Here is a list of AMD CPUs with integrated graphics units (APUs), sorted by their performance (based on GPU performance):The Ryzen 7 and Ryzen 9 models offer the best performance in terms of integrated graphics, thanks to their more powerful Vega GPUs integrated into the chips. If GPU performance is an important factor, go for the Ryzen 5, 7 or 9 models, as they deliver significantly better results with integrated graphics. 1. AMD Ryzen 9 with Radeon Vega graphics
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| (Image-1) List of AMD integrated GPUs in the CPU by performance!? |
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1.) AMD Ryzen 9 with Radeon Vega graphics
- Example models:
- Ryzen 9 7900U
- Ryzen 9 7940HS
- Performance: These offer very good GPU performance and are suitable for more demanding applications such as gaming and creative work.
2.) AMD Ryzen 7 with Radeon Vega graphics
- Sample models:
- Ryzen 7 7730U
- Ryzen 7 7840U
- Performance: Very good performance for gaming and creative applications, with a strong integrated graphics solution.
3.) AMD Ryzen 5 with Radeon Vega graphics
- Sample models:
- Ryzen 5 7600U
- Ryzen 5 7640U
- Performance: Good performance for general use and mid-range gaming, but not as powerful as the Ryzen 7 or 9 models.
4.) AMD Ryzen 3 with Radeon Vega graphics
- Sample models:
- Ryzen 3 7300U
- Ryzen 3 7400U
- Performance: Cheaper, but still offers sufficient performance for basic applications and less demanding games.
5.) AMD Athlon with Radeon R4 or R3 graphics
- Example models:
- Athlon 3000G
- Performance: More suitable for simple tasks, but the integrated graphics are weaker than the Ryzen processors.
6.) The future of AMD in CPU GPUs and continuous improvement:
In the future, we can expect AMD to continually improve the integrated graphics units (APUs) in their CPUs based on current trends and developments in technology. Here are some expectations for the coming years:
1. Using RDNA architecture for integrated GPUs
- Expectation: AMD may use the RDNA architecture (also used in the latest Radeon graphics cards) for their integrated GPUs in the future. This would result in a significant performance increase, especially in gaming and graphics-intensive applications.
- Outlook: A possible implementation of RDNA in future Ryzen APUs could result in even the cheaper models (such as Ryzen 5 and Ryzen 3) offering significantly improved graphics performance.
2. More processor cores and higher clock speeds
- Expectation: With the advancement of 7nm and 5nm manufacturing technologies (which we are already seeing from AMD through the Zen 3 and Zen 4 architectures), future APUs will offer more CPU cores and higher clock speeds, resulting in improved overall computing performance.
- Outlook: Combined with improved integrated graphics, this will make APUs suitable for an even wider range of applications, from gaming to creative and professional tasks.
3. Improved energy management technologies
- Expectation: AMD will continue to focus on more efficient power management to optimize performance while minimizing thermal stress. This is especially important for mobile devices and laptops to ensure longer battery life.
- Outlook: Better power efficiency could also lead to higher GPU performance while using less power, which is particularly beneficial in portable devices.
4. Support for higher-quality gaming experiences
- Expectation: Over the next few years, AMD's integrated GPUs are expected to support more and more high-end gaming features, such as ray tracing and FSR (FidelityFX Super Resolution), which improve graphics display and image quality.
- Outlook: Future APUs may offer the ability to play more demanding games at higher resolutions or with better image quality without the need for an additional dedicated GPU.
5. Increased focus on AI and machine learning
- Expectation: AMD could rely more on AI and machine learning to optimize the performance of the integrated GPU. This could be done, for example, through software and hardware optimizations such as dedicated AI accelerators in the APUs.
- Outlook: This could be particularly useful in applications such as video editing, image processing and data analysis, where GPU-powered AI and ML processing tasks are becoming more common.
6. Extended support for external GPUs
- Expectation: AMD could also improve its APUs to use external GPUs to enable custom solutions. The integration of technologies such as Thunderbolt and PCIe 4.0/5.0 could make this possible.
- Outlook: Combined with powerful external GPUs, future AMD APUs could serve as a flexible system for different applications from light gaming to professional design work.
7. Competition with Intel and ARM
- Expectation: AMD will continue to invest in competing with Intel and ARM and try to establish their APUs as the preferred solution in various areas such as laptops, desktops and even servers.
- Outlook: If AMD successfully develops their APU strategy, they could also become more competitive in markets such as the embedded sector and mobile devices.
Conclusion:
Future AMD APUs with integrated graphics are expected to be more powerful, more energy efficient, and more versatile. The integration of advanced architectures such as RDNA and AI technologies could take graphical performance and user experience to new levels while improving efficiency and flexibility. AMD is also expected to continue to play a major role in developing CPUs with powerful integrated GPUs suitable for a wide range of applications, from gaming to professional and creative tasks.
FAQ 3: Updated on: 5 March 2025 09:12
