Samsung Galaxy S25 Ultra: A Game-Changer in the Smartphone Arena
The tech world is abuzz with the latest leaks and rumors surrounding the Samsung Galaxy S25 Ultra, a device that promises to redefine smartphone performance and design. Recently, a Geekbench result for this highly anticipated phone was shared on X by the well-known leaker @universeice. The phone achieved a remarkable single-core score of 3,011 and an even more impressive multi-core result of 9,706. These scores are significantly higher than the average scores of its predecessor, the Samsung Galaxy S24 Ultra, indicating a substantial upgrade in performance. This leap in performance is not just incremental but represents a significant milestone in the evolution of Samsung’s flagship line.
One of the most exciting aspects of the Galaxy S25 Ultra is its potential to outperform the A18 Pro chipset found in Apple’s iPhone 16 Pro Max, particularly in multi-core results. The Galaxy S25 Ultra is powered by the Snapdragon 8 Gen 4 chipset, which boasts a configuration of 2 x 4.47GHz high-performance cores and 6 x 3.53GHz efficiency cores. Additionally, its GPU runs at an impressive 1250MHz. While tests for the A18 Pro chipset in the iPhone 16 Pro Max have not been conducted extensively enough to establish average scores on Geekbench, early results show the iPhone 16 Pro Max achieving a single-core result of 3,386 and a multi-core result of 8,306. Although the iPhone still holds an edge in single-core performance, it falls behind the Galaxy S25 Ultra in multi-core capabilities.
However, it’s essential to note that these benchmark results are preliminary and may not fully represent the Samsung Galaxy S25 Ultra’s final performance. Historically, Samsung has released different versions of its flagship phones with varying chipsets depending on the region. For instance, some regions may receive the Galaxy S25 Ultra with an Exynos chipset instead of the Snapdragon 8 Gen 4. This trend has been observed in past models of the Galaxy S series and adds an element of variability to the phone’s performance across different markets. As such, while the early benchmark results are promising, they should be taken with a grain of caution until more comprehensive testing is conducted.
Beyond raw performance, the Galaxy S25 Ultra is also expected to bring significant design changes. Leaks suggest that the phone will undergo a design overhaul aimed at making it easier to handle. Images of an alleged Galaxy S25 Ultra case shared by a notable leaker reveal a more rounded design compared to the Galaxy S24 Ultra. This new design is reportedly inspired by the Galaxy Note 7 from 2016, which was known for its ergonomic build. Additionally, rumors indicate that the Galaxy S25 Ultra will feature thinner bezels than the iPhone 16 Pro Max, enhancing its aesthetic appeal and potentially offering a more immersive viewing experience.
Interestingly, despite these design changes, Samsung has stated that it has no plans to bring back curved screens, a feature that has been both praised and criticized in previous models. Instead, the focus appears to be on refining the flat screen design while improving other aspects of the phone’s build. Another area where the Galaxy S25 Ultra is expected to shine is its camera system. The phone is rumored to feature a vertically aligned camera arrangement, with the primary, ultrawide, and periscope lenses lined up in one column. Smaller cutouts for laser autofocus, LED flash, and a 3x telephoto camera will sit adjacent to this main column, creating a sleek and functional camera module.
The current Galaxy S24 Ultra already boasts an impressive camera setup, including a main 200MP camera, a 12MP ultrawide camera, and two telephoto lenses with 3x and 5x optical zoom. However, camera improvements are rumored to be a top priority for Samsung in the S25 Ultra. If these rumors hold true, the Galaxy S25 Ultra could become one of the best camera phones on the market, offering unparalleled photo and video capabilities. More information about the S25 lineup is expected to be revealed in January, but the anticipation is already building among tech enthusiasts and industry experts alike.
Adding to the excitement, the Galaxy S25 Ultra has been spotted in benchmarking databases with the Snapdragon 8 Gen 4 chipset, further solidifying its status as a performance powerhouse. The latest benchmark leak suggests that the chip is indeed part of Samsung’s upcoming flagship. In recent tests, the Galaxy S25 Ultra obtained scores of 3,069 and 9,080 points in single-core and multi-core results, respectively. These tests were conducted with a version of the phone equipped with 12GB of RAM and the Snapdragon 8 Gen 4 chip, which features a 2 + 6 CPU cluster with performance cores clocked at 4.2GHz and efficiency cores at 2.9GHz.
Interestingly, the A18 Pro chipset in the iPhone 16 Pro Max scored lower than the Galaxy S25 Ultra when running the 10-year-old game Alien Isolation at native resolution. While the A18 Pro and M1 chip in the latest iPhones have similar performance in multi-core testing, the Snapdragon 8 Gen 4 is still 7% faster than the M1. However, in single-core performance, Apple’s A18 Pro continues to dominate, being 11% faster than the Snapdragon 8 Gen 4. It’s worth noting that the recently benchmarked Snapdragon 8 Gen 4 in the Galaxy S25 Ultra is not the fastest version seen, as the OnePlus 13 scored higher in multi-core performance. This discrepancy may be due to varying clock speeds of the performance and efficiency cores, suggesting that different devices may exhibit different levels of performance with the Snapdragon 8 Gen 4.
The Galaxy S25 family is shaping up to be a formidable contender in the smartphone market, with the Galaxy S25+ also showing impressive benchmark results. The S25+ is listed with the Snapdragon 8 Gen 4 chipset, featuring two performance cores clocked at 4.19 GHz. This configuration helps explain the phone’s high multicore performance score. When comparing unlocked US versions, the S25+ still outperforms the S25 Ultra in multicore performance on Geekbench. This difference may be attributed to the custom Snapdragon 8 Gen 4 chipset for Samsung, which Qualcomm and Samsung are likely still optimizing.
In the past, Qualcomm has typically clocked the custom Snapdragon processor version for Samsung even higher, leading to impressive benchmark scores. Overall, the Galaxy S25 family is expected to deliver powerful performance, bolstered by advanced AI capabilities that can take on the competition, including the iPhone 16 Pro line. The US version of the S25+ has already appeared on Geekbench with a high benchmark score, utilizing Qualcomm’s latest Snapdragon 8 Gen 4 processor. Interestingly, the European version of the S25+ is clocked at a higher 4.47 GHz, which may explain the S25 Ultra’s higher multicore score.
Samsung and Qualcomm are likely working on finding the best balance between power draw and performance for the custom Snapdragon 8 Gen 4 chipset. As a result, the performance of the Galaxy S25 family is expected to be impressive, thanks to the combination of powerful hardware and AI capabilities. The Samsung Galaxy S25+ has already outstripped previous versions in benchmark tests and is poised to be a top performer in the market. Readers are encouraged to follow the source on social media for updates and exclusive content, and to join the conversation in the vibrant tech community.
In summary, the Samsung Galaxy S25 Ultra and its sibling, the Galaxy S25+, are set to make waves in the smartphone industry. With their powerful Snapdragon 8 Gen 4 chipsets, impressive benchmark scores, and potential design overhauls, these devices are poised to offer a compelling alternative to Apple’s latest offerings. Whether it’s the enhanced multi-core performance, the refined design inspired by the Galaxy Note 7, or the anticipated camera improvements, the Galaxy S25 Ultra is shaping up to be a game-changer. As more information becomes available, the excitement and anticipation for these devices will only continue to grow, making them some of the most eagerly awaited smartphones of the coming year.