The chip upgrade of the iPhone 15 Pro is a highlight worth paying attention to. The model adopts the latest processor A17 Pro jointly developed by Apple and TSMC, and adopts TSMC's 3nm process technology. Compared with the previous generation of chips, the A17 Pro has a significant improvement in performance. This detail upgrade makes the iPhone 15 Pro highly recognized in the market. Although there have been many in-depth articles on the Internet about the A17 Pro chip, what does this chip really mean for consumers? This article will explain how the processor works in an easy-to-understand way and introduce the changes in the A17 Pro chip. First, let's explain how processors work with an easy-to-understand metaphor. We can compare the processor to a leader, while memory is a busy secretary.
When we tap the screen on our phone, the sensor recognizes the movement of the finger and communicates the command to the memory. Memory is like a file cabinet for all kinds of data, and the secretary records your various commands. The processor continuously fetches commands from the record and performs appropriate actions based on the commands. The overall architecture of the A17 Pro chip has been redesigned, using a configuration of 6 CPUs and 6 GPUs, and is also equipped with a neural network chip (NPU), ProRes codec, display engine, AV1 decoder, USB controller, etc. Officials claim that compared with the previous generation of chips, the performance of the A17 Pro is increased by 20%. Next, let's compare the differences between the A17 Pro chip and the previous generation chip A16.
The A16 chip can be seen as the leader of last year, and his head, the CPU part, has adopted a completely new microarchitecture and design and has been improved. In the A16 chip, there are two performance cores dedicated to some difficult work. The official claim is that the A17 Pro chip has only improved CPU performance by 10% and added a little bit of intelligence. In other aspects, such as GPUs, neural network chips, etc., the A17 Pro chip has been significantly improved. Overall, the release of the A17 Pro chip is an important upgrade for the iPhone 15 Pro. This chip adopts advanced process technology and has been significantly improved in performance. Through the redesigned overall architecture and the addition of various technologies, the A17 Pro chip brings more powerful processing power and better performance to the iPhone 15 Pro.
This will undoubtedly further enhance users' recognition of the iPhone 15 Pro. However, it is worth noting that although the A17 Pro chip has a significant improvement in performance, for the average consumer, whether this improvement can really be reflected in daily use needs further verification. In actual use, users may pay more attention to the smoothness of the phone, battery life, and the stability of software and hardware. Therefore, although the release of the A17 Pro chip has brought more powerful processing power to the iPhone 15 Pro, how to translate this performance into a better user experience is still a problem worth thinking about and working hard to solve. To sum up, the release of the A17 Pro chip is a highlight of the iPhone 15 Pro.
Its advanced process and performance improvements have made the iPhone 15 Pro attract much attention in the market. However, we also need to pay further attention to the actual impact of this performance gain on the user experience, and how this performance advantage can translate into a better user experience. In the future development, we look forward to seeing more innovative technologies and products to bring users a better experience. What do you think the release of the A17 Pro chip means for the iPhone 15 Pro? What are your expectations and suggestions for this upgrade? Welcome to leave a message to discuss! New CPU: Powerful thinking ability brings users a more efficient user experienceThe latest generation of CPUs has two large cores and four small cores, of which the large core is responsible for high-intensity work, and the small core is dedicated to handling some difficult daily work. The biggest attraction of the new CPU is its powerful thinking ability.
Officials said that the big core of the new CPU has a wider decoding unit and execution unit, which makes the brain more bright, and also upgrades branch prediction. Similar to the leader's intuition or hunch, branch predictions of new CPUs can make quick judgments in the face of uncertain situations. In addition, the frequency of the new CPU reaches 3.78GHz for large cores and 2.11GHz for small cores, and frequency refers to the number of clock cycles per second executed by the CPU. At the same time, another indicator, IPC, has also improved. IPC refers to the number of instructions executed per clock cycle. These indicators are interrelated, and overall, the new CPU has a very high thinking speed and thinking efficiency, so it has become the strongest brain in the life of a leader. Moreover, the thinking ability is incomparable to all the leaders of the company next door, which can be called No.1.
However, the total capacity of the brain depends not only on the speed and efficiency of thinking, but also on power consumption. When the new CPU deals with high-intensity work and the CPU is fully loaded, although the thinking speed is faster, it is very brain-consuming, more brain-draining than the leaders of the company next door, and even begins to reduce the frequency after a certain period of high-intensity work, which requires rest or heat dissipation clips to alleviate it. However, the emergence of small nuclei is almost negligible when dealing with difficult work, which is almost negligible than last year's self. Therefore, the overall performance of the new CPU is excellent. Although the power consumption is a bit large when dealing with high-intensity work, in most cases, the new CPU can easily meet the needs of users.
In terms of performance, although the official did not directly point out who the competitor is, it can be seen that the processing power of the new CPU is already very powerful, even compared with strong competitors such as the Snapdragon 8 Gen2. In addition, the performance of the new CPU is 3 times higher than that of competing products, which is due to the emergence of small cores. Small cores are dedicated to handling some difficult daily tasks, so that the power consumption of the CPU in these daily tasks can be greatly reduced. Overall, the overall performance of the new CPU is very good, with a very high performance and power consumption ratio. In short, the powerful thinking ability of the new CPU brings users a more efficient experience. Although the power consumption is a bit large, the new CPU performs very well in most cases. Although there are some problems when dealing with high-intensity work, this is also due to the limitation of the brain's total capacity.
For most users, the new CPU is easily capable of daily use. In the future, I believe that the new CPU will continue to optimize its performance and bring users a better experience. The world's first 3nm chip A17 released: performance surpasses the Snapdragon 8 Gen2, what is the key to the core quality of leadership? The world's first 3nm chip A17 was officially released recently, and its performance surpassed the Snapdragon 8 Gen2 of the company next door, which attracted widespread attention. The A17 has a significant improvement in performance compared to last year's A16, especially compared to the Snapdragon 8 Gen2, the A17 is more outstanding. Not only is it more efficient at work than the Snapdragon 8 Gen2, but it also thinks faster, which makes the A17 a clear gap from its competitors.
However, despite the breakthrough of the A17 in many aspects, it will have heating problems when working for long periods of time, and the battery life will be reduced compared to last year's A16. This could mean that the A17 leader has some shortcomings in working long hours, which may not be as persistent as before. This also brings us some food for thought. In addition, the official claim is that the number of transistors in the A17 has increased from 16 billion to 19 billion. Transistors can be compared to neurons that lead the entire body, and their increase enhances the perception and response capabilities of the organs that lead them. Although we can't know exactly where the transistors have increased, the number of transistors in the A17 exceeds that of the Kirin 9000 (15.3 billion) and the old leader M1 (16 billion) compared to the leader of the company next door, and close to the M2 (20 billion), which won the Excellent Squeeze Toothpaste Award last year.
This data gives us some references. It should be emphasized that A17 is the world's first 3nm chip, where 3nm refers to the process process, that is, the gate width of the transistor, which can be understood as the smallest unit size of the chip. However, smaller nanometers do not mean better, and larger is worse. Just like the leader of the company next door is only one meter and five meters tall, but it cannot be considered that he has the essence. In contrast, the Kirin 9000s, a new employee at the door, is still on a 7nm process, which proves that nanometer is not a measure. So, what really determines whether a leader is motivated or not? The answer is CPU microarchitecture design, CPU frequency, and number of transistors. That is, the architecture that leads the brain, the speed of thinking in the brain, and the number of neurons in the entire body. Of course, improving performance in these areas may be relatively small, but it is critical to the core qualities of leadership.
In addition to the brain, we also need to pay attention to the eyes of the leader, the GPU. The A17's GPU has one more core than the A16, and peak performance is up to 20% higher. This enhancement will further enhance the A17's graphics capabilities, making it more competitive in areas such as multimedia and gaming. In summary, the world's first 3nm chip A17 was released, and its performance surpassed that of the Snapdragon 8 Gen2. Although there is still room for improvement in terms of long hours of operation and battery life, the increase in the number of transistors and the improvement in GPU performance make the A17 a highly anticipated chip. In the future, we can expect A17 to achieve greater success in leading the market and bring us more innovation and breakthroughs. When evaluating the core qualities of leadership, we need to pay attention to factors such as CPU microarchitecture design, CPU frequency, and transistor count. These factors are critical to the performance and performance of the leader.
In the future development, we hope to see more technological breakthroughs and innovations to further enhance the core qualities of leadership. Finally, I would like to ask a question, what do you think about the world's first 3nm chip A17? What do you think are the core qualities of leadership?
欢迎留言讨论!iPhone 15 Pro: The Evolution of Visual ExperienceThe release of the new iPhone 15 Pro has sparked excitement among tech enthusiasts. With its redesigned shader architecture and the addition of ray tracing, Apple seems to be following in the footsteps of its competitors Qualcomm and
MediaTek. Previously, ray tracing was achieved through software, but now it has been integrated into the hardware, resulting in more realistic lighting effects. Rumor has it that this feature is a preparation for Apple's upcoming M3 chip for their rumored Apple Glasses, aiming to enhance the
capabilities of their neighboring department. While the support for ray tracing in consumer games is yet to be fully realized, the first game to support this feature is expected to be "Nishuihan." From the demonstration footage, we can already see the stunning effects of ray tracing on wate
r, lighting, fire, and weather details. How significant do you think this improvement in lighting effects isIn addition to ray tracing, the iPhone 15 Pro introduces a new feature called MetalFX, which is similar to NVIDIA DLSS and AMD FSR, two popular supersampling technologies in computer
graphics. Essentially, MetalFX improves graphics rendering speed and quality, bringing the iPhone closer to the capabilities of high-end graphics cards. By leveraging neural network engines (NPU), MetalFX enhances the visual experience by extrapolating and generating more details. Ultimatel
y, this technology allows for faster and smoother gameplay with higher frame rates. It's worth mentioning that games like "Resident Evil: Village" and "Assassin's Creed: Valhalla" will soon support MetalFX, although "Resident Evil: Village" is limited to 30 frames per second. However, despit
e Apple's efforts, the A17 chip still falls short compared to the Snapdragon 8 Gen2 in terms of overall performance. As the Snapdragon 8 Gen2 evolves into the more powerful Snapdragon 8 Gen3, one can't help but wonder if Apple has been left behind in the race for technological supremacy. No
w, let's take a closer look at the neural network chip, or engine, which can be considered as the central nervous system of the iPhone 15 Pro. This chip plays a crucial role in upscaling the image quality, similar to how our retinas convert three-dimensional scenes into two-dimensional image
s. By employing various methods and techniques, the neural network engine enhances the details and enables the eyes to perceive a more refined visual experience. It's important to note that this technology relies on deep learning algorithms to "guess" and generate additional details. On a re
lated note, games like "Resident Evil: Village" will be released on October 30th, while "Resident Evil 4: Remake" is scheduled for December 31st. As for "Assassin's Creed: Valhalla," fans will have to wait until next year. However, it's worth noting that even with MetalFX, these games are cu
rrently limited to 30 frames per second. In conclusion, the release of the iPhone 15 Pro marks a significant evolution in visual experience. With the introduction of ray tracing, MetalFX, and the neural network engine, Apple is pushing the boundaries of smartphone graphics capabilities. How
ever, it is undeniable that Apple still has room for improvement, especially when compared to competitors like Qualcomm's Snapdragon 8 Gen2 and the highly anticipated Snapdragon 8 Gen3. As technology continues to advance, it remains to be seen how Apple will respond to the ever-increasing de
mands for enhanced visual experiences. Will they be able to catch up and take the lead in the race for the ultimate smartphone graphics Only time will tell. What are your thoughts on the latest advancements in iPhone graphics technology Do you believe these improvements will significantly i
Neural network chip to improve the speed of machine learning tasks With the rapid development of artificial intelligence, neural network chips have increasingly become a hot spot in the field of science and technology, it is a processor similar to the behavioral characteristics of animal neural networks, which can improve the speed of machine learning tasks, mainly used in video analysis, Areas such as speech recognition and image processing. So, how do neural network chips perform in mobile phone applications and painting software applications? This article will explain it in detail for you. Mobile phone application field In the most common and perceptible mobile phone application field for consumers, we can see the application of neural network chips.
For example, the chip can provide algorithm support for unlocking face recognition for mobile phones, and can also automatically turn on portrait mode when taking photos, adjust the depth of field information of the screen, realize real-time automatic conversion of picture focus in cinematic effect mode, and improve game performance through technologies such as MetalFX super-resolution algorithm. The realization of these functions is inseparable from the fast calculation and processing speed of the neural network chip. In iOS 17, Apple introduced a new neural network chip (engine) that, according to officials, can perform up to 35 trillion operations per second, which is more powerful than the previous generation of chips. The chip can run models locally instead of in the cloud, providing better automatic error correction, extracting subjects from the background of photos, and more. At the same time, it can also train a personal voice library to imitate and learn your voice and speed up reading aloud.
The computing power of this chip has also been increased from 17 TOPS to 35 TOPS, which can significantly improve the transmission speed of the nervous system, and compared with the fourth-generation cockpit chip Snapdragon 8295, which led Qualcomm in the company next door, Apple's neural network chip has a higher computing power, reaching 35 TOPS. Compared with Qualcomm, although Qualcomm has performed well in the field of car companies, in the field of mobile phones, Apple has higher capabilities. In terms of knowledge reserves, Apple's neural network chip is still a certain gap compared with the leaders of the company next door. Qualcomm's chips are capable of intelligent question answering and creating copywriting based on the user's text requirements, and even writing code. However, with the continuous development of technology, I believe that this gap will gradually narrow. In addition to the application field of mobile phones, neural network chips have been widely used in painting software applications.
In the mobile AI painting software Draw things, you only need to import a model to generate a 2048*2048 picture. Choose to call CPU + NPU, and finally produce the image in 1 minute and 20 seconds, which is already quite fast. At the same time, Qualcomm's chip can intelligently ask and answer, and create copywriting according to the user's text requirements, and even write code. The advent of neural network chips provides a faster and more efficient solution for artificial intelligence, and Apple's new neural network chips are more powerful and can provide users with a better experience. Although there is a gap in terms of knowledge reserve, we believe that this gap will gradually narrow as technology continues to develop. In the future, we can expect neural network chips to be widely used in more fields to provide stronger support for the development of AI technology.
Leading the future: Apple's A17 Pro chip leads technological innovationApple has always played an important role in the technology field, especially in chip design. The latest A17 Pro chip is hailed as Apple's top piece, and it has impressive capabilities and features. Through the self-developed large model "Ajax GPT", the A17 Pro chip not only surpasses GPT-3.5 in terms of performance level, but also has more than 200 billion parameters. This means that leaders will have a large reserve of knowledge and will be able to improve their abilities through one-off indoctrination. In addition, the A17 Pro chip has also been comprehensively upgraded in other aspects, bringing a more professional experience to leaders. First, the A17 Pro chip introduced the ProRes codec.
This codec is specifically designed to process video in Apple's ProRes format, an advanced video format developed by Apple. Compared to normal formats, the ProRes format is able to record deeper color information, capture more detail, and provide a higher luminance range. The ProRes codec transcodes and compresses video through hardware, so that every pixel of every frame is precisely processed to deliver higher quality video. Secondly, the A17 Pro chip also added the Pro display display engine. This engine is mainly used to drive the iPhone's adaptive refresh rate feature. By intelligently adjusting the refresh speed of the screen, the Pro display display engine provides a smoother viewing experience.
At the same time, it also has an all-weather display function, which can automatically adjust the brightness of the screen to achieve the effect of power saving and make the leader's mobile phone last longer. Finally, the A17 Pro chip introduces a new AV1 decoder. This is the first decoder in Apple's chip family to provide a more efficient and higher-quality video experience for streaming services. Although the AV1 decoder does not support encoding, it provides better video decoding performance, allowing leaders to enjoy clearer and smoother streaming content. Overall, Apple's A17 Pro chip brings excellent technical capabilities and functional experience to leaders. Whether it's knowledge indoctrination through Ajax GPT or the addition of the ProRes codec, Pro display display engine, and AV1 decoder, leaders can handle transactions more professionally and increase productivity.
In the future, we can expect Apple's continuous innovation in the field of chip design to bring more surprises to users. After the introduction and analysis of the A17 Pro chip, we can't help but wonder, has such a strong technical ability had a positive impact on the work of the leadership? Can leaders better respond to complex business needs? Will these new features improve leadership efficiency and leadership? Welcome to leave a message to share your views and opinions. With the wide application of AV1 format encoding in the field of high-bitrate video, the A17 Pro chip will become the best choice for AV1 format hard solution on mobile phones and iPads. This will greatly improve the video decoding speed, reduce the CPU burden and save energy. However, if the up/blogger uploads a low-bitrate video, this feature loses its meaning.
In addition, the A17 Pro chip also has a new USB controller, supports USB 3.1, the maximum speed can reach 10Gb/s, which is twice as fast as the previous chip, supports 4K 60 frames of ProRes video directly recorded to the hard disk, and projected to an external display, and also introduces a UWB chip for positioning. AV1 format encoding has become the mainstream standard for high-bitrate videoIn recent years, with the gradual popularization of high-definition images such as 4K and 8K, the demand for high-bitrate video is also increasing. In this field, AV1 format encoding has become the mainstream standard. For mobile devices such as mobile phones and iPads, the decoding of AV1 format requires a lot of CPU resources, which will cause device heating and power consumption, and affect user experience.
The A17 Pro chip realizes the hard solution of the AV1 format, and the emergence of the A17 Pro chip solves this problem. The A17 Pro chip supports AV1 format hard decoding, that is, the hardware decoding capability of the chip realizes the decoding of AV1 format video, thereby reducing the CPU burden and saving power. This feature will be more widely used after adding the AV1 format encoding playback strategy option like a computer to the B station and YouTube apps on the mobile phone and iPad. In addition to the AV1 format hard solution, the A17 Pro chip also has a new USB controller, which supports USB 3.1 and can reach a maximum speed of 10Gb/s. Compared with the USB 3.0 controller of the previous chip, the USB controller inside the A17 Pro chip is twice as fast.
According to the official, the transfer rate of the A17 Pro chip is 20 times faster than that of the USB 2 interface on the iPhone 15, which will greatly improve the efficiency of data transmission. UWB chip for positioning In addition to AV1 format hard solution and a new USB controller, the A17 Pro chip also introduces UWB chip for positioning. UWB (Ultra-Wideband) technology is a short-distance high-speed data transmission technology with the advantages of precise positioning and high-speed data transmission. In the A17 Pro chip, the UWB chip can be used to achieve precise positioning, which will bring more possibilities for location services, smart homes and other fields.
Summary The emergence of the A17 Pro chip will become the best choice for hard solution of AV1 format on mobile phones and iPads, which can greatly improve video decoding speed, reduce CPU burden and save energy. In addition, the A17 Pro chip also has a new USB controller, supports USB 3.1, and the maximum speed can reach 10Gb/s, which will greatly improve the efficiency of data transmission. The introduction of UWB chips has brought more possibilities for location services, smart homes and other fields. The development of mobile phone chips has been upgraded from the first generation U1 to the second generation ultra-wideband chip U2, as well as the Qualcomm X70, which is responsible for communication signals, while the 5G baseband chip is plugged in. Although the performance of the A17 Pro has reached its peak, we can see that the mobile phone chip process does not have much room for improvement. From a consumer perspective, mobile phone performance is already excessive.
However, the real problem that consumers can perceive is not performance, but heat dissipation. After all, we can't always use a cooling clip while gaming. Allowing users to adapt is not a long-term solution, so we hope that the internal heat dissipation of the mobile phone can be improved, otherwise there will be an embarrassing situation similar to "Lv Bu riding a dog". It is undeniable that with the rapid development of the mobile Internet, mobile phones have become an indispensable part of people's lives. From the original functions for calling and simple text messaging, to today's multimedia entertainment, social networking and mobile payment, mobile phones are becoming more powerful and performant. However, with the advancement of technology and market competition, the performance of mobile phones has gradually exceeded the actual needs of users. Today, mobile phone processors are powerful enough to run complex applications and games.
However, most users don't need such a lot of processing power. For general daily use, a low-end mobile phone processor is completely enough. Therefore, for the average consumer, the performance of mobile phones has become excessive. At the same time, the process of mobile phone chips does not have much room for improvement. At present, the manufacturing process of mobile phone chips has developed to a size of 7 nanometers or even smaller. Further down, the challenges will become more and more challenging. Therefore, we can foresee that the process improvement space of mobile phone chips will become more and more limited in the future. However, while the phone's performance is already powerful enough, the biggest concern for consumers is not performance. Instead, they are more concerned with heat dissipation. As the performance of the mobile phone improves, its power consumption also increases, resulting in the mobile phone being prone to heat up under high load conditions.
This will not only affect the user's experience, but also affect the life and stability of the mobile phone. At present, in order to solve the heat dissipation problem, some mobile phone manufacturers use the design of the heat dissipation back clip, so that users need to install additional heat dissipation clips when using mobile phones. However, this solution is not very ideal, since it not only increases the complexity of use, but also makes the phone bulky. For the average user, such a design is not too practical. Therefore, we hope that mobile phone manufacturers can improve the heat dissipation inside the fuselage. More efficient heat dissipation materials and heat dissipation structures can be used to improve the heat dissipation effect of mobile phones. At the same time, it can also reduce the power consumption of mobile phones and reduce heating problems by optimizing software algorithms. Only in this way can the mobile phone truly achieve a balance of high performance and good heat dissipation. In general, the performance of mobile phone chips has approached the ceiling, and the room for improvement in technology is limited.
For consumers, the performance of mobile phones has been excessive, and more attention is paid to the problem of heat dissipation. Therefore, mobile phone manufacturers should improve the heat dissipation inside the fuselage to improve the user experience. Only in this way can mobile phones truly meet the needs of consumers. Finally, we can't help but think about the question: with the development of smart phones, is there more room for improvement in the performance of mobile phone chips? How should mobile phone manufacturers balance the relationship between performance and heat dissipation? Feel free to leave your comments and discuss this topic together.