Samsung Galaxy S24 Series Latest Exposures
This week has witnessed a flurry of revelations about the highly anticipated Samsung Galaxy S24 series, focusing on an array of enhancements spanning display upgrades, processor specifications, design, and memory configurations. Delving into each report, we uncover a series of captivating insights that promise to redefine the smartphone experience.
Exynos Chipset Strategy
Samsung has once again captivated the tech world with its upcoming Galaxy S24 series, promising significant upgrades in various aspects. A pivotal decision in this year’s lineup revolves around the Exynos chipset. Reports suggest that while the European, South Korean, and certain Asian markets will see the return of Exynos-powered flagship phones, there’s a twist this time.
The Galaxy S24 and S24 Plus will feature the Exynos chipset, while the premium Galaxy S24 Ultra will proudly flaunt the Snapdragon 8 Gen3, regardless of the region. This marks a departure from the previous generation’s strategy where the entire series was equipped with Exynos in certain markets. Notably, the S24 Ultra will exclusively sport the Snapdragon 8 Gen3, meaning there won’t be an S24 Ultra variant powered by the Exynos 2400 chipset.
Exynos 2400 Development
Digging deeper into the Exynos 2400, a recent report reveals that the base CPU specifications have undergone a revision. Initial reports suggested a configuration of four Cortex-A520 cores clocked at 1.8GHz. However, the latest information points to an enhancement in clock speed, now projected at 1.95GHz. This improvement could contribute to enhanced performance and responsiveness, making the Galaxy S24 series a powerhouse in its segment.
old | new |
1 Cortex-X4 @ 3.1GHz core 2 Cortex-A720 @ 2.9GHz cores 3 Cortex-A720 @ 2.6GHz cores 4 Cortex-A520 @ 1.8GHz cores | 1 Cortex-X4 @ 3.16GHz core 2 Cortex-A720 @ 2.9GHz cores 3 Cortex-A720 @ 2.6GHz cores 4 Cortex-A520 @ 1.95GHz cores |
Another groundbreaking innovation seems to be in the pipeline for the Galaxy S24 series’ in-house Exynos processor. Reports indicate that Samsung plans to adopt Fan-out Wafer-Level Packaging (FO-WLP), marking the first application of this technique for a smartphone Exynos processor. This move is anticipated to streamline production and potentially improve thermal efficiency. Mass production of the Exynos processor with FO-WLP is expected to commence in the fourth quarter of this year, with continued application in future Galaxy S series devices.
Ample Storage and Display Upgrades
As for storage, the spotlight is on the Galaxy S24 Ultra, which could feature an astounding 2TB of storage capacity. The running memory configuration, however, remains uncertain. Speculation surrounds whether the S24 Ultra will stick to the previous generation’s 12GB RAM or receive an upgraded 16GB RAM.
In terms of display prowess, the Galaxy S24 series is poised for a substantial upgrade. Reports suggest that the entire series will boast a remarkable peak brightness of 2500 nits, a notable jump from the previous 1750 nits. This advancement promises enhanced outdoor visibility and an even more immersive viewing experience.
A Resolution Revolution
The Galaxy S24 Plus steals the show with an exciting display resolution boost. Moving from FHD+ (1080 x 2340 pixels) to WQHD+ (3120 x 1440 pixels), the S24 Plus aligns itself with the S24 Ultra’s display specifications. This transition to WQHD+ ensures crisper visuals and vibrant colors, contributing to a premium user experience.
Design Unveiled
The shared concept rendering of the Galaxy S24 Plus sheds light on its design elements. Impressively, the phone boasts an incredibly sleek profile with sides, including the middle frame, measuring a mere 2.5mm (compared to the S24 Ultra’s 3.4mm). The screen’s bezel is approximately 1.5mm, while the middle frame measures around 1.0mm. With a weight of 195g and a thickness of 7.7mm, the Galaxy S24 Plus aims to strike the perfect balance between aesthetics and functionality.

Flat Display Strategy
Perhaps the most intriguing shift in design strategy comes in the form of a flat display for the Galaxy S24 Ultra. This departure from the traditional curved edge display is accompanied by substantial advantages for Samsung. Firstly, opting for a flat display reduces manufacturing costs significantly, as applying M13 OLED to curved displays comes with added expenses. Additionally, manufacturing all models with flat displays can lead to reduced defect rates and increased yield rates. This decision aligns with Samsung’s interest in maximizing benefits and streamlining production processes.

Conclusion
With the latest reports shedding light on the Samsung Galaxy S24 series, anticipation is running high. From the strategic Exynos chipset distribution to the groundbreaking FO-WLP technique, enhanced storage, and display upgrades, the Galaxy S24 series is poised to redefine flagship smartphone standards. As the unveiling of the Galaxy S24 series draws near, tech enthusiasts can’t help but await the exciting innovations and advancements that Samsung has in store.