Here you will find all technical data as well as various benchmarks of the MSI GeForce GT 1030 2GH LP OC. Up to 2 screens with a maximum resolution of up to 7680x4320 can be operated with this graphics card. The maximum turbo clock of the MSI GeForce GT 1030 2GH LP OC is 1.518 GHz, so the graphics card achieves an FP32 computing power of 1.17 TFLOPS.
The MSI GeForce GT 1030 2GH LP OC is equipped with 3 execution and 384 shader units. With single precision, a theoretical FP32 computing power of 1.17 TFLOPS is achieved.
The MSI GeForce GT 1030 2GH LP OC has a 64 bit wide memory interface, with which a memory bandwidth of 48 GB/s is achieved. In total, 2 GB GDDR5 graphics memory is available for the graphics card.
The manufacturer specifies the memory clock of the MSI GeForce GT 1030 2GH LP OC with 1.265 GHz (base clock) or with 1.518 GHz (turbo clock). If overclocking is supported (see below), the clock rate can be increased even further.
1.265 GHz+ 3 %
1.518 GHz+ 3 %
Avg (Game) Clock:
The MSI GeForce GT 1030 2GH LP OC has plugs, which supply the graphics card with energy. The maximum operating temperature of the card is 97 °C.
Cooler & Fans
The MSI GeForce GT 1030 2GH LP OC is equipped with 0 -- main fans, which are used to cool the graphics processor and graphics memory.
0 dB / Silent
Up to 2 screens can be connected to the MSI GeForce GT 1030 2GH LP OC, whereby the backward-compatible HDCP copy protection is supported in the 2.2 version.
1x HDMI v2.0b
1x DP v1.4a
The MSI GeForce GT 1030 2GH LP OC supports a maximum resolution of 7680x4320 pixels and the DirectX standard version 12_1.
DLSS / FSR:
No LED lighting
Supported Video Codecs
Here is a list of which video codecs can be decoded / encoded by the MSI GeForce GT 1030 2GH LP OC in hardware in order to minimize the processor load.
h265 / HEVC:
The dimensions of the MSI GeForce GT 1030 2GH LP OC are 153 mm in length, 69 mm in height and 38 mm in width. Thus 2 PCIe-Slots are needed in a case.
The MSI GeForce GT 1030 2GH LP OC is manufactured in a structure width of 14 nm and has a PCIe 3.0 x 4 lanes interface. The graphics card was released in Q2/2017.
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:
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