Tuesday, April 26, 2022

Computer - Number System



When we type some letters or words, the computer translates them in numbers as computers can understand only numbers. A computer can understand the positional number system where there are only a few symbols called digits and these symbols represent different values depending on the position they occupy in the number.

The value of each digit in a number can be determined using −

  • The digit

  • The position of the digit in the number

  • The base of the number system (where the base is defined as the total number of digits available in the number system)

Decimal Number System

The number system that we use in our day-to-day life is the decimal number system. Decimal number system has base 10 as it uses 10 digits from 0 to 9. In decimal number system, the successive positions to the left of the decimal point represent units, tens, hundreds, thousands, and so on.

Each position represents a specific power of the base (10). For example, the decimal number 1234 consists of the digit 4 in the units position, 3 in the tens position, 2 in the hundreds position, and 1 in the thousands position. Its value can be written as

(1 x 1000)+ (2 x 100)+ (3 x 10)+ (4 x l) (1 x 103)+ (2 x 102)+ (3 x 101)+ (4 x l00) 1000 + 200 + 30 + 4 1234 

As a computer programmer or an IT professional, you should understand the following number systems which are frequently used in computers.

S.No.Number System and Description
1

Binary Number System

Base 2. Digits used : 0, 1

2

Octal Number System

Base 8. Digits used : 0 to 7

3

Hexa Decimal Number System

Base 16. Digits used: 0 to 9, Letters used : A- F

Binary Number System

Characteristics of the binary number system are as follows −

  • Uses two digits, 0 and 1

  • Also called as base 2 number system

  • Each position in a binary number represents a 0 power of the base (2). Example 20

  • Last position in a binary number represents a x power of the base (2). Example 2x where x represents the last position - 1.

Example

Binary Number: 101012

Calculating Decimal Equivalent −

StepBinary NumberDecimal Number
Step 1101012((1 x 24) + (0 x 23) + (1 x 22) + (0 x 21) + (1 x 20))10
Step 2101012(16 + 0 + 4 + 0 + 1)10
Step 31010122110

Note − 101012 is normally written as 10101.

Octal Number System

Characteristics of the octal number system are as follows −

  • Uses eight digits, 0,1,2,3,4,5,6,7

  • Also called as base 8 number system

  • Each position in an octal number represents a 0 power of the base (8). Example 80

  • Last position in an octal number represents a x power of the base (8). Example 8x where x represents the last position - 1

Example

Octal Number: 125708

Calculating Decimal Equivalent −

StepOctal NumberDecimal Number
Step 1125708((1 x 84) + (2 x 83) + (5 x 82) + (7 x 81) + (0 x 80))10
Step 2125708(4096 + 1024 + 320 + 56 + 0)10
Step 3125708549610

Note − 125708 is normally written as 12570.

Hexadecimal Number System

Characteristics of hexadecimal number system are as follows −

  • Uses 10 digits and 6 letters, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, A, B, C, D, E, F

  • Letters represent the numbers starting from 10. A = 10. B = 11, C = 12, D = 13, E = 14, F = 15

  • Also called as base 16 number system

  • Each position in a hexadecimal number represents a 0 power of the base (16). Example, 160

  • Last position in a hexadecimal number represents a x power of the base (16). Example 16x where x represents the last position - 1

Example

Hexadecimal Number: 19FDE16

Calculating Decimal Equivalent −

StepBinary NumberDecimal Number
Step 119FDE16((1 x 164) + (9 x 163) + (F x 162) + (D x 161) + (E x 160))10
Step 219FDE16((1 x 164) + (9 x 163) + (15 x 162) + (13 x 161) + (14 x 160))10
Step 319FDE16(65536+ 36864 + 3840 + 208 + 14)10
Step 419FDE1610646210

Note − 19FDE16 is normally written as 19FDE.

Computer - Software



Software is a set of programs, which is designed to perform a well-defined function. A program is a sequence of instructions written to solve a particular problem.

There are two types of software −

  • System Software
  • Application Software

System Software

The system software is a collection of programs designed to operate, control, and extend the processing capabilities of the computer itself. System software is generally prepared by the computer manufacturers. These software products comprise of programs written in low-level languages, which interact with the hardware at a very basic level. System software serves as the interface between the hardware and the end users.

Some examples of system software are Operating System, Compilers, Interpreter, Assemblers, etc.

Here is a list of some of the most prominent features of a system software −

  • Close to the system
  • Fast in speed
  • Difficult to design
  • Difficult to understand
  • Less interactive
  • Smaller in size
  • Difficult to manipulate
  • Generally written in low-level language

Application Software

Application software products are designed to satisfy a particular need of a particular environment. All software applications prepared in the computer lab can come under the category of Application software.

Application software may consist of a single program, such as Microsoft's notepad for writing and editing a simple text. It may also consist of a collection of programs, often called a software package, which work together to accomplish a task, such as a spreadsheet package.

Examples of Application software are the following −

  • Payroll Software
  • Student Record Software
  • Inventory Management Software
  • Income Tax Software
  • Railways Reservation Software
  • Microsoft Office Suite Software
  • Microsoft Word
  • Microsoft Excel
  • Microsoft PowerPoint

 

Features of application software are as follows −

  • Close to the user
  • Easy to design
  • More interactive
  • Slow in speed
  • Generally written in high-level language
  • Easy to understand
  • Easy to manipulate and use
  • Bigger in size and requires large storage space

Computer - Hardware



Hardware represents the physical and tangible components of a computer, i.e. the components that can be seen and touched.

Examples of Hardware are the following −

  • Input devices − keyboard, mouse, etc.

  • Output devices − printer, monitor, etc.

  • Secondary storage devices − Hard disk, CD, DVD, etc.

  • Internal components − CPU, motherboard, RAM, etc.

 

Relationship between Hardware and Software

  • Hardware and software are mutually dependent on each other. Both of them must work together to make a computer produce a useful output.

  • Software cannot be utilized without supporting hardware.

  • Hardware without a set of programs to operate upon cannot be utilized and is useless.

  • To get a particular job done on the computer, relevant software should be loaded into the hardware.

  • Hardware is a one-time expense.

  • Software development is very expensive and is a continuing expense.

  • Different software applications can be loaded on a hardware to run different jobs.

  • A software acts as an interface between the user and the hardware.

  • If the hardware is the 'heart' of a computer system, then the software is its 'soul'. Both are complementary to each other.

Computer - Ports



A port is a

physical docking point using which an external device can be connected to the computer. It can also be programmatic docking point through which information flows from a program to the computer or over the Internet.

Characteristics of Ports

A port has the following characteristics −

  • External devices are connected to a computer using cables and ports.

  • Ports are slots on the motherboard into which a cable of external device is plugged in.

  • Examples of external devices attached via ports are the mouse, keyboard, monitor, microphone, speakers, etc.

 

Let us now discuss a few important types of ports −

Serial Port

  • Used for external modems and older computer mouse

  • Two versions: 9 pin, 25 pin model

  • Data travels at 115 kilobits per second

Parallel Port

  • Used for scanners and printers

  • Also called printer port

  • 25 pin model

  • IEEE 1284-compliant Centronics port

PS/2 Port

  • Used for old computer keyboard and mouse

  • Also called mouse port

  • Most of the old computers provide two PS/2 port, each for the mouse and keyboard

  • IEEE 1284-compliant Centronics port

Universal Serial Bus (or USB) Port

  • It can connect all kinds of external USB devices such as external hard disk, printer, scanner, mouse, keyboard, etc.

  • It was introduced in 1997.

  • Most of the computers provide two USB ports as minimum.

  • Data travels at 12 megabits per seconds.

  • USB compliant devices can get power from a USB port.

VGA Port

  • Connects monitor to a computer's video card.

  • It has 15 holes.

  • Similar to the serial port connector. However, serial port connector has pins, VGA port has holes.

Power Connector

  • Three-pronged plug.

  • Connects to the computer's power cable that plugs into a power bar or wall socket.

Firewire Port

  • Transfers large amount of data at very fast speed.

  • Connects camcorders and video equipment to the computer.

  • Data travels at 400 to 800 megabits per seconds.

  • Invented by Apple.

  • It has three variants: 4-Pin FireWire 400 connector, 6-Pin FireWire 400 connector, and 9-Pin FireWire 800 connector.

Modem Port

  • Connects a PC's modem to the telephone network.

Ethernet Port

  • Connects to a network and high speed Internet.

  • Connects the network cable to a computer.

  • This port resides on an Ethernet Card.

  • Data travels at 10 megabits to 1000 megabits per seconds depending upon the network bandwidth.

Game Port

  • Connect a joystick to a PC

  • Now replaced by USB

Digital Video Interface, DVI port

  • Connects Flat panel LCD monitor to the computer's high-end video graphic cards.

  • Very popular among video card manufacturers.

Sockets

  • Sockets connect the microphone and speakers to the sound card of the computer.

Computer - Memory Units



Memory unit is the amount of data that can be stored in the storage unit. This storage capacity is expressed in terms of Bytes.

The following table explains the main memory storage units −

S.No.Unit & Description
1

Bit (Binary Digit)

A binary digit is logical 0 and 1 representing a passive or an active state of a component in an electric circuit.

2

Nibble

A group of 4 bits is called nibble.

3

Byte

A group of 8 bits is called byte. A byte is the smallest unit, which can represent a data item or a character.

4

Word

A computer word, like a byte, is a group of fixed number of bits processed as a unit, which varies from computer to computer but is fixed for each computer.

The length of a computer word is called word-size or word length. It may be as small as 8 bits or may be as long as 96 bits. A computer stores the information in the form of computer words.

The following table lists some higher storage units −

S.No.Unit & Description
1

Kilobyte (KB)

1 KB = 1024 Bytes

2

Megabyte (MB)

1 MB = 1024 KB

3

GigaByte (GB)

1 GB = 1024 MB

4

TeraByte (TB)

1 TB = 1024 GB

5

PetaByte (PB)

1 PB = 1024 TB

Computer - Motherboard



The motherboard serves as a single platform to connect all of the parts of a computer together. It connects the CPU, memory, hard drives, optical drives, video card, sound card, and other ports and expansion cards directly or via cables. It can be considered as the backbone of a computer.

Features of Motherboard

A motherboard comes with following features −

  • Motherboard varies greatly in supporting various types of components.

  • Motherboard supports a single type of CPU and few types of memories.

  • Video cards, hard disks, sound cards have to be compatible with the motherboard to function properly.

  • Motherboards, cases, and power supplies must be compatible to work properly together.

Popular Manufacturers

Following are the popular manufacturers of the motherboard.

  • Intel
  • ASUS
  • AOpen
  • ABIT
  • Biostar
  • Gigabyte
  • MSI

Description of Motherboard

The motherboard is mounted inside the case and is securely attached via small screws through pre-drilled holes. Motherboard contains ports to connect all of the internal components. It provides a single socket for CPU, whereas for memory, normally one or more slots are available. Motherboards provide ports to attach the floppy drive, hard drive, and optical drives via ribbon cables. Motherboard carries fans and a special port designed for power supply.

There is a peripheral card slot in front of the motherboard using which video cards, sound cards, and other expansion cards can be connected to the motherboard.

On the left side, motherboards carry a number of ports to connect the monitor, printer, mouse, keyboard, speaker, and network cables. Motherboards also provide USB ports, which allow compatible devices to be connected in plug-in/plug-out fashion. For example, pen drive, digital cameras, etc.

Thursday, April 21, 2022

Computer - Read Only Memory



ROM stands for Read Only Memory. The memory from which we can only read but cannot write on it. This type of memory is non-volatile. The information is stored permanently in such memories during manufacture. A ROM stores such instructions that are required to start a computer. This operation is referred to as bootstrap. ROM chips are not only used in the computer but also in other electronic items like washing machine and microwave oven.

Let us now discuss the various types of ROMs and their characteristics.

MROM (Masked ROM)

The very first ROMs were hard-wired devices that contained a pre-programmed set of data or instructions. These kind of ROMs are known as masked ROMs, which are inexpensive.

PROM (Programmable Read Only Memory)

PROM is read-only memory that can be modified only once by a user. The user buys a blank PROM and enters the desired contents using a PROM program. Inside the PROM chip, there are small fuses which are burnt open during programming. It can be programmed only once and is not erasable.

EPROM (Erasable and Programmable Read Only Memory)

EPROM can be erased by exposing it to ultra-violet light for a duration of up to 40 minutes. Usually, an EPROM eraser achieves this function. During programming, an electrical charge is trapped in an insulated gate region. The charge is retained for more than 10 years because the charge has no leakage path. For erasing this charge, ultra-violet light is passed through a quartz crystal window (lid). This exposure to ultra-violet light dissipates the charge. During normal use, the quartz lid is sealed with a sticker.

EEPROM (Electrically Erasable and Programmable Read Only Memory)

EEPROM is programmed and erased electrically. It can be erased and reprogrammed about ten thousand times. Both erasing and programming take about 4 to 10 ms (millisecond). In EEPROM, any location can be selectively erased and programmed. EEPROMs can be erased one byte at a time, rather than erasing the entire chip. Hence, the process of reprogramming is flexible but slow.

Advantages of ROM

The advantages of ROM are as follows −

  • Non-volatile in nature
  • Cannot be accidentally changed
  • Cheaper than RAMs
  • Easy to test
  • More reliable than RAMs
  • Static and do not require refreshing
  • Contents are always known and can be verified

What is computer security?

Computer security basically is the protection of computer systems and information from harm, theft, and unauthorized use. It is the process ...