In the current highly homogeneous environment of the mobile phone market, in order to meet the growing needs of users, we must continue to explore and create our own differentiated advantages, so as to be invincible in the fierce market competition.
For example, OPPO's Tidal architecture strives to achieve breakthroughs in computing performance and power consumption control through deeply customized chip-level performance solutions, bringing users a unique experience beyond traditional hardware parameters.
It is worth mentioning that with the official release of the OPPO Find X7 series, the differentiating advantages brought by the Tidal architecture have been confirmed.
Judging from the results announced by each company, the Find X7 Antutu running score equipped with Dimensity 9300 chip is basically stable at about 2.22 million, which shows the strong performance. In terms of energy efficiency, the Oppo Find X7 is also extremely effective, with an average energy efficiency savings of 8% according to official estimates. With its strong performance and excellent energy efficiency, the OPPO Find X7 also stood out from the rest of the Dimensity 9300 models, and at the same time, more people saw the unusual "tidal architecture".
Before understanding the tidal architecture, we first need to figure out what are the bottlenecks facing the efficiency improvement of SoC chips?
At the technical communication meeting before the official release of the Find X7 series, OPPO talked about this issue.
OPPO believes that in order to improve computing efficiency, it is necessary to start from two aspects: first, the performance link of smart phones follows the classic von Neumann structure, resulting in the separation of storage and computing, and the storage read and write speed is much lower than the CPU computing speed; Second, the scheduling scheme of the chip lacks scenario-level cognition.
Unlike traditional solutions that only optimize performance at the ROM or RAM level, the Tidal architecture achieves a technological breakthrough that goes down to the on-chip system cache and L3 cache levels. Through this in-depth optimization, the Tidal architecture aims to achieve more efficient and intelligent chip performance scheduling, thereby solving the computing efficiency bottleneck faced by current SOC chips.
To put it simply, tidal architecture is an intelligent scheduling technology that can dynamically analyze system resource requirements based on the current application scenario. When it detects that an application is primarily performing computationally intensive tasks, the architecture actively allocates more cache resources to the CPU to ensure that it runs efficiently. When faced with GPU-led tasks such as graphics rendering, resources will be allocated to the GPU first to ensure that the rendering performance is fully utilized.
Specific to practical scenarios, such as for daily high-frequency applications such as Kuaishou, AutoNavi Map, Weibo, and browsers, the Tidal architecture can achieve significant energy efficiency improvements, which means that with the support of the Tidal architecture, the OPPO Find X7 can provide longer battery life and further improve the overall user experience.
In addition, the Tidal architecture can dynamically adjust the GPU performance according to different scenarios through intelligent scheduling chip computing power, which solves the display delay problem that affects the smoothness of the system and ensures that the startup speed of the application is consistent. In the official Find X7 test, it simulated that users would launch the app 320 times a day. The results show that the Find X7 series phones perform exceptionally well in terms of application launch response speed, with a minimal difference in average response time per launch, even surpassing the iPhone, which is known for its smoothness, and achieving the first place in the Android flagship camp in terms of startup performance consistency.
And finally:
With the support of the Tidal architecture, the mobile phone can flexibly adjust the cache ratio according to different application scenarios, improving the overall energy efficiency of the computing link and reducing power consumption while improving performance, and bringing users a smooth, efficient, and stable user experience.
In general, the tide architecture technology once again demonstrates OPPO's deep strength in independent R&D and innovation through dynamic chip performance scheduling and opening up every link between the application layer and SoC, and brings a performance and energy efficiency experience that is different from other products to Find X7, and establishes its own differentiated advantages in the highly homogeneous mobile phone market.
Find X7 has been officially released, interested partners can also pay attention to it, I believe that with the blessing of tidal architecture, it will bring more different new experiences to users.