INTRO TO COM

63問 • 2年前

Patrick Jay Dizon

通報

問題一覧

Is a small, relatively inexpensive computer with a microprocessor as its central processing unit (CPU).

Microcomputer

Designed for personal use, and they are often referred to as personal computers (PCs).

Microcomputer

They are versatile machines that can used for a wide variety of tasks, including word processing, web browsing, gaming, and programming.

Microcomputer

Typically consist of a CPU, memory, storage, input/output(I/O) devices, and bus that connects these computers together.

Microcomputer

Classified as a single-user computers because they are designed to be used by one person at a time.

Microcomputer

Also classified as a general-purpose computers because they can be used for a wide variety of tasks.

Microcomputer

EXAMPLES OF MICROCOMPUTERS

Dekstop Computers, Laptop Computers, Tablet Computers, Smartphones, Single board Computers

Microcomputers applications

Personal Use, Education, Business, Science and Engineering

A class of mid-range computers that were introduced in the 1960s and were popular in the 1970s and 1980s.

Minicomputers

They were smaller and less expensive than mainframe computers, but that were more powerful than microcomputers.

Minicomputers

Were often used for scientific and engineering applications, as well as for business data processing

Minicomputers

Were typically used in a multi-user environment, with multiple users connected to the computer via terminals.

Minicomputers

They were also used as a servers, providing file and print services to other computers on a network.

Minicomputers

Examples of Minicomputers

DEC PDP-11, Data General Nova, IBM SYSTEM/360

Are powerful computers that are used for a large-scale data processing and transaction processing.

Mainframe Computers

They were typically used by large organizations, such as banks, insurance companies, and government agencies.

Mainframe Computers

Are designed to be highly reliable and scalable, and they can support thousands of users simultaneously.

Mainframe Computers

Characteristics of Mainframe Computers

High Processing power, high reliability, scalability, Security

examples of mainframe computers

ibm z systems, Unisys clearpath dorado, fujitsu bs2000

Stand as the pinnacle of technological prowess, pushing the boundaries of computational capabilities.

supercomputers

These colossal machines, often occupying vast dedicated facilities, are designed to tackle the most demanding tasks that surpass capabilities of conventional computers.

supercomputers

Characterized by their exceptional processing power, capable of performing an astounding number of calculations per second.

supercomputers

This unparalleled computational capacity is measured in floating-point operations per second (FLOPS), reaching into the exaflops range, far exceeding the capabilities of ordinary computers.

supercomputers

SUPERCOMPUTERS IN VARIOUS FIELDS

Climate modeling, drug discovery, materials science, nuclear weapons research

characteristics of super computers

high processing power, high performance, high memory capacity, high speed networkint

examples of supercomputers

frontier, lumi, fugaku

Tirelessly working behind the scenes to power the digital experiences we rely on daily.

servers

These dedicated machines, often hidden away in data centers, form the backbone of the internet, enabling us to access information, communicate with others, and engage in countless online activities.

servers

Are essentially specialized computers designed to provide resources and services to other computers, known as clients, over a network.

servers

They act as central repositories of data and applications, responding to requests from client devices and delivering the requested information and services.

servers

SOME COMMON SERVER TYES

Web servers, file servers, application servers, data base servers, mail servers

Stand out as specialized computers designed for demanding professional tasks.

workstations

They offer enhanced performance, graphics capabilities, and expandability compared to standard personal computers, catering to the needs of professionals in fields such as engineering, design, scientific research, and multimedia production.

workstations

Feautures of work stations

Processing prowess, graphics excellence, expandable architecture, operating system optimiation

workstations in various fields

engineering and design, scientific research, multimedia production, finance and business intellignce

examples of workstations

dell precision workstations, hp z workstations, apple mac pro

Stand out as specialized devices designed to perform specific tasks or provide access to particular information.

information appliances

Unlike general-purpose computers, information appliances are tailored for focused functionality, offering a simplified use experienced and streamlined operation.

information appliances

characteristics of information appliances

task specific design, ease of use, limited customization, targeted applications

examples of information appliamces

smartphones, smart tvs, e readers, Gps navigation devices

Stand apart from their digital counterparts, representing a unique approach to solving complex problems.

analog computers

While digital computers rely on discrete values and symbolic manipulation, ANALOG COMPUTERS harness the continuous nature of physical phenomena to model and analyze real-world systems.

analog computers

Operate on continuous variables, representing data as continuously varying physical quantities, such as voltage, current, or mechanical motion.

analog computers

These variables are manipulated through interconnected electronic or mechanical components, creating a physical analogy of the problem being solved.

analog computers

analog computers in various fields

engineering and control systems, aerospace and military applications, scientific research and simulations

examples of analog computers

slide rule, differential analyzer, electronic analog computers

The ubiquitous machines that have revolutionized our world, stand as marvels of human ingenuity.

digital computers

They process information, perform calculations, and execute instructions with unparalleled speed and accuracy, transforming every aspect of modern society.

digital computers

Operate on discrete values, representing information as binary digits, or bits, each having a value of either 0 or 1.

digital computers

This binary representation enables that manipulation of data through logical operations and mathematical calculations.

digital computers

fundamental components of digital computers

central processing unit (cpu), memory, input/output devices, software

the ‘brain’ of computer

central processing unit (cpu)

stores data and instructions

memory

such as keyboards, monitors, and storage devices, enable interaction with the computer, allowing data input and output

input output devices

including operating systems and applications, provides the instructions and programs that control the computer’s operations.

software

spectrum of digital computers

smartphones, personal computers, supercomputers, embedded systems

impact of digital computers

communication and informaion, business and commence, science and engineering, entertainment and culture

Represent a unique class of machines that blend the strength of analog and digital computing devices.

hybrid computers

They combine the real-time, continuous nature of analog computation with the precision and programmability of digital systems, offering a powerful approach for specific applications.

hybrid computers

Analog computation excels in modeling and simulating continuous systems, handling differential equations, and providing real-time responses.

analog devices

Digital Computation offers precision, programmability, and the ability to perform complex logical operations and symbolic manipulations.

digital advantages

applications of hybrid computers

control systems, signal processing, neural networks

examples of hybrid computers

hybrid navigations systems, analog to digital converter (adcs), specialized hybrid systems

ETHICS - FINALS

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GNED01

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DALUMAT

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STS

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100問 • 1年前

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DCIT23

Patrick Jay Dizon · 51問 · 1年前

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51問 • 1年前

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ITEC50

Patrick Jay Dizon · 67問 · 1年前

ITEC50

67問 • 1年前

Patrick Jay Dizon

問題一覧

Is a small, relatively inexpensive computer with a microprocessor as its central processing unit (CPU).

Microcomputer

Designed for personal use, and they are often referred to as personal computers (PCs).

Microcomputer

They are versatile machines that can used for a wide variety of tasks, including word processing, web browsing, gaming, and programming.

Microcomputer

Typically consist of a CPU, memory, storage, input/output(I/O) devices, and bus that connects these computers together.

Microcomputer

Classified as a single-user computers because they are designed to be used by one person at a time.

Microcomputer

Also classified as a general-purpose computers because they can be used for a wide variety of tasks.

Microcomputer

EXAMPLES OF MICROCOMPUTERS

Dekstop Computers, Laptop Computers, Tablet Computers, Smartphones, Single board Computers

Microcomputers applications

Personal Use, Education, Business, Science and Engineering

A class of mid-range computers that were introduced in the 1960s and were popular in the 1970s and 1980s.

Minicomputers

They were smaller and less expensive than mainframe computers, but that were more powerful than microcomputers.

Minicomputers

Were often used for scientific and engineering applications, as well as for business data processing

Minicomputers

Were typically used in a multi-user environment, with multiple users connected to the computer via terminals.

Minicomputers

They were also used as a servers, providing file and print services to other computers on a network.

Minicomputers

Examples of Minicomputers

DEC PDP-11, Data General Nova, IBM SYSTEM/360

Are powerful computers that are used for a large-scale data processing and transaction processing.

Mainframe Computers

They were typically used by large organizations, such as banks, insurance companies, and government agencies.

Mainframe Computers

Are designed to be highly reliable and scalable, and they can support thousands of users simultaneously.

Mainframe Computers

Characteristics of Mainframe Computers

High Processing power, high reliability, scalability, Security

examples of mainframe computers

ibm z systems, Unisys clearpath dorado, fujitsu bs2000

Stand as the pinnacle of technological prowess, pushing the boundaries of computational capabilities.

supercomputers

These colossal machines, often occupying vast dedicated facilities, are designed to tackle the most demanding tasks that surpass capabilities of conventional computers.

supercomputers

Characterized by their exceptional processing power, capable of performing an astounding number of calculations per second.

supercomputers

This unparalleled computational capacity is measured in floating-point operations per second (FLOPS), reaching into the exaflops range, far exceeding the capabilities of ordinary computers.

supercomputers

SUPERCOMPUTERS IN VARIOUS FIELDS

Climate modeling, drug discovery, materials science, nuclear weapons research

characteristics of super computers

high processing power, high performance, high memory capacity, high speed networkint

examples of supercomputers

frontier, lumi, fugaku

Tirelessly working behind the scenes to power the digital experiences we rely on daily.

servers

These dedicated machines, often hidden away in data centers, form the backbone of the internet, enabling us to access information, communicate with others, and engage in countless online activities.

servers

Are essentially specialized computers designed to provide resources and services to other computers, known as clients, over a network.

servers

They act as central repositories of data and applications, responding to requests from client devices and delivering the requested information and services.

servers

SOME COMMON SERVER TYES

Web servers, file servers, application servers, data base servers, mail servers

Stand out as specialized computers designed for demanding professional tasks.

workstations

Feautures of work stations

Processing prowess, graphics excellence, expandable architecture, operating system optimiation

workstations in various fields

engineering and design, scientific research, multimedia production, finance and business intellignce

examples of workstations

dell precision workstations, hp z workstations, apple mac pro

Stand out as specialized devices designed to perform specific tasks or provide access to particular information.

information appliances

Unlike general-purpose computers, information appliances are tailored for focused functionality, offering a simplified use experienced and streamlined operation.

information appliances

characteristics of information appliances

task specific design, ease of use, limited customization, targeted applications

examples of information appliamces

smartphones, smart tvs, e readers, Gps navigation devices

Stand apart from their digital counterparts, representing a unique approach to solving complex problems.

analog computers

While digital computers rely on discrete values and symbolic manipulation, ANALOG COMPUTERS harness the continuous nature of physical phenomena to model and analyze real-world systems.

analog computers

Operate on continuous variables, representing data as continuously varying physical quantities, such as voltage, current, or mechanical motion.

analog computers

These variables are manipulated through interconnected electronic or mechanical components, creating a physical analogy of the problem being solved.

analog computers

analog computers in various fields

engineering and control systems, aerospace and military applications, scientific research and simulations

examples of analog computers

slide rule, differential analyzer, electronic analog computers

The ubiquitous machines that have revolutionized our world, stand as marvels of human ingenuity.

digital computers

They process information, perform calculations, and execute instructions with unparalleled speed and accuracy, transforming every aspect of modern society.

digital computers

Operate on discrete values, representing information as binary digits, or bits, each having a value of either 0 or 1.

digital computers

This binary representation enables that manipulation of data through logical operations and mathematical calculations.

digital computers

fundamental components of digital computers

central processing unit (cpu), memory, input/output devices, software

the ‘brain’ of computer

central processing unit (cpu)

stores data and instructions

memory

such as keyboards, monitors, and storage devices, enable interaction with the computer, allowing data input and output

input output devices

including operating systems and applications, provides the instructions and programs that control the computer’s operations.

software

spectrum of digital computers

smartphones, personal computers, supercomputers, embedded systems

impact of digital computers

communication and informaion, business and commence, science and engineering, entertainment and culture

Represent a unique class of machines that blend the strength of analog and digital computing devices.

hybrid computers

They combine the real-time, continuous nature of analog computation with the precision and programmability of digital systems, offering a powerful approach for specific applications.

hybrid computers

Analog computation excels in modeling and simulating continuous systems, handling differential equations, and providing real-time responses.

analog devices

Digital Computation offers precision, programmability, and the ability to perform complex logical operations and symbolic manipulations.

digital advantages

applications of hybrid computers

control systems, signal processing, neural networks

examples of hybrid computers

hybrid navigations systems, analog to digital converter (adcs), specialized hybrid systems