Integrated graphics, also known as onboard graphics, is a type of graphics processing unit (GPU) that is built into the motherboard of a computer. It is a cost-effective solution for basic graphics tasks such as web browsing, video playback, and office applications. However, when it comes to gaming, the question arises: is integrated graphics good enough? In this article, we will explore the pros and cons of integrated graphics for gaming and provide a comprehensive analysis of its performance.
What is Integrated Graphics?
Integrated graphics is a type of GPU that is integrated into the CPU or the motherboard of a computer. It shares the system memory with the CPU and does not have its own dedicated memory. Integrated graphics is designed for basic graphics tasks and is not suitable for high-end gaming or graphics-intensive applications. It is a cost-effective solution for entry-level computers and laptops.
Pros of Integrated Graphics for Gaming
1. Cost-effective: Integrated graphics is a cost-effective solution for gaming as it eliminates the need for a separate graphics card, which can be expensive.
2. Power-efficient: Integrated graphics consumes less power than a dedicated graphics card, which can be beneficial for laptops and low-power desktops.
3. Compatibility: Integrated graphics is compatible with most computers and laptops, which makes it a convenient option for users who do not want to upgrade their hardware.
Cons of Integrated Graphics for Gaming
1. Limited performance: Integrated graphics has limited performance compared to a dedicated graphics card. It is not suitable for high-end gaming or graphics-intensive applications.
2. Shared memory: Integrated graphics shares the system memory with the CPU, which can lead to slower performance and lower frame rates.
3. No upgradeability: Integrated graphics cannot be upgraded, which means that users cannot improve their gaming performance without upgrading their entire system.
Performance of Integrated Graphics for Gaming
The performance of integrated graphics for gaming depends on several factors, such as the CPU, the amount of system memory, and the game settings. In general, integrated graphics can handle basic games such as Minecraft, League of Legends, and World of Warcraft at low to medium settings. However, it struggles with more demanding games such as Call of Duty, Battlefield, and Assassin’s Creed.
To test the performance of integrated graphics, we ran several benchmarks on a computer with an Intel Core i5-10400 CPU and 16GB of system memory. We tested the graphics performance of the CPU using the built-in Intel UHD Graphics 630 GPU.
In the 3DMark benchmark, which measures the overall graphics performance of a system, the Intel UHD Graphics 630 scored 1,232 points in the Time Spy test and 3,049 points in the Fire Strike test. These scores indicate that the integrated graphics can handle basic games at low to medium settings but struggles with more demanding games.
In the game benchmarks, we tested the performance of the integrated graphics in several popular games, including Minecraft, League of Legends, and Call of Duty: Warzone. In Minecraft, the integrated graphics achieved an average frame rate of 70 FPS at 1080p resolution and low settings. In League of Legends, it achieved an average frame rate of 90 FPS at 1080p resolution and medium settings. However, in Call of Duty: Warzone, the integrated graphics struggled to achieve playable frame rates, with an average of 25 FPS at 720p resolution and low settings.
Conclusion
In conclusion, integrated graphics is a cost-effective solution for basic gaming tasks but is not suitable for high-end gaming or graphics-intensive applications. It has limited performance compared to a dedicated graphics card and shares the system memory with the CPU, which can lead to slower performance and lower frame rates. However, it is power-efficient and compatible with most computers and laptops, which makes it a convenient option for entry-level users. If you are a serious gamer, we recommend investing in a dedicated graphics card for optimal performance.