Huawei is working on solving the heat problem of 5G phones

Chinese software maker Runhe Software recently announced that the HiHopeOS operating system has inherited the basic use case features of smartphones from OpenHarmony 3.1 LTS. After this success, the software manufacturer plans to work with smartphone manufacturers.

According to the information, Runhe Software has completed the test of OpenHarmony features supported by a 4G chipset. This also confirms that the OpenHarmonyOS 3.1 can be used for smartphone products.

Why is this achievement important?

Well, native support for OpenHarmony without involving a traditional library will encourage full/pure use of the OpenHarmony-based operating system. So instead of using multiple software libraries, the manufacturer has complete control over the software.

Runhe Software’s HiHopeOS currently supports smartphone-level user experiences, including calling, messaging, sending and receiving email, instant messaging, playing music, taking notes, and running various applications.

In terms of chipset, HiHopeOS adopts LTE CAT4 chipset, integrates Mali-GPU, DPU, GSP and other graphics acceleration hardware, supports FDD/TDD-LTE, WCDMA, GSM wireless communication mode, and Wi-Fi/BT and other long-distance transmission technology.

It has 2GB of RAM and 16GB of internal storage while it comes with a front and rear dual camera system, touchscreen, speaker, microphone, SIM card, SD card slot, battery and all additional features , which distinguish a smartphone .

The new HiHopeOS is expected to be applicable to a variety of scenarios, including smart payment, robotics, smart home and other technology fields.

Let’s take a detailed look at what the system can currently do at full load:

call capability: Built-in high integration supports LTE CAT4 SoC, supports FDD/TDD-LTE, WCDMA, GSM wireless communication modes, supports making calls, sending and receiving text messages.

cellular: The integrated 4G CAT4 SoC supports cellular data modules, cellular data management, network interaction, etc., and adds cellular data surfing based on the operator’s network.

web browser: It integrates a web browser application based on the tiered model and related interfaces to realize web page access.

Distributed Ability: Support for distributed softbus, distributed application flow, distributed database, distributed data object, support for local database access and cross-application database access and other functions.

At present, the basic system adjustment and peripheral adjustment of the domestic 4G chip platform have been completed, including the adjustment of basic peripherals such as UART, IIC, and SPI, as well as the adjustment of functions such as audio, voice, video, camera, LCD, and GPU.

Added to this has been the development of functions such as telephoning, text messaging, sending and receiving emails (cellular network), instant messaging (cellular network), music playback and video playback.

(above)

Comments are closed.