Snapdragon 8 Gen 3 vs Exynos 2400: A Detailed Comparison

10-Core Exynos 2400 of Samsung competes with the Snapdragon 8 Gen in various astonishing features. Let’s briefly analyze and compare the performance of both powerful chipsets.

The recent launch of the Qualcomm Snapdragon 8 Gen 3, has become a talkative topic among people. More distinguished features than its previous version of Snapdragon G2 and G1. Featuring mobiles of 2024 supposedly possess this chipset to enhance better performance.

Exynos 2400 are AI Generative chips with 70% faster GPU performance. Succeeded its predecessor Exynos 2200 with the next generation flagship performance. This chipset is expected to be introduced on the Samsung S24.

Snapdragon 8 Gen 3 Vs Exynos 2400

The most expected launch of the Smartphone world is the Samsung Galaxy S24, in 2024; rumors are prevailing that the S24 would possess Snapdragon Chipsets Samsung made a contract with Qualcomm.

Some Chinese news media states that Samsung is going to launch its S24 with its own Processor Exynos 2400. Samsung Galaxy S23, the latest update model, possesses the Snapdragon 8 Gen 2 chipset is remarkable.

AnTuTu Score

The Qualcomm Snapdragon 8 Gen 3 AnTuTu score is 1971126, and the Samsung Exynos 2400 AnTuTu score is 1670126.

SoC Exynos 2400 Snapdragon 8 Gen 3
GPU 590540 813075
CPU 513835 431306
UX 259811 314632
Memory 319762 401988
Total score 1670126 1971126

NPU performance

Both the chipsets are AI-generating and enhance faster response for the Smartphone. NPUs of the Snapdragon 8 Gen 3 provide 98% faster performance than its predecessor. AI-powered Cameras highlight your photographic experience. Exynos 2400 in simple words its NPU performance is greater than its previous version Exynos 2200.

CPU performance

The Snapdragon 8 Gen 3, CPU performance is impressive with a single-core score of 2,234 and a multi-core score of 6,807 points. Both single-core and multi-core performance are surpassed by 8.1% and 4.4%, respectively. For users who need powerful processing capabilities for tasks like multitasking, app launches, and more, the Snapdragon 8 Gen3 is a solid choice.

Even though the Exynos 2400 is slightly behind in CPU performance, it is still a strong competitor. The score is achieved in single mode with a score of 2,067 points and in multi-core mode with a score of 6,520 points. The scores indicate that it is capable of efficient and effective handling for most everyday tasks and gaming.

GPU performance

The Snapdragon 8 Gen3, which has an Adreno 750 GPU, proves that it excels in graphical performance. By a margin of 11%, it outscored the Exynos 2400 during the Vulkan test with an impressive score of 17,174 points. In the OpenCL test, the Adreno GPU is doing admirably, scoring 14,731 points, just 1.3% ahead of the Exynos 2400. According to these results, the Snapdragon 8 Gen3 is a potent competitor for gamers and those who demand high graphics performance.

In the Vulkan and OpenCL tests, the Exynos 2400, with its Xclipse 940 GPU, scored 15,479 and 14,918 points respectively. Even though it is not as fast as the Snapdragon 8 Gen3 in Vulkan, it still performs well in OpenCL. The Exynos 2400 may still be capable of handling demanding tasks for gamers and graphics enthusiasts.

Memory Channels

It is rumored that the memory capacity of the Snapdragon 8 Gen 3 is supposed to have 24 GB and LPDDR5X-9600 memory characteristics. It has a bandwidth of 76.6 GB/s and a 4 Quad memory channel is available.

In terms of Exynos 2400, the memory capacity is lesser than that of Snapdragon 8 Gen 3, the approximate memory capacity would be 12 GB and the memory card is enhanced by LPDDR5X-6000. The bandwidth of this chipset is calculated to be 68.3 GB/s and has 4 Quad memory Channels.

Multimedia Performance with Hardware-Accelerated Codecs

A crucial element in this optimization lies in the integration of hardware-accelerated codecs, a technology that can significantly boost the processing speed of devices while conserving battery life. This is particularly evident in the collaboration between Qualcomm Adreno 750 GPU and Samsung Xclipse 940, where the focus is on video decoding and encoding capabilities.

Qualcomm Adreno 750 GPU: Elevating Multimedia Efficiency

The Qualcomm Adreno 750 GPU plays a crucial role in enhancing the multimedia experience on devices such as notebooks and smartphones. One notable aspect is its support for hardware-accelerated codecs, a feature that proves instrumental in accelerating processor performance. By offloading the decoding and encoding tasks to dedicated hardware, the Adreno 750 contributes to smoother video playback and improved overall efficiency.

Samsung Xclipse 940: A Synergy of Power and Performance

Complementing the Adreno 750, the Samsung Xclipse 940 further amplifies the multimedia capabilities of devices. A standout feature is its support for various codecs, including h265/HEVC (8-bit and 10-bit), h264, VP9, VP8, and AV1. This comprehensive codec support ensures compatibility with a wide range of multimedia content, offering users a seamless and versatile experience.

Decoding and encoding capacities

The collaboration between Adreno 750 and Xclipse 940 manifests in impressive decoding capabilities. Supporting codecs such as h265/HEVC (8-bit and 10-bit), h264, VP9, VP8, and AV1, these GPUs enable devices to efficiently decode high-quality video content. Whether it is the efficiency of h265 or the versatility of AV1, users can enjoy a spectrum of multimedia content with reduced strain on the device processor.

Beyond decoding, the hardware-accelerated codecs facilitate efficient video encoding. With support for h265/HEVC (8-bit and 10-bit), h264, VP9, and VP8, users can seamlessly create and share high-quality multimedia content. This not only caters to the increasing demand for content creation but also ensures that the encoding process is optimized for performance and energy efficiency.

Technical aspects

The Qualcomm Snapdragon 8 Gen 3 and Samsung Exynos 2400 both feature a 4 nm technology and Armv9-A (64 bit) instruction set. However, the Snapdragon boasts a 12.00 MB cache, while the Exynos has 0.00 MB. The chip design for the Snapdragon is chipset-based, while the Exynos chip design is unknown. Snapdragon supports Android and Windows 10/11 (ARM), whereas Exynos is tailored for Android. Both are set to release in Q4/2023 with no specified release prices. Notably, Snapdragon incorporates AES-NI and offers virtualization, features absent in the Samsung Exynos 2400.


Bottom Up

However, the Snapdragon stands out with its substantial 12.00 MB cache, chipset-based design, AES-NI support, and virtualization capabilities. It also supports both Android and Windows 10/11 (ARM). On the other hand, the Exynos 2400 lacks information on its cache size, the chip design is unknown specifically, and it is tailored for Android. The choice between them would depend on specific requirements, with the Snapdragon offering notable features for diverse operating systems and advanced functionalities.