Alleged Redmi K70 Pro appears on Geekbench: Android 14, Snapdragon 8 Gen 3 and 16 GB of RAM

Recently, a model named Xiaomi 23117RK66C appeared on Geekbench 5. Running on Android 14 with a memory of 16GB, its CPU configuration is “1+5+2,” with core frequencies at 3.19GHz, 2.96GHz, and 2.27GHz, respectively. This aligns with the previously leaked information about the third-generation Snapdragon 8 mobile platform. On Geekbench 5’s CPU benchmark, this model scored 1100 in single-core and 5150 in multi-core tests. Further corroboration comes from the OpenCL test, which revealed the Adreno 750 GPU, suggesting the model employs the third-generation Snapdragon 8 mobile platform.

Given Xiaomi’s product release cadence, this new device could potentially be the Xiaomi 14 or the Redmi K70 Pro. However, leaked information suggests that the Xiaomi 14 bears the model numbers 23127PN0CC and 23116PN5BC. Therefore, the likelihood of the 23117RK66C being the Redmi K70 Pro is considerably high. Drawing parallels with the release timeline of its predecessor, the Redmi K70 series is anticipated to launch in December 2023. Judging from the Geekbench details combined with Redmi’s brand tone, this model likely continues to champion the high value-for-money product strategy.

Current revelations about the Redmi K70 Pro are abundant and credible. The leaks suggest that the Redmi K70 Pro will be equipped with the third-generation Snapdragon 8 mobile platform, an OLED flat screen by CSOT, boasting a resolution of 1440P. Notably, the plastic bracket has been eliminated, and it supports 1930Hz high-frequency PWM dimming. In terms of camera configurations, the primary sensor is Samsung’s 200-megapixel HP3, complemented by a 10-megapixel telephoto with three times optical zoom, and an 8-megapixel ultra-wide lens. For battery and charging, the Redmi K70 Pro houses a 5120mAh battery, and supports 120W wired charging, and 30W wireless charging. Impressively, the top-tier variant of this model is expected to offer a staggering 24GB+1TB memory combination.