In terms of energy efficiency, Kirin 710 is equipped with four A73, four A53 CPU cores, designed with Big.Little hybrid architecture, the highest frequency is 2.2GHz, 1.7GHz, compared with unicorn 659 single-core performance increased by 75%, multi-core performance improvement 68 % .
At the same time, the integration of Mali-G51 GPU, can achieve 130% performance improvement, 100% energy efficiency improvement, effectively improve the phone fever, Caton and other issues, if not unexpectedly will also support GPU Turbo.
It also supports Google ARCore, HUAWEI AR dual augmented reality engine, which can better support various AR functions.
In terms of process technology, Kirin 710 is Huawei's first TSMC 12nm chip, and uses the latest 6T Turbo technology to improve performance by more than 10% compared to equivalent process products.
Kirin 710 has an independent post-processing unit, which improves overall camera performance by 30%, supports AI scene recognition, recognizes more than 20 scenes, and automatically sets optimal parameters, especially for portraits, night scenes, and sports scenes.
It also supports HDR Sensor, which optimizes the skin tone effect at low color temperature and mixed color temperature, and also makes good-looking portrait photos in a variety of complex lighting environments, and improves the dark shooting strategy for night shot scenes, ensuring clarity and transparency. Imaging texture.
For fast motion scenes that are easy to blur, Kirin 710 supports static, slow, medium, fast four-speed speed monitoring, intelligent adjustment of shutter dynamics, combined with AI motion scene detection, and improved shooting.
Network communication is Huawei's strength. The Kirin 710 supports the LTE Cat.12/13 standard. The downlink peak rate is 600Mbps and the uplink peak rate is 150Mbps, which is 100% and 50% higher than the previous generation. It is also the second in the industry after the Kirin 970. Support dual-card dual 4G dual VoLTE mobile phone chip.
At the same time, Kirin 710 is optimized for complex communication scenarios, effectively improving the quality of communication connections in areas with weak signal environments such as high-speed rail.
In terms of safety performance, Kirin 710 also made breakthroughs. It introduced TEE technology to support face recognition, and included face feature extraction, feature comparison, module management and other indicators into the security zone protection to achieve full-channel face security.
It also continued the Kirin 970 inSE security mechanism, obtained financial-level security certification, and effectively protected mobile payment accounts.