After rebirth, I started a life of attributes

Chapter 219 Entering the graphics card, 5090

After the "Star Warframe" game became popular all over the world, the "Xingyao" game company founded by Chen Feng also prospered and stabilized its position as one of the top ten famous game companies in the world.

After the company became one of the top ten well-known game companies in the world with the game "Warframe", the game company founded by Chen Feng continued its efforts and successively launched two highly anticipated games by players - "Fantasy World" and "Forza Motorsport" 》.

"Fantasy World" is a massively multiplayer online role-playing game (MMORPG). The game is set in a world full of magic and mystery. Players can choose different professions and races to explore, fight monsters, upgrade, and explore in this world. mission accomplished. The game has exquisite graphics, melodious music, and rich world views, making players feel like they are in a real fantasy world.

In the game, players can team up with other players to challenge powerful dungeon bosses, or join a guild to participate in guild activities and wars.

In addition, the game also has PVP gameplay such as arena and battlefield, allowing players to show off their skills in the game. The game has a high degree of freedom. Players can freely explore the world and even change the world's terrain to create their own miracles.

"Fantasy World" has received extremely high praise from players. Many players said that this game allowed them to regain the passion they had when playing "World of Warcraft".

The rich plot and diverse gameplay in the game make players immersed in it and unable to extricate themselves. Some players even spontaneously organize in-game activities, such as guild gatherings, battlefield competitions, etc., which further enriches the content of the game.

Compared with "Fantasy World", "Forza Motorsport" is a racing game full of passion and speed.

The game is based on famous racing tracks in the real world and includes hundreds of real-life vehicles, allowing players to drive their favorite racing cars on the track.

"Forza Motorsport" has exquisite graphics, outstanding sound effects, and the car driving feels great. The cars in the game can be freely modified, from the engine, suspension, brakes to tires, players can build their own car as they like. In addition, the game also supports online battles, allowing players to compete with racers from around the world.

"Forza Motorsport" has also received high praise from players. Many players said that this game allowed them to experience the fun of driving, and some even fell in love with racing because of this game.

The game is highly competitive, allowing players to constantly challenge themselves in the game and pursue higher honors. Some players also spontaneously organize in-game competitions, such as time trials, knockout rounds, etc., making the game more playable.

With the help of two new games, the game company founded by Chen Feng has achieved new highs in performance and consolidated its position in the global game market.

These two games have also become classics in the hearts of players, allowing countless people to find their own happiness in the game.

After the success of the two games "Fantasy World" and "Forza Motorsport", Chen Feng's company's reputation has grown and its performance has also been rising. However, Chen Feng was not satisfied with this. He set his sights on a new field-graphics card manufacturing.

The two games "Fantasy World" and "Forza Motorsport" have extremely high requirements on graphics cards, requiring a minimum of 4060ti to play smoothly. This has caused many players to purchase 4060ti and above graphics cards in order to play these two games, which has greatly increased sales in the graphics card market, and graphics card manufacturers have also made a lot of money.

Chen Feng conducted in-depth research on this phenomenon and found that as the graphics of games become more and more exquisite, the requirements for graphics cards are also getting higher and higher. This means that the potential of the graphics card market is huge, and the profits of the graphics card manufacturing industry are also considerable. This made Chen Feng excited, and he began to consider entering the graphics card industry.

In order to further understand the graphics card manufacturing industry, Chen Feng personally visited a number of graphics card manufacturers and had in-depth discussions with them. Through these exchanges, Chen Feng gained a deeper understanding of the graphics card manufacturing industry and strengthened his determination to enter this industry.

Chen Feng sees that the development prospects of the graphics card manufacturing industry are very broad. With the advancement of technology, people have higher and higher requirements for game graphics, which will undoubtedly promote the continuous development of graphics card technology. At the same time, graphics cards are widely used not only in the gaming field, but also in scientific research, graphic design, video editing and other fields. This means that the graphics card manufacturing industry has huge market potential and broad room for development.

Moreover, Chen Feng also discovered that the profits of the graphics card manufacturing industry are also considerable. With the continuous development of graphics card technology, the price of graphics cards is also rising, which makes graphics card manufacturers gain huge profits.

Especially with the popularity of the two games "Fantasy World" and "Forza Motorsport", sales in the graphics card market have increased significantly, and graphics card manufacturers have made even more profits.

After having an in-depth understanding of the development prospects and profit margins of the graphics card manufacturing industry, Chen Feng made up his mind to enter the graphics card industry. He decided that he would create a powerful and affordable graphics card so that every player could play his games and give his company a place in the graphics card manufacturing industry.

However, Chen Feng also knows that competition in the graphics card manufacturing industry is fierce, and it will take tremendous efforts to gain a foothold in this industry. But he is not afraid. With the attribute panel in hand, one-nanometer lithography machine manufacturing technology, an intelligent robot and a wise heart, manufacturing graphics cards is not a problem for him.

Secret research base.

Chen Feng sat in front of the computer, holding a 4090 graphics card in his hand. He decided to enter the graphics card industry. In order to better understand the manufacturing process of graphics cards, he decided to dissect the graphics card himself.

First, Chen Feng prepared a high-definition camera to record the splitting process. He placed the graphics card on the table and carefully observed its appearance. The graphics card is rectangular in shape, with the words 4090 printed on the surface and the NVIDIA logo. The graphics card measures approximately 280mm x 120mm x 60mm and comes in black and gold tones.

Chen Feng began to disassemble the graphics card. He first removed the graphics card's heat sink, which is a heat sink made of aluminum with many heat dissipation holes on the surface. The heat sink is fixed on the graphics card with screws, and Chen Feng uses a screwdriver to remove it. The heat sink weighs about 300 grams and feels very thick in the hand.

Next, Chen Feng began to break down the core parts of the graphics card. He used flat-nose pliers to grasp the frame of the graphics card and carefully pried open the connection between the core and the circuit board. In the process, he noticed that the core part of the graphics card is a small chip made of a piece of silicon. This is the core of the graphics card, which is responsible for processing images and performing calculations.

Chen Feng continued to split the graphics card. He removed the core, exposing the circuit board. There are many electronic components on the circuit board, including capacitors, resistors, transistors, etc. These components are connected together through small circuit lines to form the circuit system of the graphics card. Chen Feng carefully observed the components on the circuit board. He found that some components had English letters and numbers on them, which were the manufacturer's logo and model number.

Chen Feng continued to split the graphics card. He removed the circuit board, exposing the back panel of the graphics card. There are also many electronic components on the backplane, including interface chips, power management chips, etc. These components connect the graphics card to the computer motherboard and manage the power supply to the graphics card. Finally, Chen Feng removed the cooling fan of the graphics card. The cooling fan is fixed to the graphics card with screws, and he used a screwdriver to remove it. The blades of the cooling fan are made of plastic, and the dimensions of the fan are approximately 80 mm × 80 mm × 10 mm.

Chen Feng completed the process of splitting the graphics card. He placed the disassembled parts on the table, carefully observed and recorded them. Through this process, he gained a deeper understanding of the manufacturing process of graphics cards.

Chen Feng concluded that the manufacturing process of graphics cards is very complex and requires multiple processes, including design, manufacturing, and assembly. At the heart of a graphics card is a small chip made of silicon that processes images and performs calculations.

There are many electronic components on the circuit board of the graphics card, which are responsible for connecting and controlling the work of the graphics card. The cooling system of the graphics card is also very important, responsible for dissipating heat and ensuring the normal operation of the graphics card.

Through this process of splitting the graphics card, Chen Feng gained a deeper understanding of the manufacturing process of the graphics card.

After learning about the manufacturing process of graphics cards, he decided to try to imitate a 4090 graphics card himself.

First, Chen Feng started the design phase of the graphics card. He spent a lot of time researching and analyzing the architecture and circuit design of the 4090 graphics card. Through an in-depth understanding of the working principles of graphics cards, he gradually mastered the key technologies of graphics card design.

Next, Chen Feng entered the production stage. He purchased the required materials and equipment, including silicon wafers, photoresist, etching fluids, etc. He set up photolithography, etching, ion implantation, metal wire deposition and other process steps in his laboratory. Although this process is very complicated, Chen Feng gradually mastered the operating skills of each step through constant experimentation and adjustment.

After completing the sample manufacturing of the graphics card, Chen Feng entered the testing stage. He conducted various tests, including four-corner tests, high-temperature fatigue tests, etc., to ensure the yield and stability of the graphics card. He also performs performance testing on the graphics card to ensure it is working properly and achieving expected performance levels.

Finally, Chen Feng carried out the packaging stage of the graphics card. He installed the qualified graphics card chip onto the PCB board of the graphics card and then conducted a quality inspection. After making sure all components were installed correctly, he finished packaging the card.

After several months of hard work, Chen Feng finally successfully copied a 4090 graphics card.

After successfully replicating the 4090 graphics card, Chen Feng couldn't wait to test whether the performance of the graphics card he made had the performance of the genuine graphics card. In order to conduct comprehensive performance testing, he designed a series of detailed test plans.

First of all, Chen Feng chose a variety of different benchmark testing software, such as 3DMark, Unigine Heaven, FurMark, etc., which can comprehensively evaluate the performance of the graphics card. He conducted tests at 1080p, 2K and 4K resolutions to understand the performance of the graphics card at different resolutions.

During the test, Chen Feng recorded the frame rate, power consumption, temperature and other data of the graphics card in detail. By comparing the data of the genuine 4090 graphics card, he found that the performance of the counterfeit graphics card was completely comparable to the genuine graphics card. In most tests, the frame rate of the imitation graphics card is very close to that of the genuine graphics card, and in some scenarios, the imitation graphics card even performs better.

In order to further verify the performance of the graphics card, Chen Feng also conducted some actual game tests. He chose popular games such as "Cyber ​​Psycho 2077" and "Uncle 2" and tested them at low, medium and high image quality respectively. Test results show that the performance of imitation graphics cards in games is almost the same as that of genuine graphics cards. In some cases, the frame rate of imitation graphics cards is even higher.

During the test, Chen Feng also paid attention to the power consumption and temperature of the graphics card. He found that the counterfeit graphics cards consumed slightly less power than the genuine cards, possibly due to the more efficient circuitry and power management techniques he used during the design process. At the same time, the temperature of the imitation graphics card is also quite well controlled. Even under long-term high-load operation, the temperature of the graphics card does not exceed the normal range.

After a series of rigorous performance tests, Chen Feng finally confirmed that the performance of his imitation 4090 graphics card was completely comparable to the genuine graphics card. This made him feel very proud and gratified, because he knew that he had successfully mastered the key technologies of graphics card manufacturing and was able to produce products that were comparable to genuine graphics cards.

After successfully replicating the 4090 graphics card, Chen Feng was not satisfied with this. He decided to challenge himself and develop a 4090 graphics card that was stronger than the 5090 graphics card. He knows that this requires him to make greater breakthroughs and innovations in the graphics card manufacturing process.

Chen Feng first conducted an in-depth study of the architecture of the 4090 graphics card and found out its performance bottleneck. Then, he began to design the architecture of the 5090 graphics card, and he decided to innovate in the following aspects:

Using a new GPU core. Chen Feng decided to abandon the GPU core of the 4090 graphics card and instead chose to independently develop a new GPU core. He spent a lot of time and energy and finally succeeded in designing a more powerful GPU core.

Optimize memory controller. Chen Feng optimized the memory controller and increased its bandwidth and frequency so that the graphics card can process large amounts of data faster.

Introducing new rendering technology. Chen Feng introduced a new rendering technology in the 5090 graphics card, which can greatly improve the performance of the graphics card when rendering complex scenes.

Adopt more advanced manufacturing technology. Chen Feng decided to use a more advanced process technology to manufacture the 5090 graphics card, which can improve the performance of the graphics card and reduce its power consumption.

After completing the design of the 5090 graphics card, Chen Feng began the production and testing of the graphics card. He used the latest photolithography, etching, ion implantation, metal wire deposition and other processes. After several experiments, he finally successfully produced a sample of the 5090 graphics card.

Chen Feng conducted rigorous tests on the 5090 graphics card. He used various benchmark testing software and actual games to test, and he was very satisfied with the results.

The performance of the 5090 graphics card completely exceeded his expectations. Compared with the 4090, the performance of the 5090 graphics card has been improved by 50%, which can be said to be a qualitative leap.

Moreover, in the assembly line production mode, the cost of 5090 can be reduced to the cost of 4090.

(End of this chapter)