Samsung has announced officially the Exynos 2600 SoC. This smartphone chip is especially notable for one particular feature: it is the first to be manufactured with 2 nm photolithography. The question, of course, is whether that will change things much.
Why is it important. Node jumps in photolithographic processes are especially striking because they usually lead to significant improvements in performance and efficiency. By reducing the scale it is possible to fit more transistors in the same space, which in essence ends up giving us “more for the same.” The Samsung Exynos 2600 goes precisely in that direction.
The data. Samsung’s new System-on-a-Chip (SoC) boasts above all of that new 2nm GAA (Gate-All-Around) manufacturing process, and is composed of the following elements:
- CPU: ten cores in total. The configuration features one 3.8 GHz C1-Ultra core, three 3.25 GHz C1-Pro cores, and six 2.75 GHz C1-Pro cores.
- GPU: Samsung Xclipse 960
- NPU: 32K MAC
What can we expect. According to Samsung, this new CPU increases performance by 39% compared to the Exynos 2500. The Xclipse 960 GPU manages to double the computing capacity of its predecessor and 50% more performance in ray-tracing. And finally, the NPU allows 113% more performance than its predecessor, which will allow you to enjoy AI functions in a theoretically notable way.
320 MP sensors. Another of the differentiating elements of this SoC is the support for sensors of up to 320 MP, in addition to offering zero latency for captures of up to 108 MP. Or what is the same: you take snapshots thanks to that processing capacity. It is also compatible with 8K recording at 30 fps and 4K at 120 fps with HDR.
Less throttling. One of the most important novelties of these chips is Heath Path Block technology (HPB). This system improves thermal conductivity using new materials, which reduces thermal resistance and helps the chip maintain high performance for longer. It will therefore be more difficult for us to notice drops in chip performance due to potential overheating, for example in gaming sessions with the mobile phone that integrates this SoC. If that promise is fulfilled, we would be facing a potential solution to a problem that has traditionally been criticized in Exynos chips.
Will we notice anything? The truth is that current SoCs are already true computing beasts in all sections and usually give so much room for maneuver that it is difficult to notice differences between them in our daily lives. That perception is misleading, because these hardware advances allow us to take advantage of that performance and efficiency “without realizing it.”
Increasingly better photos captured and processed instantly, absolute fluidity in the interface even with high resolutions and refresh rates, or of course gaming in increasingly demanding games are scenarios in which these chips do their best. remains to be seen if Google finally goes ahead with its “PC mode”an area in which having powerful chips like this can offer a user experience much closer to the usual laptop/PC.
Competition for Qualcomm. Theoretically, the Samsung chip will be able to compete head to head with the Qualcomm Snapdragon 8 Elite Gen 5. Some previous leaks That’s what they pointed out, but without a doubt we could be facing a great option for a market that will certainly benefit from that competition.
Prepared for the Galaxy S26. Samsung is expected to use the new Exynos 2600 in its Galaxy S26 series, although it is not clear at the moment whether that decision will be global and will depend on the region. A global commitment would allow, for example, to integrate this chip on the Galaxy S26 and use Qualcomm chips only in the S26 Ultra, but everything remains to be confirmed. Of course, that type of strategy would be the definitive litmus test for Samsung Foundry, which in recent years has clearly been one step behind in performance and efficiency compared to its competitors.
In Xataka | The Samsung Galaxy S26 will be much more than a phone for Samsung: the future of Exynos depends on it
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