ultimateimp – Samsung’s upcoming Exynos 2500 chipset has officially gained satellite connectivity certification, confirmed by Skylo, a US-based non-terrestrial network (NTN) provider. The Exynos 2500 will support satellite-based emergency messaging for users in areas with no cellular coverage. Skylo’s announcement marks the second confirmed detail about this next-generation chipset. Following earlier reports of its development using Samsung’s advanced 3nm process.
In the press release, Hui Won Je, Vice President of Samsung’s Modem Development Team. Stated that the chipset now includes technology that enables satellite communication. This upgrade allows the device to send emergency messages through satellites when traditional networks fail. Skylo highlighted that this connectivity is based on the 3GPP NTN standard. A global framework designed to extend mobile connectivity using satellite and airborne platforms.
Satellite messaging allows users to communicate with emergency services, friends, or family from remote or disaster-struck locations. While the exact software and interface implementations are unknown. The addition of this feature brings Samsung in line with competitors that have started offering satellite-based features.
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Satellite Messaging Powered by Exynos 5400 5G Modem Integration
The Exynos 2500 SoC integrates the Exynos 5400 5G modem. Which previously powered the Exynos 2400 found in the Galaxy S24 series. With the inclusion of this modem, the Exynos 2500 benefits from proven support for both terrestrial and non-terrestrial networks. Skylo’s certification ensures compatibility with existing satellite communication infrastructure, enabling stable messaging capabilities even in off-grid scenarios.
This strategic partnership with Skylo also suggests that Samsung is prioritizing safety features for future devices. The integration of the Exynos 5400 modem with 3GPP NTN support places Samsung in a competitive position as smartphone manufacturers race to deliver reliable emergency services in future devices. While other OEMs have used proprietary solutions, Samsung’s use of a global standard offers broader compatibility.
Despite the modem being reused from its predecessor, the overall performance of the chipset is expected to improve, owing to architecture and manufacturing advancements. Samsung has not disclosed whether the feature will be software-limited by region or universally available.
Exynos 2500 Built on 3nm Process for Improved Efficiency and Performance
Samsung’s Exynos 2500 uses its in-house 3nm fabrication process, aiming for better power efficiency and enhanced performance. This marks a significant leap from the 4nm process used in the Exynos 2400. Smaller nodes typically reduce heat generation and energy consumption, translating into better battery life and sustained performance for high-end smartphones.
Alongside the new process, the Exynos 2500 features a 10-core CPU with a peak clock speed of 3.3GHz. It also includes the Xclipse 950 GPU, reportedly carrying 16MB of L3 cache. These specifications point to considerable improvements in both multitasking and gaming experiences.
The new architecture is expected to compete directly with upcoming flagship chipsets from Qualcomm and MediaTek. If real-world performance aligns with projections, Samsung could regain credibility in the premium SoC market, which has been dominated by rivals in recent years.
Rumored to Power Samsung Galaxy Z Flip 7 Instead of Galaxy S25 Series
While the Exynos 2500 was initially intended for the Galaxy S25 series. Reports suggest that Samsung has reassigned it to the upcoming Galaxy Z Flip 7. The change follows delays attributed to low manufacturing yields in the early stages of the 3nm process. These setbacks forced Samsung to push back its plans for wide-scale implementation.
Despite the delay, the chipset appears to be back on track, and Samsung is reportedly testing it for integration into its next-generation foldable devices. If confirmed, the Galaxy Z Flip 7 could be the first Samsung smartphone to launch with satellite connectivity via the Exynos 2500.
This shift may allow Samsung to test the new chip in a premium but limited-production line, collecting performance data before scaling it up to more mainstream models like the Galaxy S25. Foldable users could benefit from both enhanced computing power and new safety features, improving the overall value of the Z Flip 7.
Exynos 2500 Pushes Samsung’s Mobile Strategy into Next Generation
The confirmed satellite messaging capability of the Exynos 2500 reflects a broader strategic push by Samsung to enhance mobile safety, connectivity, and performance. With the integration of 3GPP NTN support. Users will gain reliable communication options even during natural disasters or in off-grid locations.
Samsung’s investment in its 3nm foundry process shows the company’s commitment to regaining leadership in chipset innovation. The Exynos 2500’s combination of satellite connectivity, high-performance processing, and energy efficiency could help Samsung stand out in a competitive market.
If successful, this SoC could mark the beginning of a stronger era for the Exynos brand, which has faced criticism in past years. All eyes will be on the Galaxy Z Flip 7 to see how well the Exynos 2500 performs in real-world conditions.
