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Gaming Performance Comparison

Recommended System Requirements
Game Radeon R8 M365DX Radeon R6 7300
Grand Theft Auto VI 1123% 1555%
New World 669% 941%
The Ascent 1419% 1955%
Resident Evil 8 1031% 1430%
Battlefield 2042 1031% 1430%
Far Cry 6 1158% 1601%
FIFA 22 338% 493%
Halo Infinite 1031% 1430%
Forza Horizon 5 585% 826%
Days Gone 723% 1013%

In terms of overall gaming performance, the graphical capabilities of the AMD Radeon R8 M365DX are significantly better than the AMD Radeon R6 7300.

The Radeon R8 M365DX has a 187 MHz higher core clock speed and 24 more Texture Mapping Units than the Radeon R6 7300. This results in the Radeon R8 M365DX providing 21.8 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 Radeon R8 M365DX has a 187 MHz higher core clock speed and 8 more Render Output Units than the Radeon R6 7300. This results in the Radeon R8 M365DX providing 7.2 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 Radeon R8 M365DX was released less than a year after the Radeon R6 7300, and so they are likely to have similar driver support for optimizing performance when running the latest games.

The Radeon R8 M365DX has 2048 MB video memory, but the Radeon R6 7300 does not have an entry, so the two GPUs cannot be reliably compared in this area.

The Radeon R8 M365DX has 768 Shader Processing Units and the Radeon R6 7300 has 384. However, the actual shader performance of the Radeon R8 M365DX is 864 and the actual shader performance of the Radeon R6 7300 is 133. The Radeon R8 M365DX having 731 better shader performance and an altogether better performance when taking into account other relevant data means that the Radeon R8 M365DX delivers a significantly smoother and more efficient experience when processing graphical data than the Radeon R6 7300.

The Radeon R8 M365DX requires 85 Watts to run and the Radeon R6 7300 requires 20 Watts. The Radeon R8 M365DX requires 65 Watts more than the Radeon R6 7300 to run. The difference is significant enough that the Radeon R8 M365DX may have an adverse affect on your yearly electricity bills in comparison to the Radeon R6 7300.

Game FPS Benchmarks On Ultra

GPU Architecture

Core Speed720 MHzvs533 MHz
Boost Clock1125 MHzvs-
ArchitectureGCN 1.1Kaveri
OC Potential None vs None
Driver Support - vs -
Release Date03 Jun 2015vs30 Jun 2014
GPU LinkGD LinkGD Link

Resolution Performance

green tick vs -
green tick vs -
green tick vs -
green tick vs -
green tick vs -

GPU Memory

Memory2048 MBvsN/A
Memory Speed1800 MHzvs800 MHz
Memory Bus192 Bitvs128 Bit
Memory TypeDDR3vsDDR3
Memory Bandwidth86.4GB/secvs25.6GB/sec
L2 Cache 0 KB vs green tick 4096 KB
Delta Color Compression no vs no
Memory Performance 0% green tick vs green tick 0%

GPU Display

Shader Processing Units768vs384
Actual Shader Performance42%vs6%
Texture Mapping Units48vs24
Texture Rate34.6 GTexel/svs12.8 GTexel/s
Render Output Units16vs8
Pixel Rate11.5 GPixel/svs4.3 GPixel/s

GPU Outputs

Max Digital Resolution (WxH)4096x2160vs4096x2160
VGA Connections0vs0
DVI Connections0vs0
HDMI Connections0vs0
DisplayPort Connections0vs-

GPU Power Requirements

Max Power85 Wattsvs20 Watts
Recommended PSU--

GPU Features

Shader Model5.0vs5.0
Open GL4.4vs4.3
Open CL-vs-
Notebook GPUyesyes

GPU Supporting Hardware

Recommended ProcessorIntel Core i3-4110M 2.6GHzvsAMD APU A10-7300 Quad-Core
Recommended RAM4 GBvs4 GB
Maximum Recommended Gaming Resolution1366x768vs1366x768

Gaming Performance Value

Performance Value

GPU Mini Review

Mini ReviewRadeon R8 M365DX is a combination of a Dedicated Radeon R7 M360 and an Integrated Radeon R6 Graphics.
Because our system is not ready for these configurations, data is very inaccurate.
Radeon R6 7300 is an integrated Graphics Card in the APU A10-7300.

It is based on the Graphics Core Next Architecture and offers 384 Shader Processing Units, 24 TMUs and 8 ROPs. While the central unit is set at 533MHz, the memory bus-width will depend on whether or not the system's RAM is dual-channeled and the operating memory clock, on its frequency. Thus, it can be either 64-bit or 128-bit and up to 800MHz.
The Graphics Card also shares the processor's L2 Cache of 4MB. Therefore, it reduces the need to resort to its memory bandwidth.

Overall, the Graphics Card's performance depends a lot on the system configuration. Best case scenario, expect performance superior to a dedicated NVIDIA GeForce GT 720M or an AMD Radeon R5 M230.
The card is thus suited for 720p gaming and some modern demanding games can be played at least on medium settings.
Recommended CPU
Possible GPU Upgrades
GPU Variants