Huawei's camera-centric P30 Pro appears on Geekbench, key specs revealed
As a successor to its popular P20 Pro, Huawei is working to launch the P30 Pro in Paris on March 26. So far, a stream of leaks has confirmed that the phone will come with a waterdrop notched display, in-display fingerprint sensor, and quad rear cameras. And now, P30 Pro has been spotted on Geekbench, revealing its flagship internals. Here's everything to know.
Huawei P30 Pro: At a glance
As per renders and leaks, the P30 Pro will feature a waterdrop notched display with a slim bottom bezel. On the back, the phone is tipped to sport a quad camera setup, housed in a curved glass body. In terms of display, the phone is expected to feature a 6.5-inch OLED screen with full-HD+ resolution.
P30 Pro is said to come with four rear cameras
As per official renders, the P30 Pro will come with Leica-engineered quad rear-camera setup and a single selfie camera. And while the specifications of the sensors are not known as of now, the main camera setup will offer an aperture range of f/1.6-f/3.4 and 10X optical zoom. The rear camera will also come with laser autofocus, dual LED flash, and a 3D Time-of-Flight sensor.
Under the hood
Huawei P30 Pro has been spotted on Geekbench, revealing that the phone will be powered by a Kirin 980 chipset, 8GB RAM and Android Pie OS. Further, the flagship handset is tipped to come with 128GB of storage but we can expect it to come in higher RAM and storage variants also. We also expect the phone to support two-way wireless charging.
Here's a look at P30 Pro's Geekbench performance
In the Geekbench tests, the Huawei P30 Pro has scored 3,289 points in the single-core tests and 9,817 points in multi-core performance.
And, what is Geekbench and Geekbench's scores?
Geekbench is a cross-platform processor benchmark platform which grades processors on their single-core and multi-core performances. While calculating multi-core scores, Geekbench runs multiple streams of instructions simultaneously per core and reports an aggregate score. With single-core scores, the same process is applied but on a single core. Notably, the quicker a CPU completes the instructions, the higher is its Geekbench score.
