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 config3	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	SGS500 nm	14	90	PCI	75	60	1:1:1	24	0.48	FPMEDOVRAM	64	75	75	75	0	1.0	n/a	?
Riva 128	August 25, 1997	NV3	SGS 350 nm	45	90	AGP 1x,6 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	77	90		90	110	2:2:2	816	1.76			180	180	180		6.0	1.2	?
Vanta	March 22, 1999	NV6	TSMC 250 nm			AGP 4x, PCI	100	125		816	1.0		64	200	200	200				?
Vanta LT	March 2000					AGP 2x	80	100		816	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		158	90					1632	2.4		128							?
Riva TNT2 Pro	October 12, 1999		TSMC 220 nm				143	166		1632	2.656			286	286	286				?
Riva TNT2 Ultra	March 15, 1999		TSMC 250 nm				150	183		1632	2.928			300	300	300				?

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 config9	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 SDR10	Oct 11, 1999	NV10	17	139	AGP 4x, PCI	120	166	4:4:4	3264	2.656	SDR	128	480	480	480	0	960	13
GeForce 256 DDR11	Dec 13, 1999						150			4.800	DDR							12

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)12	Transistors (million)	Die size (mm2)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config13	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)	TSMC180 nm	2014	64	FSB	175	133	2:4:2	Up to 32 system RAM	2.1284.256	DDR	64128	350	350	700	0	0.700	3
GeForce2 MX200	March 3, 2001					AGP 4x, PCI		166		3264	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	SDRDDR	64/128 (SDR)64 (DDR)	400	400	800		0.800	5
GeForce2 GTS	April 26, 2000	NV15		2515	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		TSMC150 nm				250							1,000	1,000	2,000		2.000	?
GeForce2 Ultra	August 14, 2000		TSMC180 nm					230		64	7.36								?

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 config16	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	64128	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		64128	8.0			960	960	1920	60	12.00	29

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 config17	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	133200	2:0:4:2	Up to 128 system RAM	2.1286.4	DDR	64128	500	500	1,000	125	1.000	7.0	1.2	?
GeForce4 MX420	February 6, 2002	NV17	2918	65	AGP 4xPCI		166		64	2.656	SDRDDR	128 (SDR)64 (DDR)								14
GeForce4 MX440 SE	2002						133166		64128	2.128 5.31219	DDR	64 128			500201000					13
GeForce MX4000	December 14, 2003	NV18B	29	65	AGP 8xPCI		166			2.656		64			1000					14
GeForce PCX4300	February 19, 2004				PCIe x16				128											16
GeForce4 MX440	February 6, 2002	NV17	29	65	AGP 4xPCI	275	200		64128	6.4		128	550	550	1,100	137.5	1.100			18
GeForce4 MX440 8x	September 25, 2002	NV18	2921	65	AGP 8xPCI		166250			2.656228.0		64128								19
GeForce4 MX460	February 6, 2002	NV17	29	65	AGP 4xPCI	300	275			8.8		128	600	600	1,200	150	1.200			22
GeForce4 Ti4200	April 16, 2002	NV25	6323	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	8.1	1.3	33
GeForce4 Ti4200 8x	September 25, 2002	NV28	6324	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 (Ti4800SE25)	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 (Ti480026)	January 20, 2003	NV28	63	101	AGP 8x															43

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)27	Transistors (million)	Die size (mm2)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config28	Memory				Fillrate				Performance (GFLOPSFP32)	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	4529	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			64128256	2.65.3		64128	1,000	1,000	1,000	125.0	15.0	?
GeForce FX 5200						AGP 8xPCI		200			3.26.4		64128						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		128256	2.6		64	1,000	1,000	1,000	125.0	15.0	21
GeForce FX 5500	March 2004	NV34B		4530	91	AGP 8xAGP 4xPCI	270	166200		64128256	5.36.4		128	1,080	1,080	1,080	135.0	16.2	?
GeForce FX 5600 XT	October 2003	NV31	TSMC 130 nm	8031	121	AGP 8x	235	200		64128	3.26.4		64128	940	940	940	117.5	14.1	?
GeForce FX 5600	March 2003					AGP 8xPCI	325	275		6412825632	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		64128	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		8233	133		250	200	4:3:4:4	128256	3.26.4		64128	1000	1000	1000	187.5	17.5	20
GeForce FX 5700 LE	March 2004					AGP 8xPCI													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		128256	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		12534	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		13535	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, 200336						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			128256				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		13537	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)38	Transistors (million)	Die size (mm2)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config39	Memory				Fillrate				Performance (GFLOPSFP32)	TDP (Watts)
										Size (MiB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	MOperations/s	MPixels/s	MTexels/s	MVertices/s

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
• G f l o p s = ( PixelShader × 12 + VertexShader × 8 ) × clock (MHz) 1000 {\textstyle Gflops={\bigl (}{\text{PixelShader}}\times 12+{\text{VertexShader}}\times 8{\bigr )}\times {\frac {\text{clock (MHz)}}{1000}}} ⁴⁰⁴¹

Model	Launch	Code name	Fab (nm)42	Transistors (million)Die size (mm2)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config43	Memory				Fillrate				Performance44 (GFLOPS)45	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)	DDRDDR2	64128	850	425	850	106.25	13.6	?
GeForce 6150 SE + nForce 430	June 2006	MCP61					200400			3.216.0	DDR2						13.6	?
GeForce 6150 LE + nForce 430		MCP61					100–200 (DDR)200–533 (DDR2)			1.6–6.4 (DDR)3.2–17.056 (DDR2)	DDRDDR2						13.6	?
GeForce 6150 + nForce 430	October 20, 2005	MCP51				475				1.6–6.4 (DDR)3.2–17.056 (DDR2)			950	475	950	118.75	15.2	?
GeForce 6200 LE	April 4, 2005	NV44	TSMC 110 nm	7511046	AGP 8xPCIe x16	350	266		128256	4.256	DDR	64	700	700	700	87.5	11.2	?
GeForce 6200A	April 4, 2005	NV44A		7511047	AGP 8x PCI	300 35048	250 (DDR)250-333 (DDR2)49	4:3:4:2	1282565051251	44-5.34 (DDR2)52	DDRDDR253	6454	1,40055	70056	140057	17522558	21.6 25.2	?
GeForce 6200	October 12, 2004 (PCIe)January 17, 2005 (AGP)	NV43		14615459	AGP 8xPCIPCIe x16	300	275	4:3:4:4	128256	8.8	DDR	128	1,200	1,200	1,200	225	21.6	20
GeForce 6200 TurboCache	December 15, 2004	NV44		7511060	PCIe x16	350	200275350	4:3:4:2	128–256 System RAM incl.16/32–64/128 onboard	3.24.45.6	DDR	64	1,400	700	1,400	262.5	25.2	25
GeForce 6500	October 1, 2005					400	333		128256	5.328			1,600	800	1,600	300	28.8	?
GeForce 6600 LE	2005	NV43		14615461	AGP 8xPCIe x16	300	200	4:3:4:4		6.4		128	1,200	1,200	1,200	225	21.6	?
GeForce 6600	August 12, 2004						275400	8:3:8:4		8.812.8	DDRDDR2		2,400		2,400		36.0	26
GeForce 6600 GT	August 12, 2004 (PCIe)November 14, 2004 (AGP)					500	475 (AGP)500 (PCIe)			15.2 (AGP)6216 (PCIe)	GDDR3		4,000	2,000	4,000	375	60.0	47
GeForce 6800 LE	July 22, 2004 (AGP)January 16, 2005 (PCIe)	NV40 (AGP)NV41, NV42 (PCIe)	IBM 130 nm	222287 (NV40)63222225 (NV41)64198222 (NV42)65		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)	41.0 41.6	?
GeForce 6800 XT	September 30, 2005					300 (64 Bit)325	266 (64 Bit)350500 (GDDR3)		256	4.25611.222.432 (GDDR3)	DDRDDR2GDDR3	646612867256	2,4002,600	2,4002,600	2,4002,600	300325	38.4 41.6	36
GeForce 6800	April 14, 2004 (AGP)November 8, 2004 (PCIe)					325	350	12:5:12:12	128256	22.4	DDR	256	3,900	3,900	3,900	406.25	59.8	40
GeForce 6800 GTO	April 14, 2004	NV45		222287 (NV45)68	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	222287 (NV40)69198222 (NV42)70	AGP 8xPCIe x16	350 (AGP)425 (PCIe)	500		128256	32			5,100	5,100	5,100	531.25	64.4 78.2	59
GeForce 6800 GT	May 4, 2004 (AGP)June 28, 2004 (PCIe)	NV40 (AGP)NV45 (PCIe)	IBM 130 nm	222287 (NV40)71222287 (NV45)72	AGP 8xPCIe x16	350		16:6:16:16					5,600	5,600	5,600	525	84.0	67
GeForce 6800 Ultra	May 4, 2004 (AGP)June 28, 2004 (PCIe)March 14, 2005 (512 MiB)					400	525 (512 MiB)550 (256 MiB)		256512	33.6 (512 MiB)35.2 (256 MiB)			6,400	6,400	6,400	600	96.0	105
GeForce 6800 Ultra Extreme Edition	May 4, 2004	NV40		222287 (NV40)73	AGP 8x	450	600		256	35.2			7,200	7,200	7,200	675	108.0	?
Model	Launch	Code name	Fab (nm)74	Transistors (million)Die size (mm2)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config75	Memory				Fillrate				Performance76 (GFLOPS)77	TDP (Watts)
									Size (MiB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	MOperations/s	MPixels/s	MTexels/s	MVertices/s

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)78	Transistors (million)	Die size (mm2)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config79	Memory				Fillrate				Performance (GFLOPS)8081	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	6.412.834	DDRDDR2DDR3	64128	850	850	850	106.25	13.6	?
GeForce 7050PV + nForce 630a		MCP67QV																13.6	?
GeForce 7050 + nForce 610i/630i		MCP73	TSMC 90 nm			HyperTransport/FSB	500	333			5.336	DDR2	64	1,000	1,000	1,000	125	16.0	?
GeForce 7100 + nForce 630i		MCP76				FSB	600	400			6.4			1,200	1,200	1,200	150	19.2	?
GeForce 7150 + nForce 630i							630							1,260	1,260	1,260	157.5	20.2	?
GeForce 7100 GS	August 8, 2006	NV44	TSMC 110 nm	7582	110	PCIe x16	350	266333	4:3:4:2	128256	2.44.8	DDR2	3264	1,400	700	1,400	262.5	25.2	?
GeForce 7200 GS	January 18, 2006	G72	TSMC 90 nm	11283	81		450	400	2:2:4:2		3.26.4	DDR2		1,800	900	1,800	337.5	18.0	11
GeForce 7300 SE	March 22, 2006						350	333	4:3:4:2	128	2.6565.328							25.2	?
GeForce 7300 LE																		25.2	13
GeForce 7300 GS	January 18, 2006						550	400		128256	6.4		64	2,200	1,100	2,200	412.5	39.6	10
GeForce 7300 GT	May 15, 2006	G73		17784	125	AGP 8xPCIe x16	350	325 (DDR2)700 (GDDR3)	8:5:8:4		10.422.4	DDR2GDDR3	128	2,800	1,400	2,800	437.5	47.6	24
GeForce 7500 LE	2006	G72		11285	81	PCIe x16	475550	405324	4:3:4:2	64128256	6.4805.2	DDR2	64	2,200	1,100	2,200	593.8	34.2 39.6	10
GeForce 7600 GS	March 22, 2006 (PCIe)July 1, 2006 (AGP)	G73		17786	125	AGP 8xPCIe x16	400	400 (DDR2)700 (GDDR3)	12:5:12:8	256	12.822.4	DDR2GDDR3	128	4,800	3,200	4,800	500	73.6	30
GeForce 7600 GT	March 9, 2006 (PCIe)July 15, 2006 (AGP)						560							6,720	4,480	6,720	700	103.0	?
GeForce 7600 GT 80 nm	January 8, 2007	G73-B1	TSMC 80 nm															103.0	48
GeForce 7650 GS	March 22, 2006	G73				PCIe x16	450	400			12.7	DDR2		5,400	3,600	5,400	562.5	82.8	?
GeForce 7800 GS	February 2, 2006	G70	TSMC 110 nm	30287	333	AGP 8x	375	600	16:8:16:8		38.4	GDDR3	256	6,000	3,000	6,000	750	96.0	70
GeForce 7800 GT	August 11, 2005					PCIe x16	400	500	20:7:20:16		32			8,000	6,400	8,000	700	118.4	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	256512	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)	151.4 193.6	100 (256 MiB) 116 (512 MiB)
GeForce 7900 GS	May 2006 (PCIe)April 2, 2007 (AGP)	G71	TSMC 90 nm	27888	196	AGP 8xPCIe x16	450	660	20:7:20:16	256	42.24			9,000	7,200	9,000	787.5	133.2	50
GeForce 7900 GT	March 9, 2006					PCIe x16			24:8:24:16					10,800		10,800	900	158.4	65
GeForce 7900 GTO	October 1, 2006						650			512				15,600	10,400	15,600	1,300	228.8	?
GeForce 7900 GTX	March 9, 2006							800			51.2							228.8	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	352.0	?
GeForce 7950 GT	September 6, 2006 (PCIe)April 2, 2007 (AGP)	G71				AGP 8xPCIe x16	550	700	24:8:24:16	512	44.8			13,200	8,800	13,200	1,100	193.6	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	352.0	136
Model	Launch	Code name	Fab (nm)89	Transistors (million)	Die size (mm2)	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config90	Size (MiB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	MOperations/s	MPixels/s	MTexels/s	MVertices/s	Performance (GFLOPS)9192	TDP (Watts)
										Memory				Fillrate

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)93	Transistors (million)	Die size (mm2)	Bus interface	Clock rate			Core config94	Fillrate		Memory				Processing power (GFLOPS)95	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 mGPU96	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	6.412.8	DDR2	64128	28.8	10.0	3.3	n/a	n/a	Un­known	The block of decoding of HD-video PureVideo HD is disconnected
GeForce 8200 mGPU97				Un­known	Un­known								gt									Un­known	PureVideo 3 with VP3
GeForce 8300 mGPU98				Un­known	Un­known			1500					Up to 512 from system memory				36					Un­known
GeForce 8300 GS99	July 2007	G86		210	127	PCIe 1.0 x16	450	900	400		1.8	3.6	128512	6.4		64	14.4			1.1	1.1	40	OEM only
GeForce 8400 GS	June 15, 2007					PCIe 1.0 x16PCI				16:8:4			128256512				28.8
GeForce 8400 GS rev.2	December 10, 2007	G98	TSMC 65 nm		86	PCIe 2.0 x16PCIe x1PCI	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	520589	1230	400 (DDR2)600 (DDR3)	8:4:4	2.082.356	2.082.356	5121024	4.86.49.6	DDR2DDR3	3264	19.7	10.1			1.2
GeForce 8500 GT	April 17, 2007	G86	TSMC 80 nm	210	127	PCIe 1.0 x16PCI	450	900	400	16:8:4	1.8	3.6	2565121024	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	256512				75.5					47	OEM only
GeForce 8600 GT	April 17, 2007					PCIe 1.0 x16PCI		1188	400700	32:16:8		8.64	2565121024	12.822.4	DDR2GDDR3		76
GeForce 8600 GTS						PCIe 1.0 x16	675	1450	1000		5.4	10.8	256512	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	384768	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	320640	64		320	228				1.0	146
GeForce 8800 GTS 112 (G80)	November 19, 2007						500	1200		112:28:10020	10	14	640				268.8					150	only XFX, EVGA and BFG models, very short-lived101
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	2565121024	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	128:32:10224	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)103	Transistors (million)	Die size (mm2)	Bus interface	Core (MHz)	Shader (MHz)	Memory (MHz)	Core config104	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)105	Supported API version

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
	ScalableLinkInterface(SLI)	3-WaySLI	PureVideo HDwith VP1	PureVideo 2 with VP2,BSP Engine, and AES128 Engine	PureVideo 3 with VP3,BSP Engine, and AES128 Engine	PureVideo 4 with VP4	Computeability
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)106	Transistors (million)	Die size (mm2)	Bus interface	Clock rate			Core config107	Memory				Fillrate		Processing power (GFLOPS)108	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	400666	16:8:4	Up to 512 from system memory	6.4/12.810.664/21.328	DDR2DDR3	64128	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 GE109	June 2008	G98	TSMC 65 nm	210	86		540	1300	500	8:8:4	256	6.4110	DDR2	64	2.16	4.32	20.8			25
GeForce 9300 GS111							567	1400							2.268	4.536	22.4
GeForce 9400 GT	August 27, 2008	G96-200-c1G96aG96b	TSMC 55 nm	314	144	PCIe 2.0 x16PCI	550		400800	16:8:4	2565121024	12.825.6	DDR2GDDR3	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						500800	32:16:8		16.025.6	DDR2GDDR3		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	3847681536	38.4	GDDR3		6.6	26.4	264			84
GeForce 9600 GSO 512	October 2008	G94aG94b	TSMC 65 nmTSMC 55 nm	505	240196?		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?		600625	15001625	700/900900	64:32:16	5121024	44.8/57.657.6			9.610.0	19.220.0	192208			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	G92a2G92b	TSMC/UMC 65 nmTSMC/UMC 55 nm	754	324260		550	1375	700800900	112:56:16		44.851.257.6			8.8	30.8	308			75	Core Voltage = 1.00v
GeForce 9800 GT	July 2008	G92aG92b	65 nm UMC 55 nm				600	1500	900			57.6			9.6	33.6	336			125105
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		5121024				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)112	Transistors (million)	Die size (mm2)	Bus interface	Core (MHz)	Shader (MHz)	Memory (MHz)	Core config113	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)114	Supported API version

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	Yes3-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 config115	Memory configuration				Fillrate		Processing power (GFLOPS)116	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

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 config117	Memory configuration				Fillrate		Processing power (GFLOPS)118	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 x16PCIe x1PCI	520589	12301402	0.81–1.6	16:8:4	5121024	4.08.012.8	DDR2DDR3	3264	2.356	4.712	36.444.9			30.5
GeForce GT 220		GT216-300-A2	TSMC 40 nm	486	100	PCIe 2.0 x16	615(OEM)625	1335(OEM)1360	11.58	48:16:8	5121024	16.025.3	DDR2DDR3	64128	5	10	128.2(OEM)130.6			58
GeForce GT 230	October 12, 2009119	G94b	TSMC/UMC 55 nm	505	196?		650	1625	1.8	48:24:16	5121024	57.6	GDDR3	256	10.4	15.6	156	10		75	OEM only
	April 27, 2009120	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	1.823.4(GDDR5)	96:32:8	5121024	28.8(OEM)3254.4(GDDR5)	DDR3GDDR3GDDR5	128	4.4	17.6	257.3	10.1		69
GeForce GTS 240	July 1, 2009121	G92aG92b	TSMC 65 nmTSMC/UMC 55 nm	754	324260		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	5121024	64.0			11.2	44.9	387			130
	March 3, 2009	G92-428-B1	TSMC 65 nmTSMC/UMC 55 nm				738	1836	22.2		5121024	64.070.4			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 months122)
	September 16, 2008 November 27, 2008 (55 nm)	GT200-103-A2G200-103-B2	65 nm55 nm		576470		576	12421350	1.998	216:72:28	896 (1792)	111.9			16.128	41.472	536.5583.2			182171	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 months123)
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 config124	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)125	Supported API version

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 VP2Engine: (BSP and 240 AES)	PureVideo 4 with VP4 Engine
GeForce 210	No	No	Yes
GeForce GT 220
GeForce GT 240
GeForce GTS 250	Yes3-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)

• All models support the following API levels: Direct3D 10.1 and OpenGL 3.3

Model	Launch	Code name	Fab (nm)	Transistors (million)	Die size (mm2)	Bus interface	Clock rate			Core config126	Memory configuration				Fillrate		Processing power (GFLOPS)127	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 330128		GT215-301-A3129					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.
		G92130					500	1250			256	51.20		256	4.000	24.00	240.0
		G92B131								96:32:16	1024	16.32	DDR2	128	8.000
GeForce GT 340		GT215					550	1340	3400	96:32:8	5121024	54.4	GDDR5132	128			257.3	69	OEM Card, similar to GT240

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 config133134	Memory configuration				Fillrate		Processing power (GFLOPS)135		Supported API version					TDP (Watts)136	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	OpenCL137	CUDA
GeForce 405138	September 16, 2011	GT216GT218	40 nm	486260	10057	475589	11001402	800790	1	48:16:816:8:4	0.51	12.6	DDR3	64	3.82.36	7.64.71	105.644.86	Un­known	n/a139	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	GF108GF108-300-A1						16001800	2	96:16:4	0.5	25.628.8				11.2	268.8	Un­known				1.2		60
								1800			0.512	28.8		128			268.8	Unknown				1.1		49	$79
								1300				10.4		64
GeForce GT 440	February 1, 2011	GF108				810	1620	18003200			0.51	28.851.2	GDDR3GDDR5	128	3.2	12.9	311.04	Un­known						65	$100
	October 11, 2010	GF106		1170	238	594	1189	16001800	3	144:24:24	1.53	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, 2010March 15, 2011	GF106-250GF116-200				783	1566	1200-1600 (GDDR3) 3608 (GDDR5)	4	192:32:16	0.51	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	12	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		3000140	529	608	1215	3206	11	352:44:32	1	102.7		256	13.3	26.7	855.36	106.92				1.2	2.0	200141	$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						215142	$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						250143	$499
Model	Launch	Code name	Fab (nm)	Transistors (million)	Die size (mm2)	Clock rate			SM count	Core config144145	Memory configuration				Fillrate		Processing power (GFLOPS)146		Supported API version					TDP (Watts)147	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	OpenCL148	CUDA

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 149150	Memory configuration				Fillrate		Processing power (GFLOPS) 151		Supported API version					TDP (Watts) 152	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	12	14.4	DDR3	64	2.1	4.5	100.4	Un­known	n/a153	12 FL 11_1	4.6	1.1	2.1	25	OEM
GeForce GT 520	April 12, 2011					PCIe 2.0 x16PCIe 2.0 x1PCI	810	1620					14.4			3.25	6.5	155.5	Un­known						29	$59
GeForce GT 530154	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	1.53	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+0.251.5	65.7+32.898.5		128+64 155192	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+64 156	17.6	35.3	847.9	Un­known						150	OEM
GeForce GTX 560 SE	February 20, 2012157	GF114-200-KB-A1158																	Un­known
GeForce GTX 560	May 17, 2011	GF114-325-A1 159					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 160					822	1645		8	384:64:32		128.26			26.3	52.61	1263.4	110						170	$249
	May 30, 2011	GF110 161		3000162	520163		732	1464	3800	11	352:44:40	1.252.5	152		320	29.28	32.21	1030.7	128.83						210 164	OEM
GeForce GTX 560 Ti (448 Cores)	November 29, 2011	GF110-270-A1 165								14	448:56:40	1.25					40.99	1311.7	163.97							$289
GeForce GTX 570	December 7, 2010	GF110-275-A1 166								15	480:60:40	1.25 2.5					43.92	1405.4	175.68					2.0	219 167	$349
GeForce GTX 580	November 9, 2010	GF110-375-A1 168					772	1544	4008	16	512:64:48	1.53 169	192.384		384	37.05	49.41	1581.1	197.63						244 170171	$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 172173	Memory configuration				Fillrate		Processing power (GFLOPS) 174		Supported API version					TDP (Watts) 175	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 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 176	Memory configuration				Fillrate		Processing power (GFLOPS) 177		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 178	Direct3D	OpenGL	OpenCL
GeForce 605 179	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 610 180	May 15, 2012	GF119-300-A1				PCIe 2.0 x16, PCIe x1, PCI	810	—	—	1620	10001800		48:8:4	0.512	814.4			3.24	6.5	155.5	Un­known					29	Retail
GeForce GT 620 181	April 3, 2012	GF119				PCIe 2.0 x16		—	—		898(1796)		48:8:4	0.51	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	12	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 182183	April 24, 2012	GK107	TSMC 28 nm	1300	118	PCIe 3.0 x16	875	—	—	875	891(1782)		192:16:16	12	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	124	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	12	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 640 184	April 24, 2012	GF116	TSMC 40 nm	1170	238	PCIe 2.0 x16	720	—	—	1440	891(1782)	3	144:24:24	1.53	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	12	28.5		128	12.8	25.5	612.1	25.50	1.2				50
	June 5, 2012						900	—	—	900	891(1782)			24	28.5			14.4	28.8	691.2	28.8					65	$100
	April 24, 2012						950	—	—	950	1250(5000)			12	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 645 185	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	12	80			16.9	33.8	812.54	33.86						$110
	November 27, 2013186	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+0.53	96.1+48.1144.2		128+64192	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	1152:96:241152:96:32	1.523	139 186		192256	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+48.1144.2		128+64192	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	24	192.256		256	29.3	102.5	2459.52	102.48					170	$400
GeForce GTX 680	March 22, 2012	GK104-400-A2					1006187	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 188	Memory configuration				Fillrate		Processing power (GFLOPS) 189		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 190	Direct3D	OpenGL	OpenCL

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.

• Improve NVENC

Model name	Launch	Code name	Fab (nm)	Transistors (million)	Die size (mm2)	Bus interface	Clock rate				SMX count	Core config 191	Memory configuration				Fillrate		Processing power (GFLOPS) 192		Supported API version				TDP (Watts)	Release Price (USD)
							Base (MHz)	Average Boost (MHz)	Max Boost 193 (MHz)	Memory (MHz)			Size (GiB)	Bandwidth (GB/s)	DRAM type	Bus width (bit)	Pixel (GP/s)	Texture (GT/s)	Single precision	Double precision	Vulkan 194	Direct3D 195	OpenGL	OpenCL
GeForce GT 705196 197	March 27, 2014	GF119-300-A1	TSMC 40 nm	292	79	PCIe 2.0 x16	810	—	—	898(1796)	1	48:8:4	0.51	14.4	DDR3	64	3.24	6.5	155.5	19.4	n/a	12	4.6	1.1	29	OEM
GeForce GT 710198		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	12	14.440.0	DDR3GDDR5		7.6	15.3	366	15.3					19	$35–45
GeForce GT 720199	March 27, 2014	GK208-201-B1				PCIe 2.0 x8	797	—	—	900 (1800)1253 (5010)		192:16:8	12	14.440.0			6.4	12.8	306	12.8						$49–59
GeForce GT 730 200201 202	June 18, 2014	GK208-301-A1					902	—	—	900(1800)	2	384:16:8	120324	14.4	DDR3		7.22	14.44	692.7	28.9					23	$69–79
		GK208-400-A1					902	—	—	1250(5000)		384:16:8	12204	40.0	GDDR5		7.22	14.44							25
		GF108	TSMC 40 nm	585	116	PCIe 2.0 x16	700	—	—	900(1800)		96:16:4	124	28.8	DDR3	128	2.8	11.0	268.8	33.6	n/a			1.1	49
GeForce GT 740 205	May 29, 2014	GK107-425-A2	TSMC28HP	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	14	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	124206	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	124	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	1.53	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	24	192.3		256	31.4 207	94	2257.9	94.1					170	$249 ($219)
GeForce GTX 760 Ti 208	September 27, 2013209	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 6210	288.4		384	41.4 211	160.5	3976.7	165.7						$649 ($499)
GeForce GTX 780 Ti212213214	November 7, 2013	GK110-425-B1					876	928	1019	1752.5(7010)	15	2880:240:48	3	336.5			42.0 215	210.2	5045.7	210.2						$699
GeForce GTX TITAN216217218	February 21, 2013	GK110-400-A1					837	876	993	1502(6008)	14	2688:224:48	6	288.4			40.2	187.5	4499.7	1300219 -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-B1220		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 x2221			4.5		375	$2999
Model	Launch	Code name	Fab (nm)	Transistors (million)	Die size (mm2)	Bus interface	Clock rate				SMX count	Core config 222	Memory configuration				Fillrate		Processing power (GFLOPS) 223		Supported API version				TDP (Watts)	Release Price (USD)
							Base (MHz)	Average Boost (MHz)	Max Boost 224 (MHz)	Memory (MHz)			Size (GiB)	Bandwidth (GB/s)	DRAM type	Bus width (bit)	Pixel (GP/s)	Texture (GT/s)	Single precision	Double precision	Vulkan 225	Direct3D 226	OpenGL	OpenCL

GeForce 900 series

Further information: GeForce 900 series and Maxwell (microarchitecture)

• All models support the following APIs: Direct3D 12_1, OpenGL 4.6, OpenCL 3.0 and Vulkan 1.3²²⁷ and CUDA 5.2
• Improve NVENC (YUV4:4:4, predictive lossless encoding).
• Add H265 hardware support on GM20x
• GM108 does not have NVENC hardware encoder support.

Model	Launch	Code name	Process	Transistors (billion)	Die size (mm2)	Bus interface	Clock Speeds			Core config228	L2 Cache(MiB)	Memory				Fillrate229		Processing power (GFLOPS)230231		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)232	Texture (GT/s)233	Single precision	Double precision			MSRP
GeForce GT 945A234235236	February, 2016	GM108	TSMC28HP	Un­known	Un­known	PCIe 3.0 x8	1072	1176	1.8	512:24:8 (4)	?	1 / 2	14.4	DDR3 / GDDR5	64	8.59.4	25.728.2	1,097.71,204.2	34.337.6	33	No	OEM
GeForce GTX 950237	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	32.738.0	49.157.0	1,572.81,824.7	49.157.0	90 (75238)	2-way SLI	$159
GeForce GTX 950 (OEM)239	Un­known	GM206					935	Un­known	5	1024:64:32 (8)			80.0			29.9	59.8	1,914.9,	59.8	Un­known		OEM
GeForce GTX 960240	January 22, 2015	GM206-300					1127	1178	7			24	112.1			36.037.6	72.175.3	2,308.02,412.5	72.175.3	120		$199
GeForce GTX 960 (OEM)241	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 970242	September 18, 2014	GM204-200					1050	1178	7	1664:104:56 (13)	1.75	3.5 +0.5243	196.3 +28.0244		224 +32245	58.865.9	109.2122.5	3,494.43,920.3	109.2122.5	145	4-way SLI	$329
GeForce GTX 980246	September 18, 2014	GM204-400					1126	1216		2048:128:64 (16)	2	4	224.3		256	72.077.8	144.1155.6	4,612.04,980.7	144.1155.6	165		$549
GeForce GTX 980 Ti247	June 1, 2015	GM200-310		8	601		1000	1075		2816:176:96 (22)	3	6	336.5		384	96.0103.2	176.0189.2	5,632.06,054.4	176.0189.2	250		$649
GeForce GTX TITAN X248	March 17, 2015	GM200-400								3072:192:96 (24)		12					192.0206.4	6,144.06,604.8	192.0206.4			$999

GeForce 10 series

Further information: GeForce 10 series and Pascal (microarchitecture)

• Supported display standards: DP 1.4 (no DSC), HDMI 2.0b, Dual-link DVI²⁴⁹²⁵⁰
• Supported APIs: Direct3D 12 (12_1), OpenGL 4.6, OpenCL 3.0, Vulkan 1.3²⁵¹ and CUDA 6.1
• Improved NVENC (HEVC Main10, decode 8K30, etc.)

Model name	Launch	Code name	Process	Transistors (billion)	Die size (mm2)	Bus interface	Clock speeds			Core config 252	L2 Cache(MiB)	Memory				Fillrate 253		Processing power (GFLOPS) 254255			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) 256257	Texture (GT/s) 258	Half precision	Single precision	Double precision			MSRP	Founders Edition
GeForce GT 1010259260	January 13, 2021	GP108-200-A1	Samsung14LPP	1.8	74	PCIe 3.0 x4	1228	1468	5	256:16:16 (2) (1)	0.25	2	40.1	GDDR5	64	9.811.8	19.723.5	?	628.7751.6	26.231.3	30	No	OEM	—
							1152	1380	2.1				16.8	DDR4		9.211.0	18.422.0	?	590.0706.6	24.629.4	20
GeForce GT 1030261262263264	March 12, 2018	GP108-310-A1						1379		384:24:16 (3) (1)	0.5					18.422.0	27.633.0	13.816.5	884.71,059.0	27.633.0			$79
	May 17, 2017	GP108-300-A1					1227	1468	6				48.0	GDDR5		19.623.4	29.435.2	14.717.6	942.31,127.4	29.435.2	30		$69
GeForce GTX 1050265	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	43.346.6	54.158.8	27.029.1	1,733.11,862.4	54.158.2	75		$109
	May 21, 2018	GP107-301-A1					1392	1518		768:48:24 (6) (2)	0.75	3	84.0		96	33.436.4	66.872.9	33.436.4	2,138.12,331.6	66.872.9
GeForce GTX 1050 Ti266	October 25, 2016	GP107-400-A1					1290	1392		768:48:32 (6) (2)	1	4	112.0		128	41.244.5	61.966.8	30.933.4	1,981.42,138.1	61.966.8			$139
GeForce GTX 1060 267268269270	December 25, 2016	GP104-140-A1	TSMC16FF	7.2	314		1506	1708	8	1152:72:48 (9) (2)	1.5	3	192.0		192	72.281.9	108.4122.9	54.261.4	3,469.83,935.2	108.4122.9	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	60.268.3	120.4136.7	60.268.3	3,855.34,375.0	120.4136.7			OEM
	March 8, 2018	GP104-150-A1		7.2	314						1.5	6	192.0		192	72.282.0							$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 1070271272	Jun 10, 2016 / Dec 4, 2018	GP104-200-A1		7.2	314			1683	8	1920:120:64 (15) (3)	2	8	256.0	GDDR5GDDR5X	256	96.3107.7	180.7201.9	90.3100.9	5,783.06,462.7	180.7201.9	150	4-way SLIor2-way SLI HB273	$379	$449
GeForce GTX 1070 Ti274	November 2, 2017	GP104-300-A1					1607			2432:152:64 (19) (4)				GDDR5		102.8107.7	244256	122.1127.9	7,816.48,186.1	244.2255.8	180		$449
GeForce GTX 1080275276	May 27, 2016	GP104-400-A1						1733	10	2560:160:64 (20) (4)			320.0	GDDR5X		102.8110.9	257.1277.2	128.5138.6	8,227.88,872.9	257.1277.2			$599	$699
	April 20, 2017	GP104-410-A1							11				352.0
GeForce GTX 1080 Ti277	March 5, 2017	GP102-350-K1-A1		12	471		1480	1582		3584:224:88 (28) (6)	2.75	11	484.0		352	130.2139.2	331.5354.3	165.7177.1	10,608.611,339.7	331.5354.3	250		$699
TITAN X Pascal278	August 2, 2016	GP102-400-A1					1417	1531	10	3584:224:96 (28) (6)	3	12	480.0		384	136.0146.9	317.4342.9	158.7171.4	10,157.010,974.2	317.4342.9			$1199	—
TITAN Xp279	April 6, 2017	GP102-450-A1					1405	1582	11.4	3840:240:96(30) (6)			547.7			134.8142.0	337.2355.2	168.6177.6	10,790.412,149.7	337.2355.2
Model	Launch	Code name	Process	Transistors (billion)	Die size (mm2)	Bus interface	Base core (MHz)	Boost core (MHz)	Memory (GT/s)	Core config 280	L2 Cache(MiB)	Size (GiB)	Bandwidth (GB/s)	Bus type	Bus width (bit)	Pixel (GP/s) 281282	Texture (GT/s) 283	Half precision	Single precision	Double precision	TDP (Watts)	SLI support	MSRP	Founders Edition
							Clock speeds					Memory				Fillrate 284		Processing power (GFLOPS) 285286					Release price (USD)

Volta series

Further information: Volta (microarchitecture)

• Supported APIs: Direct3D 12 (12_1), OpenGL 4.6, OpenCL 3.0, Vulkan 1.3²⁸⁷ and CUDA 7.0

Model name	Launch	Code name	Process	Transistors (billion)	Die size (mm2)	Bus Interface	Clock speeds			Core config 288	L2 Cache(MiB)	Memory				Fillrate 289		Processing power (GFLOPS) 290				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) 291	Texture (GT/s) 292	Half precision	Single precision	Double precision	Tensor compute + Single precision			MSRP	Founders Edition
Nvidia Titan V293	December 7, 2017	GV100-400-A1	TSMC12FFN	21.1	815	PCIe 3.0 x16	1200	1455	1.7	5120:320 :96:640 (80) (6)	4.5	12	652.8	HBM2	3072	153.6186.2	384.0465.6	24,576.029,798.4	12,288.014,899.2	6,144.07,449.6	110,592.0134,092.8	250	No	$2999	—
Nvidia Titan V (CEO Edition)294295	June 21, 2018	GV100-???-A1								5120:320 :128:640 (80) (6)	6	32	870.4		4096								No	—

GeForce 16 series

Further information: GeForce 16 series and Turing (microarchitecture)

• Supported APIs: Direct3D 12 (feature level 12_1), OpenGL 4.6, OpenCL 3.0, Vulkan 1.3²⁹⁶ and CUDA 7.5
• NVENC 6th generation (B-frame, etc.)
• TU117 only supports Volta NVENC (5th generation)

Model name	Launch	Code name	Process	Transistors (billion)	Die size (mm2)	Bus interface	Clock speeds			Core config 297	L2 Cache (MiB)	Memory				Fillrate 298		Processing power (GFLOPS) 299			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) 300	Texture (GT/s) 301	Half precision	Single precision	Double precision
GeForce GTX 1630	June 28, 2022302	TU117-150-A1	TSMC12FFN	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	55.6857.12	3,563.523,655.68	1,781.761,827.84	55.6857.12	75	No	?
GeForce GTX 1650303	April 23, 2019	TU117-300-A1					1485	1665	8	896:56 :32:1792:0 (14) (2)			128	GDDR5	128	47.5253.28	83.16 93.24	5,3225,967	2,6612,984	83.1693.24			$149
	April 3, 2020304						1410	1590	12				192	GDDR6		45.1250.88	78.9689.04	5,053.445,698.56	2,526.722,849.28	78.9689.04
	June 18, 2020305	TU106-125-A1		10.8	445																90
GeForce GTX 1650 Super306	November 22, 2019307	TU116-250-KA-A1308		6.6	284		1530	1725		1280:80 :32:2560:0 (20) (3)	1.5					48.9655.20	122.40138.0	7,833.60 8,832	3,916.804,416	122.40138.00	100		$159
GeForce GTX 1660309	March 14, 2019	TU116-300-A1						1785	8	1408:88 :48:2816:0 (22) (3)		6		GDDR5	192	73.4485.68	134.64157.1	8,61610,053	4,3085,027	134.64157.08	120		$219
GeForce GTX 1660 Super310	October 29, 2019	TU116-300-A1							14				336	GDDR6							125		$229
GeForce GTX 1660 Ti311	February 21, 2019	TU116-400-A1					1500	1770	12	1536:96 :48:3072:0 (24) (3)			288			72.084.96	144.0169.9	9,21610,874.88	4,6085,437.44	144.00169.92	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 1.3³¹² 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 313	L2 Cache(MiB)	Memory				Fillrate314		Processing power (TFLOPS) 315				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)316	Texture (GT/s) 317	Half precision	Single precision	Double precision	Tensor compute (FP16)	Rays/s (Billions)	RTX OPS/s (Trillions)			MSRP	Founders Edition
GeForce RTX 2060318	January 15, 2019	TU106-200-KA-A1	TSMC12FFN	10.8	445	PCIe 3.0 x16	1365	1680	14	1920:120 :48:240:30 (30) (3)	3	6	336.0	GDDR6	192	65.5280.64	163.80201.60	10.4812.90	5.2426.451	0.16380.2016	41.9351.61	5	37	160	No	$349	—
	January 10, 2020	TU104-150-KC-A1319		13.6	545																					$299
	December 7, 2021320	TU106-300-KA-A1		10.8	445		1470	1650		2176:136 :64:272:34 (34) (3)		12				79.20	199.92224.40	12.8014.36	6.4007.180	0.19990.2244				185
GeForce RTX 2060 Super321322	July 9, 2019	TU106-410-A1									4	8	448.0		256	94.08105.60					51.2057.44	6	41	175		$399
GeForce RTX 2070323324	October 17, 2018	TU106-400-A1					1410	1620		2304:144 :64:288:36 (36) (3)						90.24103.68	203.04233.28	12.9914.93	6.4977.465	0.20300.2333	51.9859.72		42			$499	$599
GeForce RTX 2070 Super325326	July 9, 2019	TU104-410-A1		13.6	545		1605	1770		2560:160 :64:320:40 (40) (5)						102.70113.28	256.80283.20	16.4418.12	8.2209.060	0.25680.2832	65.7672.48	7	52	215	2-way NVLink		$499
GeForce RTX 2080327328	September 20, 2018	TU104-400-A1					1515	1710		2944:184 :64:368:46 (46) (6)						96.96109.44	278.76314.64	17.8420.14	8.92010.07	0.27880.3146	71.3680.55	8	57			$699	$799
GeForce RTX 2080 Super329330	July 23, 2019	TU104-450-A1					1650	1815	15.5	3072:192 :64:384:48 (48) (6)			496.0			105.60116.16	316.80348.48	20.2822.30	10.1411.15	0.31680.3485	81.1289.20		63	250			$699
GeForce RTX 2080 Ti331	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	118.80135.96	367.20420.24	23.5026.90	11.7513.45	0.36720.4202	94.00107.6	10	76			$999	$1,199
Nvidia Titan RTX332	December 18, 2018	TU102-400-A1						1770 333		4608:288 :96:576:72 (72) (6)	6	24	672.0		384	129.60169.92	388.80509.76	24.8832.62	12.4416.31	0.38880.5098	99.53130.5	11	84	280		—	$2,499

RTX 30 series

Further information: GeForce 30 series and Ampere (microarchitecture)

• Supported APIs: Direct3D 12 Ultimate (12_2), OpenGL 4.6, OpenCL 3.0, Vulkan 1.3³³⁴ and CUDA 8.6
• Supported display connections: HDMI 2.1, DisplayPort 1.4a
• NVENC 7th generation
• Tensor core 3rd gen
• RT Core 2nd gen
• RTX IO
• Improved NVDEC with AV1 decode
• NVIDIA DLSS 2.0

Model name	Launch	Code name	Process	Transistors (billion)	Die size (mm2)	Bus interface	Clock speeds			Core config 335	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 3050336	February 2, 2024	GA107-325	Samsung8LPP	8.7	200	PCIe 4.0x8	1042	1470	14	2304:72 :32:72:18 (18) (2)	2	6	168.0	GDDR6	96	33.3447.04	75.02105.8	4.8026.774	4.8026.774	0.0750.105	30.160.2		70	No	$169	—
	December 16, 2022	GA107-150-A1					1552	1777		2560:80 :32:80:20 (20) (2)		8	224.0		128	49.659.86	124.2142.2	7.959.01	7.959.01	0.1240.142	63.672.8	18.2	115		$249
	July 18, 2022	GA106-150		13.25	276		1515	1755		2304:72 :32:72:18 (18) (2)						48.4856.16	109.1126.4	6.9818.087	6.9818.087	0.1090.126			130		OEM337
	January 27, 2022338	GA106-150-A1					1552	1777		2560:80 :32:80:20 (20) (2)						49.659.86	124.2142.2	7.959.01	7.959.01	0.1240.142	63.672.8	18.2			$249
GeForce RTX 3060339	October 27, 2022340	GA106-302				PCIe 4.0x16	1320	1777	15	3584:112 :48:112:28 (28) (3)	3		240.0			63.485.3	147.8199.0	9.4612.74	9.4612.74	0.1480.199	75.7101.9	25	170		$329
	May 2021											12	360.0		192
	February 25, 2021	GA106-300-A1
	September 1, 2021	GA104-150-A1341		17.4	392.5
GeForce RTX 3060 Ti342	December 2, 2020	GA104-200-A1					1410	1665	14	4864:152 :80:152:38 (38) (5)	4	8	448.0		256	112.8133.2	214.3253.1	13.7016.20	13.7216.20	0.2140.253	109.7129.6	32.4	200		$399
	October 27, 2022343	GA104-202							19				608.0	GDDR6X
GeForce RTX 3070344345	October 29, 2020346	GA104-300-A1					1500	1725	14	5888:184 :96:184:46 (46) (6)			448.0	GDDR6		144.0165.6	276.0317.4	17.6620.31	17.6620.31	0.2760.318	141.31162.98	40.6	220		$499
GeForce RTX 3070 Ti347	June 10, 2021	GA104-400-A1					1575	1770	19	6144:192 :96:192:48 (48) (6)			608.3	GDDR6X		151.18169.9	302.36339.8	19.3521.75	19.3521.75	0.3020.340	154.8174.0	43.5	290		$599
GeForce RTX 3080348349	September 17, 2020	GA102-200-A1		28.3	628.4		1440	1710		8704:272 :96:272:68 (68) (6)	5	10	760.0		320	138.2164.2	391.68465.12	25.0629.76	25.0729.77	0.3920.465	200.54238.14	59.5	320		$699
	January 27, 2022	GA102-220-A1					1260			8960:280 :96:280:70 (70) (6)	6	12	912.0		384	131.0177.8	352.8478.8	22.630.6	22.630.6	0.3530.479	180.6245.1	61.3	350		$799
GeForce RTX 3080 Ti350	June 3, 2021	GA102-225-A1					1365	1665		10240:320 :112:320:80 (80) (7)						153.5186.5	438.5532.8	28.0634.10	28.5734.1	0.4380.533	228.6272.8	68.2			$1199
GeForce RTX 3090351352	September 24, 2020	GA102-300-A1					1395	1695	19.5	10496:328 :112:328:82 (82) (7)		24	935.8			156.2189.8	457.6555.96	29.3835.68	29.2835.58	0.4590.558	235.08285.48	71.1		2-way NVLink	$1499
GeForce RTX 3090 Ti353354	March 29, 2022	GA102-350-A1					1560	1860	21	10752:336 :112:336:84 (84) (7)			1008.3			174.7208.3	524.2625	33.540	33.540	0.5240.625	269.1320.9	79.9	450		$1999

RTX 40 series

Further information: GeForce 40 series and Ada Lovelace (microarchitecture)

• Supported APIs: Direct3D 12 Ultimate (12_2), OpenGL 4.6, OpenCL 3.0, Vulkan 1.3 and CUDA 8.9³⁵⁵
• Supported display connections: HDMI 2.1, DisplayPort 1.4a
• Tensor core 4th gen
• RT core 3rd gen
• NVIDIA DLSS 3
• NVIDIA DLSS 3.5
• Shader Execution Reordering
• Dual NVENC with 8K 10-bit 60FPS AV1 fixed function hardware encoding³⁵⁶³⁵⁷
• Opacity Micro-Maps (OMM)
• Displacement Micro-Meshes (DMM)
• No NVLink support, Multi-GPU over PCIe 5.0³⁵⁸³⁵⁹

Model name	Launch	Code name	Process	Transistors (billion)	Die size (mm2)	Bus interface	Clock speeds			Core config 360	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 4060361	June 29, 2023	AD107-400	TSMC 4N362	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	11.215.1	11.215.1	0.1760.236	60 (121)	35	115	$299	—
GeForce RTX 4060 Ti363	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	20.122.1	20.122.1	0.3140.345	88 (177)	51	160	$399
	July 18, 2023	AD106-351										16												$499	—
GeForce RTX 4070364	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	22.629.1	22.629.1	0.3530.455	117 (233)	67	200	$599
GeForce RTX 4070 Super365366	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 Ti367	January 5, 2023	AD104-400					2310	2610		7680:240 :80:240:60 (60)(5)						208.8	626.4	35.540.1	35.540.1	0.5540.627	142 (284)160 (321)	92.7	285	$799	—
GeForce RTX 4070 Ti Super368369	January 24, 2024	AD103-275		45.9	378.6		2340			8448:264 :96:264:66 (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 4080370	Unlaunched371372	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	43.048.8	43.048.7	0.6720.761	172 (344)195 (390)	112.7	320	$1199
GeForce RTX 4080 Super373374	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 D375376	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	66.573.5	66.573.5	1.0401.149	266 (532)294 (588)	170	425	¥12,999
GeForce RTX 4090377378	October 12, 2022	AD102-300					2235			16384:512 :176:512:128 (128) (11)							1290.2	73.182.6	73.182.6	1.1421.291	292 (585)330 (661)	191	450	$1599

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.

• Supported APIs: Direct3D 12.2, OpenGL 4.6, OpenCL 3.0, Vulkan 1.4 and CUDA 10.1

Model name	Launch	Code name	Process	Transistors (billion)	Die size (mm2)	Bus interface	Clock speeds			Core config 379	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 5050	July ?, 2025	GB207-300	TSMC 4N	?	?	PCIe 5.0 x8	2317	2572	20	2560:80 :32:80:20 (20) (2)	32	8	320	GDDR6	128	82.3	205.8	13.17	13.17	0.206	52 (105)	210 (421)	40	130 W	$249	N/A
GeForce RTX 5060	May 19, 2025	GB206-250		21.9	181 mm2		2280	2497	28	3840:120 :48:120:30 (30) (3)			448	GDDR7		119.9	299.6	19.18	19.18	0.300	77 (154)	307 (614)	58	145 W	$299
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
												16													$429
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)		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 5080380	Jan 30, 2025	GB203-400					2300	2617	30	10752:336 :112:336:84 (84) (7)	64		960			293.1	879.3	56.28	56.28	0.8793	225 (450)	900 (1801)	171	360 W	$999
GeForce RTX 5090381		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

Mobile GPUs

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

GeForce2 Go series

• All models are manufactured with a 180 nm manufacturing process
• All models support Direct3D 7.0 and OpenGL 1.2
• Celsius (microarchitecture)

Model	Launch	Code name	Bus interface	Core clock (MHz)	Memory clock (MHz)	Core config382	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	166332		16, 32	2.656	SDRDDR	12864	286	286	572
GeForce2 Go 200	February 6, 2001				332				DDR	64

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 config383	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	7.0	1.2
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	8.1	1.3

GeForce FX Go 5 (Go 5xxx) series

The GeForce FX Go 5 series for notebooks architecture.

• 1 Vertex shaders: pixel shaders: texture mapping units: render output units
• * The GeForce FX series runs vertex shaders in an array
• ** GeForce FX series has limited OpenGL 2.1 support(with the last Windows XP driver released for it, 175.19).
• Rankine (microarchitecture)

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		3264	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

• All models support Direct3D 9.0c and OpenGL 2.1
• Curie (microarchitecture)

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			7001100	12:5:12:12		22.435.2	DDR, DDR2DDR3	256				375
GeForce Go 6800 Ultra	February 24, 2005				450			256				5400	3600	5400	562.5

• 1 Pixel shaders: vertex shaders: texture mapping units: render output units

GeForce Go 7 (Go 7xxx) series

The GeForce Go 7 series for notebooks architecture.

• 1 Vertex shaders: pixel shaders: texture mapping units: render output units
• 2 Graphics card supports TurboCache, memory size entries in bold indicate total memory (graphics + system RAM), otherwise entries are graphics RAM only
• Curie (microarchitecture)

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.

• 1 Unified shaders: texture mapping units: render output units

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 G384	June 2008	MCP77MV, MCP79MVL	80	Integrated (PCIe 2.0 x16)	400	800	8001066(system memory)	8:8:4	Up to 256 from system memory	12.817.056	DDR2DDR3	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)

• 1 Unified shaders: texture mapping units: render output units

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	8001066(system memory)	16:8:4	Up to 256 from system memory	12.817.056	DDR2DDR3	128	1.8	3.6	54			12	PureVideo HD with VP3. Known as the GeForce 9400M in Apple systems385 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	8001600		1024	12.825.6			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)

• 1 Unified shaders: texture mapping units: render output units

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)					10001400			811	GDDR2GDDR3				38
GeForce G 110M		N10M-GE1(G96b)	55		400	1000	10001400	16:8:4	1024	811	DDR2GDDR3		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	10001600			1625.6	DDR2GDDR3		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)

• 1 Unified shaders: texture mapping units: render output units

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	10001600	32:16:8	1024	1625.6	DDR2GDDR3	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)

• 1 Unified shaders: texture mapping units: render output units
• 2 To calculate the processing power see Tesla (microarchitecture)#Performance.

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	DDR3GDDR3	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) 386	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	DDR3GDDR3		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	DDR3GDDR3GDDR5		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.³⁸⁷ 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)388
GeForce GT 420M								96:163:4						8	192			10–23(GPU only)389	Similar to Desktop GT430
GeForce GT 425M					560	1120			1				2.24	8.96	215.04			20–23(GPU only)390
GeForce GT 435M					650	1300			2				2.6	10.4	249.6			32–35(GPU only)391	Similar to Desktop GT430/440
GeForce GT 445M		GF106			590	1180	16002500	144:243:16144:243:24	11.5	25.660	DDR3GDDR5	128192	9.4414.16	14.16	339.84			30–35(GPU only)392	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)393	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)

• 1 Unified shaders: texture mapping units: render output units
• 2 On Some Dell XPS17

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			21				2.688	10.752	258.048			32–35	Similar to Desktop GT 530/440
GeForce GT 550M		GF108GF1062			740475	1480950	18001800	96:16:4144:24:162	1				2.96	11.84	284.16312.6
GeForce GT 555M		GF106GF108			590650753	118013001506	180018003138	144:24:24144:24:1696:16:4	1.521	43.228.850.2	DDR3DDR3GDDR5	192128128	14.610.43	14.615.612	339.84374.4289.15			30–35	Similar to Desktop GT545
GeForce GTX 560M	May 30, 2011	GF116			775	1550	2500	192:32:16192:32:24	21.5, 3	40.060.0	GDDR5	128192	18.6	24.8	595.2			75	Similar to Desktop GTX 550Ti
GeForce GTX 570M394	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.

• 1 Unified shaders: texture mapping units: render output units
• Non GTX Graphics, lack support NVENC

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 610M395	December 2011	GF119 (N13M-GE)	40	PCIe 2.0 x16	900	1800	1.8	48:8:4	12	14.4	DDR3	64	3.6	7.2	142.08	n/a	12	4.5	12	OEM. Rebadged GT 520MX
GeForce GT 620M396	April 2012	GF117 (N13M-GS)	28		625	1250	1.8	96:16:4		14.428.8		64128	2.5	10	240				15	OEM. Die-Shrink GF108
GeForce GT 625M	October 2012									14.4		64
GeForce GT 630M397398399	April 2012	GF108 (N13P-GL)GF117	4028		660800	13201600	1.84			28.832.0	DDR3GDDR5	12864	2.63.2	10.712.8	258.0307.2				33	GF108: OEM. Rebadged GT 540MGF117: OEM Die-Shrink GF108
GeForce GT 635M400401402		GF106 (N12E-GE2)GF116	40		675	1350	1.8	144:24:24	21.5	28.843.2	DDR3	128192	16.2	16.2	289.2388.8				35	GF106: OEM. Rebadged GT 555MGF116: 94% of desktop GT640[original research?]
GeForce GT 640M LE403	March 22, 2012	GF108GK107 (N13P-LP)	4028	PCIe 2.0 x16PCIe 3.0 x16	762500	1524500	3.131.8	96:16:4384:32:16(2 SMX)	12	50.228.8	DDR3 GDDR5	128	38	12.216	292.6384	1.2			3220	GF108: 94% of desktop GT630[original research?]GK107: 47% of desktop GTX650[original research?]
GeForce GT 640M404405		GK107 (N13P-GS)	28	PCIe 3.0 x16	625	625	1.84	384:32:16(2 SMX)		28.864.0			10	20	480				32	59% of desktop GTX650[original research?]
GeForce GT 645M	October 2012				710	710	1.84						11.36	22.72	545					67% of desktop GTX650[original research?]
GeForce GT 650M406407408	March 22, 2012	GK107 (N13P-GT)			745835900*	835950900*	1.845*		0.512	28.864.080.0*			11.913.414.4*	23.826.728.8*	729.6641.3691.2*				45	79% of desktop GTX650[original research?]
GeForce GTX 660M409410411412		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 670M413	April 2012	GF114 (N13E-GS1-LP)	40	PCIe 2.0 x16	620	1240	3	336:56:24	1.53	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 675M414	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.

• 1 Unified shaders: texture mapping units: render output units
• Non GTX variants lack NVENC support

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	12	14.4	DDR3	64	3.2	12.8	307.2	n/a	12	4.5	2.1415	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			3.5416	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			2.1417	?	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			3.5418	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	810419		1.85	384:32:16(2 SMX)	2420	28.880	DDR3GDDR5421	128	12.96	25.92	622.1				3.0422	45	about 76% of Desktop GTX650[original research?]
GeForce GT 745M					837		25		2	3280	DDR3GDDR5		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 755M423	?				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.

• 1 Unified shaders: texture mapping units: render output units
• 810M to 845M lack NVENC support

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	2.1424	15
GeForce 820M425					719–954	1438–1908	2	96:16:4	2	16			2.9–3.8	11.5–15.3	276.1–366.3					15426	115% of 620 (Fermi)
GeForce 825M427	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			3.5428	33	94% of 630 (Kepler)
GeForce 830M429	March 12, 2014	GM108		PCIe 3.0 x16	1029			256:16:8(2 SMM)		14.4			8.2	16.5	526.8	1.3			5.0430	~25	50% of 750 (Maxwell)
GeForce 840M431							2	384:24:8(3 SMM)	2–4	16			8.2	24.7	790.3					30	50–80% of 745 (Maxwell)
GeForce 845M432433	February 7, 2015434				1071–1150		5	384:32:16(3 SMM)	2	40	GDDR5		18.8	37.6	903.2					33
	August 16, 2015435	GM107			863		2	512:32:16(4 SMM)		16	DDR3		13.8	27.6	883.7					45
GeForce GTX 850M436	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 860M437					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			3.0438	75	similar to 660 OEM.
GeForce GTX 870M439					941–967			1344:112:24(7 SMX)	3, 6	120		192	22.6	105.4	2599					110	105% of 660Ti
GeForce GTX 880M440					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.

• 1 Unified shaders: texture mapping units: render output units
• 920M to 940M lack NVENC support

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				29441
GeForce 940M					1072	1176	2			16			8.6	25.7	823					36442
GeForce 940MX	January, 2016443				1004	1242							9.9	29.8	954					23
	June 28, 2016444	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									55445
GeForce GTX 960M					1097	1176	5			80	GDDR5		17.5	43.8	1403					65446
GeForce GTX 965M447	January 5, 2015	GM204			944	Un­known		1024:64:32(8 SMM)					30.2	60.4	1933		12 (12_1)			60448	Similar core config to GTX 960 (GM206-300)
GeForce GTX 970M449	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 980M450					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 980451	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)

• Unified shaders: texture mapping units: render output units
• Improved NVENC (Better support for H265, VP9,...)
• Supported APIs: Direct3D 12 (12_1), OpenGL 4.6, OpenCL 3.0, Vulkan 1.3 and CUDA 6.1⁴⁵²

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)453454	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)455		GP107 (N17P-G1-A1)					1493	1620		768:48:32					47.8	71.7	18	2293 (2488)	36					64
GeForce GTX 1060 (Notebook)456	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)457	August 16, 2016	GP104/ GP104B458		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)459	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)

• Supported APIs: Direct3D 12 (12_1), OpenGL 4.6, OpenCL 3.0, Vulkan 1.3 and CUDA 7.5, improve NVENC
• No SLI, no TensorCore, and no Raytracing hardware acceleration.

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	99.84460	50
GeForce GTX 1650 Max-Q		TU117(N18P-G0-MP-A1)					1020	1245					112			39.84	79.68	5100	2550	79.68461	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	127.2462	?
GeForce GTX 1660 Ti Max-Q	April 23, 2019						1140	1335	1536:96:46		12		288			64.08	128.2	8202	4101	128.2463	60
GeForce GTX 1660 Ti (Laptop)464							1455	1590	1536:96:46				288			76.32	152.6	9769	4884	152.6465	80

GeForce 20 series

Further information: GeForce 20 series and Turing (microarchitecture)

• Supported APIs: Direct3D 12 (12_2), OpenGL 4.6, OpenCL 3.0, Vulkan 1.3 and CUDA 7.5, improve NVENC (Support B-Frame on H265...)
• MX Graphics lack NVENC and they are based on Pascal architecture.⁴⁶⁶
• Add TensorCore and Ray tracing hardware acceleration, RTX IO (Only on RTX cards)
• Nvidia DLSS

Model name	Launch	Code name	Process	Transistors (billion)	Die size (mm2)	Bus interface	Clock speeds			Core config467	L2 Cache (MiB)	Memory				Fillrate468		Processing power (GFLOPS)469				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)470	Texture (GT/s)471	Half precision	Single precision	Double precision	Tensor compute (FP16)	Rays/s (Billions)	RTX OPS/s (Trillions)
GeForce RTX 2050472473	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 2060474	January 29, 2019	TU106	TSMC12FFN	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-Q475							975	1175	11				264.0			56.88	142.2	9101	4550	142.2				65
GeForce RTX 2070476							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-Q477							885	1185	12							75.84	170.6	10920	5460	170.6				80
GeForce RTX 2070 Super478	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-Q479							930	1155	12							69.1	172.8	11060	5530	172.8				80
GeForce RTX 2080480	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-Q481							735	1095	12							70.08	201.5	12890	6447	201.5				80
GeForce RTX 2080 Super482	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-Q483							735	1080	11				352.0			69.1	207.4	13270	6636	207.4				80

GeForce 30 series

Further information: GeForce 30 series and Ampere (microarchitecture)

• Supported APIs: Direct3D 12 Ultimate (12_2), OpenGL 4.6, OpenCL 3.0, Vulkan 1.3⁴⁸⁴ and CUDA 8.6
• Tensor core 3rd gen
• RT core 2nd gen
• RTX IO
• Improve NVDEC (Add AV1)

Model name	Launch	Code name	Process	Transistors (billion)	Die size (mm2)	Bus interface	Clock speeds485			Core config486	L2 Cache (MiB)	Memory				Fillrate487		Processing power (TFLOPS)488					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)489	Texture (GT/s)490	Half precision	Single precision	Double precision	Tensor compute (FP16)	Tensor TOPS (INT8)	Rays/s (Billions)	RTX OPS/s (Trillions)
GeForce RTX 3050Mobile/491Laptop492	May 11, 2021	GA107	Samsung 8N	8.7	200	PCIe 4.0 x8	712–1530622-1237	1057–1740990-1492	1375–150011–1211–121375–175011–1411–14	2048:64: 32:64:16(16) (3)2560:80: 32:80:20(20) (?)	2	46	176.0-192.0132.0-224.0	GDDR6	12896	22.7-48.933.8-55.6	45.6-97.967.7-111.4	2.92-6.274.33-7.13	2.92-6.274.33-7.13	0.046-0.0980.068-0.111					35–80
GeForce493RTX 3050 Ti Mobile/Laptop494							735–1462	1035–1695	12	2560:80: 48:80:20(20) (3)		4	192		128	35.3-70.249.7-81.4	58.8-117.082.8-135.6	3.76-7.495.30-8.68	3.76-7.495.30-8.68	0.059-0.1170.083-0.136
GeForce RTX 3060 Mobile/495Laptop496	January 12, 2021	GA106		12.0	276	PCIe 4.0 x16	817–1387	1282–1702	1214	3840:120: 48:120:30(30) (3)	3	6	288336		192	39.2-66.661.54-81.7	98.0-166.4153.8-204.2	6.27-10.659.85-13.07	6.27-10.659.85-13.07	0.108-0.1660.154-0.204					60-115
GeForce497RTX 3070 Mobile/498Laptop499		GA104-770-A1		17.4	392		780–1215	1290–1720		5120:160: 80:160:40(40) (6)	4	8	384448		256	62.4-97.2103.2-129.6	124.8-194.4206.4-259.2	7.99-12.4413.21-16.59	7.99-12.4413.21-16.59	0.125-0.1940.206-0.259					80–125
GeForce RTX 3070Ti Mobile/Laptop500	January 4, 2022	GA104					510-1035	1035-1485		5888:184: 96:184:46 (46) (6)						46.9-95.295.2-136.6	93.8-190.4190.4-273.2	6.01-12.1912.19-17.49	6.01-12.1912.19-17.49	0.094-0.1900.190-0.273	16.6
GeForce RTX 3080 Mobile/501Laptop502	January 12, 2021	GA104-775-A1					780-1350	1245-1810		6144:192: 96:192:48(48) (6)		8-16				74.9-129.6119.5-164.2	149.8-259.2239.0-328.3	9.59-16.5915.30-22.2	9.59-16.5915.30-22.2	0.150-0.2590.239-0.328					80–150
GeForce RTX 3080Ti Mobile/Laptop503	January 25, 2022	GA103		22	496		585-1230	1125-1590	1216	7424:232: 116:232:58 (58) (6)		16	384512			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

GeForce 40 series

Further information: GeForce 40 series and Ada Lovelace (microarchitecture)

• Supported APIs: Direct3D 12 Ultimate (12_2), OpenGL 4.6, OpenCL 3.0, Vulkan 1.3⁵⁰⁴ and CUDA 8.9
• Tensor core 4th gen
• RT core 3rd gen
• DLSS 3 (Super Resolution + Frame Generation)⁵⁰⁵
• SER⁵⁰⁶

Model name	Launch	Code name	Process	Transistors (billion)	Die size (mm2)	Bus interface	Clock speeds507			Core config508	L2 Cache (MiB)	Memory				Fillrate509		Processing power (TFLOPS)510					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)511	Texture (GT/s)512	Half precision	Single precision	Double precision	Tensor compute (FP16)	Tensor TOPS (INT8)	Rays/s (Billions)	RTX OPS/s (Trillions)
GeForce RTX 4050 Mobile/Laptop513	February 22, 2023	AD107GN21-X2	TSMC 4N	18.9	146	PCIe 4.0 x8	1140-2370	1605-2370	20001614000 (Max-Q)16	2560:80:32:80:20(20) (2)	12	6	168.0192.0	GDDR6514	96	36.4-75.851.3-75.8	91.2-189.6128.4-189.6	5.83-12.18.21-12.1	5.83-12.18.21-12.1	0.09-0.180.12-0.18	46.6-97.065.7-97.0	93.3-194.1131.5-194.1			35–115
GeForce RTX 4060 Mobile/Laptop515		AD107GN21-X4					1140-2295	1470-2370		3072:96:32:96:24(24) (2)	32	8	224.0256.0		128	36.4-73.447.0-75.8	109.4-220.3141.1-227.5	7.00-14.19.03-14.5	7.00-14.19.03-14.5	0.10-0.220.14-0.23	56.0-112.872.2-116.4	112.0-225.6144.5-232.9
GeForce RTX 4070 Mobile/Laptop516		AD106GN21-X6		22.9	190		735-2070	1230-2175		4608:144:48:144:36(36) (3)						35.2-99.359.0-104.4	105.8-298.0177.1-313.2	6.77-19.011.3-20.0	6.77-19.011.3-20.0	0.10-0.290.17-0.31	54.1-152.690.6-160.3	108.3-305.2181.3-320.7
GeForce RTX 4080 Mobile/Laptop517	February 8, 2023	AD104GN21-X9		35.8	295	PCIe 4.0 x16	795-1860	1350-2280	22501814000 (Max-Q)18	7424:232:80:232:58(58) (5)	48	12	336.0432.0		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	94.4-220.9160.3-270.8	188.8-441.8320.7-541.6			60-150
GeForce RTX 4090 Mobile/Laptop518		AD103GN21-X11		45.9	379		930-1620	1455-2580		9728:304:112:304:76(76) (7)	64	16	448.0576.0		256	104.1-181.4162.9-288.9	282.7-492.4442.3-784.3	18.0-31.528.3-50.1	18.0-31.528.3-50.1	0.28-0.490.44-0.78	144.8-252.1226.4-401.5	289.5-504.2452.9-803.1			80-150

GeForce 50 series

Further information: GeForce RTX 50 series and Blackwell (microarchitecture)

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.⁵¹⁹⁵²⁰ Nvidia claims that Blackwell architecture's new Max-Q features can increase battery life by up to 40% over GeForce 40 series laptops.⁵²¹ 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.⁵²² Initial RTX 50 series laptops will become available in March 2025 starting at $1,299.⁵²³

GeForce RTX		5060Laptop524	5070Laptop525	5070 TiLaptop526	5080Laptop527	5090Laptop528529
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)530
	Texture (Gtex/s)531
Processingpower(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

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 532	Memory				Fillrate533		Processing power (GFLOPS)534				Ray tracing Performance		TDP(Watts)
							Basecoreclock(MHz)	Boostcoreclock(MHz)	Memory (GT/s)			Size(GiB)	Bandwidth(GB/s)	Type	Buswidth(bit)	Pixel(GP/s)535	Texture(GT/s)536	Halfprecision	Singleprecision	Doubleprecision	Tensorcompute(FP16)	Rays/s(Billions)	RTX OPS(Trillions)
GeForce MX110(Maxwell)537538	Nov 17, 2017	GM108(N16V-GMR1-A1)	TSMC28 nm	?	?	PCIe 3.0×4	965	993	1.8(DDR3)5(GDDR5)	1	256:16 :8:3	2	14.4(DDR3)40.1(GDDR5)	DDR3GDDR5	64	(7.944)	(15.89)	—	(508.4)	(15.89)	—	—	—	30
GeForce MX130(Maxwell)539540541		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)542543544	May 17, 2017	GP108(N17S-LG-A1)	Samsung14 nm	1.8	74		937	1038	5	0.5	384:24 :16:3	24	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)545	Feb 20, 2019	GP108(N17S-G0-A1)					1519	1531	7	0.5	256:16 :16:2	24	56			(25.31)	(25.31)	(12.66)	(810.0)	(25.31)				10
GeForce MX250(Pascal)546547		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)548	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)549		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)550551	Aug 1, 2020	TU117(N18S-LP-A1)(N18S-G5-A1)	TSMC12FFN	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)552553554555	Mar 2022	TU117-670-A1(GN18-S5-A1)					1065	1320	12	2	1024:32 :16:8	24	96			(21.12)	(42.24)	(2703)	(2703)	(42.24)				15–30
GeForce MX570(Ampere)556557558559	Mar 2022	GA107(GN20-S5-A1)	Samsung8N	8.7	200		1087	1155		2	2048:64 :40:16 :16:64	24	96			(46.20)	(73.92)	(4731)	(4731)	(73.92)				15–45

Workstation / Mobile Workstation GPUs

Quadro NVS

Further information: Quadro

• 1 Vertex shaders: pixel shaders: texture mapping units: render output units
• 2 Unified shaders: texture mapping units: render output units
• * NV31, NV34 and NV36 are 2x2 pipeline designs if running vertex shader, otherwise they are 4x1 pipeline designs.

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-59560
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

Mobility Quadro NVS series

Further information: Quadro

• 1 Vertex shaders: pixel shaders: texture mapping units: render output units
• 2 Unified shaders: texture mapping units: render output units

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

• 1Unified shaders: texture mapping units: render output units

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 GF117561	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

Quadro

Further information: Quadro

• 1 Vertex shaders: pixel shaders: texture mapping units: render output units

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	8.0	1.3
Quadro4 380XGL	NV18GL	150	AGP 8x	275	513	0:2:4:2		8.2			0.55	1.1	7	1.2
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	8.1	1.3
Quadro4 750XGL							128									Stereo display
Quadro4 900XGL				300	650			10.4			1.2	2.4
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 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.

• 1 Vertex shaders: pixel shaders: texture mapping units: render output units
• 2 Unified shaders: texture mapping units: render output units

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 Go562	August 14, 2001563564	NV11 GLM	180	AGP 4x	143	130360	2:0:4:2	3264	2.95.8	SDRDDR	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 Nvidia565566
Quadro4 500 Go GL567568	April 23, 2002569	NV17 GLM	150	AGP 4x,8x	220	220	2:0:4:2	64	7.0	DDR		0.44	0.88				Based on the GeForce4 Go, dynamic core clock 66–220 MHz, core voltage 1.35 V, uses DDR SDRAM according to Nvidia brochures570
Quadro4 700 Go GL571572573	February 5, 2003574575	NV28 GLM	150		176	200	4:2:4:4		7.4?		128?	0.704	0.704	8.1	1.3		Based on GeForce4 Go 4200, uses DDR according to Nvidia brochures
Quadro FX Go 700576		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 1000577	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 1400578	February 25, 2005579	NV41 GLM	130	PCIe	275	590	12:5:12:12?	256	18.9?F		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 series

Further information: Quadro

• 1 Vertex shaders: pixel shaders: texture mapping units: render output units

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

• 1 Vertex shaders: pixel shaders: texture mapping units: render output units

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

• 1 Vertex shaders: pixel shaders: texture mapping units: render output units

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

• 1 Vertex shaders: pixel shaders: texture mapping units: render output units

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 (x500M) series. 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 (x600) series

Further information: Quadro

• 1 Vertex shaders: pixel shaders: texture mapping units: render output units
• 2 Unified shaders: texture mapping units: render output units

Model	Launch	Code name	Fab (nm)	Bus interface	Core clock (MHz)	Shader clock (MHz)	Memory clock (MHz)	Core config12	Memory				Fillrate		Processing power (GFLOPS)580581		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

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

• 1Unified shaders: texture mapping units: render output units

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			64:32:1696:48:16		51.2		256	88	1624	240360			70	Based on the GeForce 8800M GTX. Dell Precision M6300 uses 64 shader version of the FX 3600M

Quadro FX (x700) series

Further information: Quadro

• 1Unified shaders: texture mapping units: render output units

Model	Launch	Code name	Fab (nm)	Bus interface	Core clock (MHz)	Shader clock (MHz)	Memory clock (MHz)	Core config1	Memory				Fillrate		Processing power (GFLOPS)582583		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 (x700M) series.

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 (x800) series

Further information: Quadro

• 1Unified shaders: texture mapping units: render output units

Model	Launch	Code name	Fab (nm)	Bus interface	Core clock (MHz)	Shader clock (MHz)	Memory clock (MHz)	Core config1	Memory				Fillrate		Processing power (GFLOPS)584585		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 CX586	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

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	16002200	72:24:8		25.635.2	GDDR3GDDR5		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 x000 series

Further information: Quadro

• 1 Unified shaders: texture mapping units: render output units
• 4 Each SM in the Fermi architecture contains 4 texture filtering units for every texture address unit. Total for the full GF100 64 texture address units and 256 texture filtering units⁵⁸⁷

Model	Launch	Code name	Fab (nm)	Bus interface	Core clock (MHz)	Shader clock (MHz)	Memory clock (MHz)	Core config1	Memory				Fillrate		Processing power (GFLOPS)588589		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 7000590	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

Mobile version of the Quadro x000 series.

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 Kxxx series

Further information: Quadro and Kepler (microarchitecture)

• 1Unified shaders: texture mapping units: render output units

Model	Launch	Code name	Fab (nm)	Bus interface	Core clock (MHz)	Shader clock (MHz)	Memory clock (MHz)	Core config1	Memory				Fillrate		Processing power (GFLOPS)591592		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	DDR3593	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)594595		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 2596	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-A2597			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

Mobile version of the Quadro (Kxxx) series.

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 Optimustechnology	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

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 Optimustechnology	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

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 Optimustechnology	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 Mxxx series

Further information: Quadro and Maxwell (microarchitecture)

• 1Unified shaders: texture mapping units: render output units: streaming multiprocessors

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)598599		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-A1600	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-A1601			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-A1602			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	GM200GLGM200-880-A1603			988	1114	1653(6612)	3072:192:96:24		3	1224	317		384	106.9	213.9 285.2	6070	190						250604	$4200 $4999

Mobile version of the Quadro (Mxxxx) series.

• 1Unified shaders: texture mapping units: render output units

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 Optimustechnology	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

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 Optimustechnology	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

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 Optimustechnology	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 Pxxx series

Further information: Quadro and Pascal (microarchitecture)

• 1Unified shaders: texture mapping units: render output units: streaming multiprocessors

Model	Launch	Code name605	Fab (nm)	Bus interface	Core clock (MHz)	Boost clock (MHz)	Memory clock (MHz)	Core config1	Cache		Memory				Fillrate606		Processing power (GFLOPS)607608		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-A1609			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

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 Optimustechnology	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

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 Optimustechnology	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 GVxxx series

Further information: Quadro and Volta (microarchitecture)

• 1 Unified shaders: texture mapping units: render output units: streaming multiprocessors: tensor cores

Model	Launch	Code name610	Fab (nm)	Bus interface	Core clock (MHz)	Boost clock (MHz)	Memory clock (MHz)	Core config1	Cache		Memory				Fillrate611		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 GV100612	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 RTX x000 / Tx00 / Tx000 series

Further information: Quadro and Turing (microarchitecture)

• 1 Unified shaders: texture mapping units: render output units: streaming multiprocessors: tensor cores

Model	Launch	Code name613	Fab (nm)	Bus interface	Core clock (MHz)	Boost clock (MHz)	Memory clock (MHz)	Core config1	Cache		Memory				Fillrate614		Processing power (TFLOPS)615		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

• 1 Unified shaders: texture mapping units: render output units: streaming multiprocessors

Model	Launch	Code name616	Fab (nm)	Bus interface	Core clock (MHz)	Boost clock (MHz)	Memory clock (MT)	Core config1	Cache		Memory				Fillrate617		Processing power (TFLOPS)618		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 T400619620621	May 6, 2021	TU117	TSMC12FFN	PCIe 3.0 x16	420	1425	10000	384:24:16:6	64	1	24	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 T600622623624	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 T1000625626627	May 6, 2021	TU117			1065	1395		896:56:32:14			48				44.6	78.1	2.5	0.0781						50

Mobile version of the Quadro RTX / T x000 series.

• 1 Unified shaders: texture mapping units: render output units: streaming multiprocessors: tensor cores (or FP16 Cores in T x000 Series)

Model name	Launch	Code name628	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 Mobile629	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 Mobile630	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 Mobile631	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 Mobile632	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 Mobile633	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 Mobile634	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-Q635	May 27, 2019	TU117			1035	1395					1250			44.64	89.28	5.714	2.857	0.089						40
Quadro RTX 3000 Mobile636	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-Q637	May 27, 2019	TU106			600	1215				416	1625			77.76	175.0	11.2	5.6	0.175						60
Quadro RTX 4000 Mobile638	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-Q639	May 27, 2019	TU104			780	1380				416	1625			88.32	220.8	14.13	7.066	0.221						80
Quadro RTX 5000 Mobile640	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-Q641	May 27, 2019	TU104			600	1350				384	1500			86.40	259.2	16.59	8.294	0.26						80
Quadro RTX 6000 Mobile642643	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: Quadro and Ampere (microarchitecture)

• 1 Unified shaders: texture mapping units: render output units: streaming multiprocessors: tensor cores

Model name	Launch	Code name644	Fab (nm)	Bus interface	Core clock (MHz)	Boost clock (MHz)	Memory clock (MHz)	Core config1	Cache		Memory				Fillrate645			Processing power (TFLOPS)646				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 A400647	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 A1000648	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 A2000649650651652	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 A4000653654655	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 A4500656	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 A5000657658659	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 A5500660	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 A6000661662663	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

Mobile version of the RTX Ax000 series.

Model name	Launch	Code name664	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 Mobile665666	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 Mobile667668	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 GB669	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 Mobile670	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 Mobile671	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 GB672673	Mar 22, 2022	GA104-A1			855	1440			12	336	1750			92.16	184.3	11.8	11.8	0.1843						115
RTX A4000 Mobile674	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 Mobile675676	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 Mobile677678	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 Mobile679680681	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: Quadro and Ada Lovelace (microarchitecture)

Model name	Launch	Code name682	Fab (nm)	Bus interface	Core clock (MHz)	Boost clock (MHz)	Memory clock (MHz)	Core config1	Cache		Memory				Fillrate683			Processing power (TFLOPS)684				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 Generation685686	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 Generation687	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 Generation688	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 Generation689	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 Generation690	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 Generation691	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 Generation692	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

Mobile version of the RTX Ada Generation.

• 1 CUDA cores: RT cores: Tensor cores

Model name	Launch	Code name693	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 Generation694695	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 Generation696697		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 Generation698699	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 Generation700701		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 Generation702703		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 Generation704705		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 Generation706707		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 series

Further information: Blackwell (microarchitecture)

• 1 Unified shaders: texture mapping units: render output units: Tensor cores: RT cores

Model name	Launch	Code name708	Fab (nm)	Bus interface	Core clock (MHz)	Boost clock (MHz)	Memory clock (MHz)	Core config1	Cache		Memory				Fillrate709			Processing power (TFLOPS)710				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

Mobile/laptop version of the RTX PRO Blackwell series⁷¹¹

Model name	Launch	Code name712	Fab (nm)	Bus interface	Core clock (MHz)	Boost clock (MHz)	Memory clock (MHz)	Core config1	Cache		Memory				Fillrate713			Processing power (TFLOPS)714				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

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 K1715	Kepler	4x GK107	4x 192	PCIe 3.0 x16	DDR3	4x 4 GiB	130
GRID K2716		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

• Data from GRID GPUS⁷¹⁷

Tesla

Further information: Nvidia Tesla

Model	Microarchitecture	Launch	Core	Core clock(MHz)	Shaders			Memory					Processing power (TFLOPS)718			CUDA compute capability719	TDP(W)	Notes, form factor
					CUDA cores(total)	Base clock (MHz)	Max boostclock (MHz)720	Bus type	Bus width(bit)	Size(GB)	Clock(MT/s)	Bandwidth(GB/s)	Half precisionTensor Core FP32 Accumulate	Single precision(MAD or FMA)	Double precision(FMA)
C870 GPU Computing Module721	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 Computer722		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 Server723		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 Module724		April 9, 2009	1× GT200	602	240	1296725	—	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"726		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"727		June 1, 2008				1440	—						No	2.765	0.3456
S1075 GPU Computing Server728729		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 System730		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 System731		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 Module732	Fermi	July 25, 2011	1× GF100	575	448	1150	—	GDDR5	384	3733	3000	144	No	1.030	0.5152	2.0	247	Internal PCIe GPU (full-height, dual-slot)
M2050 GPU Computing Module734		July 25, 2011					—				3092	148.4	No				225
C2070 GPU Computing Module735		July 25, 2011	1× GF100	575	448	1150	—	GDDR5	384	6736	3000	144	No	1.030	0.5152	2.0	247	Internal PCIe GPU (full-height, dual-slot)
C2075 GPU Computing Module737		July 25, 2011					—				3000	144	No				225
M2070/M2070Q GPU Computing Module738		July 25, 2011					—				3132	150.3	No				225
M2090 GPU Computing Module739		July 25, 2011	1× GF110	650	512	1300	—	GDDR5	384	6740	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× 3741	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× 6742			No
K10 GPU accelerator743	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 accelerator744745		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 accelerator746		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 accelerator747		October 8, 2013	1× GK110B	—	2880	745	875	GDDR5	384	12748	6000	288	No	4.291–5.040	1.430–1.680	3.5	235	Internal PCIe GPU (full-height, dual-slot)
K80 GPU accelerator749		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 accelerator750751	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 accelerator752		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 accelerator753		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 accelerator754755		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 accelerator756		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 accelerator757	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 accelerator758759		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 accelerator760		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)761762		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)763		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)764		June 20, 2016		—					3072	12		549	No	8.071‒9.340	4.036‒4.670
V100 GPU accelerator (mezzanine)765766767	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)768769770		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)771772	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)773	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)774		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)775		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)776		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)777		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)778779		May 14, 2020780	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)781	Hopper	March 22, 2022782	1× GH100783	—	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)784		November 18, 2024785	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, 2023786	1× GH100	—	16,896	1095	1755	HBM3	5120	80	1313	3360	—	59.3	29.65	9.0	700	SXM card
L40 GPU accelerator787	Ada Lovelace	October 13, 2022	1× AD102788	—	18,176	735	2490	GDDR6	384	48	2250	864	362.1	90.52	1.414	8.9	300	PCIe card (dual-slot)
L4 GPU accelerator789790		March 21, 2023791	1x AD104792	—	7424	795	2040	GDDR6	192	24	1563	300	121.0	30.3	0.49	8.9	72	HHHL single slot PCIe card

• v
• t
• e

Notes

• A10G GPU accelerator (PCIe card)-300W TDP, Ampere, 24GB GDDR6@600GB/s, 80 RT Cores

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)793794	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)795796797	November 11, 2006	G70	Toshiba 90/65/40 nm/28 nm	FlexIO	500	650	24:8:24:81	256256	15 (write)20 (read)20.8	XDRGDDR3		12,000	12,000	4,000	250	-	192 + 153.6 (w/Cell SPUs)	N/A	N/A	N/A	N/A	ES 1.1 w/Cg
NX-SoC (Nintendo Switch)798799	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		4.6800ES 3.2801	1.3802	Nvidia NVN803
	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(12):48:16:12:483	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

• 1 Pixel shaders: vertex shaders: texture mapping units: render output units
• 2 Unified shaders: Texture mapping units : Render output units
• 3 Unified shaders (SM count): Texture mapping units : Render output units : Ray tracing cores : Tensor Core

See also

• nouveau (software)
• Scalable Link Interface (SLI)
• TurboCache
• Tegra
• Apple M1
• CUDA
• Nvidia NVDEC
• Nvidia NVENC
• Qualcomm Adreno
• ARM Mali
• Comparison of Nvidia nForce chipsets
• List of AMD graphics processing units
• List of Intel graphics processing units
• List of eponyms of Nvidia GPU microarchitectures
• Imageon by ATI (Now AMD)

External links

• OpenGL 2.0 support on Nvidia GPUs (PDF document)
• Release Notes for Nvidia OpenGL Shading Language Support (PDF document)

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95. To calculate the processing power, see Performance. /wiki/Tesla_(microarchitecture)#Performance ↩

96. "AMD and Nvidia Platforms Do Battle". Tomshardware.com. 18 July 2008. Archived from the original on 27 January 2010. Retrieved 11 December 2015. http://www.tomshardware.com/reviews/amd-nvidia-chipset,1972-14.html ↩

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99. "Nvidia GF8600/8500/8300 details revealed". 12 April 2007. Archived from the original on 25 September 2007. https://web.archive.org/web/20070925073721/http://www.theinquirer.net/default.aspx?article=38884 ↩

100. 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[48][49] ↩

101. Volker Rißka (3 November 2007). "Zwei neue GeForce 8800 GTS bis Dezember". Computerbase.de. Archived from the original on 18 July 2011. Retrieved 11 December 2015. https://www.computerbase.de/2007-11/zwei-neue-geforce-8800-gts-bis-dezember/ ↩

102. 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[48][49] ↩

103. "3D accelerator database". Vintage 3D. Archived from the original on 23 October 2018. Retrieved 21 July 2019. http://vintage3d.org/dbn.php ↩

104. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

105. To calculate the processing power, see Performance. /wiki/Tesla_(microarchitecture)#Performance ↩

106. "3D accelerator database". Vintage 3D. Archived from the original on 23 October 2018. Retrieved 21 July 2019. http://vintage3d.org/dbn.php ↩

107. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

108. To calculate the processing power see Tesla (microarchitecture)#Performance. /wiki/Tesla_(microarchitecture)#Performance ↩

109. Nvidia Corporation (2008). "Nvidia GeForce 9300 GE". Archived from the original on 16 April 2009. Retrieved 22 February 2010. http://www.pcinpact.com/affichage/43963-NVIDIA-9600GT-9300GE-9300GS/58125.htm ↩

110. "NVIDIA GeForce 9300 GE Specs | TechPowerUp GPU Database". Techpowerup.com. 22 August 2022. Retrieved 22 August 2022. https://www.techpowerup.com/gpu-specs/geforce-9300-ge.c1760 ↩

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112. "3D accelerator database". Vintage 3D. Archived from the original on 23 October 2018. Retrieved 21 July 2019. http://vintage3d.org/dbn.php ↩

113. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

114. To calculate the processing power see Tesla (microarchitecture)#Performance. /wiki/Tesla_(microarchitecture)#Performance ↩

115. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

116. To calculate the processing power see Tesla (microarchitecture)#Performance. /wiki/Tesla_(microarchitecture)#Performance ↩

117. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

118. To calculate the processing power see Tesla (microarchitecture)#Performance. /wiki/Tesla_(microarchitecture)#Performance ↩

119. "NVIDIA GeForce GT 230 Specs". Archived from the original on 6 August 2018. Retrieved 6 August 2018. https://www.techpowerup.com/gpudb/617/geforce-gt-230 ↩

120. "Pegatron GT 230 Specs". TechPowerUp. 18 August 2023. Retrieved 18 August 2023. https://www.techpowerup.com/gpu-specs/pegatron-gt-230.b4915 ↩

121. "NVIDIA GeForce GTS 240 OEM | techPowerUp GPU Database". Archived from the original on 12 December 2016. Retrieved 6 August 2018. https://www.techpowerup.com/gpudb/242/geforce-gts-240-oem ↩

122. "Zotac GeForce GTX 260 Amp2 Edition 216 Shaders Review". 16 September 2008. Archived from the original on 24 December 2019. Retrieved 6 August 2018. https://www.techpowerup.com/review/zotac-geforce-gtx-260-amp2-edition/ ↩

123. "Zotac GeForce GTX 260 Amp2 Edition 216 Shaders Review". 16 September 2008. Archived from the original on 24 December 2019. Retrieved 6 August 2018. https://www.techpowerup.com/review/zotac-geforce-gtx-260-amp2-edition/ ↩

124. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

125. To calculate the processing power see Tesla (microarchitecture)#Performance. /wiki/Tesla_(microarchitecture)#Performance ↩

126. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

127. To calculate the processing power see Tesla (microarchitecture)#Performance. /wiki/Tesla_(microarchitecture)#Performance ↩

128. "Nvidia GeForce GT 330 OEM | techPowerUp GPU Database". Techpowerup.com. Archived from the original on 18 October 2014. Retrieved 11 December 2015. http://www.techpowerup.com/gpudb/1758/geforce-gt-330-oem.html ↩

129. "NVIDIA GeForce GT 330 OEM Specs". TechPowerUp. Retrieved 23 March 2020. https://www.techpowerup.com/gpu-specs/geforce-gt-330-oem.c1758 ↩

130. "NVIDIA GeForce GT 330 OEM Specs". TechPowerUp. Retrieved 23 March 2020. https://www.techpowerup.com/gpu-specs/geforce-gt-330-oem.c3314 ↩

131. "NVIDIA GeForce GT 330 OEM Specs". TechPowerUp. Retrieved 23 March 2020. https://www.techpowerup.com/gpu-specs/geforce-gt-330-oem.c1757 ↩

132. "GeForce GT 340 OEM | GeForce". Nvidia.com. Archived from the original on 28 February 2012. Retrieved 11 December 2015. http://www.nvidia.com/object/product_geforce_gt_340_us.html ↩

133. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

134. 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.[62] 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.[63] ↩

135. To calculate the processing power see Fermi (microarchitecture)#Performance. /wiki/Fermi_(microarchitecture)#Performance ↩

136. 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.[64] ↩

137. 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. /wiki/EVGA_Corporation ↩

138. The GeForce 405 card is a rebranded GeForce 310 which itself is a rebranded GeForce 210. ↩

139. "The Khronos Group". 31 May 2022. Archived from the original on 28 January 2017. Retrieved 11 June 2017. https://www.khronos.org/conformance/adopters/conformant-products ↩

140. "Nvidia Fermi Compute Architecture Whitepaper" (PDF). Archived (PDF) from the original on 22 November 2009. Retrieved 17 April 2010. ( 855KB), page 11 of 22 http://www.nvidia.com/content/PDF/fermi_white_papers/NVIDIA_Fermi_Compute_Architecture_Whitepaper.pdf ↩

141. 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.[64] ↩

142. 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.[64] ↩

143. 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.[64] ↩

144. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

145. 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.[62] 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.[63] ↩

146. To calculate the processing power see Fermi (microarchitecture)#Performance. /wiki/Fermi_(microarchitecture)#Performance ↩

147. 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.[64] ↩

148. 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. /wiki/EVGA_Corporation ↩

149. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

150. 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.[67] 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. ↩

151. To calculate the processing power see Fermi (microarchitecture)#Performance. /wiki/Fermi_(microarchitecture)#Performance ↩

152. 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.[68] /wiki/Wikipedia:Manual_of_Style/Dates_and_numbers#Chronological_items ↩

153. "The Khronos Group". 31 May 2022. Archived from the original on 28 January 2017. Retrieved 11 June 2017. https://www.khronos.org/conformance/adopters/conformant-products ↩

154. "NVIDIA GeForce GT 530 OEM Specs". TechPowerUp. Retrieved 25 September 2022. https://www.techpowerup.com/gpu-specs/geforce-gt-530-oem.c630 ↩

155. 1024 MiB RAM on 192-bit bus assemble with 4 x (128 MiB) + 2 x (256 MiB). ↩

156. 1024 MiB RAM on 192-bit bus assemble with 4 x (128 MiB) + 2 x (256 MiB). ↩

157. "NVIDIA GeForce GTX 560 SE Specs". TechPowerUp. 18 August 2023. Retrieved 18 August 2023. https://www.techpowerup.com/gpu-specs/geforce-gtx-560-se.c341 ↩

158. Internally referred to as GF104B[71] ↩

159. Internally referred to as GF104B[71] ↩

160. Internally referred to as GF104B[71] ↩

161. Internally referred to as GF100B[71] ↩

162. Ryan Smith (9 November 2010). "Nvidia's GeForce GTX 580: Fermi Refined". AnandTech. Archived from the original on 10 November 2010. Retrieved 9 November 2010. http://www.anandtech.com/show/4008/nvidias-geforce-gtx-580 ↩

163. Ryan Smith (9 November 2010). "Nvidia's GeForce GTX 580: Fermi Refined". AnandTech. Archived from the original on 10 November 2010. Retrieved 9 November 2010. http://www.anandtech.com/show/4008/nvidias-geforce-gtx-580 ↩

164. 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.[68] /wiki/Wikipedia:Manual_of_Style/Dates_and_numbers#Chronological_items ↩

165. Internally referred to as GF100B[71] ↩

166. Internally referred to as GF100B[71] ↩

167. 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.[68] /wiki/Wikipedia:Manual_of_Style/Dates_and_numbers#Chronological_items ↩

168. Internally referred to as GF100B[71] ↩

169. Some companies have announced that they will be offering the GTX580 with 3GB RAM.[73] ↩

170. 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.[68] /wiki/Wikipedia:Manual_of_Style/Dates_and_numbers#Chronological_items ↩

171. "Nvidia GeForce GTX 580 1536 MB Review". TechPowerUp. 9 November 2010. Archived from the original on 22 December 2015. Retrieved 11 December 2015. http://www.techpowerup.com/reviews/NVIDIA/GeForce_GTX_580/3.html ↩

172. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

173. 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.[67] 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. ↩

174. To calculate the processing power see Fermi (microarchitecture)#Performance. /wiki/Fermi_(microarchitecture)#Performance ↩

175. 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.[68] /wiki/Wikipedia:Manual_of_Style/Dates_and_numbers#Chronological_items ↩

176. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

177. To calculate the processing power see Kepler (microarchitecture)#Performance, or Fermi (microarchitecture)#Performance. /wiki/Kepler_(microarchitecture)#Performance ↩

178. Vulkan 1.2 is only supported on Kepler cards.[65] ↩

179. The GeForce 605 (OEM) card is a rebranded GeForce 510. ↩

180. The GeForce GT 610 card is a rebranded GeForce GT 520. ↩

181. The GeForce GT 620 (OEM) card is a rebranded GeForce GT 520. ↩

182. The GeForce GT 630 (DDR3, 128-bit, retail) card is a rebranded GeForce GT 430 (DDR3, 128-bit). ↩

183. The GeForce GT 630 (GDDR5) card is a rebranded GeForce GT 440 (GDDR5). ↩

184. The GeForce GT 640 (OEM) GF116 card is a rebranded GeForce GT 545 (DDR3). ↩

185. The GeForce GT 645 (OEM) card is a rebranded GeForce GTX 560 SE. ↩

186. "NVIDIA GeForce GTX 650 Specs". TechPowerUp. Retrieved 9 December 2021. https://www.techpowerup.com/gpu-specs/geforce-gtx-650.c2445 ↩

187. "Nvidia GeForce GTX 680 Whitepaper.pdf" (PDF). Archived from the original (PDF) on April 17, 2012. (1405KB), page 6 of 29 https://web.archive.org/web/20120417045615/http://www.geforce.com/Active/en_US/en_US/pdf/GeForce-GTX-680-Whitepaper-FINAL.pdf ↩

188. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

189. To calculate the processing power see Kepler (microarchitecture)#Performance, or Fermi (microarchitecture)#Performance. /wiki/Kepler_(microarchitecture)#Performance ↩

190. Vulkan 1.2 is only supported on Kepler cards.[65] ↩

191. Unified shaders: texture mapping units: render output units /wiki/Unified_shader_model ↩

192. To calculate the processing power see Maxwell (microarchitecture)#Performance, or Kepler (microarchitecture)#Performance. /wiki/Maxwell_(microarchitecture)#Performance ↩

193. 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. ↩

194. Maxwell supports Vulkan version 1.3, while Kepler only support Vulkan version 1.2, Fermi does not support the Vulkan API at all.[65] ↩

195. 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.[77][78] /wiki/Direct3D_feature_level ↩

196. "Nvidia GeForce GT 705 | techPowerUp GPU Database". Techpowerup.com. Archived from the original on 15 June 2014. Retrieved 11 December 2015. http://www.techpowerup.com/gpudb/2578/geforce-gt-705.html ↩

197. The GeForce GT 705 (OEM) is a rebranded GeForce GT 610, which itself is a rebranded GeForce GT 520. ↩

198. "Nvidia GeForce GT 710 | techPowerUp GPU Database". Techpowerup.com. Archived from the original on 15 June 2014. Retrieved 11 December 2015. http://www.techpowerup.com/gpudb/1990/geforce-gt-710.html ↩

199. "Nvidia GeForce GT 720 | techPowerUp GPU Database". Techpowerup.com. Archived from the original on 15 June 2014. Retrieved 11 December 2015. http://www.techpowerup.com/gpudb/1989/geforce-gt-720.html ↩

200. "GT 730 | Specifications". GeForce.com. Archived from the original on 12 December 2015. Retrieved 11 December 2015. http://www.geforce.com/hardware/desktop-gpus/geforce-gt-730/specifications ↩

201. The GeForce GT 730 (DDR3, 64-bit) is a rebranded GeForce GT 630 (Rev. 2). ↩

202. The GeForce GT 730 (DDR3, 128-bit) is a rebranded GeForce GT 630 (128-bit). ↩

203. "GeForce GT 730 1GB-ZOTAC". ZOTAC. Archived from the original on 19 July 2016. Retrieved 12 July 2017. https://www.zotac.com/product/graphics_card/gt-730-1gb ↩

204. "EVGA - Products - EVGA GeForce GT 730 2GB (Low Profile) - 02G-P3-3733-KR". Archived from the original on 15 February 2017. Retrieved 29 April 2017. https://www.evga.com/products/product.aspx?pn=02G-P3-3733-KR ↩

205. The GeForce GT 740 (OEM) is a rebranded GeForce GTX 650 ↩

206. "AFOX GTX 750 4 GB Specs". TechPowerUp. Retrieved 11 August 2021. https://www.techpowerup.com/gpu-specs/afox-gtx-750-4-gb.b9074 ↩

207. 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. ↩

208. The GeForce GTX 760 Ti (OEM) is a rebranded GeForce GTX 670. ↩

209. "NVIDIA GeForce GTX 760 Ti OEM Specs". Archived from the original on 30 May 2016. Retrieved 6 August 2018. https://www.techpowerup.com/gpudb/2491/geforce-gtx-760-ti-oem ↩

210. "Articles - EVGA GeForce GTX 780 6GB Step-Up Available Now!". EVGA. 21 March 2014. Archived from the original on 13 January 2016. Retrieved 11 December 2015. https://www.evga.com/articles/00830/ ↩

211. 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. ↩

212. "GeForce GTX780 Ti. Specifications". Geforce.com. Archived from the original on 12 December 2015. Retrieved 11 December 2015. http://www.geforce.com/hardware/desktop-gpus/geforce-gtx-780-ti/specifications ↩

213. "Nvidia GeForce GTX 780 Ti has 2880 CUDA cores". Videocardz.com. 31 October 2013. Archived from the original on 22 December 2015. Retrieved 11 December 2015. http://videocardz.com/47508/videocardz-nvidia-geforce-gtx-780-ti-2880-cuda-cores ↩

214. "PNY dévoile son nouveau foudre de guerre: la GeForce GTX 780 TI". Web-engage.augure.com. Archived from the original on 9 November 2013. Retrieved 11 December 2015. https://web.archive.org/web/20131109211440/http://web-engage.augure.com/pub/link/282593/04601926874847631383752919307-hl-com.com.html ↩

215. 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. ↩

216. "GeForce GTX TITAN". Geforce.com. Archived from the original on 5 December 2015. Retrieved 11 December 2015. http://www.geforce.com/hardware/desktop-gpus/geforce-gtx-titan ↩

217. "TITAN Graphics Card". Nvidia.com. Archived from the original on 24 February 2013. Retrieved 11 December 2015. http://www.nvidia.com/titan-graphics-card ↩

218. "Nvidia's GeForce GTX Titan, Part 1: Titan For Gaming, Titan For Compute". Anandtech.com. Archived from the original on 4 December 2015. Retrieved 11 December 2015. http://www.anandtech.com/show/6760/nvidias-geforce-gtx-titan-part-1 ↩

219. "Titan's Compute Performance (aka Ph.D Lust) - Nvidia's GeForce GTX Titan Review, Part 2: Titan's Performance Unveiled". Anandtech.com. Archived from the original on 22 December 2015. Retrieved 11 December 2015. the calculated fp64 peak of Titan is 1.5 TFlops. However, under heavy load in fp64 mode, the card may underclock below the listed 837MHz to remain within the power and thermal specifications http://www.anandtech.com/show/6774/nvidias-geforce-gtx-titan-part-2-titans-performance-unveiled/3 ↩

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223. To calculate the processing power see Maxwell (microarchitecture)#Performance, or Kepler (microarchitecture)#Performance. /wiki/Maxwell_(microarchitecture)#Performance ↩

224. 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. ↩

225. Maxwell supports Vulkan version 1.3, while Kepler only support Vulkan version 1.2, Fermi does not support the Vulkan API at all.[65] ↩

226. 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.[77][78] /wiki/Direct3D_feature_level ↩

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229. Base clock, Boost clock ↩

230. Base clock, Boost clock ↩

231. To calculate the processing power see Maxwell (microarchitecture)#Performance. /wiki/Maxwell_(microarchitecture)#Performance ↩

232. Pixel fillrate is calculated as the number of ROPs multiplied by the respective core clock speed. ↩

233. Texture fillrate is calculated as the number of TMUs multiplied by the respective core clock speed. ↩

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238. Some GTX950 cards were released without power connector powered only by PCIe slot. These had limited power consumption and TPD to 75W.[101] ↩

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243. 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.[106] ↩

244. 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.[106] ↩

245. 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.[106] ↩

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249. 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. ↩

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253. Base clock, Boost clock ↩

254. Base clock, Boost clock ↩

255. To calculate the processing power see Pascal (microarchitecture)#Performance. /wiki/Pascal_(microarchitecture)#Performance ↩

256. 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. ↩

257. 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.[111] 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.[112] ↩

258. Texture fillrate is calculated as the number of TMUs multiplied by the base core clock speed. ↩

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281. 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. ↩

282. 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.[111] 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.[112] ↩

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284. Base clock, Boost clock ↩

285. Base clock, Boost clock ↩

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292. Texture fillrate is calculated as the number of TMUs multiplied by the base core clock speed. ↩

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315. Base clock, Boost clock ↩

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469. Base clock, Boost clock ↩

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488. Base clock, Boost clock. ↩

489. 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. ↩

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510. Base clock, Boost clock. ↩

511. 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. ↩

512. Texture fillrate is calculated as the number of TMUs multiplied by the core clock speed. ↩

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530. Pixel fillrate is calculated as the number of render output units (ROPs) multiplied by the base (or boost) core clock speed. ↩

531. Texture fillrate is calculated as the number of texture mapping units (TMUs) multiplied by the base (or boost) core clock speed. ↩

532. Shader Processors : Texture mapping units : Render output units : Streaming Multiprocessors : Ray tracing cores : Tensor Cores /wiki/Unified_shader_model ↩

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534. Base clock, Boost clock ↩

535. 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. ↩

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719. Core architecture version according to the CUDA programming guide. /wiki/CUDA ↩

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722. Specifications not specified by Nvidia assumed to be based on the GeForce 8800 GTX /wiki/GeForce_8800 ↩

723. Specifications not specified by Nvidia assumed to be based on the GeForce 8800 GTX /wiki/GeForce_8800 ↩

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727. Specifications not specified by Nvidia assumed to be based on the GeForce GTX 280 /wiki/GeForce_200_series#GeForce_GTX_200 ↩

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