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Estimated Price:
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Gaming Performance Comparison

Recommended System Requirements
Game GeForce RTX 3080 MSI Ventus 3X 10GB GeForce GT 2030
Cyberpunk 2077 55% 169%
Assassins Creed: Valhalla 59% 146%
Call of Duty: Black Ops Cold War 60% 138%
Watch Dogs Legion 56% 160%
FIFA 21 77% 36%
Microsoft Flight Simulator 60% 138%
Godfall 27% 337%
Grand Theft Auto VI 36% 279%
World of Warcraft: Shadowlands 35% 286%
Genshin Impact 55% 169%

In terms of overall gaming performance, the graphical capabilities of the Nvidia GeForce RTX 3080 MSI Ventus 3X 10GB are massively better than the Nvidia GeForce GT 2030.

The RTX 3080 has a 188 MHz higher core clock speed and 180 more Texture Mapping Units than the GeForce GT 2030. This results in the RTX 3080 providing 265.2 GTexel/s better texturing performance. This still holds weight but shader performance is generally more relevant, particularly since both of these GPUs support at least DirectX 10.

The RTX 3080 has a 188 MHz higher core clock speed and 48 more Render Output Units than the GeForce GT 2030. This results in the RTX 3080 providing 72.2 GPixel/s better pixeling performance. However, both GPUs support DirectX 9 or above, and pixeling performance is only really relevant when comparing older cards.

The RTX 3080 was released over three years more recently than the GeForce GT 2030, and so the RTX 3080 is likely to have far better driver support, meaning it will be much more optimized and ultimately superior to the GeForce GT 2030 when running the latest games.

The RTX 3080 has 8192 MB more video memory than the GeForce GT 2030, so is likely to be much better at displaying game textures at higher resolutions. This is supported by the fact that the RTX 3080 also has superior memory performance overall.

The GeForce GT 2030 has 32 GB/sec greater memory bandwidth than the RTX 3080, which means that the memory performance of the GeForce GT 2030 is noticeably better than the RTX 3080.

The GeForce RTX 3080 MSI Ventus 3X 10GB has 8704 Shader Processing Units and the GeForce GT 2030 has 384. However, the actual shader performance of the RTX 3080 is 14884 and the actual shader performance of the GeForce GT 2030 is 578. The RTX 3080 having 14306 better shader performance and an altogether better performance when taking into account other relevant data means that the RTX 3080 delivers a massively smoother and more efficient experience when processing graphical data than the GeForce GT 2030.

The RTX 3080 transistor size technology is 4 nm (nanometers) smaller than the GeForce GT 2030. This means that the RTX 3080 is expected to run very slightly cooler and achieve higher clock frequencies than the GeForce GT 2030.

The GeForce RTX 3080 MSI Ventus 3X 10GB requires 320 Watts to run and the GeForce GT 2030 requires 30 Watts. We would recommend a PSU with at least 750 Watts for the RTX 3080 and a PSU with at least 300 Watts for the GeForce GT 2030. The RTX 3080 requires 290 Watts more than the GeForce GT 2030 to run. The difference is significant enough that the RTX 3080 may have an adverse affect on your yearly electricity bills in comparison to the GeForce GT 2030.

Game FPS Benchmarks On Ultra

GPU Architecture

Core Speed1440 MHzvs1252 MHz
Boost Clock1710 MHzvs1506 MHz
ArchitectureAmpere GA102Turing
OC Potential - vs -
Driver Support - vs Great
Release Date17 Sep 2020vs30 Nov -0001
GPU LinkGD LinkGD Link
Approved
Comparison

Resolution Performance

1366x768
10
green tick vs green tick
10
1600x900
10
green tick vs
8.3
1920x1080
10
green tick vs
6.4
2560x1440
10
green tick vs
4.7
3840x2160
8.9
green tick vs
3.1

GPU Memory

Memory10240 MBvs2048 MB
Memory Speed1750 MHzvs1000 MHz
Memory Bus320 Bitvs64 Bit
Memory Type-vsGDDR5
Memory Bandwidth-vs32GB/sec
L2 Cache 0 KB green tick vs green tick 0 KB
Delta Color Compression no vs no
Memory Performance 0% green tick vs green tick 0%
Comparison

GPU Display

Shader Processing Units8704vs384
Actual Shader Performance100%vs28%
Technology8nmvs12nm
Texture Mapping Units212vs32
Texture Rate305.3 GTexel/svs40.1 GTexel/s
Render Output Units64vs16
Pixel Rate92.2 GPixel/svs20 GPixel/s
Comparison

GPU Outputs

Max Digital Resolution (WxH)7680x4320vs3840x2160
VGA Connections0vs0
DVI Connections0vs1
HDMI Connections1vs1
DisplayPort Connections3vs0
Comparison

GPU Power Requirements

Max Power320 Wattsvs30 Watts
Recommended PSU750 Wattsvs300 Watts

GPU Features

DirectX12.1vs12.0
Shader Model6.1vs5.0
Open GL4.6vs4.6
Open CL-vs-
Notebook GPUnono
SLI/Crossfirenovsno
Dedicatedyesvsyes
Comparison

GPU Supporting Hardware

Recommended Processor--
Recommended RAM16 GBvs8 GB
Maximum Recommended Gaming Resolution3840x2160vs1920x1080

Gaming Performance Value

Performance Value

GPU Mini Review

Mini ReviewOverview The GeForce RTX 3080 MSI Ventus 3X 10GB is a High-End Graphics Card based on the Ampere Architecture. This card has also been rumoured to be called the GeForce GTX 2180. Architecture It equips an Ampere GPU Codenamed GA102 which is a First Gen Ampere GPU and has 20 SM activated, offering 3386 Shader Processing Units, 212 TMUs and 64 ROPs. The Ampere architecture provides the world's best consumer support for real-time ray-tracing technology, or RTX. It also has 544 Tensor Cores for AI purposes. GPU Name: GA102 GPU The central unit runs at 1440MHz and goes up to 1710MHz in Turbo Mode. Memory The GPU accesses a 10GB frame buffer of Third Gen GDDR6X through a 320-bit memory interface, while the Memory Clock Operates at 1750MHz, or 14GHz effective. Total memory bandwidth is 448 Gb/s. Power Consumption With a rated board TDP of 320W, it requires at least a 750W PSU with available two 8-pin power connector. Performance Predicted performance of the GeForce RTX 3080 MSI Ventus 3X 10GB suggests it will be faster than the Geforce RTX 2080 Ti, making it a suitable graphics card for 4K gaming. System Suggestions The GeForce RTX 3080 MSI Ventus 3X 10GB is best suited for resolutions up to and including 3840x2160. We recommend a High-End Processor and 16GB of RAM for Optimal Performance.Overview GeForce GT 2030 2GB is a rumoured low-end 20 series Nvidia graphics card based on the first revision of the Turing GPU architecture. Architecture The first variant of the Turing architecture succeeds the Pascal architecture. Manufactured with a 12nm technology, it has a large L2 Cache, which allows NVIDIA to produce graphics cards with relatively small memory data transfer rates, without causing too much impact on the overall performance. Furthermore, the Shaders have been redesigned and are both more powerful and energy efficient. GPU The GT 2030 equips a GPU codenamed GT108 and offers [TBA] Shader Processing Units, [TBA] TMUs and [TBA] ROPs, on a 64-bit memory interface. The central unit runs at 1252MHz and goes up to 1506MHz, in Turbo Mode, while the memory clock operates at 1250MHz. Features DirectX 12.0 Support (11.0 Hardware Default) and support for GameStream, G-SYNC, GPU Boost 2.0, GeForce Experience, PhysX and other technologies. Power Consumption With a rated board TDP of 30W, it requires at least a 300W PSU and relies entirely on the PCI Slot for power. Release Price The GeForce GT 2030 is a low-end graphics card that focuses on games requiring minimal graphics performance. It may run some AAA games in 2018 on Low. Consequently, the GT 2030 will come with a budget price tag and will be available from as little as $79.99.
Recommended CPU
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