Components of the System Unit.pdf

The System Unit
 A case that contains the electronic
components of the computer used to
process data.

The System Unit
 The case of the system unit, or chassis, is
made of metal or plastic and protects the
electrical components inside.
 The trend is towards a smaller form
factor, or size and shape, of desktop
computers.

The System Unit
 Comes in a variety of shapes and sizes.

The System Unit
 It is important to know the electronic
components of the system unit in the
event it needs to be open.

The Motherboard
 Also called the system board, is the main
circuit board of the system unit.
 Many electronic components attach to
the motherboard and others are built
into it.

The Motherboard
 Slots for adapter cards, the processor, and
memory.

The Motherboard
 Computer chips are small pieces of semi-
conducting material, usually silicon, on
which integrated circuits are etched.
◦ IC’s contain may microscopic pathways
capable of carrying an electric current.
◦ They contain components such as resistors,
capacitors, and transistors.
 Manufacturers package chips to be
attached to a circuit board, such at the
motherboard or adapter cards.

Processor
 Also called the central processing unit
(CPU), interprets and carries out the
basic instructions that operate a
computer.
 Impacts overall computing power and
manages most of the computer’s
operations.

Processor
 Most processor chips manufacturers offer
multi-core processors, single chips with
two or more separate processor cores.
◦ Dual-core: 2 cores
◦ Quad-core: 4 cores
 Each core runs at a slower clock speed
than a single core processor, but still
increase the overall performance.

Processor
 Contain a control unit and an arithmetic
logic unit (ALU)
◦ Control Unit: Component of the processor
that directs and coordinates most of the
operations in the computer.
◦ Arithmetic Logic Unit: Component of the
processor that performs arithmetic,
comparison, and other operations.

Machine Cycle
 For every instruction, a processor repeats
a set of four basic operations, which
comprise a machine cycle

Machine Cycle
 Fetching: Process of obtaining a program
instruction or data item from memory.
 Decoding: Process of translating the
instruction into signals the computer can
execute.
 Executing: Process of carrying out the
commands.
 Storing:Writing results to memory.

Machine Cycle
 With pipelining, the processor begins
fetching a second instruction before it
completes the machine cycle for the first.

Registers
 Small, high-speed storage locations that
temporarily hold data and instructions.
 A part of the processor, itself.

The System Clock
 A small quartz crystal circuit used to
control the timing of all computer
operations.
 Each tick equates to a clock cycle.
 Today, processors are superscalar, which
means they can execute more than one
instruction per clock cycle.

The System Clock
 Clock speed is the pace of the system
clock and is measured by the numbers of
ticks per second.
 Current personal computers have clock
speeds in the gigahertz range.
 One gigahertz (GHz) equals one billion
ticks of the system clock per second.

Comparison of Personal Computer
Processors
 Intel
◦ Core family for high-performance.
◦ Pentium or Celeron for basic computers.
◦ Xeon or Itanium for workstations and low-
end servers.
 AMD
◦ Intel compatible processors, structured
similar to Intel, perform same functions, can
be as powerful, often are less expensive.

Comparison of Personal Computer
Processors

Processor Cooling
 Processors generate heat which could
cause the chip to burn up.
 The computer fans generate airflow, but
the processor requires additional cooling.
 Heat sinks/pipes and liquid cooling are
often used to dissipate processor heat.

Processor Cooling
 A heat sink is a small
ceramic or metal
component with fins to
absorb and disperse heat.
 Liquid Cooling
Technology uses a flow of
fluid to transfer heated
fluid away from the
processor, gets cooled,
and returns to the
processor, continuously.

Parallel Processing
 A method that uses multiple processors
simultaneously to execute a single program
or task.
 A single problem is divided into portions and
multiple processors work on their assigned
portion at the same time.
 Special software is needed to divide the
problem and bring the results back together
again.
 Super computers use massive parallel
processing for applications such as artificial
intelligence and weather forecasting.

Data Representation
 Most computers are digital, meaning they
recognize two discrete states: on and off.
 This is due to the two states of electrical
switches.
 Two digits, 0 and 1, represent off and on
respectively, which is the basis for the
binary system.

Data Representation
 The binary system is a number system
that has just two unique digits, 0 and 1,
called bits.
 A bit is the smallest unit of data the
computer can process.
 A byte is 8 bits grouped together as a
unit, totally 256 unique combinations.

Data Representation
 Binary that
represents
characters are
defined by patterns
called coding
schemes.
 ASCII (American
Standard Code for
Information
Interchange) is the
most widely used
coding scheme.

Data Representation
 Unicode is a 16-bit coding scheme that
has the capacity of representing more
than 65,000 characters.
 It is large enough to fit almost all of the
world’s current written language as well
as classic languages, even reserving 30,000
codes for future expansion.

Data Representation
 ASCII and Unicode standards make it
possible for components in computers to
communicate.

Memory
 Consists of electronic components that
store instructions waiting to be executed
by the processor, data needed by those
instructions, and the results of processing
the data.
 Memory usually consists of one or more
chips on the motherboard or some other
circuit board on the computer.

Bytes and Addressable Memory
 A byte is the basic storage unit in
memory.
 The instructions and data exist in
memory as bytes.
 An address is a location in memory
where each byte resides temporarily.

Memory Sizes
 Manufacturers state the size of memory
and storage devices in terms of the
number of bytes of available storage.

Types of Memory
 Two types of memory:
◦ Volatile memory: Memory that loses its
contents when the power is turned off.
 RAM
◦ Nonvolatile memory: Memory that does not
lose its contents when the power is turned
off.
 ROM, flash memory, and CMOS

RAM
 Users typically are referring to RAM
when discussing computer memory.
 RAM (random access memory), or main
memory, consists of memory chips that
can be read from and written to by the
processor and other devices.
 When the computer is powered up, the
RAM is initially populated with operating
system files from a storage devices, such
as a hard disk.

RAM
 The processor interprets and executes
instructions while the program is in RAM.
 Most RAM is volatile, so it will lose its
contents when the power is removed.
 RAM chips usually reside on a memory
module, which is a small circuit board.
 Memory slots on the motherboard hold
the memory modules.

RAM Configurations
 The amount of RAM necessary in a
computer often depends on the types of
software you plan to use.
 Retail software typically indicates the
minimum amount of RAM it requires.

Cache
 Pronounced “cash,” helps improve
processing times.
 Memory cache stores frequently used
instructions and data.
 L1 cache: built directly into processor
chip, usually small (8-128 KB)
 L2 cache: slightly slower than L1 with
larger capacity (64KB-16MB)
 L3 cache: on the motherboard, often up
to 8MB

Cache
 When the processor needs an instruction
or data, it searches memory in this order:
L1, L2, L3, then RAM, with a greater delay
in processing for each level of memory it
must search.

ROM
 ROM (Read-only memory) refers to
memory chips storing permanent data and
instructions.
 The data cannot be modified on most ROM
chips and is nonvolatile.
 ROM chips called firmware contain
permanently written data, instructions, or
information.
 PROM is a programmable ROM on which a
programmer can write permanently.
 EEPROM is an electrically erasable PROM.

Flash Memory
 A type of nonvolatile memory that can be
erased electronically and rewritten,
similar to EEPROM.
 It allows computers to store startup
instructions and is easy to update
contents.
 They store data and programs for many
mobile computers and devices such as
smart phones, portable media players, and
digital cameras.

CMOS
 Some RAM chips. Flash memory chips,
and other memory chips use
complementary metal-oxide
semiconductors (CMOS) technology
because it provides high speeds and
consumes little power.
 Battery backed CMOS chips keep the
date and time even when the computer is
turned off.

Memory Access Time
 Access time is the amount of time it takes
the processor to read data, instructions,
and information from memory.
 Directly affects how fast the computer
processes data.
 Accessing data in memory can be more
than 200,000 times faster than accessing
data on a hard disk because of the
mechanical motion of the hard disk.

Memory Access Time
 Access times can be given in terms of
fractional seconds, such as nanoseconds
(one billionth of a second) or in terms of
Hz.
 The higher the hertz (MHz, GHz) the
faster the access time; conversely, the
lower the nanoseconds, the faster the
access time.

Expansion Slots and Adapter Cards
 An expansion slot is a socket on the
motherboard that can hold an adapter card.
 An adapter card, or expansion card, is a
circuit board that enhances functions of a
component of the system unit and/or
provides connections to peripherals.
 Peripherals are devices that connect to the
system unit and is controlled by the
processor in the computer.
◦ Modems, disk drives, printers, scanners,
keyboards.

 Sound cards
enhance the sound-
generating
capabilities of a
personal computer.
 Video cards, or
graphics cards,
convert computer
output into a video
signal that is sent to
the monitor to be
displayed.

 Plug and Ply (PnP)
support allows the
computer to
automatically
configure adapter
cards and other
peripherals as you
install them.

Removable Flash Memory
 With hot plugging, flash memory devices
can be changed without shutting down or
restarting the computer.
 A memory card is a removable flash
memory device that you can insert and
remove from a slot in a personal
computer, game console, mobile device,
or card reader/writer.
 A USB flash drive is a flash memory
storage device that plugs in a USB port.

Ports and Connectors
 A port is the point at which a peripheral
attaches to or communicates with a
system unit so that the peripheral can
send data to or receive information from
the computer.
 A connector joins a cable to a port.

Ports and Connectors
 USB port, or universal serial bus port, can
connect up to 127 different peripherals
with a single connector.
 FireWire port, similar to USB, used for
connecting devices that require faster
data transmission, such as video cameras.

Other Ports
 Bluetooth uses radio waves to transmit
data between two devices.
 SCSI port is a special high-speed parallel
port for peripherals.
 eSATA port, IrDA Port, Serial Ports, MIDI
Port.

Buses
 Bits transfer internally within the circuitry of a
computer along electrical channels, called buses,
which allow for various devices, both inside and
attached to the system unit, to communicate with
each other.
 The size of the bus, called bus width, determines
the number of bits that the computer can
transmit at one time.
 In conjunction with the bus width, many
computer professionals refer to a computer’s
word size, which is the number of bits the
processor can interpret and execute at a given
time.

Expansion Bus
 Some peripherals outside the system unit
connect to a port on an adapter card
inserted in an expansion slot which
connects to the expansion bus.
 The most common types are: PCI bus,
PCI Express bus,AGP bus, USB, FireWire
bus, and PC Card bus.

Bays
 A bay is an opening inside the system unit
in which you can install additional
equipment.
 A drive bay is a rectangular opening that
typically holds disk drives.
 An external bay allows a user to access
openings in the bay from outside the
system unit, like optical disc drives.

Power Supply
 The component of the system unit that
converts the wall outlet AC power into
DC power, which the computer can use.
 Different motherboards and computers
require different wattages.

Components of the System Unit.pdf

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Components of the System Unit.pdf