Select any two GPUs for comparison
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Gaming Performance Comparison

Recommended System Requirements
Game GeForce 610M v4 Radeon R6 7300
Cyberpunk 2077 1865% 1076%
Assassins Creed: Valhalla 1697% 975%
Call of Duty: Black Ops Cold War 1639% 941%
FIFA 21 891% 493%
Microsoft Flight Simulator 1639% 941%
World of Warcraft: Shadowlands 2717% 1586%
Watch Dogs Legion 1796% 1034%
Horizon: Zero Dawn 1761% 1013%
Grand Theft Auto VI 2665% 1555%
Genshin Impact 1865% 1076%

In terms of overall gaming performance, the graphical capabilities of the AMD Radeon R6 7300 are significantly better than the Nvidia GeForce 610M v4.

The GeForce 610M v4 has a 367 MHz higher core clock speed than the Radeon R6 7300, but the Radeon R6 7300 has 16 more Texture Mapping Units than the GeForce 610M v4. As a result, the Radeon R6 7300 exhibits a 5.6 GTexel/s better Texture Fill Rate than the GeForce 610M v4. This still holds weight but shader performance is generally more relevant, particularly since both of these GPUs support at least DirectX 10.

The GeForce 610M v4 has a 367 MHz higher core clock speed than the Radeon R6 7300 and the same number of Render Output Units. This results in the GeForce 610M v4 providing 2.9 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 R6 7300 was released over a year more recently than the GeForce 610M v4, and so the Radeon R6 7300 is likely to have better driver support, meaning it will be more optimized for running the latest games when compared to the GeForce 610M v4.

The GeForce 610M v4 has 1024 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 GeForce 610M v4 has 48 Shader Processing Units and the Radeon R6 7300 has 384. However, the actual shader performance of the GeForce 610M v4 is 86 and the actual shader performance of the Radeon R6 7300 is 133. The Radeon R6 7300 having 47 better shader performance and an altogether better performance when taking into account other relevant data means that the Radeon R6 7300 delivers a slightly smoother and more efficient experience when processing graphical data than the GeForce 610M v4.

The Radeon R6 7300 transistor size technology is 12 nm (nanometers) smaller than the GeForce 610M v4. This means that the Radeon R6 7300 is expected to run slightly cooler and achieve higher clock frequencies than the GeForce 610M v4.

The GeForce 610M v4 requires 20 Watts to run and the Radeon R6 7300 requires 20 Watts. The two GPUs require the same amount of wattage to run. As such, there is no need to worry about which will more significantly affect your yearly electricity bills.

Game FPS Benchmarks On Ultra

GPU Architecture

Core Speed900 MHzvs533 MHz
Boost Clock-vs-
ArchitectureFermi GF119Kaveri
OC Potential Poor vs None
Driver Support Poor vs -
Release Date01 Dec 2011vs30 Jun 2014
GPU LinkGD LinkGD Link
Approved
Comparison

Resolution Performance

1366x768
4.4
green tick vs -
1600x900
2.9
green tick vs -
1920x1080
2
green tick vs -
2560x1440
1.4
green tick vs -
3840x2160 - green tick vs green tick -

GPU Memory

Memory1024 MBvsN/A
Memory Speed900 MHzvs800 MHz
Memory Bus64 Bitvs128 Bit
Memory TypeDDR3vsDDR3
Memory Bandwidth14.4GB/secvs25.6GB/sec
L2 Cache 128 KB vs green tick 4096 KB
Delta Color Compression no vs no
Memory Performance 0% green tick vs green tick 0%
Comparison

GPU Display

Shader Processing Units48vs384
Actual Shader Performance4%vs6%
Technology40nmvs28nm
Texture Mapping Units8vs24
Texture Rate7.2 GTexel/svs12.8 GTexel/s
Render Output Units8vs8
Pixel Rate7.2 GPixel/svs4.3 GPixel/s
Comparison

GPU Outputs

Max Digital Resolution (WxH)2560x1600vs4096x2160
VGA Connections1vs0
DVI Connections1vs0
HDMI Connections1vs0
DisplayPort Connections-vs-
Comparison

GPU Power Requirements

Max Power20 Wattsvs20 Watts
Recommended PSU--

GPU Features

DirectX12.0vs11.2
Shader Model5.0vs5.0
Open GL4.5vs4.3
Open CL-vs-
Notebook GPUyesyes
SLI/Crossfirenovsno
Dedicatedyesvsno
Comparison

GPU Supporting Hardware

Recommended ProcessorIntel Core i3-2310M 2.1GHzvsAMD APU A10-7300 Quad-Core
Recommended RAM4 GBvs4 GB
Maximum Recommended Gaming Resolution1366x768vs1366x768

Gaming Performance Value

Performance Value

GPU Mini Review

Mini ReviewOverview
GeForce 610M v4 is a entry-level Mobile Graphics Card based on the second revision of the Fermi Architecture.

Architecture
The Fermi Architecture is manufactured with a 40nm technology and uses a technique known as Hot Clocking: The Shaders are clocked twice as fast as the Central Unit. While this leads to a reasonable performance boost, it causes enormous amounts of energy dissipation, leading, ultimately, to a significantly higher operating temperature.
Fermi is also the first GPU architecture with fully cached memory access which increases memory performance.

GPU
It equips a GPU Codenamed GF119 which has 1 Stream Multiprocessors activated and thus offers 48 Shader Processing Units, 8 TMUs and 4 ROPs. The Central Unit is clocked at 900MHz.

Memory
The GPU accesses a 1GB frame buffer of DDR3, through a 64-bit memory interface. The size of the frame buffer is exaggerated and no way benefits the GPU. The Memory Clock Operates at 900MHz.

Features
DirectX 11.0 Support (11.0 Hardware Default) and support for Optimus, 3D Vision Surround, PhysX, Realtime Raytracing and other technologies

Power Consumption
With a rated board TDP of 20W, it is suited for small laptops.

Performance
Of all the GeForce 610M variants, this one is the fastest but also the one that consumes more energy and heats more, as it is has the highest clock frequencies.
Gaming benchmarks indicate its performance is on average with the older GeForce GT 520MX.

System Suggestions
We recommend a modest processor (Intel Core i3 Mobile) and 4GB of RAM for a system with GeForce 610M v4.
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
N/A
N/A
GPU Variants
-
-