Generations of Computer | Computer Architecture & Organisation (CAO) - Computer Science Engineering (CSE) PDF Download

Introduction

A computer is an electronic device that manipulates information or data. It has the ability to store, retrieve, and process data. Nowadays, a computer can be used to type documents, send email, play games, and browse the Web. It can also be used to edit or create spreadsheets, presentations, and even videos. But the evolution of this complex system started around 1940 with the first Generation of Computer and evolving ever since.

There are five generations of computers.

1. First Generation

Introduction:

  • 1946-1959 is the period of first generation computer.
  • J.P.Eckert and J.W.Mauchy invented the first successful electronic computer called ENIAC, ENIAC stands for “Electronic Numeric Integrated And Calculator”.

Few Examples are:

  1. ENIAC
  2. EDVAC
  3. UNIVAC
  4. IBM-701
  5. IBM-650

Advantages:

  1. It made use of vacuum tubes which are the only electronic component available during those days.
  2. These computers could calculate in milliseconds.

Disadvantages:

  1. These were very big in size, weight was about 30 tones.
  2. These computers were based on vacuum tubes.
  3. These computers were very costly.
  4. It could store only a small amount of information due to the presence of magnetic drums.
  5. As the invention of first generation computers involves vacuum tubes, so another disadvantage of these computers was, vacuum tubes require a large cooling system.
  6. Very less work efficiency.
  7. Limited programming capabilities and punch cards were used to take inputs.
  8. Large amount of energy consumption.
  9. Not reliable and constant maintenance is required.

2. Second Generation

Introduction:

  • 1959-1965 is the period of second-generation computer.
  • 3.Second generation computers were based on Transistor instead of vacuum tubes.

Few Examples are:

  1. Honeywell 400
  2. IBM 7094
  3. CDC 1604
  4. CDC 3600
  5. UNIVAC 1108
    … many more

Advantages:

  1. Due to the presence of transistors instead of vacuum tubes, the size of electron component decreased. This resulted in reducing the size of a computer as compared to first generation computers.
  2. Less energy and not produce as much heat as the first genration.
  3. Assembly language and punch cards were used for input.
  4. Low cost than first generation computers.
  5. Better speed, calculate data in microseconds.
  6. Better portability as compared to first generation

Disadvantages:

  1. A cooling system was required.
  2. Constant maintenance was required.
  3. Only used for specific purposes.

3. Third Generation

Introduction:

  • 1965-1971 is the period of third generation computer.
  • These computers were based on Integrated circuits.
  • IC was invented by Robert Noyce and Jack Kilby In 1958-1959.
  • IC was a single component containing number of transistors.

Few Examples are:

  1. PDP-8
  2. PDP-11
  3. ICL 2900
  4. IBM 360
  5. IBM 370
    … and many more

Advantages:

  1. These computers were cheaper as compared to second-generation computers.
  2. They were fast and reliable.
  3. Use of IC in the computer provides the small size of the computer.
  4. IC not only reduce the size of the computer but it also improves the performance of the computer as compared to previous computers.
  5. This generation of computers has big storage capacity.
  6. Instead of punch cards, mouse and keyboard are used for input.
  7. They used an operating system for better resource management and used the concept of time-sharing and multiple programming.
  8. These computers reduce the computational time from microseconds to nanoseconds.

Disadvantages:

  1. IC chips are difficult to maintain.
  2. The highly sophisticated technology required for the manufacturing of IC chips.
  3. Air conditioning is required.

4. Fourth Generation

Introduction:

  • 1971-1980 is the period of fourth generation computer.
  • This technology is based on Microprocessor.
  • A microprocessor is used in a computer for any logical and arithmetic function to be performed in any program.
  • Graphics User Interface (GUI) technology was exploited to offer more comfort to users.

Few Examples are:

  1. IBM 4341
  2. DEC 10
  3. STAR 1000
  4. PUP 11
  5. … and many more

Advantages:

  1. Fastest in computation and size get reduced as compared to the previous generation of computer.
  2. Heat generated is negligible.
  3. Small in size as compared to previous generation computers.
  4. Less maintenance is required.
  5. All types of high-level language can be used in this type of computers.

Disadvantages:

  1. The Microprocessor design and fabrication are very complex.
  2. Air conditioning is required in many cases due to the presence of ICs.
  3. Advance technology is required to make the ICs.

5. Fifth Generation

Introduction:

  • The period of the fifth generation in 1980-onwards.
  • This generation is based on artificial intelligence.
  • The aim of the fifth generation is to make a device which could respond to natural language input and are capable of learning and self-organization.
  • This generation is based on ULSI(Ultra Large Scale Integration) technology resulting in the production of microprocessor chips having ten million electronic component.

Few Examples are:

  1. Desktop
  2. Laptop
  3. NoteBook
  4. UltraBook
  5. Chromebook
    … and many more

Advantages:

  1. It is more reliable and works faster.
  2. It is available in different sizes and unique features.
  3. It provides computers with more user-friendly interfaces with multimedia features.

Disadvantages:

  1. They need very low-level languages.
  2. They may make the human brains dull and doomed.

The document Generations of Computer | Computer Architecture & Organisation (CAO) - Computer Science Engineering (CSE) is a part of the Computer Science Engineering (CSE) Course Computer Architecture & Organisation (CAO).
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FAQs on Generations of Computer - Computer Architecture & Organisation (CAO) - Computer Science Engineering (CSE)

1. What are the different generations of computers?
Ans. The different generations of computers are as follows: - First Generation (1940s-1950s): These computers used vacuum tubes for circuitry and magnetic drums for memory. - Second Generation (1950s-1960s): These computers used transistors for circuitry and magnetic core memory. - Third Generation (1960s-1970s): These computers used integrated circuits for circuitry and introduced the concept of operating systems. - Fourth Generation (1970s-1980s): These computers used microprocessors and brought about the development of personal computers. - Fifth Generation (1980s-present): These computers are characterized by artificial intelligence and advanced parallel processing.
2. What are the major advancements in each generation of computers?
Ans. The major advancements in each generation of computers are as follows: - First Generation: The use of vacuum tubes and magnetic drums allowed for the first electronic digital computers. - Second Generation: The invention of transistors enabled smaller and more reliable computers. - Third Generation: The introduction of integrated circuits increased the speed and efficiency of computers. - Fourth Generation: The development of microprocessors revolutionized the computer industry by enabling personal computers. - Fifth Generation: Artificial intelligence and parallel processing became key features of computers, allowing for advanced problem-solving capabilities.
3. How did the advancements in each generation of computers impact society?
Ans. The advancements in each generation of computers had significant impacts on society: - First Generation: These early computers were mainly used for scientific and military purposes, helping in calculations and code-breaking. - Second Generation: Transistor-based computers were smaller, more reliable, and cheaper, leading to wider adoption in businesses and government agencies. - Third Generation: Integrated circuits made computers faster, smaller, and more affordable, leading to increased use in industries, education, and research. - Fourth Generation: The development of microprocessors made computers accessible to individuals, leading to the rise of personal computers and the information age. - Fifth Generation: Artificial intelligence and advanced problem-solving capabilities revolutionized industries such as healthcare, finance, and transportation.
4. What are the key characteristics of the fifth generation of computers?
Ans. The key characteristics of the fifth generation of computers are: - Artificial Intelligence (AI): Fifth-generation computers are designed to use AI techniques to mimic human intelligence and perform tasks such as speech recognition, natural language processing, and decision-making. - Parallel Processing: These computers can execute multiple tasks simultaneously, making them highly efficient in handling complex computational problems. - Knowledge-Based Systems: Fifth-generation computers use knowledge-based systems to store and process large amounts of data and make intelligent decisions based on that data. - Advanced User Interfaces: These computers have advanced user interfaces, allowing users to interact with the system through voice commands, gestures, and touchscreens. - High-Speed Networks: Fifth-generation computers are designed to work seamlessly in networked environments, enabling easy sharing and processing of information.
5. How did the concept of operating systems evolve in the third generation of computers?
Ans. The concept of operating systems evolved significantly in the third generation of computers. Earlier computers had limited capabilities and were programmed using machine language, which was time-consuming and complex. In the third generation, operating systems were introduced to manage and control the computer's resources efficiently. They provided a layer of abstraction between the hardware and the user, making it easier to write and execute programs. Operating systems in the third generation introduced the concept of batch processing, where multiple jobs were executed in sequence without user intervention. They also introduced features like memory management, file systems, and device drivers, which simplified programming and improved system performance. Overall, the evolution of operating systems in the third generation played a crucial role in making computers more user-friendly, efficient, and scalable, setting the foundation for the development of modern operating systems in subsequent generations.
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