128 1.6 3.2 19.2 10.0 3.3 Un­known PureVideo HD with VP3, Full H.264 / VC-1 / MPEG-2 HW Decode
GeForce 8400M G May 2007 NB8M(G86) PCIe x16 800 128 / 256 6.4 DDR2 / GDDR3 64 10 PureVideo HD with VP2, BSP Engine, and AES128 Engine
GeForce 8400M GS 16:8:4 38.4 11
GeForce 8400M GT 450 900 1200 256 / 512 19.2 128 1.8 3.6 43.2 14
GeForce 8600M GS NB8P(G84) 600 1200 1400 22.4 2.4 4.8 57.6 20
GeForce 8600M GT 475 950 800 / 1400 32:16:8 12.8 / 22.4 3.8 7.6 91.2
GeForce 8700M GT June 2007 625 1250 1600 25.6 GDDR3 5 10 120 29 Scalable Link Interface, PureVideo HD with VP2, BSP Engine, and AES128 Engine
GeForce 8800M GTS November 2007 NB8P(G92) 65 PCIe 2.0 x16 500 64:32:16 512 51.2 256 8 16 240 50
GeForce 8800M GTX 96:48:16 24 360 65

GeForce 9M (9xxxM) series

The GeForce 9M series for notebooks architecture. Tesla (microarchitecture)

Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts) Notes
Core (MHz) Shader (MHz) Memory (MHz) Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
GeForce 9100M G
mGPU 		2008 MCP77MH, MCP79MH 65 Integrated
(PCIe 2.0 x16) 		450 1100 1066
(system memory) 		8:8:4 Up to 256 from system memory 17.056 DDR3 128 1.8 3.6 26.4 10.0 3.3 12 Similar to 8400M G
GeForce 9200M GS NB9M-GE(G98) PCIe 2.0 x16 550 1300 1400 256 11.2 DDR2/GDDR3 64 2.2 4.4 31.2 13
GeForce 9300M G NB9M-GE(G86) 80 400 800 1200 16:8:4 256/512 9.6 1.6 3.2 38.4
GeForce 9300M GS NB9M-GE(G98) 65 550 1400 1400 8:8:4 11.2 2.2 4.4 33.6
GeForce 9400M G October 15, 2008 MCP79MX Integrated(PCIe 2.0 x16) 450 1100 800
1066
(system memory) 		16:8:4 Up to 256 from system memory 12.8
17.056 		DDR2
DDR3 		128 1.8 3.6 54 12 PureVideo HD with VP3. Known as the GeForce 9400M in Apple systems[196] and Nvidia ION based systems
GeForce 9500M G 2008 NB9P(G96) PCIe 2.0 x16 500 1250 1600 16:8:8 512 25.6 DDR2 / GDDR3 4 4 60 20
GeForce 9500M GS NB9P-GV(G96) 80 PCIe x16 475 950 1400 32:16:8 22.4 3.8 7.6 91.2 Rebranded 8600M GT
GeForce 9600M GS NB9P-GE2(G96) 65 PCIe 2.0 x16 430 1075 800
1600 		1024 12.8
25.6 		3.44 6.88 103.2
GeForce 9600M GT NB9P-GS(G96) 500 1250 1600 512/1024 25.6 4 8 120 23
GeForce 9650M GS NB9P-GS1(G84) 80 625 512 GDDR3 5 10 29 Rebranded 8700M GT
GeForce 9650M GT NB9P-GT(G96) 65/55 550 1325 1024 4.4 8.8 127.2 23
GeForce 9700M GT July 29, 2008 NB9E-GE(G96) 65 PCIe x16 625 1550 512 5 10 148.8 45
GeForce 9700M GTS NB9E-GS(G94) PCIe 2.0 x16 530 1325 48:24:16 51.2 256 8.48 12.7 190.8 60
GeForce 9800M GS 2008 NB9E-GT(G94) 64:32:16 8.48 16.96 254 Down Clocked 9800M GTS Via Firmware
GeForce 9800M GTS July 29, 2008 65/55 600 1500 64:32:16 512 / 1024 9.6 19.2 288 75
GeForce 9800M GT NB9E-GT2(G92) 500 1250 96:48:16 512 8 24 360 65 Rebranded 8800M GTX
GeForce 9800M GTX NB9E-GTX(G92) 65 112:56:16 1024 28 420 75
Model Launch Code name Fab (nm) Bus interface Core (MHz) Shader (MHz) Memory (MHz) Core config1 Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Processing power (GFLOPS) Direct3D OpenGL TDP (Watts) Notes
Clock speed Memory Fillrate Supported API version

GeForce 100M (1xxM) series

The GeForce 100M series for notebooks architecture. Tesla (microarchitecture) (103M, 105M, 110M, 130M are rebranded GPU i.e. using the same GPU cores of previous generation, 9M, with promised optimisation on other features)

Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts) Notes
Core (MHz) Shader (MHz) Memory (MHz) Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
GeForce G 102M January 8, 2009 MCP79XT 65 Integrated
(PCIe 1.0 x16) 		450? 1000 800
(system memory) 		16:8:4 Up to 512 from system memory 6.4 DDR2 64 1.8 3.6 48 10.0 3.3 14 PureVideo HD, CUDA, Hybrid SLI, based on GeForce 9400M G
GeForce G 103M January 1, 2009 N10M-GE2(G98) PCIe 2.0 x16 640 1600 1000 8:8:4 512 8 2.56 5.12 38 PureVideo HD, CUDA, Hybrid SLI, comparable to the GeForce 9300M GS
GeForce G 105M January 8, 2009 N10M-GE1(G98) 1000
1400 		8
11 		GDDR2
GDDR3 		38
GeForce G 110M N10M-GE1(G96b) 55 400 1000 1000
1400 		16:8:4 1024 8
11 		DDR2
GDDR3 		1.6 3.2 48 PureVideo HD, CUDA, Hybrid SLI
GeForce GT 120M February 11, 2009 N10P-GV1(G96b) 500 1250 1000 32:16:8 16 DDR2 128 4 8 110 23 PureVideo HD, CUDA, Hybrid SLI, Comparable to the 9500M GT and 9600M GT DDR2 (500/1250/400)
GeForce GT 130M January 8, 2009 N10P-GE1(G96b) 600 1500 1000
1600 		16
25.6 		DDR2
GDDR3 		4.8 9.6 144 PureVideo HD, CUDA, Hybrid SLI, comparable to the 9650M GT
GeForce GTS 150M March 3, 2009 N10E-GE1(G94b) 400 1000 1600 64:32:16 51.2 GDDR3 256 6.4 12.8 192 Un­known PureVideo HD, CUDA, Hybrid SLI
GeForce GTS 160M N10E-GS1(G94b) 600 1500 9.6 19.2 288 60

GeForce 200M (2xxM) series

The GeForce 200M series is a graphics processor architecture for notebooks, Tesla (microarchitecture)

Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts) Notes
Core (MHz) Shader (MHz) Memory (MHz) Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
GeForce G210M June 15, 2009 GT218 40 PCIe 2.0 x16 625 1500 1600 16:8:4 512 12.8 GDDR3 64 2.5 5 72 10.1 3.3 14 Lower clocked versions of the GT218 core is also known as Nvidia ION 2
GeForce GT 220M 2009 G96b 55 500 1250 1000
1600 		32:16:8 1024 16
25.6 		DDR2
GDDR3 		128 4 8 120 rebranded 9600M GT @55 nm node shrink
GeForce GT 230M June 15, 2009 GT216 40 1100 1600 48:16:8 25.6 GDDR3 158 23
GeForce GT 240M 550 1210 4.4 8.8 174
GeForce GTS 250M GT215 500 1250 3200 96:32:8 51.2 GDDR5 4 16 360 28
GeForce GTS 260M GT215 550 1375 3600 57.6 4.4 17.6 396 38
GeForce GTX 260M March 3, 2009 G92b 55 1900 112:56:16 60.8 GDDR3 256 8.8 30.8 462 65
GeForce GTX 280M 585 1463 128:64:16 9.36 37.44 562 75
GeForce GTX 285M February 2010 600 1500 2000 64.0 9.6 38.4 576 Higher Clocked Version of GTX280M with new memory

GeForce 300M (3xxM) series

The GeForce 300M series for notebooks architecture, Tesla (microarchitecture)

Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS)2 Supported API version TDP (Watts)
Core (MHz) Shader (MHz) Memory (MHz) Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
GeForce 305M January 10, 2010 GT218 40 PCIe 2.0 x16 525 1150 1400 16:8:4 512 11.2 DDR3
GDDR3 		64 2.1 4.2 55 10.1 3.3 14
GeForce 310M 625 1530 1600 12.8 2.5 5 73
GeForce 315M January 5, 2011 606 1212 2.42 4.85 58.18
GeForce 320M April 1, 2010 MCP89 450 950 1066 48:16:8 256 (shared w/ system memory)
[197] 		17.056 DDR3 128 3.6 7.2 136.8 20
GeForce GT 320M January 21, 2010 GT216 500 1100 1580 24:8:8 1024 25.3 DDR3
GDDR3 		4 4 90 14
GeForce GT 325M January 10, 2010 450 990 1600 48:16:8 25.6 3.6 7.2 142 23
GeForce GT 330M 575 1265 4.6 9.2 182
GeForce GT 335M January 7, 2010 GT215 450 1080 72:24:8 3.6 10.8 233 28?
GeForce GTS 350M 500 1249 3200 96:32:8 51.2 DDR3
GDDR3
GDDR5 		4 16 360 28
GeForce GTS 360M 1436 3600 57.6 4.4 17.6 413 38

GeForce 400M (4xxM) series

The GeForce 400M series for notebooks architecture, Fermi (microarchitecture)

  • 1 Unified shaders: texture mapping units: render output units
  • 2 To calculate the processing power see Fermi (microarchitecture)#Performance.
  • 3 Each SM in the GF100 also contains 4 texture address units and 16 texture filtering units. Total for the full GF100 64 texture address units and 256 texture filtering units.[60] Each SM in the GF104/106/108 architecture contains 8 texture filtering units for every texture address unit. The complete GF104 die contains 64 texture address units and 512 texture filtering units, the complete GF106 die contains 32 texture address units and 256 texture filtering units and the complete GF108 die contains 16 texture address units and 128 texture filtering units.
Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS)2 Supported API version TDP (Watts) Notes
Core (MHz) Shader (MHz) Memory (MHz) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
GeForce 410M January 5, 2011 GF119 40 PCIe 2.0 x16 575 1150 1600 48:83:4 0.5 and 1 12.8 DDR3 64 2.3 4.6 110.4 12 4.5 12 Similar to Desktop GT420 OEM
GeForce GT 415M September 3, 2010 GF108 500 1000 25.6 128 2 4 96 <12(GPU only)[198]
GeForce GT 420M 96:163:4 8 192 10–23(GPU only)[198] Similar to Desktop GT430
GeForce GT 425M 560 1120 1 2.24 8.96 215.04 20–23(GPU only)[198]
GeForce GT 435M 650 1300 2 2.6 10.4 249.6 32–35(GPU only)[198] Similar to Desktop GT430/440
GeForce GT 445M GF106 590 1180 1600
2500 		144:243:16
144:243:24 		1
1.5 		25.6
60 		DDR3
GDDR5 		128
192 		9.44
14.16 		14.16 339.84 30–35(GPU only)[198] Similar to Desktop GTS450 OEM)
GeForce GTX 460M 675 1350 2500 192:323:24 1.5 60 GDDR5 192 16.2 21.6 518.4 45–50(GPU only)[198] Similar to Desktop GTX550 Ti
GeForce GTX 470M GF104 550 1100 288:483:24 13.2 26.4 633.6 Similar to Desktop GTX 460/560SE
GeForce GTX 480M May 25, 2010 GF100 425 850 2400 352:443:32 2 76.8 256 13.6 18.7 598.4 100(MXM module) Similar to Desktop GTX465
GeForce GTX 485M January 5, 2011 GF104 575 1150 3000 384:643:32 96.0 18.4 36.8 883.2 Similar to Desktop GTX560 Ti

GeForce 500M (5xxM) series

The GeForce 500M series for notebooks architecture, Fermi (microarchitecture)

Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS)2 Supported API version TDP (Watts) Notes
Core (MHz) Shader (MHz) Memory (MHz) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
GeForce GT 520M January 5, 2011 GF119 40 PCIe 2.0 x16 740 1480 1600 48:8:4 1 12.8 DDR3 64 2.96 5.92 142.08 12 4.6 12 Similar to Desktop 510/520
GeForce GT 520M GF108 515 1030 96:16:4 2.06 8.24 197.76 20 Noticed in Lenovo laptops, similar to Desktop 530/430/440
GeForce GT 520MX May 30, 2011 GF119 900 1800 1800 48:8:4 14.4 3.6 7.2 172.8 Similar to Desktop 510 & GT520
GeForce GT 525M January 5, 2011 GF108 600 1200 96:16:4 28.8 128 2.4 9.6 230.4 20–23 Similar to Desktop GT 530/430/440
GeForce GT 540M 672 1344 2
1 		2.688 10.752 258.048 32–35 Similar to Desktop GT 530/440
GeForce GT 550M GF108
GF1062 		740
475 		1480
950 		1800
1800 		96:16:4
144:24:162 		1 2.96 11.84 284.16
312.6
GeForce GT 555M GF106

GF108 		590
650
753 		1180
1300
1506 		1800
1800
3138 		144:24:24
144:24:16
96:16:4 		1.5
2
1 		43.2
28.8
50.2 		DDR3
DDR3
GDDR5 		192
128
128 		14.6
10.4
3 		14.6
15.6
12 		339.84
374.4
289.15 		30–35 Similar to Desktop GT545
GeForce GTX 560M May 30, 2011 GF116 775 1550 2500 192:32:16
192:32:24 		2
1.5, 3 		40.0
60.0 		GDDR5 128
192 		18.6 24.8 595.2 75 Similar to Desktop GTX 550Ti
GeForce GTX 570M[199] June 28, 2011 GF114 575 1150 3000 336:56:24 1.5 72.0 192 13.8 32.2 772.8 Similar to Desktop GTX 560
GeForce GTX 580M 620 1240 384:64:32 2 96.0 256 19.8 39.7 952.3 100 Similar to Desktop GTX 560 Ti

GeForce 600M (6xxM) series

Further information: GeForce 600 series

The GeForce 600M series for notebooks architecture, Fermi (microarchitecture) and Kepler (microarchitecture). The processing power is obtained by multiplying shader clock speed, the number of cores, and how many instructions the cores can perform per cycle.

Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS)2 Supported API version TDP (Watts) Notes
Core (MHz) Shader (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Vulkan Direct3D OpenGL
GeForce 610M[200] December 2011 GF119 (N13M-GE) 40 PCIe 2.0 x16 900 1800 1.8 48:8:4 1
2 		14.4 DDR3 64 3.6 7.2 142.08 n/a 12 4.5 12 OEM. Rebadged GT 520MX
GeForce GT 620M[201] April 2012 GF117 (N13M-GS) 28 625 1250 1.8 96:16:4 14.4
28.8 		64
128 		2.5 10 240 15 OEM. Die-Shrink GF108
GeForce GT 625M October 2012 14.4 64
GeForce GT 630M[201][202][203] April 2012 GF108 (N13P-GL)
GF117 		40
28 		660
800 		1320
1600 		1.8
4 		28.8
32.0 		DDR3
GDDR5 		128
64 		2.6
3.2 		10.7
12.8 		258.0
307.2 		33 GF108: OEM. Rebadged GT 540M
GF117: OEM Die-Shrink GF108
GeForce GT 635M[201][204][205] GF106 (N12E-GE2)
GF116 		40 675 1350 1.8 144:24:24 2
1.5 		28.8
43.2 		DDR3 128
192 		16.2 16.2 289.2
388.8 		35 GF106: OEM. Rebadged GT 555M
GF116: 94% of desktop GT640[original research?]
GeForce GT 640M LE[201] March 22, 2012 GF108
GK107 (N13P-LP) 		40
28 		PCIe 2.0 x16
PCIe 3.0 x16 		762
500 		1524
500 		3.13
1.8 		96:16:4

384:32:16
(2 SMX) 		1
2 		50.2
28.8 		DDR3

GDDR5

128 3
8 		12.2
16 		292.6
384 		1.2 32
20 		GF108: 94% of desktop GT630[original research?]
GK107: 47% of desktop GTX650[original research?]
GeForce GT 640M[201][206] GK107 (N13P-GS) 28 PCIe 3.0 x16 625 625 1.8
4 		384:32:16
(2 SMX) 		28.8
64.0 		10 20 480 32 59% of desktop GTX650[original research?]
GeForce GT 645M October 2012 710 710 1.8
4 		11.36 22.72 545 67% of desktop GTX650[original research?]
GeForce GT 650M[201][207][208] March 22, 2012 GK107 (N13P-GT) 745
835
900* 		835
950
900* 		1.8
4
5* 		0.5
1
2 		28.8
64.0
80.0* 		11.9
13.4
14.4* 		23.8
26.7
28.8* 		729.6
641.3
691.2* 		45 79% of desktop GTX650[original research?]
GeForce GTX 660M[201][208][209][210] GK107 (N13E-GE) 835 950 5 2 80.0 GDDR5 15.2 30.4 729.6 50 79% of desktop GTX650[original research?]
GeForce GTX 670M[201] April 2012 GF114 (N13E-GS1-LP) 40 PCIe 2.0 x16 620 1240 3 336:56:24 1.5
3 		72.0 192 14.35 33.5 833 n/a 75 73% of desktop GTX 560[original research?]
GeForce GTX 670MX October 2012 GK104 (N13E-GR) 28 PCIe 3.0 x16 615 615 2.8 960:80:24
(5 SMX) 		67.2 14.4 48.0 1181 1.2 61% of desktop GTX 660[original research?]
GeForce GTX 675M[201] April 2012 GF114 (N13E-GS1) 40 PCIe 2.0 x16 632 1265 3 384:64:32 2 96.0 256 19.8 39.7 972 n/a 100 75% of desktop GTX 560Ti[original research?]
GeForce GTX 675MX October 2012 GK104 (N13E-GSR) 28 PCIe 3.0 x16 667 667 3.6 960:80:32
(5 SMX) 		4 115.2 19.2 48.0 1281 1.2 61% of desktop GTX 660[original research?]
GeForce GTX 680M June 4, 2012 GK104 (N13E-GTX) 719 719 1344:112:32
(7 SMX) 		23 80.6 1933 78% of desktop GTX 670[original research?]
GeForce GTX 680MX October 23, 2012 GK104 5 1536:128:32
(8 SMX) 		160 92.2 2209 122 72% of desktop GTX 680[original research?]
Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS)2 Supported API version TDP (Watts) Notes
Core (MHz) Shader (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Vulkan Direct3D OpenGL

GeForce 700M (7xxM) series

Further information: GeForce 700 series and Kepler (microarchitecture)

The GeForce 700M series for notebooks architecture. The processing power is obtained by multiplying shader clock speed, the number of cores, and how many instructions the cores can perform per cycle.

Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS)2 Supported API version TDP (Watts) Notes
Core (MHz) Shader (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Vulkan Direct3D OpenGL CUDA
GeForce 710M January 2013 GF117 28 PCIe 2.0 x16 800 1600 1.8 96:16:4 1
2 		14.4 DDR3 64 3.2 12.8 307.2 n/a 12 4.5 2.1 [211] 12 OEM. About 115% of Mobile 620 & Desktop 530[original research?]
GeForce 710M July 24, 2013 GK208 PCIe 3.0 x8 719 ? 192:16:8 1 5.752 11.5 276.1 1.2 3.5 [212] 15 Kepler, similar to 730M with half of the cores disabled
GeForce GT 720M April 1, 2013 GF117 PCIe 2.0 x16 938 1876 2 96:16:4 2 16.0 3.8 15.0 360.19 n/a 2.1 [211] ? OEM. About 130% of Mobile 625/630 & Desktop 620[original research?]
GeForce GT 720M December 25, 2013 GK208 PCIe 2.0 x8 719 192:16:8 12.8 3.032 12.13 291 1.2 3.5 [212] 22 Kepler, similar to 730M with half of the cores disabled
GeForce GT 730M January 2013 GK208 PCIe 3.0 x8 719 384:32:8
(2 SMX) 		16.0 128 5.8 23.0 552.2 33 Kepler, similar to Desktop GT640
GeForce GT 735M April 1, 2013 889 64 7.11 28.4 682.8 ? Kepler, similar to Desktop GT640
GeForce GT 740M 980 1.8 14.4 7.84 31.4 752.6 Kepler, similar to Desktop GT640.
GeForce GT 740M GK107 PCIe 3.0 x16 810[213] 1.8
5 		384:32:16
(2 SMX) 		2[213] 28.8
80 		DDR3
GDDR5[213] 		128 12.96 25.92 622.1 3.0 [211] 45 about 76% of Desktop GTX650[original research?]
GeForce GT 745M 837 2
5 		2 32
80 		DDR3
GDDR5 		13.4 26.8 642.8 about 79% of Desktop GTX650[original research?]
GeForce GT 750M 967 15.5 30.9 742.7 50 about 91% of Desktop GTX650[original research?]
GeForce GT 755M[214] ? 1020 5.4 86.4 GDDR5 15.7 31.4 783 about 93% of Desktop GTX650[original research?]
GeForce GTX 760M May 2013 GK106 719 4 768:64:16
(4 SMX) 		64 10.5 42.1 1104 55 about 71% of Desktop GTX 650Ti[original research?]
GeForce GTX 765M 863 13.6 54.4 1326 65 about 92% of Desktop GTX 650Ti[original research?]
GeForce GTX 770M 797 960:80:24
(5 SMX) 		3 96 192 19.5 64.9 1530 75 about 83% of Desktop GTX660[original research?]
GeForce GTX 780M GK104 5 1536:128:32
(8 SMX) 		4 160 256 26.3 105.3 2448 122 about 78% of Desktop GTX770[original research?]
Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS)2 Supported API version TDP (Watts) Notes
Core (MHz) Shader (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Vulkan Direct3D OpenGL CUDA

GeForce 800M (8xxM) series

Further information: GeForce 800M series

The GeForce 800M series for notebooks architecture. The processing power is obtained by multiplying shader clock speed, the number of cores, and how many instructions the cores can perform per cycle.

Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS)2 Supported API version TDP (Watts) Notes (original research)
Core (MHz) Shader (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Vulkan Direct3D OpenGL CUDA Compute Capability
GeForce 810M February 2014 GF117 28 PCIe 2.0 x16 738–888 1476–1776 1.8 48:8:4 1 14.4 DDR3 64 2.95–3.55 5.9–7.1 141.7–170.5 n/a 12 4.5 2.1 [211] 15
GeForce 820M[215] 719–954 1438–1908 2 96:16:4 2 16 2.9–3.8 11.5–15.3 276.1–366.3 15[216] 115% of 620 (Fermi)
GeForce 825M[217] January 27, 2014 GK208 PCIe 3.0 x8 850 1.8 384:16:8
(2 SMX) 		14.4 6.8 13.6 652.8 1.2 3.5 [212] 33 94% of 630 (Kepler)
GeForce 830M[218] March 12, 2014 GM108 PCIe 3.0 x16 1029 256:16:8
(2 SMM) 		14.4 8.2 16.5 526.8 1.3 5.0[211] ~25 50% of 750 (Maxwell)
GeForce 840M[219] 2 384:24:8
(3 SMM) 		2–4 16 8.2 24.7 790.3 30 50–80% of 745 (Maxwell)
GeForce 845M[220][221] February 7, 2015[222] 1071–1150 5 384:32:16
(3 SMM) 		2 40 GDDR5 18.8 37.6 903.2 33
August 16, 2015[223] GM107 863 2 512:32:16
(4 SMM) 		16 DDR3 13.8 27.6 883.7 45
GeForce GTX 850M[224] March 12, 2014 876+Boost 5 640:40:16
(5 SMM) 		2–4 80.2 GDDR5 128 14.0 35.0 1121.3 40 80% of 750Ti
936+Boost 2 32 DDR3 15.0 37.4 1198.1 85% of 750Ti
GeForce GTX 860M[225] 1029–1085 5 640:40:16
(5 SMM) 		2 80 GDDR5 16.5 41.2 1389 40–45 equal to 750Ti
GK104 797–915 1152:96:16
(6 SMX) 		4 12.8 76.5 2108 1.2 3.0[211] 75 similar to 660 OEM.
GeForce GTX 870M[226] 941–967 1344:112:24
(7 SMX) 		3, 6 120 192 22.6 105.4 2599 110 105% of 660Ti
GeForce GTX 880M[227] 954–993 1536:128:32
(8 SMX) 		4, 8 160 256 30.5 122.1 3104 130 90% of 770
Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS)2 Supported API version TDP (Watts) Notes (original research)
Core (MHz) Shader (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Vulkan Direct3D OpenGL CUDA Compute Capability

GeForce 900M (9xxM) series

Further information: GeForce 900 series

The GeForce 900M series for notebooks architecture. The processing power is obtained by multiplying shader clock speed, the number of cores, and how many instructions the cores can perform per cycle.

Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS)2 Supported API version TDP (Watts) Notes
Min (MHz) Average (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Vulkan Direct3D OpenGL OpenCL
GeForce 910M March 13,

2015

GK208B 28 PCIe 3.0 x8 641 384:32:8

(2 SMX)

2 16.02 DDR3 64 5.128 20.51 492.3 1.2 12 (11_0) 4.6 1.2 33
GeForce 920M March 12, 2015 GK208 28 PCIe 3.0 x16 954 Un­known 1.8 384:32:8
(2 SMX) 		2 14.4 DDR3 64 7.6 30.5 733 1.2 12 (11_0) 4.6 1.2 33
GeForce 930M GM108 928 941 384:24:8
(3 SMM) 		7.4 22.3 713 1.3 29[228]
GeForce 940M 1072 1176 2 16 8.6 25.7 823 36[229]
GeForce 940MX January, 2016[230] 1004 1242 9.9 29.8 954 23
June 28, 2016[231] GM107 795 861 5 512:32:8
(4 SMM) 		40 GDDR5 6.9 27.6 882
GeForce GTX 950M March 12, 2015 914 Un­known 640:40:16
(5 SMM) 		2, 4 80 128 14.6 36.6 1170 Un­known Similar core config to GTX 750 Ti (GM107-400-A2)
2 32 DDR3 55[232]
GeForce GTX 960M 1097 1176 5 80 GDDR5 17.5 43.8 1403 65[233]
GeForce GTX 965M[234] January 5, 2015 GM204 944 Un­known 1024:64:32
(8 SMM) 		30.2 60.4 1933 12 (12_1) 60[235] Similar core config to GTX 960 (GM206-300)
GeForce GTX 970M[236] October 7, 2014 993 1280:80:48
(10 SMM) 		3, 6 120 192 44.4 73.9 2365 75 Similar core config to GTX 960 OEM (GM204)
GeForce GTX 980M[237] 1038 1127 1536:96:64
(12 SMM) 		4, 8 160 256 66.4 99.6 3189 100 Similar core config to GTX 970 (GM204-200) with one SMM disabled
GeForce GTX 980[238] September 22, 2015 1064 Un­known 7.01 2048:128:64
(16 SMM) 		8 224 68.1 136.2 4358 165, oc to 200 Similar to Desktop GTX 980
Model Launch Code name Fab (nm) Bus interface Clock speed Core config1 Memory Fillrate Processing power (GFLOPS)2 Supported API version TDP (Watts) Notes
Min (MHz) Average (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Vulkan Direct3D OpenGL OpenCL

GeForce 10 series

Further information: GeForce 10 series and Pascal (microarchitecture)
Model name Launch Code name Fab (nm) Transistors (billion) Die size (mm2) Bus interface Clock speeds Core config Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts) SLI support
Base core clock (MHz) Boost core clock (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Half precision Single precision (Boost) Double precision DirectX OpenGL Vulkan OpenCL
GeForce GTX 1050 (Notebook) [239][240] January 3, 2017 GP107 (N17P-G0-A1) 14 nm 3.3 135 PCIe 3.0 x16 1354 1493 7 640:40:16 4 112 GDDR5 128 21.7 54.2 14 1733
(1911) 		27 12
(12_1) 		4.5 1.3 1.2 53 No
GeForce GTX 1050 Ti (Notebook) [239] GP107 (N17P-G1-A1) 1493 1620 768:48:32 47.8 71.7 18 2293
(2488) 		36 64
GeForce GTX 1060 (Notebook) [239] August 16, 2016 GP106 16 nm 4.4 200 1404 1670 8 1280:80:48 6 192 192 67.4 112 56 3594
(4275) 		112 80
GeForce GTX 1060 Max-Q May 2017 1063 1480 71.04 118.4 59.20 3789 118.4
GP106B 1265
GeForce GTX 1070 (Notebook) [239] August 16, 2016 GP104/ GP104B [241] 7.2 314 1442 1645 2048:128:64 8 256 256 92.3 185 92 5906
(6738) 		185 115 Yes
GeForce GTX 1070 Max-Q May 2017 1101 1379 88.26 176.5 88.26 5648 176.5 ? No
GeForce GTX 1080 (Notebook) [239] August 16, 2016 1556 1733 10 2560:160:64 320 GDDR5X 99.6 249 124 7967
(8873) 		249 150 Yes
GeForce GTX 1080 Max-Q May 2017 1101 1468 93.95 234.9 117.4 7516 234.9 ? No

GeForce 16 series

Further information: GeForce 16 series and Turing (microarchitecture)
Model Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Clock speeds Core config L2

Cache(MiB)

Memory (GT/s) Memory Fillrate Processing power (GFLOPS) TDP (Watts)
Base core clock (MHz) Boost core clock (MHz) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Half precision Single precision Double precision
Geforce GTX 1630 Jun 28, 2022 TU117 TSMC 12FFN 4.7 200 PCIe 3.0

x16

1740 1785 512:32:16 1.0 12 4 96 GDDR6 64 28.56 57.12 3.656 1828 57.12 75
GeForce GTX 1650 (Laptop) April 23, 2019 1395 1560 1024:64:32 8 4 128 GDDR5 128 49.92 99.84 6390 3195 99.84[242] 50
GeForce GTX 1650 Max-Q TU117(N18P-G0-MP-A1) 1020 1245 112 39.84 79.68 5100 2550 79.68[243] 30
GeForce GTX 1650 Ti Max-Q April 2, 2020 TU117 1035 1200 12 4 192 GDDR6 38.4 76.8 4915 2458 76.8 35
GeForce GTX 1650 Ti TU117(N18P-G62-A1) 1350 1485 47.52 95.04 6083 3041 95.04 55
GeForce GTX 1660 (Laptop) ? TU116 6.6 284 1455 1599 1408:88:48 1.5 16 6 384 192 76.32 127.2 8141 4070 127.2[244] ?
GeForce GTX 1660 Ti Max-Q April 23, 2019 1140 1335 1536:96:46 12 288 64.08 128.2 8202 4101 128.2[245] 60
GeForce GTX 1660 Ti (Laptop)[246] 1455 1590 1536:96:46 288 76.32 152.6 9769 4884 152.6[247] 80

GeForce 20 series

Further information: GeForce 20 series and Turing (microarchitecture)
Model name Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Clock speeds Core config[a] L2 Cache (MiB) Memory Fillrate[b] Processing power (GFLOPS)[b] Ray-tracing Performance TDP (Watts)
Base core clock (MHz) Boost core clock (MHz) Memory (GT/s) Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s)[c] Texture (GT/s)[d] Half precision Single precision Double precision Tensor compute (FP16) Rays/s (Billions) RTX OPS/s (Trillions)
GeForce RTX 2050 [249][250] January 3, 2022 GA107
(Ampere) 		Samsung 8N 8.7 200 PCIe 3.0 x8 1155 1477 14 2048:64: 32:64:32
(16) (3) 		2 4 112.0 GDDR6 64 30-45
GeForce RTX 2060 [251] January 29, 2019 TU106 TSMC
12FFN 		10.8 445 PCIe 3.0 x16 960 1200 1920:120: 48:240:30
(30) (3) 		3 6 336.0 192 57.6 144 9216 4608 144.0 80
GeForce RTX 2060 Max-Q [252] 975 1175 11 264.0 56.88 142.2 9101 4550 142.2 65
GeForce RTX 2070 [253] 1215 1440 14 2304:144: 64:288:36
(36) (3) 		4 8 448.0 256 92.16 207.4 13270 6636 207.4 115
GeForce RTX 2070 Max-Q [254] 885 1185 12 75.84 170.6 10920 5460 170.6 80
GeForce RTX 2070 Super [255] April 2, 2020 TU104 13.6 545 1140 1380 14 2560:160: 64:320:40
(40) (5) 		88.3 220.8 14130 7066 220.8 115
GeForce RTX 2070 Super Max-Q [256] 930 1155 12 69.1 172.8 11060 5530 172.8 80
GeForce RTX 2080 [257] January 29, 2019 1380 1590 14 2944:184: 64:368:46
(46) (6) 		384.0 101.8 292.6 18720 9362 292.6 150
GeForce RTX 2080 Max-Q [258] 735 1095 12 70.08 201.5 12890 6447 201.5 80
GeForce RTX 2080 Super [259] April 2, 2020 1365 1560 14 3072:192: 64:384:48
(48) (6) 		448.0 99.8 299.5 19170 9585 299.5 150
GeForce RTX 2080 Super Max-Q [260] 735 1080 11 352.0 69.1 207.4 13270 6636 207.4 80
  1. ^ Main Shader Processors : Texture Mapping Units : Render Output Units : Tensor Cores (or FP16 Cores in GeForce 16 series) : Ray-tracing Cores (Streaming Multiprocessors) (Graphics Processing Clusters)
  2. ^ a b Base clock, Boost clock
  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 TMUs multiplied by the base core clock speed.

GeForce 30 series

Further information: GeForce 30 series and Ampere (microarchitecture)
Model name Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Clock speeds[a] Core config
[b] 		L2 Cache (MiB) Memory Fillrate[c] Processing power (TFLOPS)[c] Ray-tracing Performance TDP (Watts)
Base core (MHz) Boost core (MHz) Memory (MHz)
(Gb/s)
(GT/s) 		Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s)[d] Texture (GT/s)[e] Half precision Single precision Double precision Tensor compute (FP16) Tensor TOPS (INT8) Rays/s (Billions) RTX OPS/s (Trillions)
GeForce RTX 3050
Mobile/[261]
Laptop[262] 		May 11, 2021 GA107 Samsung 8N 8.7 200 PCIe 4.0 x8 712–1530
622-1237 		1057–1740
990-1492 		1375–1500
11–12
11–12
1375–1750
11–14
11–14 		2048:64: 32:64:16
(16) (3)
2560:80: 32:80:20
(20) (?) 		2 4
6 		176.0-192.0
132.0-224.0 		GDDR6 128
96 		22.7-48.9
33.8-55.6
 45.6-97.9
67.7-111.4 		2.92-6.27
4.33-7.13 		2.92-6.27
4.33-7.13 		0.046-0.098
0.068-0.111 		35–80
GeForce[263]
RTX 3050 
Ti Mobile/
Laptop[264] 		735–1462 1035–1695 12 2560:80: 48:80:20
(20) (3) 		4 192 128 35.3-70.2
49.7-81.4 		58.8-117.0
82.8-135.6 		3.76-7.49
5.30-8.68 		3.76-7.49
5.30-8.68 		0.059-0.117
0.083-0.136
GeForce RTX 3060 Mobile/[265]
Laptop[266] 		January 12, 2021 GA106 12.0 276 PCIe 4.0 x16 817–1387 1282–1702 12
14 		3840:120: 48:120:30
(30) (3) 		3 6 288
336 		192 39.2-66.6
61.54-81.7 		98.0-166.4
153.8-204.2 		6.27-10.65
9.85-13.07 		6.27-10.65
9.85-13.07 		0.108-0.166
0.154-0.204 		60-115
GeForce[267]
RTX 3070 Mobile/[268]
Laptop[269] 		GA104-770-A1 17.4 392 780–1215 1290–1720 5120:160: 80:160:40
(40) (6) 		4 8 384
448 		256 62.4-97.2
103.2-129.6 		124.8-194.4
206.4-259.2 		7.99-12.44
13.21-16.59 		7.99-12.44
13.21-16.59 		0.125-0.194
0.206-0.259 		80–125
GeForce RTX 3070
Ti Mobile/
Laptop[270] 		January 4, 2022 GA104 510-1035 1035-1485 5888:184: 96:184:46
(46) (6) 		46.9-95.2
95.2-136.6 		93.8-190.4
190.4-273.2 		6.01-12.19
12.19-17.49 		6.01-12.19
12.19-17.49 		0.094-0.190
0.190-0.273 		16.6
GeForce RTX 3080 Mobile/[271]
Laptop[272] 		January 12, 2021 GA104-775-A1 780-1350 1245-1810 6144:192: 96:192:48
(48) (6) 		8-16 74.9-129.6
119.5-164.2 		149.8-259.2
239.0-328.3 		9.59-16.59
15.30-22.2 		9.59-16.59
15.30-22.2 		0.150-0.259
0.239-0.328 		80–150
GeForce RTX 3080
Ti Mobile/
Laptop[273] 		January 25, 2022 GA103 22 496 585-1230 1125-1590 12
16 		7424:232: 116:232:58
(58) (6) 		16 384
512 		67.9-142.7
 130.5-184.4  		135.7-285.4
 261.0-368.9  		8.68-18.26
  16.7-23.60   		8.68-18.26
  16.7-23.60   		0.136-0.285
  0.261-0.369   		18.71
  1. ^ Which base and boost core clockspeeds the GPU has depends on the TDP configuration set by the system builder
  2. ^ Main Shader Processors : Texture Mapping Units : Render Output Units : Tensor Cores (or FP16 Cores in GeForce 16 series) : Ray-tracing Cores (Streaming Multiprocessors) (Graphics Processing Clusters)
  3. ^ a b Base clock, Boost clock.
  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.
  5. ^ Texture fillrate is calculated as the number of TMUs multiplied by the base core clock speed.

GeForce 40 series

Further information: GeForce 40 series and Ada Lovelace (microarchitecture)
Model name Launch Code name Process Transistors (billion) Die size (mm2) Bus interface Clock speeds[a] Core config[b] L2 Cache (MiB) Memory Fillrate[c] Processing power (TFLOPS)[c] Ray-tracing Performance TDP (Watts)
Base core (MHz) Boost core (MHz) Memory (MHz)
(Gb/s)
(GT/s) 		Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s)[d] Texture (GT/s)[e] Half precision Single precision Double precision Tensor compute (FP16) Tensor TOPS (INT8) Rays/s (Billions) RTX OPS/s (Trillions)
GeForce RTX 4050 Mobile/
Laptop[276] 		February 22, 2023 AD107
GN21-X2 		TSMC 4N 18.9 146 PCIe 4.0 x8 1140-2370 1605-2370 2000
16
14000 (Max-Q)
16 		2560:80:
32:80:20
(20) (2) 		12 6 168.0
192.0 		GDDR6
[277] 		96 36.4-75.8
51.3-75.8 		91.2-189.6
128.4-189.6 		5.83-12.1
8.21-12.1 		5.83-12.1
8.21-12.1 		0.09-0.18
0.12-0.18 		46.6-97.0
65.7-97.0 		93.3-194.1
131.5-194.1 		35–115
GeForce RTX 4060 Mobile/
Laptop[276] 		AD107
GN21-X4 		1140-2295 1470-2370 3072:96:
32:96:24
(24) (2) 		32 8 224.0
256.0 		128 36.4-73.4
47.0-75.8 		109.4-220.3
141.1-227.5 		7.00-14.1
9.03-14.5 		7.00-14.1
9.03-14.5 		0.10-0.22
0.14-0.23 		56.0-112.8
72.2-116.4 		112.0-225.6
144.5-232.9
GeForce RTX 4070 Mobile/
Laptop[276] 		AD106
GN21-X6 		22.9 190 735-2070 1230-2175 4608:144:
48:144:36
(36) (3) 		35.2-99.3
59.0-104.4 		105.8-298.0
177.1-313.2 		6.77-19.0
11.3-20.0 		6.77-19.0
11.3-20.0 		0.10-0.29
0.17-0.31 		54.1-152.6
90.6-160.3 		108.3-305.2
181.3-320.7
GeForce RTX 4080 Mobile/
Laptop[276] 		February 8, 2023 AD104
GN21-X9 		35.8 295 PCIe 4.0 x16 795-1860 1350-2280 2250
18
14000
(Max-Q)
18 		7424:232:
80:232:58
(58) (5) 		48 12 336.0
432.0 		192 63.6-148.8 108.0-182.4 184.4-431.5 313.2-528.9 11.8-27.6 20.0-33.8 11.8-27.6 20.0-33.8 0.18-0.43 0.31-0.52 94.4-220.9
160.3-270.8 		188.8-441.8
320.7-541.6 		60-150
GeForce RTX 4090 Mobile/
Laptop[276] 		AD103
GN21-X11 		45.9 379 930-1620 1455-2580 9728:304:
112:304:76
(76) (7) 		64 16 448.0
576.0 		256 104.1-181.4
162.9-288.9 		282.7-492.4
442.3-784.3 		18.0-31.5
28.3-50.1 		18.0-31.5
28.3-50.1 		0.28-0.49
0.44-0.78 		144.8-252.1
226.4-401.5 		289.5-504.2
452.9-803.1 		80-150
  1. ^ Which base and boost core clockspeeds the GPU has depends on the TDP configuration set by the system builder
  2. ^ Main Shader Processors : Texture Mapping Units : Render Output Units : Tensor Cores : Ray-tracing Cores (Streaming Multiprocessors) (Graphics Processing Clusters)
  3. ^ a b Base clock, Boost clock.
  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 clock rate.
  5. ^ Texture fillrate is calculated as the number of TMUs multiplied by the core clock speed.

GeForce 50 series

Laptops featuring GeForce 50 series laptop GPUs were shown at CES 2025. Laptops with RTX 50 series GPUs were paired with Intel's Arrow Lake-HX and AMD's Strix Point and Fire Range CPUs.[278][279] Nvidia claims that Blackwell architecture's new Max-Q features can increase battery life by up to 40% over GeForce 40 series laptops.[280] For example, Advanced Power Gating saves power by turning off areas of the GPU that are unused and the paired GDDR7 memory can run in an "ultra" low-voltage state.[281] Initial RTX 50 series laptops will become available in March 2025 starting at $1,299.[282]

GeForce RTX 5060
Laptop[283] 		5070
Laptop[284] 		5070 Ti
Laptop[285] 		5080
Laptop[286] 		5090
Laptop[287][288]
Release date May 2025 Apr 2025 Mar 2025
GPU die GB206-300 GB205-200 GB203-400 GB203-400
Transistors (billion) 21.9 31.1 45.6
Die size 181 mm2 263 mm2 378 mm2
Core CUDA cores 3,328 4,608 5,888 7,680 10,496
Texture mapping unit 144 184 240 328
Render output unit 48 64 96 112
Ray tracing cores 36 46 60 82
Tensor cores 144 184 240 328
Clock speed (GHz)
Boost value (GHz)
Streaming multiprocessors 36 46 60 82
Cache L1 4.5 MB 5.75 MB 7.5 MB 10.5 MB
L2 32 MB 48 MB 64 MB
Memory Type GDDR7
Size 8 GB 12 GB 16 GB 24 GB
Clock (Gb/s) 25.4
Bandwidth (GB/s) 405.8 608.6 811.5
Bus width 128-bit 192-bit 256-bit
Fillrate Pixel (Gpx/s)[a]
Texture (Gtex/s)[b]
Processing
power
(TFLOPS) 		FP16/FP32
FP64
Tensor compute
[sparse]
Interface Host PCIe 5.0 x16
TDP 45-100 W 50-100 W 60-115 W 80-150 W 95-150 W
  1. ^ Pixel fillrate is calculated as the number of render output units (ROPs) multiplied by the base (or boost) core clock speed.
  2. ^ Texture fillrate is calculated as the number of texture mapping units (TMUs) multiplied by the base (or boost) core clock speed.

GeForce MX series

Model name
(Architecture) 		Launch Code name(s) Process Transistors (billion) Die size (mm2) Bus interface Clock speeds L2 Cache (MiB) Core config [a] Memory Fillrate[b] Processing power (GFLOPS)[b] Ray tracing Performance TDP
(Watts)
Base
core
clock
(MHz) 		Boost
core
clock
(MHz) 		Memory (GT/s) Size
(GiB) 		Bandwidth
(GB/s) 		Type Bus
width
(bit) 		Pixel
(GP/s)[c] 		Texture
(GT/s)[d] 		Half
precision 		Single
precision 		Double
precision 		Tensor
compute
(FP16) 		Rays/s
(Billions) 		RTX OPS
(Trillions)
GeForce MX110
(Maxwell) [289][290] 		Nov 17, 2017 GM108
(N16V-GMR1-A1) 		TSMC
28 nm 		? ? PCIe 3.0
×4 		965 993 1.8
(DDR3)
5
(GDDR5) 		1 256:16 :8:3 2 14.4
(DDR3)
40.1
(GDDR5) 		DDR3
GDDR5 		64
(7.944)
(15.89)
(508.4)
(15.89) 		30
GeForce MX130
(Maxwell) [289][291][292] 		GM108
(N16S-GTR-A1) 		1122 1242 1 384:24 :8:3
(9.936)
(29.81) 		861.7
(953.9) 		26.93
(29.81)
GeForce MX150
(Pascal) [293][294][295] 		May 17, 2017 GP108
(N17S-LG-A1) 		Samsung
14 nm 		1.8 74 937 1038 5 0.5 384:24 :16:3 2
4 		40 GDDR5
(14.99)
(22.49) 		11.24
(12.45) 		719.6
(797.2) 		22.49
(24.91) 		10
GP108-650-A1
(N17S-G1-A1) 		1468 1532 6 0.5 48
(23.49)
(35.23) 		17.62
(18.38) 		1127
(1177) 		35.23
(36.77) 		25
GeForce MX230
(Pascal) [296] 		Feb 20, 2019 GP108
(N17S-G0-A1) 		1519 1531 7 0.5 256:16 :16:2 2
4 		56
(25.31)
(25.31)
(12.66)
(810.0)
(25.31) 		10
GeForce MX250
(Pascal) [297][298] 		GP108
(N17S-LG-A1) 		937 1038 384:24 :16:3 48
(16.61)
(24.91)
(12.46)
(797.2)
(24.91) 		10
GP108
(N17S-G2-A1) 		1518 1582 56
(24.3)
(36.4)
(18.98)
(1166)
(37.97) 		25
GeForce MX330
(Pascal) [299] 		Feb 12, 2020 GP108-655-A1
(N17S-LP-A1)
(N17S-G3-A1) 		746 (LP)
1531 		936 (LP)
1594
(25.50)
(38.26)
(19.13)
(1224)
(38.26) 		10–30
GeForce MX350
(Pascal) [300] 		GP107-670-A1
(N17S-LP-A1)
(N17S-G5-A1) 		3.3 132 747 (LP)
1354 		937 (LP)
1468 		640:32 :16:5
(23.49)
(46.98)
(29.36)
(1879)
(58.72) 		15–25
GeForce MX450
(Turing) [301][302] 		Aug 1, 2020 TU117
(N18S-LP-A1)
(N18S-G5-A1) 		TSMC
12FFN 		4.7 200 PCIe 4.0
×4 		720 (LP)
1395 		930 (LP)
1575 		7 1 896:56 :32:14 2 23.04
(50.40) 		40.32
(88.20) 		2581
(5645) 		1290
(2822) 		40.32
(88.20) 		10-30
10 80 GDDR6
GeForce MX550
(Turing) [303][304][305][306] 		Mar 2022 TU117-670-A1
(GN18-S5-A1) 		1065 1320 12 2 1024:32 :16:8 2
4 		96
(21.12)
(42.24)
(2703)
(2703)
(42.24) 		15–30
GeForce MX570
(Ampere) [303][307][305][308] 		Mar 2022 GA107
(GN20-S5-A1) 		Samsung
8N 		8.7 200 1087 1155 2 2048:64 :40:16 :16:64 2
4 		96
(46.20)
(73.92)
(4731)
(4731)
(73.92) 		15–45
  1. ^ Shader Processors : Texture mapping units : Render output units : Streaming Multiprocessors : Ray tracing cores : Tensor Cores
  2. ^ a b Base clock, Boost clock
  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 TMUs multiplied by the base core clock speed.

Workstation GPUs

Quadro

Further information: Quadro
Model Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
Quadro NV10GL 220 AGP 4x 135 166 0:4:4:4 64 2.66 SDR 128 0.54 0.54 7 1.2
Quadro DDR 135 333 5.312 DDR
Quadro2 MXR NV11GL 180 200 183 0:2:4:2 2.93 SDR 0.4 0.4
Quadro2 EX 175 166 2.7 0.35 0.35
Quadro2 PRO NV15GL 150 250 400 0:4:8:4 6.4 DDR 1 2
Quadro DCC NV20GL 180 200 460 1:4:8:4 128 7.4 0.8 1.6 8 1.4
Quadro4 380XGL NV18GL 150 AGP 8x 275 513 0:2:4:2 8.2 0.55 1.1 7
Quadro4 500XGL NV17GL AGP 4x 250 166 2.7 SDR 0.5 1
Quadro4 550XGL 270 400 64 6.4 DDR 0.59 1.08
Quadro4 580XGL NV18GL AGP 8x 300 0.6 1.2
Quadro4 700XGL NV25 AGP 4x 275 550 2:4:8:4 8.8 1.1 2.2 8
Quadro4 750XGL 128 1.5 Stereo display
Quadro4 900XGL 300 650 10.4 1.2 2.4 1.4
Quadro4 980XGL NV28GL AGP 8x
Model Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL TDP (Watts) Features
Memory Fillrate Supported API version

Quadro FX series

Further information: Quadro
Model Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1* Memory Fillrate Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
Quadro FX 500 NV34GL 150 AGP 8x 270 480 2:4:4:4 128 7.68 DDR 128 1.08 1.08 9.0 2.0 Stereo display
Quadro FX 600 NV34GL PCI 350 480 128 7.68 1.4 1.4
Quadro FX 700 NV35GL AGP 8x 275 550 3:4:8:4 128 8.8 1.1 2.2
Quadro FX 1000 NV30GL 130 300 600 2:4:8:4 9.6 GDDR2 1.2 2.4
Quadro FX 1100 NV36GL 425 650 3:4:4:4 10.4 DDR2 1.7 1.7
Quadro FX 2000 NV30GL 400 800 2:4:8:4 12.8 GDDR2 1.6 3.2
Quadro FX 3000 NV35GL 850 3:4:8:4 256 27.2 DDR 256
Quadro FX 3000G 27.2 Stereo display, Genlock
Quadro FX 4000 NV40GL 375 1000 6:12:12:12 32.0 GDDR3 4.5 4.5 9.0c 2.1 142 Stereo display
Quadro FX 4000 SDI Stereo display, Genlock

Quadro FX (x300) series

Further information: Quadro
Model Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Fillrate Memory Supported API version TDP (Watts)
Pixel (GP/s) Texture (GT/s) Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Direct3D OpenGL
Quadro FX 330 NV37GL 150 PCIe x16 250 400 2:4:4:4 1 1 64 3.2 DDR 128 9.0 2.0 21
Quadro FX 1300 NV38 130 350 550 3:4:8:4 1.4 2.8 128 17.6 256 2.1 55

Quadro FX (x400) series

Further information: Quadro
Model Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
Quadro FX 540 NV43GL 90 PCIe x16 300 550 4:8:8:8 128 8.8 GDDR3 128 2.4 2.4 9.0c 2.1 35
Quadro FX 1400 NV41 130 350 600 5:8:8:8 19.2 DDR 256 2.8 2.8 75 Stereo display, SLI
Quadro FX 3400 NV45GL/ NV40 900 5:12:12:12 256 28.8 GDDR3 4.2 4.2 101
Quadro FX 3450 NV41 110 425 1000 32.0 5.1 5.1 83
Quadro FX 4400 NV45GL A3/ NV40 130 400 1050 6:16:16:16 512 33.7 6.4 6.4 110

Quadro FX (x500) series

Further information: Quadro
Model Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
Quadro FX 350 G72 90 PCIe x16 550 400 3:4:4:2 128 6.4 DDR2 64 1.1 2.2 9.0c 2.1 21
Quadro FX 550 NV43 110 360 4:8:8:8 12.8 GDDR3 128 2.88 2.88 30
Quadro FX 1500 G71 90 325 625 6:16:16:16 256 40.0 256 5.2 5.2 65
Quadro FX 3500 450 660 7:20:20:16 42.2 7.2 9 80 Stereo display, SLI
Quadro FX 4500 G70 110 430 525 8:24:24:16 512 33.6 6.88 10.3 109
Quadro FX 4500 SDI 116 Stereo display, Genlock
Quadro FX 4500X2 G71 90 500 605 2x 8:24:24:16 2x

512

2x

38.7

2x

256

2x

8

2x

12

145 Stereo display, SLI, Genlock
Quadro FX 4500

rev. A2

650 800 8:24:24:16 512 51.2 256 10.4 15.6 105
Quadro FX 5500 505 1024 32.3 DDR2 96
Quadro FX 5500 SDI 104

Quadro FX (x600) series

Further information: Quadro
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config12 Memory Fillrate Processing power (GFLOPS)[309][310] Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Direct3D OpenGL OpenCL CUDA
Quadro FX 560 Apr 20, 2006 G73GL 90 PCIe x16 350 350 1200 5:12:12:8 128 19.2 GDDR3 128 2.8 4.2 9.0c 2.1 - - 30
Quadro FX 46002 Mar 5, 2007 G80-850-A2 + NVIO-1-A3 500 1200 1400 96:24:24 768 67.2 384 12 24 345 - 10.0 3.3 1.1 1.0 134 Stereo display, SLI, Genlock
Quadro FX 4600 SDI2 Mar 5, 2007 96:24:24 345 154
Quadro FX 56002 Mar 5, 2007 G80-875-A2 + NVIO-1-A3 PCIe 2.0 x16 600 1350 1600 128:32:24 1536 76.8 14.4 38.4 518.4 - - 171

Quadro FX (x700) series

Further information: Quadro
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS)[309][310] Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Direct3D OpenGL OpenCL CUDA
Quadro FX 370 Sep 12, 2007 G84-825-A2 80 PCIe x16 360 720 800 16:8:4 256 6.4 DDR2 64 1.44 2.88 34.56 - 10.0 3.3 1.1 1.1 35
Quadro FX 370 LP Nov 6, 2008 G98 540 1300 1000 8:8:4 8 2.16 4.32 25.92 25 DMS-59 for two Single Link DVI
Quadro FX 470 Sep 12, 2007 MCP7A-U 65 PCIe 2.0 x16
(Integrated) 		580 1400 800
(system memory) 		16:8:4 Up to 256 MiB from system memory. 12.8 128 2.32 4.64 67.2 - - 30 based on GeForce 9400 mGPU
Quadro FX 570 Sep 12, 2007 G84-850-A2 80 PCIe x16 460 920 800 16:8:8 256 3.68 3.68 44.1 1.1 1.1 38
Quadro FX 1700 Sep 12, 2007 G84-875-A2 32:16:8 512 7.36 88.32 42
Quadro FX 3700 Jan 8, 2008 G92-875-A2 65 PCIe 2.0 x16 500 1250 1600 112:56:16 51.2 GDDR3 256 8 28 420 78 Stereo display, SLI
Quadro FX 4700X2 Apr 18, 2008 2x G92-880-A2 600 1500 2x 128:64:16 2x 1024 2x 51.2 2x 256 2x 9.6 2x 38.4 2x 576 226 SLI
Quadro VX 200 Jan 8, 2008 G92-851-A2 450 1125 96:48:16 512 51.2 256 7.2 21.6 324 75 2x Dual-link DVI, S-Video, optimised for Autodesk AutoCAD

Quadro FX (x800) series

Further information: Quadro
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS)[309][310] Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Direct3D OpenGL OpenCL CUDA
Quadro FX 380 Mar 30, 2009 G96-850-C1 65 PCIe 2.0 x16 450 1100 1400 16:8:8 256 22.4 GDDR3 128 3.6 3.6 52.8 - 10.0 3.3 1.1 1.1 34 Two Dual Link DVI, no DisplayPort
Quadro FX 380 LP Dec 1, 2009 GT218GL 40 589 1402 1600 16:8:4 512 12.8 64 2.356 4.712 67.296 1.2 28 DisplayPort, Dual Link DVI
Quadro FX 580 Apr 9, 2009 G96-875-C1 65 450 1125 32:16:8 25.6 128 3.6 7.2 108 1.1 40 Dual DisplayPort, Dual Link DVI
Quadro FX 1800 Mar 30, 2009 G94-876-B1 550 1375 64:32:12 768 38.4 192 6.6 17.6 264 59 Stereo DP Dual Link DVI, Dual DisplayPort, SLI
Quadro FX 3800 Mar 30, 2009 G200-835-B3 + NVIO2-A2 55 600 1204 192:64:16 1024 51.2 256 9.632 38.528 691.2 86.4 1.3 108
Quadro FX 4800 Nov 11, 2008 G200-850-B3 + NVIO2-A2 602 192:64:24 1536 76.8 384 14.448 38.528 693.504 86.688 150
Quadro FX 5800 Nov 11, 2008 G200-875-B2 + NVIO2-A2 610 1296 240:80:32 4096 102.4 512 20.736 51.840 878.4 109.8 189
Quadro CX[311] Nov 11, 2008 GT200GL + NVIO2 602 1204 192:64:24 1536 76.8 384 14.448 38.528 693.504 86.688 150 Display Port and dual-link DVI Output, optimised for Adobe Creative Suite 4

Quadro x000 series

Further information: Quadro
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS)[309][310] Supported API version TDP (Watts) Notes
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Direct3D OpenGL OpenCL CUDA
Quadro 400 Apr 5, 2011 GT216GL 40 PCIe 2.0 x16 450 1125 1540 48:16:4 0.5 12.3 DDR3 64 1.8 7.2 108 - 10.1 4.5 1.1 1.2 32 DisplayPort, Dual Link DVI
Quadro 600 Dec 13, 2010 GF108GL 640 1280 1600 96:164:4 1 25.6 128 2.56 10.24 245.76 15 11.0 4.6 2.1 40
Quadro 2000 Dec 24, 2010 GF106GL (GF106-875) 625 1250 2600 192:324:16 41.6 GDDR5 10 20 480 30 62 Stereo DP Dual Link DVI, Dual DisplayPort
Quadro 4000 Nov 2, 2010 GF100 475 950 2800 256:324:32 2 89.6 256 15.2 15.2 486.4 243 2.0 142
Quadro 5000 Feb 23, 2011 513 1026 3000 352:444:40 2.5 120 320 20.53 22.572 722.304 359 152
Quadro 6000 Dec 10, 2010 574 1148 448:564:48 6 144 384 27.552 32.144 1028.608 515 204
Quadro 7000 May 2, 2012 GF110 651 1301 3696 512:644:48 6 177 31.248 41.7 1332 667
Quadro Plex 7000[312] July 25, 2011 2x GF100 574 1148 3000 2x 512:644:48 2x 6 2x 144 2x 384 2x 18.37 2x 36.74 2x 1176 2x 588 600

Quadro Kxxx series

Further information: Quadro and Kepler (microarchitecture)
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS)[309][310] Supported API version TDP (Watts) Notes
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Direct3D OpenGL Vulkan CUDA
Quadro 410 Aug 7, 2012 GK107 28 PCIe 2.0 x16 706 706 1800 192:16:8
(1 SMX) 		0.5 14.4 DDR3[313] 64 5.65 11.3 271.10 11.0 4.6 1.2 3.0 38
Quadro K600 Mar 1, 2013 876 876 891
(1782) 		192:16:16
(1 SMX) 		1 28.5 DDR3 128 14.0 14.0 336.38 41 6.3" Card
Quadro K2000 Mar 1, 2013 954 954 1000
(4000) 		384:32:16
(2 SMX) 		2 64 GDDR5 15.2 30.5 732.67 51 7.97" Card
Quadro K2000D Mar 1, 2013 384:32:16
(2 SMX) 		2
Quadro K4000 Mar 1, 2013 GK106 810.5 810.5 1404
(5616) 		768:64:24
(4 SMX) 		3 134.8 192 19.4 51.9 1244.93 80 9.5" Card
Quadro K5000 Aug 17, 2012 GK104 706 706 1350
(5400) 		1536:128:32
(8 SMX) 		4 172.8 256 22.6 90.4 2168.83 90.4 122 10.5" Card
Quadro K6000 Jul 23, 2013 GK110 PCIe 3.0 x16 901.5 901.5 1502
(6008) 		2880:240:48
(15 SMX) 		12 288 384 54.1 216 5196 1732 3.5 225
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS)[309][310] Supported API version TDP (Watts) Notes
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double precision Direct3D OpenGL Vulkan CUDA
Quadro K420 Jul 22, 2014 GK107 28 PCIe 2.0 x16 780 780 1800 192:16:16
(1 SMX) 		1 2[314] 29 DDR3 128 12.48 12.48 299.52 12.48 11.0 4.6 1.2 3.0 41
Quadro K620 Jul 22, 2014 GM107-850 1000 1000 900
(1800) 		384:24:16
(3 SMM) 		2 28.8 16.0 24.0 768.0 24.0 12.0 1.3 5.0 45 6.3" Card
Quadro K1200 Jan 28, 2015 GM107-860 954 1253 512:32:16
(4 SMM) 		4 80.2 GDDR5 15.3 30.5 1083 7.97" Card
Quadro K2200 Jul 22, 2014 GM107-875-A2[315] 1046 1046 1253
(5012) 		640:40:16
(5 SMM) 		80.2 16.7 41.8 1338.9 41.8 68
Quadro K4200 Jul 22, 2014 GK104 780 780 1350
(5400) 		1344:112:32
(7 SMX) 		172.8 256 24.96 87.36 2096.64 87.36 11.0 1.2 3.0 105 9.5" Card
Quadro K5200 Jul 22, 2014 GK110B PCIe 3.0 x16 650 650 1500
(6000) 		2304:192:32
(12 SMX) 		8 192 20.8 124.8 2995.2 124.8 3.5 150 10.5" Card

Quadro Mxxx series

Further information: Quadro and Maxwell (microarchitecture)
Model Launch Code name Fab

(nm)

Bus interface Core clock

(MHz)

Shader clock

(MHz)

Memory clock

(MHz)

Core config1 Cache Memory Fillrate Processing power (GFLOPS)[309][310] Supported API version TDP (Watts) Release price (USD) Notes
L1/SM (KiB) L2
(MiB) 		Size

(GiB)

Bandwidth

(GB/s)

Bus type Bus width

(bit)

Pixel

(GP/s)

Texture

(GT/s)

Single precision Double precision Direct3D OpenGL Vulkan OpenCL CUDA
Quadro M2000 Apr 8, 2016 GM206-875-A1[316] 28 PCIe 3.0 x16 796 1163 1653
(6612) 		768:48:32:6 48 1 4 105.8 GDDR5 128 37.8 56.6 1812.5 56.6 12.1 4.6 1.3 1.2 5.2 75 $438 Four DisplayPort 1.2a
Quadro M4000 Jun 29, 2015 GM204-850-A1[317] 773 773 1503
(6012) 		1664:104:64:13 2 8 192.4 256 51.2 83.2 2662.4 83.2 120 $791
Quadro M5000 Jun 29, 2015 GM204-875-A1[317] 861 1038 1653
(6612) 		2048:128:64:16 211.6 67.2 134.4 4300.8 134.4 150 $2857 Four DisplayPort 1.2a, One DVI-I
Quadro M6000 Mar 21, 2015 GM200GL
GM200-880-A1[316] 		988 1114 1653
(6612) 		3072:192:96:24 3 12
24 		317 384 106.9 213.9

285.2

6070 190 250[318] $4200

$4999

Quadro Pxxx series

Further information: Quadro and Pascal (microarchitecture)
Model Launch Code name[241] Fab

(nm)

Bus interface Core clock

(MHz)

Boost clock

(MHz)

Memory clock

(MHz)

Core config1 Cache Memory Fillrate[319] Processing power (GFLOPS)[309][310] Supported API version TDP (Watts) Release price (USD) Notes
L1/SM (KiB) L2
(MiB) 		Size

(GiB)

Bandwidth

(GB/s)

Bus type Bus width

(bit)

Pixel

(GP/s)

Texture

(GT/s)

Single precision Double precision Direct3D OpenGL Vulkan OpenCL CUDA
Quadro P400 Feb 7, 2017 GP107-825 14 PCIe 3.0 x16 1228 1252 1003
(4012) 		256:16:16:2 48 0.5 2 32 GDDR5 64 17.1 17.1 641 20.0 12.1 4.6 1.3 1.2 6.1 30 $120 Three Mini-DisplayPort 1.4
Quadro P600 Feb 7, 2017 GP107-850 1329 1557 1003
(4012) 		384:24:16:3 1 64 128 21.7 32.5 1195 37.3 40 $178 Four Mini-DisplayPort 1.4
Quadro P620 Feb 1, 2018 GP107-855 1266 1354 1003
(4012) 		512:32:16:4 23.3 46.6 1490 46.6
Quadro P1000 Feb 7, 2017 GP107-860 1481 1752
(7008) 		640:40:32:5 4 82 43.3 54.2 1894 59.2 47 $375
Quadro P2000 Feb 6, 2017 GP106-875 16 1076 1480 2002
(8008) 		1024:64:40:8 1.25 5 140 160 54.8 87.7 3010 93.8 75 $585 Four DisplayPort 1.4
Quadro P2200 Jun 10, 2019 GP106-880-K1-A1[320] 1000 1493 1251

(10008)

1280:80:40:9 5 200 GDDR5X 59.7 119.4 3822 121.3
Quadro P4000 Feb 6, 2017 GP104-850-A1 1202 1480 1901
(7604) 		1792:112:64:14 2 8 243 GDDR5 256 78.5 137.4 5300 165.6 105 $815
Quadro P5000 Oct 1, 2016 GP104-875-A1 1607 1733 1126
(9008) 		2560:160:64:20 16 288 GDDR5X 102.8 257.1 8873 277.3 180 $2499 Four DisplayPort 1.4, One DVI-D
Quadro P6000 Oct 1, 2016 GP102-875-A1 1506 1645 1126
(9008) 		3840:240:96:30 3 24 432 384 136.0 340.0 10882 (11758) ~340 250 $5999
Quadro GP100 Oct 1, 2016 GP100-876-A1 1304 1442 703 (1406) 3584:224:128:56 24 4 16 720 HBM2 4096 184.7 323 10336 5168 6.0 235 NVLINK support

Quadro GVxxx series

Further information: Quadro and Volta (microarchitecture)
Model Launch Code name[241] Fab

(nm)

Bus interface Core clock

(MHz)

Boost clock

(MHz)

Memory clock

(MHz)

Core config1 Cache Memory Fillrate[319] Processing power (TFLOPS) Supported API version TDP (Watts) Notes
L1/SM (KiB) L2
(MiB) 		Size

(GiB)

Bandwidth

(GB/s)

Bus type Bus width

(bit)

Pixel

(GP/s)

Texture

(GT/s)

Single precision Double precision Direct3D OpenGL Vulkan OpenCL CUDA
Quadro GV100[321] Mar 27, 2018 GV100-875-A1 12 PCIe 3.0 x16 1132 1627 848 (1696) 5120:320:128:80:640 128 6 32 870 HBM2 4096 208.4 521 14.8 7.4 12.1 4.6 1.3 3.0 7.0 250 4x DisplayPort, NVLINK support

Quadro Tx00/Tx000 series

Further information: Quadro and Turing (microarchitecture)
Model Launch Code name[241] Fab

(nm)

Bus interface Core clock

(MHz)

Boost clock

(MHz)

Memory clock

(MT)

Core config1 Cache Memory Fillrate[319] Processing power (TFLOPS)[319] Supported API version TDP

(Watts)

Notes
L1/SM (KiB) L2
(MiB) 		Size

(GiB)

Bandwidth

(GB/s)

Bus type Bus width

(bit)

Pixel

(GP/s)

Texture

(GT/s)

Single precision Double precision Direct3D OpenGL Vulkan OpenCL CUDA
NVIDIA T400 [322][323][324] May 6, 2021 TU117 TSMC
12FFN 		PCIe 3.0 x16 420 1425 10000 384:24:16:6 64 1 2
4 		80 GDDR6 64 22.8 34.2 1.09 0.0341 12.1 4.6 1.3 3.0 7.5 30 3x Mini-DisplayPort
NVIDIA T600 [322][325][326] Apr 12, 2021 TU117-850-A1 735 1335 640:40:32:10 4 160 128 42.7 53.4 1.7 0.0531 40 4x Mini-DisplayPort
NVIDIA T1000 [322][327][328] May 6, 2021 TU117 1065 1395 896:56:32:14 4
8 		44.6 78.1 2.5 0.0781 50

Quadro RTX x000 series

Further information: Quadro and Turing (microarchitecture)
Model Launch Code name[241] Fab

(nm)

Bus interface Core clock

(MHz)

Boost clock

(MHz)

Memory clock

(MHz)

Core config1 Cache Memory Fillrate[319] Processing power (TFLOPS)[319] Supported API version TDP

(Watts)

Release price (USD) Notes
L1/SM (KiB) L2
(MiB) 		Size

(GiB)

Bandwidth

(GB/s)

Bus type Bus width

(bit)

Pixel

(GP/s)

Texture

(GT/s)

Single precision Double precision Direct3D OpenGL Vulkan OpenCL CUDA
Quadro RTX 4000 Nov 13, 2018 TU104-850-A1 12 PCIe 3.0 x16 1005 1545 1625
(13000) 		2304:144:64:36:288 64 4 8 416 GDDR6 256 98.9 222.5 7.119 0.2225 12.2 4.6 1.3 3.0 7.5 100-125 $899 3x DisplayPort

1x USB Type-C

Quadro RTX 5000 Aug 13, 2018 TU104-875-A1 1620 1815 1750
(14000) 		3072:192:64:48:384 16 448 116.2 348.5 11.15 0.3485 125-230 $2299
Quadro RTX 6000 Aug 13, 2018 TU102-875-A1 1440 1770 4608:288:96:72:576 6 24 672 384 169.9 509.8 16.31 0.5098 100-260 $6299
Quadro RTX 8000 Aug 13, 2018 1395 48 $9999

RTX Ax000 series

Further information: Quadro and Ampere (microarchitecture)
Model name Launch Code name [241] Fab

(nm)

Bus interface Core clock (MHz) Boost clock (MHz) Memory clock (MHz) Core config1 Cache Memory Fillrate[319] Processing power (TFLOPS)[319] Supported API version TDP (Watts) Release price (USD) Notes
L1/SM (KiB) L2
(MiB) 		Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Ray Tracing (TFLOPS) Half precision Single precision Double precision Tensor compute (FP16) (sparse) Direct3D OpenGL Vulkan OpenCL CUDA
RTX A400 [329] Apr 16, 2024 GA107 8 PCIe 4.0 x8 727 1762 1500
(12000) 		768:24 :16:6:24 128 2 4 96 GDDR6 64 28.19 42.29 5.4 2.706 2.706 0.04229 21.7 12.2 4.6 1.3 3.0 8.6 50 4x mini DisplayPort
RTX A1000 [330] Apr 16, 2024 GA107 PCIe 4.0 x8 727 1462 1500
(12000) 		2304:72 :32:18:72 8 192 128 46.78 105.3 13.2 6.737 6.737 0.1053 53.8 50 4x mini DisplayPort
RTX A2000 [331][332][333][334] Aug 10, 2021 GA106-850-A1 PCIe 4.0 x16 562 1200 1500
(12000) 		3328:104 :48:26:104 3 6 288 192 57.6 124.8 15.6 7.987 7.987 0.1248 63.9 70 $449 4x mini DisplayPort
12
RTX A4000 [335][336][337] Apr 12, 2021 GA104-875-A1 PCIe 4.0 x16 735 1560 1750
(14000) 		6144:192 :96:48:192 4 16 448 256 149.769 299.5 37.4 19.17 19.17 0.2995 153.4 140 $1000 4x DisplayPort
RTX A4500 [338] Nov 23, 2021 GA102-825-KD-A1 PCIe 4.0 x16 1050 1650 2000
(16000) 		7168:224 :80:56:224 6 20 640 320 132.008 369.623 46.2 23.66 23.66 0.3696 189.2 200 4x DisplayPort
RTX A5000 [339][340][341] Apr 12, 2021 GA102-850-A1 PCIe 4.0 x16 1170 1695 2000
(16000) 		8192:256 :96:64:256 24 768 384 162.730 433.947 54.2 27.77 27.77 0.4339 222.2 230 $2250 4x DisplayPort
RTX A5500 [334] Mar 22, 2022 GA102-860-A1 PCIe 4.0 x16 1080 1665 2000
(16000) 		10240:320 :112:80:320 24 768 384 186.491 532.834 66.6 34.10 34.10 0.5328 272.8 230 $3600 4x DisplayPort
RTX A6000 [342][343][344] Oct 5, 2020 GA102-875-A1 PCIe 4.0 x16 1410 1800 2000
(16000) 		10752:336 :112:84:336 48 768 384 201.612 604.838 75.6 38.71 38.71 0.6048 309.7 300 $4649 4x DisplayPort

RTX Ada Generation

Further information: Quadro and Ada Lovelace (microarchitecture)
Model name Launch Code name [241] Fab (nm) Bus interface Core clock (MHz) Boost clock (MHz) Memory clock (MHz) Core config1 Cache Memory Fillrate [319] Processing power (TFLOPS) [319] Supported API version TDP (Watts) Size Release price (USD) Notes
L1/SM (KiB) L2
(MiB) 		Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Ray Tracing (TFLOPS) Half precision Single precision Double precision Tensor compute (FP16) (sparse) Direct3D OpenGL Vulkan OpenCL CUDA Profile Slots
RTX 2000 Ada Generation [345][346] Feb 12, 2024 AD107-875-A1 TSMC 4N PCIe 4.0 x8 1620 2130 2000 2816:88 :48:22:88 128 12 16 224 GDDR6 128 102.2 187.4 27.7 12.0 12.0 0.1874 191.9 12.2 4.6 1.3 3.0 8.9 70 HHHL Double $649 4x mini DisplayPort
RTX 4000 SFF Ada Generation [347] Mar 21, 2023 AD104 PCIe 4.0 x16 720 1560 1750
(14000) 		6144:192 :80:48:192 48 20 280 160 125.2 300.5 44.3 19.23 19.23 0.3 306.8 70 HHHL Double $1250 4x mini DisplayPort
RTX 4000 Ada Generation [348] Aug 9, 2023 AD104 PCIe 4.0 x16 1500 2175 1750
(14000) 		6144:192 :80:48:192 20 360 160 174 417.6 61.8 26.73 26.73 0.417 427.6 130 FHFL Single $1250 4x DisplayPort
RTX 4500 Ada Generation [349] Aug 9, 2023 AD103 PCIe 4.0 x16 2070 2580 2250

(18000)

7680:240 :80:60:240 24 432 192 206 620 91.6 39.63 39.63 0.619 637.8 210 FHFL Double $2250 4x DisplayPort
RTX 5000 Ada Generation [350] Aug 9, 2023 AD102-850-
KAB-A1 		PCIe 4.0 x16 1155 2550 2250 (18000) 12800:400 :160:100:400 72 32 576 256 408.0 1020 151.0 65.28 65.28 1.02 1044 250 FHFL Double $4000 4x DisplayPort
RTX 5880 Ada Generation [351] Jan 5, 2024 AD102 PCIe 4.0 x16 975 2460 2500
(20000) 		14080:440 :176:110:440 48 960 384 433.0 1082 160.2 69.27 69.27 1.082 1108 285 FHFL Double $6999 4x DisplayPort
RTX 6000 Ada Generation [352] Dec 3, 2022 AD102-870-A1 PCIe 4.0 x16 915 2505 2500
(20000) 		18176:568 :192:142:568 96 48 960 384 481.0 1423 210.6 91.06 91.06 1.423 1457 300 FHFL Double $6799 4x DisplayPort

RTX PRO Blackwell series

Further information: Blackwell (microarchitecture)
Model name Launch Code name [241] Fab (nm) Bus interface Core clock (MHz) Boost clock (MHz) Memory clock (MHz) Core config1 Cache Memory Fillrate [319] Processing power (TFLOPS) [319] Supported API version TDP (Watts) Size Release price (USD) Notes
L1/SM (KiB) L2
(MiB) 		Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Ray Tracing (TFLOPS) Half precision Single precision Double precision Tensor compute (FP16) (sparse) Direct3D OpenGL Vulkan OpenCL CUDA Profile Slots
RTX PRO 4000 Blackwell Mar 18, 2025 GB203 TSMC 4N PCIe 5.0 x16 1590 2617 1750 8960:280 :96:280:70 128 48 24 672 GDDR7 192 251.2 732.8 TBD 46.90 46.90 0.7328 TBD 12.2 4.63 1.3 3.0 11.6 140 FHFL Single $1546 4x Display Port
RTX PRO 4500 Blackwell Mar 18, 2025 1590 2617 10496:328 :112:328:82 64 32 896 256 293.1 858.4 TBD 54.94 54.94 0.8584 TBD 200 FHFL Double $2623
RTX PRO 5000 Blackwell Mar 18, 2025 GB202 1590 2617 14080:440 :176:440:110 96 48 1344 384 460.6 1151 TBD 73.69 73.69 1.151 TBD 300 FHFL Double $4569
RTX PRO 6000 Blackwell Max-Q Workstation Edition Mar 18, 2025 1590 2288 24064:752 :192:752:188 128 96 1792 512 439.3 1721 330 110.1 110.1 1.721 TBD FHFL Double $8565
RTX PRO 6000 Blackwell Workstation Edition Mar 18, 2025 2617 502.5 1968 380 126.0 126.0 1.968 TBD 600 FHFL Double

Quadro NVS

Further information: Quadro
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config12* Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL Vulkan
NVS 50 May 31, 2005 NV18 150 AGP 4x/PCI 250 250 200 0:2:4:2 64 1.6 DDR 32 0.5 1.0 7 1.2 n/a DVI-I, S-Video
NVS 100 Dec 22, 2003 NV17 200 333 0:2:4:2 64 2.664 64 2x DVI-I, VGA, S-Video
NVS 200 Dec 22, 2003 250 250 250 0:2:4:2 64 8.0 128 0.5 1.0 LFH-60
NVS 210S Dec 22, 2003 MCP51 90 Integrated 425 1:2:2:1 Up to 256 from system memory 0.425 0.850 9.0c DVI + VGA
NVS 280 Oct 28, 2003 NV34GL 150 PCIe x16/AGP 8x / PCI 275 275 250 0:2:4:2/
1:2:2:2 *:4:4:4 		64 8.0 0.55 1.1 9.0 1.5 13 DMS-59
NVS 285 Jun 6, 2006 NV44 110 PCIe x1/x16 275 3:4:4:2 128 8.8 2.1 18 DMS-59
NVS 290 Oct 4, 2007 G86-827-A2 80 460 920 800 16:8:4 256 6.4 DDR2 64 1.84 3.68 44.16 10 3.3 21 DMS-59
NVS 295 May 7, 2009 G98 65 550 1300 1400 8:8:4 11.2 GDDR3 2.2 4.4 31.2 23 2x DisplayPort or 2x DVI-D
NVS 300 Jan 8, 2011 GT218 40 589 1402 1580 16:8:4 512 12.64 DDR3 2.356 4.712 67.3 10.1 17.5 DMS-59
NVS 310 Jun 26, 2012 GF119 PCIe x16 523 1046 1750 48:8:4 14 2.092 4.184 100.4 11.0 4.1 19.5 2x DisplayPort
NVS 315 Mar 10, 2013 1024 DMS-59 Idle Power Consumption 7 W
NVS 400 Jul 16, 2004 2x NV17 150 PCI 220 220 332 2x 0:2:4:2 2x 64 2x 11.0 DDR 2x 128 2x 0.44 2x 0.88 2x 5.328 7 1.2 18 2x LFH-60
NVS 420 Jan 20, 2009 2xG98-850-U2 65 PCIe x1/x16 550 1300 1400 2x 8:8:4 2x 256 2x 11.2 GDDR3 2x 64 2x 2.2 2x 4.4 2x 31.2 10 3.3 40 through VHDCI to (4x DisplayPort or 4x DVI-D)
NVS 440 Feb 14, 2006 2xNV43 110 250 500 2x 4:8:8:8 2x 128 2x 8.000 DDR 2x 128 2x 2.000 2x 2.000 9.0 2.1 31 2x DMS-59[353]
NVS 450 Nov 11, 2008 2xG98 65 550 1300 1400 2x 8:8:4 2x 256 2x 11.2 GDDR3 2x 64 2x 2.2 2x 4.4 2x 31.2 10 3.3 35 4x DisplayPort
NVS 510 Oct 23, 2012 GK107 28 PCIe 2.0 x16 797 1782 192:16:8
(1 SMX) 		2048 28.5 DDR3 128 3.188 12.75 306.0 11.0 4.6 1.2 4x miniDisplayPort
NVS 810 Nov 4, 2015 2x GM107 PCIe 3.0 x16 1033 1800 2x 512:32:16 2x 2048 2x 14.4 2x 64 16.53 33.06 1058 1.3 68 8x miniDisplayPort

Mobile Workstation GPUs

Quadro Go (GL) & Quadro FX Go series

Further information: Quadro

Early mobile Quadro chips based on the GeForce2 Go up to GeForce Go 6800. Precise specifications on these old mobile workstation chips are very hard to find, and conflicting between Nvidia press releases and product lineups in GPU databases like TechPowerUp's GPUDB.

Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config12 Memory Fillrate Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
Quadro2 Go[354] August 14, 2001[355][356] NV11 GLM 180 AGP 4x 143 130
360 		2:0:4:2 32
64 		2.9
5.8 		SDR
DDR 		128 0.286 0.592 7.0 1.2 First mobile Quadro based on the GeForce2 Go, Dynamic core clock 100–143 MHz, dynamic voltage 1.575V, graphics core listed as 64-bit and 128-bit for DDR and SDR SDRAM types respectively according to Nvidia[357][358]
Quadro4 500 Go GL[359][360] April 23, 2002[361] NV17 GLM 150 AGP 4x,8x 220 220 2:0:4:2 64 7.0 DDR 0.44 0.88 7.0 1.3 Based on the GeForce4 Go, dynamic core clock 66–220 MHz, core voltage 1.35 V, uses DDR SDRAM according to Nvidia brochures[358]
Quadro4 700 Go GL[359][362][363] February 5, 2003[364][365] NV28 GLM 150 176 200 4:2:4:4 7.4? 128? 0.704 0.704 8.1 Based on GeForce4 Go 4200, uses DDR according to Nvidia brochures
Quadro FX Go 700[366] NV31 GLM 130 AGP 8x 295 590 4:2:4:4 128 9.44? 128 1.18 1.18 9.0 2.1? Slightly underclocked Geforce FX 5600 Go
Quadro FX Go 1000[367] February 2004? NV36 GLM 130? 570 4:3:4:4 9.12? Based on TSMC 130 nm process with one extra pixel shader?
Quadro FX Go 1400[367] February 25, 2005[368] NV41 GLM 130 PCIe 275 590 12:5:12:12? 256 18.9? 256 2.20 2.2 Last chip designated as a Quadro FX Go, uses PCIe instead of AGP 8x. Core config has been mentioned as either 8:5:8:8 or 12:5:12:12 - the latter is likely since chip is derived from GeForce Go 6800.

Quadro FX (x500M) series

Further information: Quadro

GeForce 7-Series based.

Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Supported API version TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Direct3D OpenGL
Quadro FX 350M Mar 13, 2006 G72GLM 90 PCIe 1.0 x16 450 900 3:4:4:2 256 14.4 GDDR3 128 0.9 1.8 9.0c 2.1 15
Quadro FX 1500M Apr 18, 2006 G71GLM 375 1000 8:24:24:16 512 32 256 6 9
Quadro FX 2500M Sep 29, 2005 500 1200 38.4 8 12
Quadro FX 3500M Mar 1, 2007 575 9.2 13.8

Quadro FX (x600M) series

Further information: Quadro

GeForce 8-Series (except FX 560M and FX 3600M) based. First Quadro Mobile line to support DirectX 10.

Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL
Quadro FX 360M May 9, 2007 G86M 80 PCIe 1.0 x16 400 800 1200 16:8:4 256 9.6 DDR2 64 1.6 3.2 38.4 10.0 3.3 17 Based on the GeForce 8400M GS
Quadro FX 560M Apr 20, 2006 G73GLM 90 500 500 5:12:12:8 512 19.2 GDDR3 128 4 6 9.0c 2.1 35? 7600GS based?
Quadro FX 1600M Jun 1, 2007 G84M 80 625 1250 1600 32:16:8 25.6 5 10 120 10.0 3.3 50?
Quadro FX 3600M Feb 23, 2008 G92M 65 500 64:32:16
96:48:16 		51.2 256 8
8 		16
24 		240
360 		70 Based on the GeForce 8800M GTX. Dell Precision M6300 uses 64 shader version of the FX 3600M

Quadro FX (x700M) series

Further information: Quadro
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL
Quadro FX 370M Aug 15, 2008 G98M 65 PCIe 1.0 x16 550 1400 1200 8:4:4 256 9.6 GDDR3 64 2.2 2.2 33.6 10.0 3.3 20
Quadro FX 570M Jun 1, 2007 G84M 80 475 950 1400 32:16:8 512 22.4 128 3.8 7.6 91.2 45
Quadro FX 770M Aug 14, 2008 G96M 65 500 1250 1600 25.6 4 8 119.0 35
Quadro FX 1700M Oct 1, 2008 625 1550 5 10 148.8 50
Quadro FX 2700M Aug 14, 2008 G94M 530 1325 48:24:16 51.2 256 8.48 12.72 190.8 65
Quadro FX 3700M Aug 14, 2008 G92M 1375 128:64:16 1024 8.8 35.2 528 75

Quadro FX (x800M) series

Further information: Quadro

The last DirectX 10 based Quadro mobile cards.

Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts)
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL
Quadro FX 380M Jan 7, 2010 GT218M 40 PCIe 2.0 x16 625 1530 1600 16:8:4 512 12.8 GDDR3 64 2.5 5 73.44 10.1 3.3 25
Quadro FX 880M Jan 7, 2010 GT216M 550 1210 48:16:8 1024 25.6 128 4.4 8.8 174.24 35
Quadro FX 1800M Jun 15, 2009 GT215M 450 1080 1600
2200 		72:24:8 25.6
35.2 		GDDR3
GDDR5 		3.6 10.8 233.28 45
Quadro FX 2800M Dec 1, 2009 G92M 55 500 1250 2000 96:48:16 64 GDDR3 256 8 16 360 10.0 75
Quadro FX 3800M Aug 14, 2008 675 1688 128:64:16 10.8 43.2 648.192 100

Quadro (xxxxM) series

Further information: Quadro and Fermi (microarchitecture)
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config12 Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts) Notes
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL
Quadro 500M Feb 22, 2011 GF108 40 PCIe 2.0 x16 700 1400 1800 96:16:4 1 28.8 DDR3 128 2.8 11.2 268.8 11.0 4.5 35
Quadro 1000M Jan 13, 2011 2 45 Dell Precision M4600
Quadro 2000M Jan 13, 2011 GF106 550 1100 192:32:16 8.8 17.6 422.4 55 Dell Precision M4600
Quadro 3000M Feb 22, 2011 GF104 450 900 2500 240:40:32 80 GDDR5 256 14.4 18 432 75 Dell Precision M6600
Quadro 4000M Feb 22, 2011 475 950 336:56:32 15.2 26.6 638.4 100 Dell Precision M6600
Quadro 5000M Jul 27, 2010 GF100 405 810 2400 320:40:32 76.8 12.96 16.2 518.4 Dell Precision M6500
Quadro 5010M Feb 22, 2011 GF110 450 900 2600 384:48:32 4 83.2 14.4 21.6 691.2 Dell Precision M6600

Quadro (Kx000M) series

Further information: Quadro and Kepler (microarchitecture)
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version Nvidia Optimus
technology 		TDP (Watts) Notes
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL
Quadro K500M Jun 1, 2012 GK107 28 PCIe 3.0 x16 850 850 1600 192:16:8 1 12.8 DDR3 64 6.8 13.6 326.4 11.0 4.5 Yes 35
Quadro K1000M Jun 1, 2012 1800 192:16:16 2 28.8 128 13.6 326.4 45 Dell Precision M4700
Quadro K2000M Jun 1, 2012 745 745 384:32:16 11.92 23.84 572.16 55 Dell Precision M4700
Quadro K3000M Jun 1, 2012 GK104 654 654 2800 576:48:32 89.6 GDDR5 256 20.93 31.39 753.41 75 Dell Precision M6700
Quadro K4000M Jun 1, 2012 600 600 960:80:32 4 19.2 48 1152 100 Dell Precision M6700
Quadro K5000M Aug 7, 2012 706 706 3000 1344:112:32 96 22.59 79.07 1897.73 Dell Precision M6700

Quadro (Kx100M) series

Further information: Quadro and Kepler (microarchitecture)
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version Nvidia Optimus
technology 		TDP (Watts) Notes
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL
Quadro K510M Jul 23, 2013 GK208 28 PCIe 3.0 x8 850 850 1200
(2400) 		192:16:8
(1 SMX) 		1 19.2 GDDR5 64 6.8 13.6 326.4 11.0 4.5 Yes 30
Quadro K610M Jul 23, 2013 PCIe 3.0 x16 980 980 1300
(2600) 		192:16:8
(1 SMX) 		20.8 7.84 15.68 376.32
Quadro K1100M Jul 23, 2013 GK107 716 716 1400
(2800) 		384:32:16
(2 SMX) 		2 44.8 128 11.45 22.91 549.89 45 Dell Precision M3800 and M4800
Quadro K2100M Jul 23, 2013 GK106 654 654 1500
(3000) 		576:48:16
(3 SMX) 		48.0 10.46 31.39 753.41 55 Dell Precision M4800
Quadro K3100M Jul 23, 2013 GK104 680 680 800
(3200) 		768:64:32
(4 SMX) 		4 102.4 256 21.76 43.52 1044.48 75 Dell Precision M6800
Quadro K4100M Jul 23, 2013 706 706 1152:96:32
(6 SMX) 		22.59 67.77 1626.624 100 Dell Precision M6800
Quadro K5100M Jul 23, 2013 771 771 900
(3600) 		1536:128:32
(8 SMX) 		8 115.2 24.67 98.68 2368.51 Dell Precision M6800

Quadro (Kx200M) series

Further information: Quadro and Maxwell (microarchitecture)
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Boost

clock

(MHz)

Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version Nvidia Optimus
technology 		TDP (Watts)
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double

precision

Direct3D OpenGL Vulkan OpenCL CUDA
Quadro K2200M Jul 19, 2014 GM107 28 PCIe 3.0 x16 1150 1150 1253
(5012) 		640:40:16
(5 SMM) 		2 80.2 GDDR5 128 18.4 46 1472 46 12.1 4.6 1.3 3.0 5.0 Yes 65

Quadro (Mx000M) series

Further information: Quadro and Maxwell (microarchitecture)
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Boost

clock

(MHz)

Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version Nvidia Optimus
technology 		TDP (Watts)
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Double

precision

Direct3D OpenGL Vulkan OpenCL CUDA
Quadro M500M Apr 27, 2016 GM108 28 PCIe 3.0 x16 1029 1124 900 (1800) 384:24:8
(3 SMM) 		2 14.40 DDR3 64 8.992 17.98 863.2 26.98 12.1 4.6 1.3 3.0 5.0 Yes 25
Quadro M600M Aug 18, 2015 GM107 837 876 1253
(5012) 		384:24:16
(3 SMM) 		80.2 GDDR5 128 7.008 14.02 672.8 21.02 30
Quadro M1000M Aug 18, 2015 993 512:32:16
(4 SMM) 		15.89 31.78 1017 31.78 40
Quadro M2000M Dec 3, 2015 1029 1098 640:40:16
(5 SMM) 		4 17.57 43.92 1405 43.92 55
Quadro M3000M Aug 18, 2015 GM204 1050 1024:64:32
(8 SMM) 		160.4 256 33.60 67.20 2150 67.20 5.2 75
Quadro M4000M Aug 18, 2015 975 1280:80:48
(10 SMM) 		62.40 78.00 2496 78.00 100
Quadro M5000M Aug 18, 2015 962 1536:96:64
(12 SMM) 		8 62.40 93.60 2955.3 93.60

Quadro (Mx200) series

Further information: Quadro and Maxwell (microarchitecture)

Mobile version of the Quadro (Mx200) series.

Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Boost clock (MHz) Memory clock (MHz) Core config1 L2

Cache (MiB)

Memory Fillrate Processing power (GFLOPS) Supported API version Nvidia Optimus
technology 		TDP (Watts)
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL CUDA
Quadro M520 Mobile Jan 11, 2017 GM108 28 PCIe 3.0 x16 965 1176 5000 384:24:8
(3 SMM) 		1 1 40 GDDR5 64 9.4 18.8 840 12.1 4.5 5.0 Yes 25
Quadro M620 Mobile Jan 11, 2017 GM107 756 1018 5012 512:32:16
(4 SMM) 		2 2 80.2 128 16.3 32.6 1000 30
Quadro M1200 Mobile Jan 11, 2017 991 1148 640:40:16
(5 SMM) 		2 4 18.4 45.9 1400 45
Quadro M2200 Mobile Jan 11, 2017 GM206 695 1037 5508 1024:64:32
(8 SMM) 		1 88.1 33.2 66.3 2100 5.2 55

Quadro (Mx500) series

Further information: Quadro and Maxwell (microarchitecture)

Mobile version of the Quadro (Mx500) series.

Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Boost clock (MHz) Memory clock (MHz) Core config1 L2

Cache (MiB)

Memory Fillrate Processing power (GFLOPS) Supported API version Nvidia Optimus
technology 		TDP (Watts)
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL CUDA
Quadro M5500 Mobile Apr 8, 2016 GM204 28 PCIe 3.0 x16 861 1140 6606 2048:128:64
(16 SMM) 		2 8 211.4 GDDR5 256 73 145.9 4669 12.1 4.5 5.2 Yes 150

Quadro (Px000) series

Further information: Quadro and Pascal (microarchitecture)

Mobile version of the Quadro (Px000) series series.

Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Boost clock (MHz) Memory clock (MHz) Core config1 L2

Cache (MiB)

Memory Fillrate Processing power (GFLOPS) Supported API version Nvidia Optimus
technology 		TDP (Watts)
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL CUDA
Quadro P500 Mobile Jan 5, 2018 GP108 14 PCIe 3.0 x16 1455 1519 1253 256:16:16:2 0.5 2 40 GDDR5 64 24.3 24.3 750 12.1 4.5 6.1 Yes 18
Quadro P600 Mobile Feb 7, 2017 GP107 1430 1620 1252 384:24:16:3 1 2 80 128 25.92 38.88 1200 25
Quadro P1000 Mobile Feb 7, 2017 GP107(N18P-Q1-A1) 1493 1519 1502 512:32:16:4 4 96 24.3 48.61 1600 40
Quadro P2000 Mobile Feb 6, 2017 GP107(N18P-Q3-A1) 1557 1607 1502 768:64:32:6 51.42 77.14 2400 50
Quadro P3000 Mobile Jan 11, 2017 GP106 16 1088 1215 1752 1280:80:48:10 1.5 6 168 192 58.32 97.2 3098 75
Quadro P4000 Mobile Jan 11, 2017 GP104 1202 1228 1500 1792:112:64:14 2 8 192 256 78.59 137.5 4398 100
Quadro P4000

Max-Q

Jan 11, 2017 1114 1502 80
Quadro P5000 Mobile Jan 11, 2017 1164 1506 1500 2048:128:64:16 16 96.38 192.8 6197 100

Quadro (Px200) series

Further information: Quadro and Pascal (microarchitecture)
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Boost clock (MHz) Memory clock (MHz) Core config1 L2

Cache (MiB)

Memory Fillrate Processing power (GFLOPS) Supported API version Nvidia Optimus
technology 		TDP (Watts)
Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL CUDA
Quadro P3200 Mobile Feb 21, 2018 GP104 16 PCIe 3.0 x16 1328 1543 1752 1792:112:64:14 1.5 6 168.2 GDDR5 192 98.75 172.8 5530 12.1 4.5 6.1 Yes 75
Quadro P4200 Mobile Feb 21, 2018 1418 1594 1753 2304:144:64:18 2 8 224.4 256 102.0 229.5 7345 100
Quadro P4200 Max-Q Feb 21, 2018 1215 1480 94.72 213.1 6820 100
Quadro P5200 Mobile Feb 21, 2018 1582 1759 1804 2560:160:64:20 16 230.9 112.6 281.4 9006 100
Quadro P5200 Max-Q Feb 21, 2018 1240 1480 94.72 236.8 7578 100

Quadro RTX / Tx000 series

Further information: Turing (microarchitecture)

Mobile version of the Quadro RTX / T x000 series.

Model name Launch Code name [241] Fab (nm) Bus interface Core clock (MHz) Boost clock (MHz) Core config 1 L2 Cache (MiB) Memory Fillrate Processing power (TFLOPS) Supported API version TDP (Watts) Notes
Size (GiB) Bandwidth (GB/s) Memory clock (MHz) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Half precision Single precision Double precision Direct3D OpenGL Vulkan OpenCL CUDA
Quadro T500 Mobile [334] Dec 2, 2020 TU117 (N19P-Q1-A1) 12 PCIe 3.0 1365 1695 896:56 :32:14:56 1 2 80 1250 GDDR5 64 54.24 94.92 5.591 2.796 0.087 12.1 4.6 1.2 3.0 7.5 25
4 49.92 87.36 6.075 3.037 0.095 18
Quadro T550 Mobile [334] May 2022 TU117 1065 1665 1024:64 :32:26:64 112 1500 64 53.28 106.6 6.82 3.41 0.107 23
Quadro T600 Mobile [334] Apr 12, 2021 TU117 780 1410 896:56 :32:14:56 192 1500 128 45.12 78.96 5.053 2.527 0.079 40
Quadro T1000 Mobile [369] May 27, 2019 TU117 (N19P-Q1-A1) 1395 1455 768:48 :32:12:1536 128 2000 128 46.56 69.84 5.215 2.607 0.082 40-50
Quadro T1200 Mobile [334] Apr 12, 2021 TU117 1515 1785 1024:64 :32:16:64 224 1500 128 57.12 114.2 7.311 3.656 0.1142 18
Quadro T2000 Mobile[369] May 27, 2019 TU117 (N19P-Q3-A1) 1575 1785 1024:64 :32:16:2048 128 2001 128 57.1 114.2 7.311 3.656 0.114 60
Quadro T2000 Max-Q [370] May 27, 2019 TU117 1035 1395 1250 44.64 89.28 5.714 2.857 0.089 40
Quadro RTX 3000 Mobile [369] May 27, 2019 TU106 (N19E-Q1-KA-K1) 945 1380 2304:144 :48:36:288 4 6 448 1750 GDDR6 256 88.32 198.7 12.72 6.359 0.1987 60-80
Quadro RTX 3000 Max-Q [371] May 27, 2019 TU106 600 1215 416 1625 77.76 175.0 11.2 5.6 0.175 60
Quadro RTX 4000 Mobile [369] May 27, 2019 TU104 (N19E-Q3-A1) 1110 1560 2560:160 :64:40:320 8 448 1750 99.84 249.6 15.97 7.987 0.25 110
Quadro RTX 4000 Max-Q [372] May 27, 2019 TU104 780 1380 416 1625 88.32 220.8 14.13 7.066 0.221 80
Quadro RTX 5000 Mobile [369] May 27, 2019 TU104 (N19E-Q5-A1) 1035 1530 3072:192 :64:48:384 16 448 1750 98.88 296.6 18.98 9.492 0.297 110
Quadro RTX 5000 Max-Q [373] May 27, 2019 TU104 600 1350 384 1500 86.40 259.2 16.59 8.294 0.26 80
Quadro RTX 6000 Mobile [374][375] Sep 4, 2019 TU102 1275 1455 4608:288 :96:72:576 6 24 672 1750 384 139.7 419.0 26.82 13.41 0.42 80

RTX Ax000 series

Further information: Ampere (microarchitecture)

Mobile version of the RTX Ax000 series.

Model name Launch Code name [241] Fab (nm) Bus interface Core clock (MHz) Boost clock (MHz) Core config1 L2 Cache (MiB) Memory Fillrate Processing power (TFLOPS) Supported API version TDP (Watts) Notes
Size (GiB) Bandwidth (GB/s) Memory clock (MHz) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Half precision Single precision Double precision Direct3D OpenGL Vulkan OpenCL CUDA
RTX A500 Mobile [334][376] Mar 22, 2022 GA107S Samsung 8N PCIe 4.0 832 1537 2048:64 :32:16:64 2 4 112 1500 GDDR6 64 49.18 98.37 6.296 6.296 0.09837 12.2 4.6 1.3 3.0 8.6 60
RTX A1000 Mobile [334][377] Mar 30, 2022 GA107 630 1140 2048:64 :32:16:64 2 4 224 1375 128 36.48 72.96 4.669 4.669 0.07296
RTX A1000 Mobile 6 GB [378] Mar 30, 2022 GA107 652 2560:80 :32:20:80 6 168 96 36.48 91.20 5.837 5.837 0.0912 95
RTX A2000 Mobile [379] Apr 12, 2021 GA106 1215 1687 2560:80 :48:20:80 2 4 192 1500 128 80.98 135.0 8.637 8.637 0.135
RTX A3000 Mobile [380] Apr 12, 2021 GA104-A1 600 1230 4096:128 :64:32:128 4 6 264 1375 192 78.72 157.4 10.08 10.08 0.1574 70
RTX A3000 Mobile 12 GB [334][381] Mar 22, 2022 GA104-A1 855 1440 12 336 1750 92.16 184.3 11.8 11.8 0.1843 115
RTX A4000 Mobile [382] Apr 12, 2021 GA104-A1 1140 1680 5120:160 :80:40:160 4 8 384 1500 256 134.4 268.8 17.2 17.2 0.2688 140
RTX A4500 Mobile [334][383] Mar 22, 2022 GA104-A1 930 1500 5888:184 :96:46:184 4 16 512 2000 144.0 276.0 17.66 17.66 0.276
RTX A5000 Mobile [334][384] Apr 12, 2021 GA104-A1 900 1575 6144:192 :96:48:192 4 448 1750 151.2 302.4 19.35 19.35 0.3024 150
RTX A5500 Mobile [385][334][386] Mar 22, 2022 GA103-A1 975 1500 7424:232 :96:58:232 4 512 2000 159.85 386.30 22.27 22.27 0.384 165

RTX Ada Generation

Further information: Ada Lovelace (microarchitecture)

Mobile version of the RTX Ada Generation

  • 1 CUDA cores: RT cores: Tensor cores
Model name Launch Code name [241] Fab (nm) Bus interface Core clock (MHz) Boost clock (MHz) Core config1 Cache Memory Fillrate Processing power (TFLOPS) Supported API version TDP (Watts) Notes
L1/SM (KiB) L2
(MiB) 		Size (GiB) Bandwidth (GB/s) Memory clock (MHz) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Half precision Single precision Double precision Tensor Direct3D OpenGL Vulkan OpenCL CUDA
RTX 500 Mobile Ada Generation [387][388] Feb, 2024 AD107 TSMC 4N PCIe 4.0 1485 2025 2048:16:64 128 12 4 128 2000 GDDR6 64 64.8 129.6 8.294 8.294 0.1296 147.4 12.2 4.6 1.3 3.0 8.9 35–60
RTX 1000 Mobile Ada Generation [387][389] AD107 1485 2025 2560:20:80 6 192 96 97.2 162.0 10.37 10.37 0.162 193.0 35–140
RTX 2000 Mobile Ada Generation [390][391] Mar, 2023 AD107 1635 2115 3072:24:96 24 8 256 128 101.5 203.0 12.99 12.99 0.203 231.6 35–140
RTX 3000 Mobile Ada Generation [390][392] AD106 1395 1695 4608:36:144 32 8 (ECC) 256 128 81.36 244.1 15.62 15.62 0.2441 318.6 35–140
RTX 3500 Mobile Ada Generation [390][393] AD104 1110 1545 5120:40:160 48 12 (ECC) 432 2250 192 98.88 247.2 15.82 15.82 0.2472 368.6 60–140
RTX 4000 Mobile Ada Generation [390][394] AD104 1290 1665 7424:58:232 12 (ECC) 432 192 133.2 386.3 24.72 24.72 0.3863 538.0 60–175
RTX 5000 Mobile Ada Generation [390][395] AD103 1425 2115 9728:76:304 64 16 (ECC) 576 256 236.9 643.0 41.15 41.15 0.643 681.8 60–175

RTX PRO Blackwell mobile series

Further information: Blackwell (microarchitecture)

Mobile/laptop version of the RTX PRO Blackwell series[396]

Model name Launch Code name [241] Fab (nm) Bus interface Core clock (MHz) Boost clock (MHz) Memory clock (MHz) Core config1 Cache Memory Fillrate [319] Processing power (TFLOPS) [319] Supported API version TDP (Watts) Release price (USD)
L1/SM (KiB) L2
(MiB) 		Size (GiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Ray Tracing (TFLOPS) Half precision Single precision Double precision Tensor compute (FP16) (sparse) Direct3D OpenGL Vulkan OpenCL CUDA
RTX PRO 500 Blackwell Mobile TBA GB207 TSMC 4N PCIe 5.0 x16 2235 2520 1750 1792:56 :24:56:14 128 24 6 336 GDDR7 96 60.48 141.1 9.032 9.032 0.1411 12.2 4.6 1.4 3.0 12.0 35
RTX PRO 1000 Blackwell Mobile TBA 2560:80 :32:80:20 32 8 448 128 80.64 201.6 12.90 12.90 0.2016 35
RTX PRO 2000 Blackwell Mobile TBA GB206 952 1455 3328:104 :32:104:26 32 8 448 128 46.56 151.3 9.684 9.684 0.1513 45
RTX PRO 3000 Blackwell Mobile TBA GB205 847 1447 5888:184 :80:184:46 48 12 672 192 115.8 266.2 17.04 17.04 0.2662 60
RTX PRO 4000 Blackwell Mobile TBA GB203 975 1500 7680:240 :96:240:60 64 16 896 256 144.0 360.0 23.04 23.04 0.360 80
RTX PRO 5000 Blackwell Mobile TBA GB203 990 1515 10496:328 :112:328:82 64 24 896 256 169.7 496.9 31.80 31.80 0.4969 95

Mobility Quadro NVS series

Further information: Quadro
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config12 Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL
Quadro NVS 110M Jun 1, 2006 G72M 90 PCIe 1.0 x16 300 300 600 3:4:4:2 Up to 512 4.8 DDR 64 0.6 1.2 9.0c 2.1 10
Quadro NVS 120M Jun 1, 2006 G72GLM 450 450 700 5.6 DDR2 0.9 1.8 9.0c 2.1
Quadro NVS 130M May 9, 2007 G86M 80 PCIe 2.0 x16 400? 800? 8:4:4 Up to 256 6.4? 1.6? 1.6? 19.2 10.0 3.3
Quadro NVS 135M May 9, 2007 400 800 1188 16:8:4 9.504 GDDR3 1.6 3.2 38.4
Quadro NVS 140M May 9, 2007 1200 16:8:4 Up to 512 9.6 38.4
Quadro NVS 150M Aug 15, 2008 G98M 65 530 1300 1400 8:4:4 Up to 256 11.2 2.12 2.12 31.2
Quadro NVS 160M Aug 15, 2008 580 1450 8:8:4 256 4.24 34.8 12
Quadro NVS 300M May 24, 2006 G72GLM 90 PCIe 1.0 x16 450 450 1000 3:4:4:2 Up to 512 8 DDR2 0.9 1.8 9.0c 2.1 16
Quadro NVS 320M Jun 9, 2007 G84M 65 PCIe 2.0 x16 575 1150 1400 32:16:8 22.4 GDDR3 128 4.6 9.2 110.4 10.0 3.3 20
Quadro NVS 510M Aug 21, 2006 G72GLM 90 PCIe 1.0 x16 500 500 1200 8:24:24:16 Up to 1024 38.4 256 8 12 9.0c 2.1 45? based on Go 7900 GTX

Mobility NVS series

Further information: Quadro
Model Launch Code name Fab (nm) Bus interface Core clock (MHz) Shader clock (MHz) Memory clock (MHz) Core config1 Memory Fillrate Processing power (GFLOPS) Supported API version TDP (Watts) Notes
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) Pixel (GP/s) Texture (GT/s) Single precision Direct3D OpenGL OpenCL CUDA
NVS 2100M Jan 7, 2010 GT218M 40 PCIe 2.0 x16 535 1230 1600 16:8:4 Up to 512 12.8 GDDR3 64 2.14 4.28 59.04 10.1 3.3 1.1 1.2 14
NVS 3100M Jan 7, 2010 600 1470 2.4 4.8 70.56 based on G210M/310M
NVS 4200M Jan 7, 2010 GF119 810 1620 48:8:4 Up to 1024 3.24 6.48 155.52 11 4.5 2.1 25 based on GT 520M
NVS 5100M Feb 22, 2011 GT216M 550 1210 48:16:8 25.6 128 4.4 8.8 174.24 10.1 3.3 1.2 35
NVS 5200M Jun 1, 2012 GF108

GF117[397]

40/28 625 1250 1800 96:16:4 14.4 64 2.5 10 240 11 4.5 2.1
NVS 5400M Jun 1, 2012 660 1320 28.8 128 2.64 10.56 253.44

Tegra GPU

Main article: Tegra

Data Center GPUs

GRID

Model Archi-
tecture 		Chips Thread processors
(total) 		Bus interface Memory TDP (Watts)
Bus type Size (GiB)
GRID K1[398] Kepler 4x GK107 4x 192 PCIe 3.0 x16 DDR3 4x 4 GiB 130
GRID K2[399] 2x GK104-895 2x 1536 GDDR5 2x 4 GiB 225
GRID K340 4x GK107 4x 384 4x 1 GiB
GRID K520 2x GK104 2x 1536 2x 4 GiB

Tesla

Further information: Nvidia Tesla
Model
Microarchitecture
 Launch Core Core clock
(MHz) 		Shaders Memory Processing power (TFLOPS)[a] CUDA compute capability[b] TDP
(W) 		Notes, form factor
CUDA cores
(total) 		Base clock (MHz) Max boost
clock (MHz)[c] 		Bus type Bus width
(bit) 		Size
(GB) 		Clock
(MT/s) 		Bandwidth
(GB/s) 		Half precision
Tensor Core FP32 Accumulate 		Single precision
(MAD or FMA) 		Double precision
(FMA)
C870 GPU Computing Module[d] Tesla May 2, 2007 1× G80 600 128 1350 GDDR3 384 1.5 1600 76.8 No 0.3456 No 1.0 170.9 Internal PCIe GPU (full-height, dual-slot)
D870 Deskside Computer[d] May 2, 2007 2× G80 600 256 1350 GDDR3 2× 384 2× 1.5 1600 2× 76.8 No 0.6912 No 1.0 520 Deskside or 3U rack-mount external GPUs
S870 GPU Computing Server[d] May 2, 2007 4× G80 600 512 1350 GDDR3 4× 384 4× 1.5 1600 4× 76.8 No 1.382 No 1.0 1U rack-mount external GPUs, connect via 2× PCIe (×16)
C1060 GPU Computing Module[e] April 9, 2009 1× GT200 602 240 1296[402] GDDR3 512 4 1600 102.4 No 0.6221 0.07776 1.3 187.8 Internal PCIe GPU (full-height, dual-slot)
S1070 GPU Computing Server "400 configuration"[e] June 1, 2008 4× GT200 602 960 1296 GDDR3 4× 512 4× 4 1538.4 4× 98.5 No 2.488 0.311 1.3 800 1U rack-mount external GPUs, connect via 2× PCIe (×8 or ×16)
S1070 GPU Computing Server "500 configuration"[e] June 1, 2008 1440 No 2.765 0.3456
S1075 GPU Computing Server[e][403] June 1, 2008 4× GT200 602 960 1440 GDDR3 4× 512 4× 4 1538 4× 98.5 No 2.765 0.3456 1.3 1U rack-mount external GPUs, connect via 1× PCIe (×8 or ×16)
Quadro Plex 2200 D2 Visual Computing System[f] July 25, 2008 2× GT200GL 648 480 1296 GDDR3 2× 512 2× 4 1600 2× 102.4 No 1.244 0.1555 1.3 Deskside or 3U rack-mount external GPUs with 4 dual-link DVI outputs
Quadro Plex 2200 S4 Visual Computing System[f] July 25, 2008 4× GT200GL 648 960 1296 GDDR3 4× 512 4× 4 1600 4× 102.4 No 2.488 0.311 1.3 1200 1U rack-mount external GPUs, connect via 2× PCIe (×8 or ×16)
C2050 GPU Computing Module[404] Fermi July 25, 2011 1× GF100 575 448 1150 GDDR5 384 3[g] 3000 144 No 1.030 0.5152 2.0 247 Internal PCIe GPU (full-height, dual-slot)
M2050 GPU Computing Module[405] July 25, 2011 3092 148.4 No 225
C2070 GPU Computing Module[404] July 25, 2011 1× GF100 575 448 1150 GDDR5 384 6[g] 3000 144 No 1.030 0.5152 2.0 247 Internal PCIe GPU (full-height, dual-slot)
C2075 GPU Computing Module[406] July 25, 2011 3000 144 No 225
M2070/M2070Q GPU Computing Module[407] July 25, 2011 3132 150.3 No 225
M2090 GPU Computing Module[408] July 25, 2011 1× GF110 650 512 1300 GDDR5 384 6[g] 3700 177.6 No 1.331 0.6656 2.0 225 Internal PCIe GPU (full-height, dual-slot)
S2050 GPU Computing Server July 25, 2011 4× GF100 575 1792 1150 GDDR5 4× 384 4× 3[g] 3000 4× 148.4 No 4.122 2.061 2.0 900 1U rack-mount external GPUs, connect via 2× PCIe (×8 or ×16)
S2070 GPU Computing Server July 25, 2011 4× 6[g] No
K10 GPU accelerator[409] Kepler May 1, 2012 2× GK104 3072 745 ? GDDR5 2× 256 2× 4 5000 2× 160 No 4.577 0.1907 3.0 225 Internal PCIe GPU (full-height, dual-slot)
K20 GPU accelerator[410][411] November 12, 2012 1× GK110 2496 706 758 GDDR5 320 5 5200 208 No 3.524 1.175 3.5 225 Internal PCIe GPU (full-height, dual-slot)
K20X GPU accelerator[412] November 12, 2012 1× GK110 2688 732 ? GDDR5 384 6 5200 250 No 3.935 1.312 3.5 235 Internal PCIe GPU (full-height, dual-slot)
K40 GPU accelerator[413] October 8, 2013 1× GK110B 2880 745 875 GDDR5 384 12[g] 6000 288 No 4.291–5.040 1.430–1.680 3.5 235 Internal PCIe GPU (full-height, dual-slot)
K80 GPU accelerator[414] November 17, 2014 2× GK210 4992 560 875 GDDR5 2× 384 2× 12 5000 2× 240 No 5.591–8.736 1.864–2.912 3.7 300 Internal PCIe GPU (full-height, dual-slot)
M4 GPU accelerator[415][416] Maxwell November 10, 2015 1× GM206 1024 872 1072 GDDR5 128 4 5500 88 No 1.786–2.195 0.05581–0.06861 5.2 50–75 Internal PCIe GPU (half-height, single-slot)
M6 GPU accelerator[417] August 30, 2015 1× GM204-995-A1 1536 722 1051 GDDR5 256 8 4600 147.2 No 2.218–3.229 0.0693–0.1009 5.2 75–100 Internal MXM GPU
M10 GPU accelerator[418] May 18, 2016 4× GM107 2560 1033 ? GDDR5 4× 128 4× 8 5188 4× 83 No 5.289 0.1653 5.2 225 Internal PCIe GPU (full-height, dual-slot)
M40 GPU accelerator[416][419] November 10, 2015 1× GM200 3072 948 1114 GDDR5 384 12 or 24 6000 288 No 5.825–6.844 0.182–0.2139 5.2 250 Internal PCIe GPU (full-height, dual-slot)
M60 GPU accelerator[420] August 30, 2015 2× GM204-895-A1 4096 899 1178 GDDR5 2× 256 2× 8 5000 2× 160 No 7.365–9.650 0.2301–0.3016 5.2 225–300 Internal PCIe GPU (full-height, dual-slot)
P4 GPU accelerator[421] Pascal September 13, 2016 1× GP104 2560 810 1063 GDDR5 256 8 6000 192.0 No 4.147–5.443 0.1296–0.1701 6.1 50–75 PCIe card
P6 GPU accelerator[422][423] March 24, 2017 1× GP104-995-A1 2048 1012 1506 GDDR5 256 16 3003 192.2 No 6.169 0.1928 6.1 90 MXM card
P40 GPU accelerator[421] September 13, 2016 1× GP102 3840 1303 1531 GDDR5 384 24 7200 345.6 No 10.01–11.76 0.3127–0.3674 6.1 250 PCIe card
P100 GPU accelerator (mezzanine)[424][425] April 5, 2016 1× GP100-890-A1 3584 1328 1480 HBM2 4096 16 1430 732 No 9.519–10.61 4.760–5.304 6.0 300 SXM card
P100 GPU accelerator (16 GB card)[426] June 20, 2016 1× GP100 1126 1303 No 8.071‒9.340 4.036‒4.670 250 PCIe card
P100 GPU accelerator (12 GB card)[426] June 20, 2016 3072 12 549 No 8.071‒9.340 4.036‒4.670
V100 GPU accelerator (mezzanine)[427][428][429] Volta May 10, 2017 1× GV100-895-A1 5120 Un­known 1455 HBM2 4096 16 or 32 1750 900 119.2 14.90 7.450 7.0 300 SXM card
V100 GPU accelerator (PCIe card)[427][428][429] June 21, 2017 1× GV100 Un­known 1370 112.2 14.03 7.014 250 PCIe card
V100 GPU accelerator (PCIe FHHL card) March 27, 2018 1× GV100 937 1290 16 1620 829.4 105.7 13.21 6.605 250 PCIe FHHL card
T4 GPU accelerator (PCIe card)[430][431] Turing September 12, 2018 1× TU104-895-A1 2560 585 1590 GDDR6 256 16 5000 320 64.8 8.1 Un­known 7.5 70 PCIe card
A2 GPU accelerator (PCIe card)[432] Ampere November 10, 2021 1× GA107 1280 1440 1770 GDDR6 128 16 6252 200 18.12 4.531 0.14 8.6 40–60 PCIe card (half height, single-slot)
A10 GPU accelerator (PCIe card)[433] April 12, 2021 1× GA102-890-A1 9216 885 1695 GDDR6 384 24 6252 600 125.0 31.24 0.976 8.6 150 PCIe card (single-slot)
A16 GPU accelerator (PCIe card)[434] April 12, 2021 4× GA107 4× 1280 885 1695 GDDR6 4× 128 4× 16 7242 4× 200 4x 18.43 4× 4.608 1.085 8.6 250 PCIe card (dual-slot)
A30 GPU accelerator (PCIe card)[435] April 12, 2021 1× GA100 3584 930 1440 HBM2 3072 24 1215 933.1 165.1 10.32 5.161 8.0 165 PCIe card (dual-slot)
A40 GPU accelerator (PCIe card)[436] October 5, 2020 1× GA102 10,752 1305 1740 GDDR6 384 48 7248 695.8 149.7 37.42 1.168 8.6 300 PCIe card (dual-slot)
A100 GPU accelerator (PCIe card)[437][438] May 14, 2020[439] 1× GA100-883AA-A1 6912 765 1410 HBM2 5120 40 or 80 1215 1555 312.0 19.5 9.7 8.0 250 PCIe card (dual-slot)
H100 GPU accelerator (PCIe card)[440] Hopper March 22, 2022[441] 1× GH100[442] 14,592 1065 1755 CUDA 1620 TC HBM2E 5120 80 1000 2039 756.4 51.2 25.6 9.0 350 PCIe card (dual-slot)
H100 GPU accelerator (SXM card) 16,896 1065 1980 CUDA 1830 TC HBM3 5120 64 or 80 or 96 1500 3352 989.4 66.9 33.5 9.0 700 SXM card
H200 GPU accelerator (PCIe card)[443] November 18, 2024[444] 1× GH100 16,896 1365 1785 HBM3E 5120 141 1313 3360 60.32 30.16 9.0 600 PCIe card (dual-slot)
H200 GPU accelerator (SXM card) 16,896 1590 1980 HBM3E 5120 141 1313 3360 66.91 33.45 9.0 700 SXM card
H800 GPU accelerator (SXM card) March 21, 2023[445] 1× GH100 16,896 1095 1755 HBM3 5120 80 1313 3360 59.3 29.65 9.0 700 SXM card
L40 GPU accelerator[446] Ada Lovelace October 13, 2022 1× AD102[447] 18,176 735 2490 GDDR6 384 48 2250 864 362.1 90.52 1.414 8.9 300 PCIe card (dual-slot)
L4 GPU accelerator[448][449] March 21, 2023[450] 1x AD104[451] 7424 795 2040 GDDR6 192 24 1563 300 121.0 30.3 0.49 8.9 72 HHHL single slot PCIe card

Notes

  1. ^ To calculate the processing power see Tesla (microarchitecture)#Performance, Fermi (microarchitecture)#Performance, Kepler (microarchitecture)#Performance, Maxwell (microarchitecture)#Performance, or Pascal (microarchitecture)#Performance. A number range specifies the minimum and maximum processing power at, respectively, the base clock and maximum boost clock.
  2. ^ Core architecture version according to the CUDA programming guide.
  3. ^ GPU Boost is a default feature that increases the core clock rate while remaining under the card's predetermined power budget. Multiple boost clocks are available, but this table lists the highest clock supported by each card.[401]
  4. ^ a b c Specifications not specified by Nvidia assumed to be based on the GeForce 8800 GTX
  5. ^ a b c d Specifications not specified by Nvidia assumed to be based on the GeForce GTX 280
  6. ^ a b Specifications not specified by Nvidia assumed to be based on the Quadro FX 5800
  7. ^ a b c d e f With ECC on, a portion of the dedicated memory is used for ECC bits, so the available user memory is reduced by 12.5%. (e.g. 4 GB total memory yields 3.5 GB of user available memory.)

Console/Handheld GPUs

Model name Launch Code name Fab (nm) Bus interface Core clock (MHz) Memory clock (MHz) Core config1,2,3 Memory Fillrate Processing power (GFLOPS)3 Deep Learning Latest supported API version
Size (MiB) Bandwidth (GB/s) Bus type Bus width (bit) MOps/s MTexels/s MPixels/s MTri/s Half precision Single precision Ray Tracing Performance Tensor compute (FP16) (2:1 sparse) TOPS (INT8) Direct3D OpenGL Vulkan Other
XGPU (Xbox) [452][453] November 15, 2001 NV2A TSMC 150 nm Integrated 233 200 4:2:8:41 64 6.4 DDR 128 5,800 1,864 932 116.5 - 13.9 N/A N/A N/A 8.1 1.4 N/A N/A
RSX (PS3) [454][455][456] November 11, 2006 G70 Toshiba 90/65/40 nm/28 nm FlexIO 550 (Pixel Shaders), 500 (Vertex Shaders) 650 24:8:24:81 256
256 		15 (write)
20 (read)
20.8 		XDR
GDDR3 		13,200 12,000 4,400 275 - 325.6 (w/Cell SPUs) N/A N/A N/A N/A ES 1.1 w/Cg
NX-SoC (Nintendo Switch) [457][458] March 3, 2017 GM20B TSMC 20 nm Integrated 384.0 (Undocked)
768.0 (Docked) 		1333 (Undocked)
1600 (Docked) 		256:16:162 4096 21.3 (Undocked) 25.6
(Docked) 		LPDDR4 64 196,608 (Undocked)
393,216 (Docked) 		6,144 (Undocked)
12,288 (Docked) 		6,144 (Undocked)
12,288 (Docked) 		probably ~500/1000 393.2 (Undocked)
786.4 (Docked) 		196.6 (Undocked)
393.2 (Docked) 		N/A N/A N/A 4.6[459]
ES 3.2[460] 		1.3[461] Nvidia NVN [462]
August 30, 2019 TSMC 16 nm LPDDR4X N/A
Drake (Nintendo Switch 2) June 5, 2025 GA10F
(Ampere) 		Samsung 8 nm Integrated 561 (Undocked)

1007.25 (Docked)

2133 (Undocked)
3200 (Docked) 		1536:48 :16:12:48
(12) (1)3 		12288 68.26 (Undocked) 102.4
(Docked) 		LPDDR5X 128 1,723,400 (Undocked) 3,094,272 (Docked) 26,928 (Undocked) 48,348 (Docked) 8,976 (Undocked) 16,116 (Docked) probably >2000 3,446.8 (Undocked) 6,188.6 (Docked) 1,723.4 (Undocked) 3,094.3 (Docked) ~4,010 (Undocked) ~7,200 (Docked) ~22,000 (Undocked) ~40,000 (Docked) 90 (Undocked) 160 (Docked) N/A 1.4

See also

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Prefix: a b c d e f g h i j k l m n o p q r s t u v w x y z 0 1 2 3 4 5 6 7 8 9

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