The upcoming Samsung Galaxy S26 series features familiar models but misses the chance to innovate with a Pro variant. Can the Exynos chip prove itself against Qualcomm's dominance?
The Samsung Galaxy S26 Ultra is set to make waves with its upgraded camera specs, including a new 12MP telephoto sensor and innovative features like Adaptive Pixel. But will it be enough to overshadow the Galaxy S25 Ultra?
Exciting leaks about the Samsung Galaxy S26 Ultra reveal updates to its camera sensors, including a notable upgrade to the 3x lens. But will it be enough to compete with rivals? Discover the latest details now!
In a surprising twist, rumors suggest Samsung may switch to its Exynos 2600 chip for the Galaxy S26. However, Qualcomm is confident it will still power 75% of the devices. What does this mean for Samsung's chip strategy?
The Galaxy S26 Ultra is set to return to its design roots with even rounder corners than its predecessor, the S25 Ultra. This shift hints at a blend of nostalgia and modern innovation in Samsung's flagship smartphone.
The Galaxy S26 Ultra is rumored to be slightly taller and wider than its predecessor, the Galaxy S25 Ultra. With a display size remaining at 6.9 inches, discover what this means for users!
Samsung is gearing up for a massive launch with its Galaxy S26 series, expecting to sell 36 million units and potentially raking in over $90 billion. The company's ambitious plans come after a strong performance in the smartphone market this year.
Samsung faces a challenging dilemma as it aims to sell 35 million units of the Galaxy S26 series while grappling with rising component costs. Can they achieve their ambitious sales target despite inevitable price hikes?
Excitement builds for the Galaxy S26 series, but a price hike looms as component costs rise. Discover why Samsung may raise prices and what it means for consumers.
The Exynos 2600, Samsung's latest 2nm application processor, is rumored to power the Galaxy S26 series, potentially outperforming Apple's M5 in benchmark tests. Discover the implications for smartphone performance and efficiency.