OnePlus is poised to expand its smartphone lineup with the anticipated December 17th release of the OnePlus 15R,though the company has not yet officially confirmed the launch.Early benchmark data suggests the device, possibly a rebranded global version of the Ace 6T, will boast meaningful performance gains over its predecessor [[1]]. Powered by the Snapdragon 8 Gen 5 and running Android 16, the OnePlus 15R is expected to deliver a premium mobile experience as competition in the smartphone market intensifies [[2]], [[3]].
OnePlus is expected to unveil its latest smartphone, the OnePlus 15R, on December 17, though the company has yet to make a formal announcement. Recent benchmark tests surfaced on Geekbench suggest the device, identified by model number CPH2767, will deliver a significant performance boost, and is believed to be a global version of the Ace 6T currently available in China.
According to the benchmark data, the OnePlus 15R will run Android 16 and feature 12GB of RAM, with a base storage option of 256GB. OnePlus has confirmed several key specifications, including a 165Hz AMOLED display and IP69K-rated dust and water resistance – a robust level of protection for modern smartphones.
The phone’s processing power will come from the Snapdragon 8 Gen 5 chipset. Initial Geekbench results show an average score of 2815 for single-core performance and 9552 for multi-core tasks. This represents a substantial increase – approximately 27% – in single-core performance and a 45% jump in multi-core performance compared to the OnePlus 13R. The performance figures indicate the OnePlus 15R will offer capabilities approaching those of the OnePlus 13, but with notable improvements in processing speed.
The advancements in processing power showcased by the OnePlus 15R highlight the ongoing race among smartphone manufacturers to deliver faster and more efficient mobile experiences. These improvements are particularly crucial as mobile devices increasingly handle complex tasks like AI processing and augmented reality applications.
Number of sources analyzed: 5
Primary Source : Al-Taqnia Sultan Alqahtani
Publication ID: TECH-071225-225
