Samsung Exynos 2700 Chipset Emerges in Early Benchmarks, Focus on Architecture Validation

Samsung's upcoming Exynos 2700 chipset has made an early appearance in benchmark listings, including Geekbench 6. The chipset, featuring a deca-core CPU cluster, is currently displaying initial scores that are not considered representative of its final performance. This early glimpse is linked to an ERD (Engineering Research and Development) device, which is crucially being utilized for scheduler and architecture validation. Industry sources highlight that companies frequently test early SoCs using a blend of current and older generation cores to meet specific testing objectives.

Early Benchmark Insights

The OpenCL score for the Exynos 2700 was noted to be lower than that of the preceding Exynos 2600. However, this outcome is entirely expected given that the chipset is in an extremely nascent stage of its development cycle.

Strategic Development Goals

Samsung's extensive development efforts are geared towards diminishing its reliance on external partners, such as Qualcomm. The company has reportedly achieved a significant milestone, with 50 percent yields for its cutting-edge 2nm GAA process. Furthermore, Samsung is actively promoting its second-generation iteration of this technology, known as SF2P, which is highly likely to be the foundational process for the Exynos 2700.

Samsung's development efforts aim to reduce reliance on partners like Qualcomm. The company has reportedly achieved 50 percent yields for its 2nm GAA process.

Validation and Testing Focus

According to tipster Ice Universe, the current benchmark scores are "meaningless" at this early juncture. The Exynos 2700 is specifically undergoing rigorous scheduler and architecture validation on an ERD device. This critical phase involves deliberately mixing different core generations and roles to thoroughly assess energy-aware scheduling, power migration, and overall system stability, particularly with the upcoming Android 16 operating system.

Anticipated Specifications

The present CPU cluster configuration, noted as '4 + 1 + 4 + 1', and the highest recorded clock speed of 2.88GHz, are subject to change as development progresses. The Exynos 2700, codenamed 'Ulysses', is projected to feature support for advanced LPDDR6 RAM and UFS 5.0 storage.

Looking Ahead: The Exynos 2800

Beyond the Exynos 2700, Samsung is also reportedly developing the Exynos 2800. This future chipset could mark a significant milestone for the company, potentially featuring Samsung's first in-house GPU designed for smartphone SoCs and broader applications.