Living, the well-known Chinese smartphone manufacturer, is preparing to launch its new flagship, the Vivo X100, which will be the first smartphone in the world to feature the Snapdragon 8 Gen3 chips and imaging chip V3 developed by Vivo itself. The Vivo X100 will be accompanied by a Pro version, which will offer even more advanced performance and features. Both models are expected to be presented later this year, but some images leaked online already give us a preview of their design and specifications.
Images of the next Vivo X100 have been leaked, the first smartphone with Snapdragon 8 Gen3 and V3 chips
The images show that the Vivo X100 will look similar to the previous one Vivo X90, but with some differences. The most obvious is the arrangement of rear cameras, which this time they will be positioned in the center of the body, instead of in a corner. This choice makes the design more harmonious and pleasing to the eye, while maintaining the identity of Vivo's X series.
The body material will be in smooth red skin, an exclusive shade created by Vivo for its high-end smartphones, which exudes elegance and sophistication. There will also be a pure white variant, a rare color to find in modern smartphones, but which gives a touch of freshness and brightness.
Il display will be a 1.5K curved OLED, with an f120Hz refresh rate, which will guarantee exceptional visual quality and unparalleled fluidity. The panel will also have a hole for the front camera, which will be placed in the center of the top.
Under the hood, the Vivo X100 will hide the powerful Snapdragon 8 Gen3 chips, Qualcomm's latest processor for high-end smartphones, which will offer extraordinary performance in terms of speed, energy efficiency and connectivity. The chip will in fact support the latest generation 5G network and Wi-Fi 6E.
But the real novelty of the Vivo X100 will be the imaging chip V3, a component dedicated to camera management, which promises to significantly improve the quality of images and videos captured by the smartphone. The V3 chip will be able to optimize the parameters of exposure, focus, white balance and noise reduction, as well as offering advanced functions such as lossless digital zoom, image stabilization and night mode.