Quick Answer
The Samsung Exynos 2400 is a significant generational upgrade over the Exynos 2200. It offers a more advanced CPU configuration with a dedicated core for AI tasks, a substantially improved GPU, and a more modern manufacturing process. These changes generally translate to better overall performance, efficiency, and enhanced on-device AI capabilities.
Samsung Exynos 2400 vs Samsung Exynos 2200: Full Comparison
Introduction
Comparing successive generations of a processor series provides valuable insight into the pace of technological advancement. The Samsung Exynos 2400 and Exynos 2200 represent two key milestones in Samsung’s mobile chipset development. This comparison will analyze their architectures, performance profiles, and feature sets to highlight the evolution in areas like CPU design, graphics, AI processing, and manufacturing. Understanding these differences helps clarify the typical performance leap one can expect between these two flagship-tier mobile platforms.
CPU Architecture and Performance
The core design philosophy shifted notably between these two chipsets, impacting both raw power and efficiency.
- Exynos 2200: Features an octa-core CPU with a tri-cluster design: 1 high-performance Cortex-X2 core, 3 balanced Cortex-A710 cores, and 4 efficiency Cortex-A510 cores. It was built on a 4nm process.
- Exynos 2400: Employs a deca-core CPU with a more complex quad-cluster design. It includes 1 high-performance Cortex-X4 core, 2 Cortex-A720 performance cores, 3 Cortex-A720 efficiency cores, and 4 Cortex-A520 efficiency cores. A key addition is a dedicated AI processing core within this setup. It is manufactured on a more advanced 4nm LPP+ process.
The Exynos 2400’s newer CPU cores and additional cores, particularly the dedicated AI core, typically provide a substantial boost in multi-threaded workloads and AI tasks while aiming for better power management.
GPU and Graphics
This area marks one of the most significant upgrades from the Exynos 2200 to the 2400.
- Exynos 2200: Integrated the Samsung Xclipse 920 GPU, which was based on AMD’s RDNA 2 architecture. It featured hardware-accelerated ray tracing.
- Exynos 2400: Integrates the Samsung Xclipse 940 GPU, a more powerful iteration of the AMD RDNA-based design. It boasts a higher number of compute units and offers improved ray tracing performance and overall graphical throughput.
The Xclipse 940 GPU in the Exynos 2400 generally delivers a notable improvement in gaming performance and graphical fidelity compared to its predecessor.
AI and NPU Performance
On-device AI processing capabilities saw a major focus in the newer chipset.
- Exynos 2200: Included a dual-core NPU (Neural Processing Unit) capable of certain AI acceleration tasks.
- Exynos 2400: Features a significantly more powerful NPU. Samsung claims it offers a large performance increase, capable of running large language models (LLMs) directly on the device. This is further supported by the aforementioned dedicated AI core in the CPU.
The Exynos 2400 is designed for a new generation of AI-powered features, from enhanced photography to real-time language translation, operating with greater speed and efficiency than the Exynos 2200.
Connectivity and Modem
Both chipsets offer flagship-level connectivity, with the newer model incorporating more recent standards.
- Exynos 2200: Integrated a 5G modem supporting both sub-6GHz and mmWave frequencies, along with Wi-Fi 6E and Bluetooth 5.2.
- Exynos 2400: Integrates an Exynos 5300 5G modem, which typically offers improved power efficiency. It also supports the newer Wi-Fi 7 standard and Bluetooth 5.3, providing potential gains in wireless speed and stability.
Comparison Table: Exynos 2400 vs Exynos 2200
| Feature | Samsung Exynos 2200 | Samsung Exynos 2400 |
|---|---|---|
| Manufacturing Process | 4nm (Samsung Foundry) | 4nm LPP+ (Samsung Foundry) |
| CPU Configuration | Octa-core (1x Cortex-X2 + 3x Cortex-A710 + 4x Cortex-A510) | Deca-core (1x Cortex-X4 + 2x Cortex-A720 + 3x Cortex-A720 + 4x Cortex-A520) |
| Dedicated AI Core | No | Yes |
| GPU | Samsung Xclipse 920 (AMD RDNA 2) | Samsung Xclipse 940 (AMD RDNA 3-based) |
| NPU (AI Processing) | Dual-core NPU | Advanced NPU, significantly higher performance |
| 5G Modem | Integrated 5G (sub-6GHz & mmWave) | Exynos 5300 Integrated 5G (sub-6GHz & mmWave) |
| Wi-Fi / Bluetooth | Wi-Fi 6E / Bluetooth 5.2 | Wi-Fi 7 / Bluetooth 5.3 |
| Camera Support | Up to 200MP single, 8K @ 30fps video | Up to 320MP single, 8K @ 60fps video |
| Display Support | Up to 4K @ 120Hz / QHD+ @ 144Hz | Up to 4K @ 120Hz / QHD+ @ 144Hz |
| Memory Support | LPDDR5 RAM, UFS 3.1 Storage | LPDDR5X RAM, UFS 4.0 Storage |
Frequently Asked Questions (FAQ)
What is the main difference between the Exynos 2400 and Exynos 2200?
The main differences lie in the CPU and GPU architectures. The Exynos 2400 uses a newer 10-core CPU with a dedicated AI core and a more powerful Xclipse 940 GPU, while the Exynos 2200 uses an 8-core CPU and the Xclipse 920 GPU. The Exynos 2400 also has a significantly more advanced NPU.
Which chipset has better gaming performance?
The Samsung Exynos 2400 generally offers superior gaming performance due to its more advanced Xclipse 940 GPU, which provides higher graphical throughput and improved ray tracing capabilities compared to the Xclipse 920 in the Exynos 2200.
Is the Exynos 2400 more power-efficient than the Exynos 2200?
Typically, yes. The Exynos 2400 is built on a more refined 4nm LPP+ process and features a CPU with newer, more efficient core designs. This, combined with a more modern integrated modem, generally contributes to better power efficiency under similar workloads.
Which processor is better for AI tasks?
The Exynos 2400 is designed with a much stronger focus on AI. Its advanced NPU and the inclusion of a dedicated AI core in the CPU allow it to run complex AI models, like large language models (LLMs), on-device far more efficiently than the Exynos 2200.
Final Thoughts
The comparison between the Samsung Exynos 2400 and Exynos 2200 illustrates a clear generational leap. The Exynos 2400 builds upon its predecessor’s foundation with a more complex and powerful CPU design, a substantially upgraded GPU, and a transformative focus on on-device AI processing. While the Exynos 2200 was a capable flagship chipset of its time, the Exynos 2400 addresses key areas like multi-core performance, graphical power, and AI efficiency with its newer technologies. The choice between devices featuring these chipsets will depend on individual priorities, but the technological advancements in the Exynos 2400 are significant across the board.