Samsung is developing a new flagship chipset called Exynos 2400 that features AMD’s RDNA2-based graphics unit

Samsung has always been a pioneer in technological advancements, especially in the mobile phone industry. It is no secret that the company is working on its next flagship chipset, the Exynos 2400. This new processor is expected to be a significant improvement over its predecessor, the Exynos 2200, and is rumored to be built with AMD’s RDNA2-based graphics unit, marking the first time an AMD graphics unit is used in a Samsung chipset.

The incorporation of this new graphics unit with 6WGP has many enthusiasts and critics alike curious about what Samsung and AMD have in store for the mobile industry. Here’s what we know so far about the Exynos 2400 and the importance of its RDNA2-based graphics unit.

The RDNA2-based graphics unit with 6 WGP

The Exynos 2400 will be built with the latest RDNA2-based graphics unit from AMD, incorporating 6WGP instead of the 3CU present in the previous Exynos 2200. WGP stands for “workgroup processor,” which is a part of the RDNA architecture developed by AMD. The seemingly overwhelming inclusion of WGP in the Exynos 2400 suggests that Samsung is trying to bridge the gap between mid-range and high-end mobile processing.

It is exciting news that Samsung has brought AMD on board to help develop its next chipset. The RDNA2 architecture powering the graphics unit will allow for higher power efficiency, better 3D graphics, and smoother gameplay. AMD’s RDNA2 architecture has already proven its worth in gaming PCs and gaming consoles like Sony’s PlayStation 5 and Microsoft’s Xbox Series X. It is safe to assume that the Exynos 2400 will bring enhanced gaming capabilities to the mobile industry, taking them to the next level.

Partnership with AMD and game developers

Samsung’s partnership with AMD for Exynos 2400 extends beyond the hardware. The two have brought game developers on board to implement ray tracing technology in their latest chips. Ray tracing is an advanced technique used in gaming that simulates the behavior of light in the real world, creating stunning visuals with realistic lighting effects in games. It is a feature that is usually limited to high-end desktop and console gaming, so bringing it to mobile would be a significant breakthrough.

Limitations of the Exynos 2200-powered smartphones

As exciting as these new features and processor improvements sound, not all Samsung smartphones will be able to utilize all of these new features. Some reports suggest that Exynos 2200-powered smartphones may not be able to run the highest graphics settings of certain games, indicating hardware limitations.

However, with the launch of the Exynos 2400, users are anticipating experiencing the full capability of their devices, and they would expect to see no limitations with high-end graphics quality in mobile games.

Composition of Exynos 2400

The Exynos 2400 will have a 10-core CPU composed of one prime Cortex-X4 core for performance, two Cortex-A720 units at a higher frequency, three more Cortex-A720 cores clocked lower, and four power-saving Cortex-A520 cores for minimum power consumption. One thing to note is that the composition of the Exynos 2400 is similar to the Exynos 2200, but it’s the inclusion of AMD’s RDNA2-based graphics unit that will make all the difference.

Galaxy S24 series

Samsung typically implements its new flagship chipsets in its flagship phones. Therefore, it’s likely that the Exynos 2400 will power the Galaxy S24 series, which is expected to arrive in early 2022. However, Samsung often uses Qualcomm’s Snapdragon processors for its flagship smartphones in some regions, such as the US, which means that some S24 models may ship with the Snapdragon 898.

Samsung’s Exynos 2400 is shaping up to be a powerful chipset with a top-of-the-line graphics unit, promising an enhanced gaming experience for users. Incorporating AMD’s cutting-edge RDNA2-based graphics unit with 6WGP will enable smoother performance, better power efficiency, and visuals like never before in a mobile device.

The Exynos 2400 is not just about raw processing power, but also about how it approaches mobile gaming as a whole. The inclusion of ray-tracing technology will undoubtedly shake things up, and Samsung’s partnership with game developers ensures that the Exynos 2400 will allow for a better degree of mobile gaming. The full extent of the Exynos 2400’s capabilities remains to be seen, but it’s a safe bet that it will provide an incredible experience for mobile users.

Explore more

Can a Unified ERP System Future-Proof Levi Strauss?

Establishing a seamless digital environment for a brand that spans over a hundred nations is a monumental undertaking that requires more than just standard software updates. Currently, Levi Strauss & Co. is navigating a profound transformation of its digital infrastructure, aiming for a mid-2027 completion of a fully integrated global enterprise resource planning system. This strategic overhaul is not merely

Ethereum Faces $10 Billion Liquidation Risk Near $2,000

The current trajectory of Ethereum suggests a massive collision between aggressive retail speculation and sophisticated institutional sell-side pressure as the asset hovers near the $2,000 psychological threshold. This specific price point has historically served as a pivot for broader market sentiment, influencing the behavior of various decentralized finance protocols and secondary layer-two scaling solutions. Currently, the market exhibits a state

ClickLock Malware Coerces macOS Users to Surrender Passwords

Traditional macOS security architectures have long been celebrated for their robust sandboxing and gated execution, yet a new strain of malware is proving that the human element remains the most vulnerable entry point in any digital ecosystem. This threat, known as ClickLock, has emerged as a particularly aggressive evolution in the macOS threat landscape by prioritizing psychological pressure and social

Stalled Windows 11 Migration Poses Growing Security Risks

The global landscape of enterprise computing is currently grappling with a persistent digital divide as a significant segment of users continues to rely on Windows 10 despite the availability of more secure alternatives. The current ecosystem of digital infrastructure remains tethered to legacy architecture, with recent telemetry indicating that approximately one in six workstations worldwide continues to operate on Windows

How Is OpenAI Redefining AI With Precision Engineering?

The shift from experimental conversationalists to precise engineering tools has fundamentally altered the landscape of digital productivity and high-performance computing in 2026. This transition is marked by a move away from the early excitement surrounding generative models toward a rigorous framework centered on deep optimization and granular control. OpenAI has spearheaded this movement with the introduction of the GPT-5.6 Sol