Here you will find all technical data as well as various benchmarks of the ASUS Turbo GeForce GTX 1080 TI. Up to 4 screens with a maximum resolution of up to 7680x4320 can be operated with this graphics card. The maximum turbo clock of the ASUS Turbo GeForce GTX 1080 TI is 1.582 GHz, so the graphics card achieves an FP32 computing power of 11.34 TFLOPS.
GPU
The ASUS Turbo GeForce GTX 1080 TI is equipped with 28 execution and 3584 shader units. With single precision, a theoretical FP32 computing power of 11.34 TFLOPS is achieved.
The ASUS Turbo GeForce GTX 1080 TI has a 352 bit wide memory interface, with which a memory bandwidth of 484 GB/s is achieved. In total, 11 GB GDDR5X graphics memory is available for the graphics card.
Memory Size:
11 GB
Memory Type:
GDDR5X
Memory Clock:
1.376 GHz
Memory Speed:
11.0 Gbps
Memory bandwidth:
484 GB/s
Memory Interface:
352 bit
Clock Speeds
The manufacturer specifies the memory clock of the ASUS Turbo GeForce GTX 1080 TI with 1.480 GHz (base clock) or with 1.582 GHz (turbo clock). If overclocking is supported (see below), the clock rate can be increased even further.
Base Clock:
1.480 GHz
Boost Clock:
1.582 GHz
Avg (Game) Clock:
Overclocking:
Yes
Thermal Design
The ASUS Turbo GeForce GTX 1080 TI has 1 x 6-Pin, 1 x 8-Pin plugs, which supply the graphics card with energy. The maximum operating temperature of the card is 91 °C.
TDP:
250 W
TDP (up):
--
Tjunction max:
91 °C
PCIe-Power:
1 x 6-Pin, 1 x 8-Pin
Cooler & Fans
The ASUS Turbo GeForce GTX 1080 TI is equipped with 1 Radial main fans, which are used to cool the graphics processor and graphics memory.
Fan-Type:
Radial
Fan 1:
1 x 70 mm
Fan 2:
--
Cooler-Type:
Air cooling
Noise (Idle):
--
Noise (Load):
--
Connectivity
Up to 4 screens can be connected to the ASUS Turbo GeForce GTX 1080 TI, whereby the backward-compatible HDCP copy protection is supported in the 2.2 version.
Max. Displays:
4
HDCP-Version:
2.2
HDMI Ports:
2x HDMI v2.0b
DP Ports:
2x DP v1.4
DVI Ports:
--
VGA Ports:
--
USB-C Ports:
--
Featureset
The ASUS Turbo GeForce GTX 1080 TI supports a maximum resolution of 7680x4320 pixels and the DirectX standard version 12_1.
Max. resolution:
7680x4320
DirectX:
12_1
Raytracing:
No
DLSS / FSR:
Yes
LED:
No LED lighting
Supported Video Codecs
Here is a list of which video codecs can be decoded / encoded by the ASUS Turbo GeForce GTX 1080 TI in hardware in order to minimize the processor load.
h264:
Decode / Encode
h265 / HEVC:
Decode / Encode
VP8:
Decode
VP9:
Decode
AV1:
No
Dimensions
The dimensions of the ASUS Turbo GeForce GTX 1080 TI are 267 mm in length, 111 mm in height and 38 mm in width. Thus 2 PCIe-Slots are needed in a case.
Length:
267 mm
Height:
111 mm
Width:
38 mm
Width (Slots):
2 PCIe-Slots
Weight:
--
Additional data
The ASUS Turbo GeForce GTX 1080 TI is manufactured in a structure width of 16 nm and has a PCIe 3.0 x 16 lanes interface. The graphics card was released in Q1/2017.
ASUS Turbo GeForce GTX 1080 TI 1.480 GHz, 11 GB (250 W TDP)
Buy this graphic card at amazon!
Rate this graphics card
Here you can rate this graphics card and help other visitors with their purchase decision. The average rating for this graphics card is currently 0 stars (0 ratings). Rate it now:
3DMark is a benchmark program that determines the performance of certain components of a computer and then reports the performance as a numerical value.
Geekbench 6 is a cross-platform benchmark for main processors, which also carries out 3 different graphics benchmarks and outputs them in the form of a numerical value.
The theoretical computing power of the graphics card with single precision (32 bit) in TFLOPS indicates how many trillion FP32 floating point operations the graphics card (GPU) can perform per second.
In order to determine the performance of a graphics card, so-called "benchmarks" are carried out. The benchmark software carries out special calculations to determine the performance of a graphics card. We use so-called theoretical or synthetic benchmarks (e.g. 3D Mark) as well as real game benchmarks. To ensure real comparability of the results, we pay attention to the correct execution of the benchmarks as well as the condition of the graphics card and the system.
We use the following benchmarks to measure the performance of a graphics card: