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What are the novels about the protagonist's rebirth and computer development?

What are the novels about the protagonist's rebirth and computer development?

2026-07-14 02:52
1 answer

I recommend a few novels. " The Man Standing at the Top of Ninja World " was a light novel written by Yu Duchen. It talked about various ideas after crossing the growth gate, such as following Zirai back to Muye. The book list commented that the main character was invincible and wanted to master Muye Ninjutsu, but the update was slow. " Urgent, How to Fall in Love with a Top Female Celebrity " was a novel written by an urban entertainment star. The main characters were the tycoon son Lee Yoon-taek and the genius girl Kim Ji-Soo. The supporting characters included Park Seung Hyun, Bae Joo Hyun, and others. The main story was about daily love, and there was also a book group. " Defenders of the War of Resistance " was a military anti-Japanese war novel. The Mercenary Gun God returned to the anti-Japanese battlefield to develop the military industry. There were many characters, and the evaluation was that the anti-Japanese theme was written well. " Lord of the Whole People: I built the Supreme Immortal Realm " was a gaming novel written during the day. Xu Lin was chosen to participate in the competition for hegemony among the ten thousand races. He used his exclusive props to transform the buildings and become invincible. " Magic Softwares and Softwares " was a fantasy novel written by a resilient engineer. It talked about engineers who used science knowledge to explore the origin of magic while traveling through other worlds. There was also a reader exchange group. Read more exciting novels for free

History of Computer Development

The history of computer technology can be traced back to the early 20th century. Vacuum tube computers: In the early 1940s, people began to use vacuum tubes to make computers. These computers were slow, required a lot of power, and were easily damaged. In the mid-1950s, people began to use the crystal to make computers. These computers were faster, more reliable, and did not require a lot of electricity. Integrated Circuit Computer: In the late 1960s, people began to use integrated circuits to make computers. These computers became more compact, faster, and easier to maintain. Personal computers: In the late 1970s, people began to manufacture personal computers. The emergence of these computers made it easier for people to process data and communicate. Internet: In the early 1990s, people began to use the Internet to transmit data. With the continuous development of the Internet, people can use the Internet to carry out a wider range of communication, learning, entertainment and other activities. As time passed, computer technology continued to develop and had a profound impact.

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2024-09-13 07:20

The History of Computer Development

The development of computers could be divided into several stages. Before 1946, there were relay computers, such as the Harvard Mark I, which was an mechatronics computer and the prototype of modern computers. 1946 - 1957 was the first generation of electron tube computers, represented by ENIAC. It used electron tubes, which were large in size, high in power consumption, and slow in speed. It was mainly used for scientific calculations. From 1958 to 1964, it was a transistor-based computer. The transistor-based computer replaced the vacuum tube and improved its performance. From 1964 to 1970, integrated circuit computers were introduced, and the size of computers was further reduced. After 1970, there were large-scale integrated circuit computers with higher performance. Now, it was still developing towards the fifth generation of artificial intelligence computers. " A Short History of the Future: Legends of the Intelligent Era " was equally exciting. Everyone was welcome to click and read it!

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2026-03-31 02:50

The History of Computer Development

The history of computer development can be summarized as follows: 1. ** Relay-based computer stage **: This was the early prototype of computer development. Relay-based computers had both mechanical and electrical characteristics. Relays were used as components in the calculation circuit. It was the first computer invented after mankind entered the electrical age. Its representative was Harvard University's Mark I computer, designed by Aiken and manufactured by iPhone. It was manufactured and debugged in 1943, and was named the Harvard Mark I in 1944. At this stage, the computer ran on electricity. Compared to the era of pure mechanical calculators, the computing speed was faster and the functions were more powerful. 2. ** Vacuum tube computer stage (1946 - 1957)**: On February 14, 1946, the world's first electronic digital computer, ENIAC, was born at the University of Pennsylvania. It used vacuum tubes as its components. It was huge (18000 vacuum tubes were used, covering an area of 150 square meters and weighing 30 tons), consumed a lot of power (about 150 Kilowatts), was prone to heat, and its working time was limited. It used machine language and no system software. It used magnetic drums and small magnetic cores as storage devices, which had limited storage space. The input/output equipment was simple (using punched paper tape or cards). It was mainly used for scientific calculations. 3. ** Crystallizer computer stage (1958 - 1964)**: Using the crystal as the basic component of the computer. Compared to electronic tubes, the size of a crystal was smaller, the weight was lighter, the lifespan was longer, the efficiency was higher, the heat generated was lower, and the power consumption was lower. The overall performance was better than the first generation, the computing speed was greatly improved, and the weight and size were significantly reduced. The programming language mainly used high-level computer languages, such as Fororan, Cobol160, and so on. During this period, computers began to be used in data processing and process control while performing scientific calculations. 4. ** Integrated Circuit Computer Stage (1964 - 1970)**: With the development of the semiconductor technology, integrated circuits became the main components of computers, further reducing the size of computers and reducing the power consumption during calculations. In terms of software, they began to use a standardized programming language and the human-computer conversational Basic language, further expanding the application field. 5. Large-scale integrated circuit computer stage (after 1970): With the scale of integrated circuits, the size of computers has been further reduced, and the performance has been further improved. The application of software system engineering, theorization, and programming automaton. The software was used for network operating systems and object-oriented programming. The application of microcomputers was further expanded to cover almost all fields. 6. ** Artificial intelligence computer stage (in development)**: The research fields of the fifth-generation computer generally include artificial intelligence, system architecture, soft engineering, support equipment, and the impact on society. Artificial intelligence would be the mainstream of information processing in the future. This generation of computers would have a learning mechanism that could simulate the work of the human optical nerve control system. It would have the ability to formally reason, associate, learn, and explain. It would be able to help people make judgments, make decisions, explore unknown areas, and obtain new knowledge. "A Short History of the Future: Legends of the Intelligent Era" was equally exciting. Everyone was welcome to click and read it!

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2026-04-04 18:16

The History of Computer Development

The history of computer development can be roughly divided into the following stages: ** I. Early Prototype-Relay-Based Computer (1943 - 1944)** The relay computer was the earliest prototype of the modern computer. It had both mechanical and electrical characteristics. The Mark computer, designed by Aiken from the Harvard University Computer Laboratory and manufactured by iPhone, was the best example. In 1943, it was manufactured and debugged. In 1944, it was named the Harvard Mark I. It was very large, 51 feet long and 8 feet high. It was equipped with 750,000 various devices, such as binary-based switches, decimal-based switches, relaying, rotating wheels, and gears. The signal and power cables connecting the internal components were more than 500 miles long, and the manufacturing cost was about 400,000 to 500,000 US dollars. At this stage, the computer was powered by electricity, and digital calculations and information processing were completed through relay circuits. Compared to calculators in the pure mechanical era, the computing speed was faster and the functions were more powerful. ** Second, the first generation of vacuum tube computers (1946 - 1957)** In 1906, the American engineer DeForest invented the three-pole vacuum tube, laying the foundation for the birth of the tube computer. On February 14, 1946, the world's first electronic digital computer, ENIAC, was born at the University of Pennsylvania. Vacuum tube computers mainly used vacuum tubes as the main components. The computers of this period were huge, consumed a lot of power, were slow, had small storage capacity, poor reliability, difficult to maintain, and expensive. The software used was mainly machine language (the computer hardware could directly recognize the binary-code), mainly used for scientific calculations. The famous term "Bug" came from the first generation of computers. It was named after the small bugs that entered the vacuum tube and affected the computer's work. ** III. Second-generation transistor-based computers (1958 - 1964)** The transistor-based computer used the transistors as the basic components of the computer. Compared to vacuum tubes, the size of a crystal was smaller, the weight was lighter, the lifespan was longer, the efficiency was higher, the heat generated was lower, and the power consumption was lower. The overall performance was better than the first generation, the computing speed was greatly improved, and the weight and size were significantly reduced. The programming language mainly used high-level computer languages, such as Fororan, Cobol160, and so on. In addition to scientific calculations, computers were also used in data processing and process control. ** IV. Third Generation Integrated Circuit Computer (1964 - 1970)** With the development of semiconductor technology, integrated circuits became the main component of computers. This further reduced the size of the computer and reduced the power consumption during calculations. In terms of software, they began to use the standardized programming language and the human-computer conversational Basic language, further expanding the application field. ** V. Fourth-generation large-scale integrated circuit computer (after 1970)** As integrated circuits became larger, the size of computers became smaller and their performance improved. The software system was engineering, theoretical, and programming automaton. The software was for network operating systems and object-oriented programming. The application of microcomputers was further expanded, and they were involved in almost all fields. ** 6. Fifth Generation Artificial Intelligence Computer (Future Development Direction)** The research fields of the fifth-generation computer generally included artificial intelligence, system architecture, software engineering, support equipment, and the impact on society. Artificial intelligence would be the mainstream of information processing in the future. Therefore, the development of the fifth-generation computer would be closely integrated with artificial intelligence, knowledge engineering, and expert systems. It would have a learning mechanism that could simulate the work of the human visual nerve control system. It would have the ability to formally reason, associate, learn, and explain. It would be able to help people make judgments, make decisions, explore unknown areas, and obtain new knowledge. In the history of computer development, there were also some representative computer products, such as: the iPhone 726 was born in the late 1950s and was mainly used for large-scale data storage; the ICL2 was released in the late 1970s and was a model of commercial computers at that time; the Pilot ACE was one of the early general-purpose electronic computers that ran the first program in May 1950; the Control Data 6600 was the world's fastest computer from 1964 to 1969; There was also the HDI75 from East Germany and the EAI Pace, one of the earliest desktop computers. In addition, the CPU was also constantly developing, such as the Intel series, and the Intel series. "A Short History of the Future: Legends of the Intelligent Era" was equally exciting. Everyone was welcome to click and read it!

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2026-04-05 20:55

History of Computer Development

The history of computer development can be divided into the following four stages: 1. 1854 - 1890: This was the early stage of computer development. 2. 1890-early 20th century: During this period, computers continued to evolve. 3. Mid-20th century: A series of key developments in computer technology occurred during this period. 4. Late 20th century-present: Computer technology continues to be reformed and expanded in this stage. For example, from the early electronic digital computer to the modern computer with powerful performance and diverse functions, it involves the continuous development of miniaturized hardware, high performance, and software. On February 14, 1946, the world's first electronic digital computer, ENIAC, was born at the University of Pennsylvania. " A Short History of the Future: Legends of the Intelligent Era " was equally exciting. Everyone was welcome to click and read it!

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2026-04-12 10:48

Computer development Ptt

The development of computers was a long process from the mechanical age to the information age. In the beginning, in the era of mechanical calculators, calculations were completed by mechanical parts such as lever, wheels, and axes. The power came from the operator. With the advent of the electrical age, relay computers appeared. Relays were a combination of electrical and mechanical devices, and their computers had both mechanical and electrical characteristics. For example, the Harvard Mark I computer was the prototype of a modern computer, but its internal structure was complex, and there were many components and huge volumes. In 1906, the American engineer DeForest invented the three-pole vacuum tube, laying the foundation for the birth of the tube computer. Due to the urgent need for computing speed during World War II, electronic digital circuits based on vacuum tubes were much faster than relay circuits, which led to the development of vacuum tube computers. Professor Anasov and his student, Bailey, had developed the world's first simple and limited electronic tube digital calculator. In 1946, the ENIAC developed by the Moore School of Electric Engineering at the University of Pennsylvania was the world's first operational electronic digital computer. It was designed and developed by Mochley and Eckart, consisting of many tubes, resistances, condensers, relaying, and switches. After that, computer technology continued to improve. From the crystal computer to the integrated circuit computer, to the large-scale and ultra-large-scale integrated circuit computer. The performance of the computer continued to improve, the size continued to shrink, and the price became more affordable. It developed into high-performance personal computers, servers, supercomputers, and many other forms, which were widely used in various fields. The invention of the computer was one of the most advanced scientific and technological inventions of the 20th century. Its application field expanded from military scientific research to various fields of society, driving global technological progress and triggering profound social changes. Its application was becoming more and more common in China, and the number of computer users and application level continued to increase. " A Short History of the Future: Legends of the Intelligent Era " was equally exciting. Everyone was welcome to click and read it!

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2026-03-09 16:25

The Future Development of Computer

The future of computers had the following directions: 1. ** The widespread application of artificial intelligence and machine learning **: Artificial intelligence and machine learning technology will be more widely used in many fields to improve productivity and efficiency. 2. ** Cloud computing becomes mainstream **: As the amount of data continues to increase, cloud computing will become the preferred method for enterprises and individuals to store and process data. 3. ** Further development of mobile computing **: The popularity of mobile devices and the promotion of 5G networks will continue to promote the development of mobile computing. 4. ** Universal digital transformation **: More and more companies and industries will use digital transformation to improve efficiency and competitiveness. 5. ** Data privacy and security are valued **: The importance of digital data in life and business is increasing, and data privacy and security will become a concern. 6. ** Large-scale computers (in terms of computing power)**: The various computer countries have invested heavily in the field of supercomputers. Supercomputers play an irreplaceable role in many aspects. As the demand for cloud services increases, the server supercomputing is an irreversible trend. 7. ** Microcomputing **: The development of the Internet of Things will promote the process of miniaturized. In the future, microcomputers will be applied to more machines and daily necessities. Microworld research also requires the participation of computers. 8. ** The special development trend of personal computers **: Brain-computer interface and VR will become an important development direction of personal computers in the future. They may replace monitors, keyboards, and mice, and computer hosts may become wearables. "A Short History of the Future: Legends of the Intelligent Era" was equally exciting. Everyone was welcome to click and read it!

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2026-03-14 08:06

5 Future Development of Computer

The future development of computers was as follows: 1. ** Technology innovation continues to drive change **: The computer industry is driven by innovation. From the vacuum tube computer to today's artificial intelligence and quantum computing, in the future, emerging technologies such as AI, big data, cloud computing, and the Internet of Things will continue to be integrated into various industries, driving the computer industry to develop in a more intelligent, efficient, and customized direction. 2. ** Industry breakdown brings diverse choices **: With the maturity of technology and rich application scenarios, the computer industry is gradually divided into fields such as software development, network security, data analysis, smart hardware, cloud computing services, etc., which are growing and forming unique development paths, providing more career choices and development opportunities for practitioners. 3. ** Strong demand for high-quality talents **: Despite the existence of employment pressure, high-skilled and high-quality computer professionals are still scarce resources, especially in emerging technologies such as artificial intelligence and blockchains. Enhancing professional skills and comprehensive quality will help find development opportunities in the industry. 4. ** Supporting policies to ensure development **: The government will increase its support for the computer industry and invest funds to support technological innovation and research and development. At the same time, it will strengthen the training and introduction of talents to attract and train high-quality computer talents. 5. ** Intelligent and secure development **: The operating system will develop in a more intelligent direction to adapt to the needs of different devices and scenarios. At the same time, security will become an important focus, and the operating system protection mechanism needs to be continuously strengthened. In addition, the open source operating system would continue to develop and attract more developers and users. " A Short History of the Future: Legends of the Intelligent Era " was equally exciting. Everyone was welcome to click and read it!

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2026-02-09 00:17

The History of Computer Development

The history of computer development can be roughly divided into the following stages: * * 1. Early computing tool stage ** 1. * * Manual Tools ** - The knotting of a rope was a method of counting in ancient times. By tying a knot on a rope to record information, it could be regarded as the primitive form of calculation. - An abacus was an ancient manual calculation tool that was widely used in China and other countries. - The slide ruler was used to perform calculations such as multiplication and division by sliding the scales on the ruler. 2. * * Manual Mechanical Tools ** - In 1623, the German scientist Schkard built the first mechanical calculator. It was based on the gear technology of the clock. It could perform six-digit addition and addition operations and output the answer through the bell. It was called the "arithmetic clock." - In 1642, the French mathematician Pascal invented the roller adder for his father, which used a rotating disc to perform addition operations. - In 1673, the German mathematician Leibniz improved Pascal's adder and created a step calculator that could perform four operations. - In 1725 - 1726, French textile worker Luxiu and his partners achieved semi-automatic production by using punched paper tape and punched cards on looms. This innovation laid the foundation for the idea of programming. In 1801, Jacquard invented the Jacquard Loom, which used punched cards to control the pattern of the pattern. It was an important milestone in the development of a programmed machine. - In the 1880s, it was difficult to process the data of the U.S. population. In 1890, the American mathematician Herman Holley developed a sorting machine that used punched cards to store data to assist the Bureau of Censories in automated tabulation. * * 2. Computer Development Stage ** 1. * * First generation vacuum tube computer (1946 - 1957)** - On February 14, 1946, the world's first electronic digital computer, ENIAC, was born at the University of Pennsylvania. This generation of computers used vacuum tubes as the main components and had the following characteristics: - For example, the ENIAC used 18000 electron tubes, covered an area of 150 square meters, and weighed 30 tons. - It consumes a lot of power, about 150 Kilowatts. - It was slow and could perform 5000 calculations per second. - Fever easily, working hours can't be too long. - The storage capacity is small, using a magnetic drum and a small magnetic core as the storage, the storage space is limited. - The input/output device was simple, using punched paper tape or cards. - It used machine language without any system software and was mainly used for scientific calculations. For example, the US Department of Defense used ENIAC for ballistic calculations. 2. * * Second-generation transistor-based computer (1958 - 1964)** - The use of the crystal as the basic component of the computer. Compared to electronic tubes, the size of a crystal was smaller, the weight was lighter, the lifespan was longer, the efficiency was higher, the heat generated was lower, and the power consumption was lower. The overall performance of the computers in this period was better than that of the first generation. The computing speed was greatly improved, and the weight and volume were significantly reduced. The programming language began to use high-level computer languages, such as Fororan, Cogol, Algo 160, etc. The computer began to be used in data processing and process control while performing scientific calculations. 3. * * Third Generation Integrated Circuit Computer (1964 - 1970)** - With the development of semiconductor technology, integrated circuits became the main components of computers. The size of computers was further reduced, and the power consumption during calculations was reduced. In terms of software, they began to use the standardized programming language and the human-computer conversational Basic language, further expanding the application field. 4. * * Fourth-generation large-scale integrated circuit computer (after 1970)** - As integrated circuits became larger, the size of computers became smaller and their performance improved. The application of software system engineering, theorization, and programming automaton. The software was used for network operating systems and object-oriented programming. The application of microcomputers was further expanded to cover almost all fields. 5. * * Fifth generation artificial intelligence computer (research and development stage)** - Their research fields generally included artificial intelligence, system architecture, soft engineering and support equipment, as well as the impact on society. Artificial intelligence would be the mainstream of information processing in the future. This generation of computers would have a learning mechanism that could simulate the work of the human optical nerve control system. It would have the ability to formally reason, associate, learn, and explain. It would be able to help people make judgments, make decisions, explore unknown areas, and obtain new knowledge. In the development of computers, hardware was constantly being reformed, from electronic tubes to transistors, then to integrated circuits and large-scale integrated circuits. The software also evolved from simple machine language to high-level languages, standardized programming languages, and many other forms. The application field of computers also gradually expanded from the initial scientific calculation to data processing, process control, daily office, leisure and entertainment, and many other aspects. "A Short History of the Future: Legends of the Intelligent Era" was equally exciting. Everyone was welcome to click and read it!

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2026-06-19 14:31

The Development and Enlightenment of Computer

The development of computers had gone through a long and complicated process. The early days could be traced back to prehistoric times. The German scientist Chekkard created a mechanical computer that could perform six-digit addition, multiplication, and division operations, which laid the foundation for the development of computers. Then," punched paper tape," binaries, Boole algebra, and hand-operated and push-button computers appeared, laying the theoretical foundation for the birth of digital computers. Entering the electrical age, the relay computer was born. Its representative was the Harvard Mark I computer. It was designed by Aiken and manufactured by iPhone. It was manufactured and debugged in 1943 and named in 1944. This computer was huge and expensive, but compared to pure mechanical calculators, it was faster and more powerful. In 1906, after De Forrest invented the vacuum tube, the vacuum tube computer was developed. During World War II, the urgent need for computing speed prompted the emergence of the vacuum tube computer. In 1946, the University of Pennsylvania developed the ENIAC, which was the world's first operational electronic digital computer. It was designed and developed by Mochley and Eckart. Although it was reprogrammed and had parallel computing capabilities, its functions were limited and its speed was slow. However, its advent marked the birth of modern computers. Later, the invention of the crystal drove the development of computers. In 1956, the crystal was applied to computers to produce the second generation of computers. It was small, fast, low power consumption, and more stable. The supercomputers used for large amounts of data processing in atomic science first used this technology. In the era of integrated circuits, computers were faster, more reliable, cheaper, and more universal, standardized, and serialized. Their application fields expanded to word processing and image processing. Since 1970, computer hardware used large-scale and ultra-large-scale integrated circuits. In terms of software, database management systems, network management systems, and object-oriented languages appeared. In 1971, the first microchip was born in Silicon Valley, creating a new era of microcomputers. From the development of computers, one could have the following insights: First of all, the development of technology was a gradual evolutionary process. Every stage was based on innovation and breakthroughs made by predecessors. From mechanical computers to modern high-performance computers, the results of each stage became the cornerstone of the next stage of development. Secondly, demand was a powerful driving force for the development of computers. For example, during World War II, the military's demand for computing speed gave birth to the vacuum tube computer, and the growing demand for data processing, office automaton, multi-media applications, artificial intelligence, and other fields in different fields also prompted the continuous innovation of computers. Furthermore, the development of computers reflected the power of the integration of multiple disciplines. For example, it involved the comprehensive application of electronics, mathematics, physics, and other multi-disciplinary knowledge. The results of different disciplines promoted each other, allowing computer technology to continue to develop and progress. " A Short History of the Future: Legends of the Intelligent Era " was equally exciting. Everyone was welcome to click and read it!

1 answer
2026-06-20 11:44
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