Flying to Deep Space: ColorOS supercomputing platform brings performance changes in performance

Author:Brain Time:2022.08.30

On December 17, 1903, the "Piers One" of the Wright brothers conducted the first manned flying attempt for human beings. The aircraft could only fly to 3 meters high at the time.

Six0 years later, in July 1962, the pilot Robert White drove the Rockets as the power of the X-15 spacecraft rushed to the high altitude of 10,000 meters. Humans finally witnessed that "the earth is round."

The gaze and exploration of deep space is the eternal pursuit of human beings. Today, aerospace has become one of the most important scientific research directions of human beings. Regarding the problems of quantum physics and the origin of life, they must go to the universe to seek answers. When we face many questions, "finding answers in deep space" is a problem solving idea. When the problem of solving the problem is no longer available, it will fly to higher.

For example, we may have all thought about such a question: from we began to use smartphones, we are pursuing high performance and not stuck. Why has the performance of the mobile phone still not ideal enough for so many years? If we have been looking for answers in the "low air" such as the software layer and UI layer, it may have little effect. The answer may be in the calculation of the mobile terminal.

On August 30, 2022, a new ColorOS 13 was released at the 2022 OPPO Developer Conference. The comprehensive upgrade ColorOS 13 brings a new digital life experience to users with the concept of "all things". On the key issue of performance, OPPO released the ColorOS supercomputing platform, bringing a new answer to mobile phone performance optimization.

As an OPPO self-developed system-level computing center, the ColorOS supercomputing platform may be like an X-15 spacecraft. It wants to fly to the operating system, calculation, and AI star field to explore a new era of mobile computing without sensory and extreme experience.

The route is still: 2022, why is the performance of the mobile phone still a problem?

When we are talking about the performance of mobile phones, we must first clarify the boundaries of the discussion. Mobile phone performance generally refers to the calculation task processing capacity and energy consumption of terminal devices. The two show problems such as whether the system is stuck, multimedia screen, game frame rate, battery life and heat dissipation capabilities. From the beginning of the birth of smart phones, how to obtain high and smooth and high battery life experience is the issue that consumers and merchants are most concerned at the same time. Many years have passed, and this has not changed.

According to the "Investigation Report of High -end Mobile Phone Consumption in Mainland China in 2022", domestic users' expectations for domestic high -end mobile phone brands are mainly to improve mobile phone fluency, accounting for 38.7%; improving the stability and reliability of the system, accounting for 38.5%. Why is the foundation of performance that cannot be followed by the foundation, and it is still the focus of consumers after so many years?

The key issue here is that the performance experience does not simply determine the processor platform or UI optimization, but is determined by multiple problems from chip layer to the software layer. This also leads to the performance experience that users finally obtain is a barrel effect, and the weak item of any layer will bring huge problems. At the same time, the demand for mobile phone users in the fields of games, live broadcasts, multimedia and other fields is becoming more and more frequent, and the number of APPs opened at the same time has increased sharply, which has caused a huge experience in performance.

So, is the performance experience determined by hardware? it's not true. Our scientific research has seen that the two hardware configuration of similar mobile phones may be very different in the performance of power consumption and other fields. This is caused by different system scheduling strategies. The stuck problem caused by the user at the same time is likely to be caused by the task conflict caused by the memory recycling machine. It also related to complex operating system issues.

In the past, it was shallow to solve the problem, and the cure of the standard was not cured; now the essence of the problem is examined deeper, and the origin of the problem is more systematically solved. s solution.

So, it's 2022, why is there still a problem with the performance of the mobile phone?

This ultimate question must go to the bottom of the chip and the operating system, and to find the answer to the deepest part of the calculation. The difference between the ColorOS supercomputing platform is here.

Exploring the deep space: the technology of the ColorOS supercomputing platform

Human exploration of the sky and the universe is endless, as is it in more technical fields. If you want to further explore the answer to the performance of the mobile phone, you need to crack the scheduling mechanism of the chip and crack the basic software architecture of the operating system.

The ColorOS supercomputing platform is an attempt to bring performance requirements to the bottom of the mobile phone. This is also the first exploration of computing optimization to test at this level. The ColorOS supercomputing platform contains multiple technical ideas. On the one hand, it has accurately scheduling hardware computing resources to complete performance optimization through computing power models. At the same time, it also combines 4 computing engines, parallel computing, high -performance computing, Duanyun computing, intelligent computing, intelligent computing To comprehensively adjust the performance of the mobile phone.

In the new version of ColorOS 13 released this time, the COLOROS supercomputing platform shows the ability of computing power models and parallel computing, focusing on the two problems of unreasonable computing resources and conflict with memory usage. Let's also discuss these two capabilities first.

Computing resource allocation is a difficult problem for the boss of mobile phone performance optimization. In the past, solutions were more software scheduling and distributed resources into different tasks. However, the allocation of resources in this way is not flexible enough to achieve complex computing and tuning mechanisms. And the core of the calculation is the processor. The software tuning mechanism does not involve the chip, which is always equal to itching. In order to solve this problem, ColorOS invested a large number of chip experts. After millions of data fitting and simulation, eventually established a computing power model from scene to hardware vertical integration. This computing power model can run through the entire performance call system and achieve a balanced scheduling of the chain of chip computing power. In this way, computing power can know how to flow more accurately. Mobile phones can achieve the best computing power combination solution based on computing power models, thereby ensuring that high performance and low power consumption reach a balance.

The parallel calculation is a deep -rooted performance limit for the Android system. We know that the computing power and memory of a mobile phone are limited, so this involves the problem of how to allocate memory. In the Android system, the memory recovery mechanism in Linux is used. This set of mechanisms simply say that through a double -line linked list, it sorts out the recent and unused tasks, so as to simulate the priority of the task, and follow the principle of first -time and then to the task to allocate memory allocation. Because the memory of the Android system is serial, this set of logic will lead to sudden high priority tasks, which will cause conflicts in memory distribution with other tasks, resulting in stuttering. This problem was noticed by the industry very early. However, because this problem involves the underlying logic of the operating system, it is a problem of a computer infrastructure, which has always been difficult to overcome.

To this end, ColorOS borrowed the design ideas of micro -core, and carried out parallel transformation of key operations such as memory allocation and recycling. Based on the parallel computing power provided by the ColorOS supercomputing platform, mobile phones can open different parallel paths. On the one hand, it provides memory paths for high -priority tasks, and on the other hand, recycling free memory. In the end, the mobile phone can still be kept smooth and not stuck in multi -tasking scenarios and long -term use.

While solving the problem of performance experience, the ColorOS supercomputing platform has actually constituted a wonderful technology. The technical ideas have been announced that the performance competition of the mobile terminal has really moved to the depths of the chip and the basic mechanism and logic of calculation.

Gejong World: The application value brought by supercomputing changes

What the Xinghai Universe is not unable to be silent, but an unlimited value waiting for development. Bringing performance optimization ability and problem -solving ideas to the deep space of mobile phone calculations, the ColorOS supercomputing platform also brings rich scenario value and application experience.

Of course, the most intuitive value comes from several performance experience mentioned earlier, and this is often the most concerned issue. According to the OPPO laboratory test, the Find X5 Pro upgraded to ColorOS 13 can achieve 10%performance improvement. In the popular MOBA game test, it can achieve high frame rate stable operation without losses at the same time. And it can increase by 4.7%, while reducing the maximum temperature of the game by 1 ° C.

In addition to the basic experience of screen frame rates, battery life and heat dissipation, users will also care about the stuck problem in multi -tasking and complex use scenarios. In the Find X5 Pro test, we can find that after upgrading to ColorOS 13, the 8GB version can open the premise of 18 applications in the background, so as to be at least 25%of the decline in frame loss in the re -loading scenario. And this ability will also cover more models, and the performance optimization experience brings is worth looking forward to.

In addition to the mobile phone itself, the ColorOS supercomputing platform can also enhance the operation experience of the interconnection of all things. For example, in the operation of CAR+Car Union, it can automatically optimize the relevant application performance and bring a smoother and seamless operation experience.

The existence of the COLOROS supercomputing platform supports and ensures the optimization of system -level performance, allowing each level of interaction to occur naturally, so that the mobile phone and the Internet of Things matrix can be induced, allowing users to obtain water -like experience.

Beyond the sky: Calculating the deep space is only revealed to the corner

For the universe, human beings still have too many unsolved mysteries for the world outside the sky. The same is true of the calculation of mobile phones. We can notice an interesting phenomenon: The current version of the ColorOS supercomputing platform is not the full picture of this technology platform in the future, but only the tip of the iceberg.

Regarding mobile phone computing, there are actually too many stars waiting for unlocking. In the traditional sense, smartphone integration solutions have gradually fallen behind, and the software and hardware platforms in depth are becoming a new industrial trend with technological innovation -driven experience.

The ColorOS Supercomputing Platform is such an OPPO that combines multi -wisdom, and is a technical platform that is continuously created based on the combination of software and hard cores. Among the four major algorithms, we also have Duanyun computing, intelligent computing, and high -performance computing waiting to unlock. What kind of performance optimization can they bring? What can the value of software and hardware be achieved? It's a very worth looking forward to.

Take intelligent computing and AI technology as an example.Nowadays, AI technology is not uncommon in mobile phones, and most of the mainstream processor platforms have also upgraded the AI special computing power.We have seen AI perception of user operation habits, regulating images, allocation of networks, and so on.What changes will happen when AI deeply calculates the system?Will we usher in the computing power distribution and performance optimization of thousands of people?OPPO is united with major universities to conduct a large number of production, university -research work and investment in AI technology.What kind of future can the ColorOS supercomputing platform may be the most expected deep -sea scenery.

The calculation and system of smartphones is the most precise and complex digital structure on the earth.There are also a lot of unsolved mysteries, as well as the possibility of infinitely worth looking forward to and imagining.