Samsung has been rumoured to be developing Exynos 2700 as its next-generation flagship-grade mobile processor and the successor to the Exynos 2600. While there are still ways to go before devices powered by this chipset make it to the market, the rumour mill has already begun churning out details about the potential upgrades. A recent report suggests that Exynos 2700 could bring about notable changes in design and thermal management, potentially resulting in cooler device performance.
Samsung Exynos 2700 Design Changes, Thermal Improvements
According to an Android Authority report, the Exynos 2700 may adopt a new packaging approach where the processor and DRAM are placed side-by-side on the same substrate. The move, if it comes to fruition, would mark a notable shift from previous Exynos designs, where the DRAM has been typically stacked on top of the processor.
The change is reported to result in improved heat dissipation and overall thermal performance. It is said to be a crucial step as next-generation SoCs aim for even higher clock speeds than today’s flagship mobile processors.
Exynos 2700’s purported design could also help on the performance front, improving sustained performance in demanding tasks like graphics-intensive gaming and high-resolution video recording. It may potentially allow the SoC to maintain its peak performance for longer durations while also reducing throttling.
The South Korean tech conglomerate, notably, has already taken steps in this direction. The Exynos 2600 chip, which powers the Galaxy S26 and Galaxy S26+ in select markets, features a new thermal management technology called Heat Path Block (HPB). It is said to optimise the heat-transfer path for more efficient heat dissipation. Consequently, the company claims it to be as effective as a heat sink and lower thermal resistance up to 16 percent.
While the tech giant has indeed made improvements, it hasn’t been as notable. In Gadgets 360’s review of the Galaxy S26 and Galaxy S26+, we noticed heat buildup even during sustained everyday tasks, including taking photos and scrolling through social media. Inefficient thermal dissipation was also noticed during extended gameplay sessions.
Thus, it remains to be seen if the rumoured changes could bring about a significant improvement in thermal management with the Exynos 2700. The SoC, notably, is expected to power the Galaxy S27 series, which could be introduced in 2027.
The SoC, notably, was spotted on Geekbench bearing the model number S5E9975. The listing reveals a 10-core architecture, comprising one Cluster 1 core clocked at 2.30GHz, four Cluster 2 cores clocked at 2.40GHz, one Cluster 3 core operating at 2.78GHz, and four Cluster 4 cores clocked at 2.88GHz. This core configuration is different from the current Exynos 2600 chip, which has a three-cluster 6+3+1 architecture.
