Nvidia GeForce 16 series

Logo of the Nvidia GeForce 16 series

Nvidia GeForce GTX 1660 ASUS TUF Gaming X3

The GeForce 16 series is a series of graphics chips from Nvidia . The GeForce 16 series is an addition in the midrange or mainstream market to the GeForce 20 series (which itself only covers the high-end and enthusiast market) and, like this, is based on the Turing architecture. Despite the same architecture, the GeForce 16 series does not have ray tracing support.

Data overview

Graphics processors

Graphics chip	production			units					L2 cache	API support					Video pro- cessor	Bus interface stelle
	production process	transis- tors	The - area	ROP particle functions	ROPs	Unified shaders		Texture units		DirectX	OpenGL	OpenCL	CUDA	volcano
	production process	transis- tors	The - area	ROP particle functions	ROPs	SM	ALUs	Texture units		DirectX	OpenGL	OpenCL	CUDA	volcano
TU116	12 nm	6.6 billion	284 mm²	03	48	24	1536	96	1536 KB	12.1	4.6	1.2	7.5	1.1.103	k. A.	PCIe 3.0
TU117	12 nm	4.7 billion	200 mm²	02	32	16	1024	64	1024 KB	12.1	4.6	1.2	7.5	1.1.103	k. A.	PCIe 3.0

Desktop model data

model	Official launch	Graphics processor (GPU)							Graphics memory			Performance data					Power consumption
		Type	Active units				Chip clock		Memory size	Storage cycle	Storage interface	Computing power (in GFlops )		Fill rate		Memory bandwidth (in GB / s)	MGCP	Readings
		Type	ROPs	SM	ALUs	Texture units	Base	Boost	Memory size	Storage cycle	Storage interface	32 bit	64 bit	Pixels (GP / s)	Texel (GT / s)	Memory bandwidth (in GB / s)	MGCP	Idle	3D load
GeForce GTX 1650	23 Apr 2019	TU117-300-A1	32	14th	896	56	1485 MHz	1665 MHz	4 GB GDDR5	4000 MHz	128 bit	2984	93.2	53.3	93.2	128	075 W	k. A.	k. A.
GeForce GTX 1650	Apr 1, 2020	TU117-300-A1	32	14th	896	56	1410 MHz	1590 MHz	4 GB GDDR6	6000 MHz	128 bit	2849	89	50.9	89	192	075 W	k. A.	k. A.
GeForce GTX 1650 Super	Nov 22, 2019	TU116-250-KA-A1	32	20th	1280	80	1530 MHz	1725 MHz	4 GB GDDR6	6000 MHz	128 bit	4416	138	55.2	138	192	100 W	k. A.	k. A.
GeForce GTX 1660	March 14, 2019	TU116-300-A1	48	22nd	1408	88	1530 MHz	1785 MHz	6 GB GDDR5	4000 MHz	192 bits	5027	157.1	85.7	157.1	192	120 W	k. A.	k. A.
GeForce GTX 1660 Super	Oct 29, 2019	TU116-300-A1	48	22nd	1408	88	1530 MHz	1785 MHz	6 GB GDDR6	7000 MHz	192 bits	5027	157.1	85.7	157.1	336	125 W	k. A.	k. A.
GeForce GTX 1660 Ti	Feb 22, 2019	TU116-400-A1	48	24	1536	96	1500 MHz	1770 MHz	6 GB GDDR6	6000 MHz	192 bits	5437	169.9	85	169.9	288	120 W	k. A.	k. A.

Notebook model data

model	Official launch	Graphics processor (GPU)							Graphics memory			Performance data					MGCP
		Type	Active units				Chip clock		Memory size	Storage cycle	Storage interface	Computing power (in GFlops )		Fill rate		Memory bandwidth (in GB / s)
		Type	ROPs	SM	ALUs	Texture units	Base	Boost	Memory size	Storage cycle	Storage interface	32 bit	64 bit	Pixels (GP / s)	Texel (GT / s)	Memory bandwidth (in GB / s)
GeForce GTX 1650	23 Apr 2019	TU117	32	16	1024	64	930-1395 MHz	1125-1560 MHz	4 GB GDDR5	4000 MHz	128 bit	2304-3195	72-99.8	36-49.9	72-99.8	128	30 - 50 W.
GeForce GTX 1650 Ti	Apr 2, 2020	TU117	32	16	1024	64	1035-1350 MHz	1200 - 1485 MHz	4 GB GDDR6	6000 MHz	128 bit	2458-3041	76.8-95	38.4-47.5	76.8-95	192	35 - 55 W.
GeForce GTX 1660 Ti	23 Apr 2019	TU116	48	24	1536	96	1140-1455 MHz	1335-1590 MHz	6 GB GDDR6	6000 MHz	192 bits	4098-4884	128.2-152.6	64.1-76.3	128.2-152.6	288	60 - 80 W.

Remarks

↑ ^a ^b The date indicated is the date of the public presentation, not the date of availability of the models.
↑ ^a ^b The specified performance values for the computing power via the stream processors, the pixel and texel fill rate, and the memory bandwidth are theoretical maximum values (with boost clock) that are not directly comparable with the performance values of other architectures. The overall performance of a graphics card depends, among other things, on how well the available resources can be used or fully utilized. There are also other factors that are not listed here that affect performance.
↑ ^a ^b ^c ^d The specified clock rates are the reference data recommended or specified by Nvidia, the effective clock is specified for the memory clock. However, the exact clock rate can deviate by a few megahertz due to different clock generators, and the final definition of the clock rates is in the hands of the respective graphics card manufacturer. It is therefore entirely possible that there are or will be graphics card models that have different clock rates.
↑ ^a ^b The MGCP value given by Nvidia does not necessarily correspond to the maximum power consumption. This value is also not necessarily comparable with the TDP value of the competitor AMD.
↑ The measured values listed in the table relate to the pure power consumption of graphics cards that correspond to the Nvidia reference design. A special measuring device is required to measure these values; Depending on the measurement technology used and the given measurement conditions, including the program used to generate the 3D load, the values can fluctuate between different devices. Therefore, measured value ranges are given here, each representing the lowest, typical and highest measured values from different sources.

Individual evidence

↑ NVIDIA GeForce GTX 1650. Nvidia, accessed April 23, 2019 .
↑ NVIDIA GeForce GTX 1650 SUPER. Nvidia, accessed November 5, 2019 .
↑ ^a ^b NVIDIA GEFORCE GTX 1660 Ti and 1660. Nvidia, accessed November 5, 2019 .
↑ NVIDIA GeForce GTX 1660 SUPER. Nvidia, accessed March 14, 2019 .
↑ ^a ^b ^c NVIDIA GeForce Gaming Laptops. Nvidia, accessed May 4, 2020 .

[Launch-1] The date indicated is the date of the public presentation, not the date of availability of the models.

[Leistung-2] The specified performance values for the computing power via the stream processors, the pixel and texel fill rate, and the memory bandwidth are theoretical maximum values (with boost clock) that are not directly comparable with the performance values of other architectures. The overall performance of a graphics card depends, among other things, on how well the available resources can be used or fully utilized. There are also other factors that are not listed here that affect performance.

[Takt-3] The specified clock rates are the reference data recommended or specified by Nvidia, the effective clock is specified for the memory clock. However, the exact clock rate can deviate by a few megahertz due to different clock generators, and the final definition of the clock rates is in the hands of the respective graphics card manufacturer. It is therefore entirely possible that there are or will be graphics card models that have different clock rates.

[MGCP-4] The MGCP value given by Nvidia does not necessarily correspond to the maximum power consumption. This value is also not necessarily comparable with the TDP value of the competitor AMD.

[5] The measured values listed in the table relate to the pure power consumption of graphics cards that correspond to the Nvidia reference design. A special measuring device is required to measure these values; Depending on the measurement technology used and the given measurement conditions, including the program used to generate the 3D load, the values can fluctuate between different devices. Therefore, measured value ranges are given here, each representing the lowest, typical and highest measured values from different sources.

[6] NVIDIA GeForce GTX 1650. Nvidia, accessed April 23, 2019 .

[7] NVIDIA GeForce GTX 1650 SUPER. Nvidia, accessed November 5, 2019 .

[nv_01-8] NVIDIA GEFORCE GTX 1660 Ti and 1660. Nvidia, accessed November 5, 2019 .

[9] NVIDIA GeForce GTX 1660 SUPER. Nvidia, accessed March 14, 2019 .

[nv-01-10] NVIDIA GeForce Gaming Laptops. Nvidia, accessed May 4, 2020 .


DirectX 70	GeForce 256 • GeForce 2
DirectX 80	GeForce 3 • GeForce 4
DirectX 90	GeForce FX • GeForce 6 • GeForce 7
DirectX 10	GeForce 8 • GeForce 9 • GeForce 100 • GeForce 200 • GeForce 300
DirectX 11	GeForce 400 • GeForce 500 • GeForce 600 • GeForce 700
DirectX 12	GeForce 900 • GeForce 10 • GeForce 16 • GeForce 20