Introduction to Microprocessor .ppt

Gursharan Singh Tatla
mailme@gursharansingh.in
www.eazynotes.com
Introduction to Microprocessors
03-Aug-2011
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 The microprocessor is one of the most important
components of a digital computer.
 It acts as the brain of the computer system.
 As technology has progressed, microprocessors
have become faster, smaller and capable of doing
more work per clock cycle.
 Sometimes, microprocessor is written as µP.
( µ is pronounced as Mu )
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 Definition:
Microprocessor is the controlling unit or CPU of a
micro-computer, fabricated on a very small chip capable
of performing ALU operations and communicating with
the external devices connected to it.
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A Computer
 A computer:
 Accepts the data from the user.
 Stores the data and the set of instructions supplied by
the user in memory.
 Processes the data according to the instructions in the
processing unit.
 Communicates the result to the user or stores it for
further reference.
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A Computer
 A computer has the following units:
 Input Unit
 Output Unit
 Memory Unit
 Central Processing Unit
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A Computer
 INPUT UNIT
 The input unit consists of the devices which accept the data and
instructions from the user and communicates it to the CPU.
 The various input devices are: keyboard, mouse, joystick, trackball
etc.
 OUTPUT UNIT
 It provides the result of the various operations performed by the
CPU to the user.
 The various output devices are: printers, monitors, loudspeakers
etc.
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A Computer
 CENTRAL PROCESSING UNIT (CPU)
 The CPU is the heart and nerve centre of the computer.
 It fetches the instruction and data from the peripheral
devices and performs all the arithmetic operations, takes
logical decision and control the operation of all other units.
 Various sub-blocks of the central processing unit are:
 Arithmetic and Logic Unit (ALU)
 Timing & Control Unit
 Registers
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A Computer
 ARITHMETIC AND LOGIC UNIT (ALU)
 This unit perform all the logical and arithmetic operations.
 Various arithmetic operations are: addition, subtraction, increment and
decrement etc.
 Various logical operations are: AND, OR, NOT, XOR, etc.
 TIMING AND CONTROL UNIT
 This unit controls the entire operations being performed by the system.
 It controls the operations of ALU, input/output devices and memory unit.
 This unit interprets the instructions and generates various timing and control
signals.
 REGISTERS
 A register is a very small amount of very fast memory that is built into the CPU
in order to store the current data and instructions which are being executed by
the CPU.
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A Computer
 MEMORY UNIT
 It stores the program statement and the data i.e. the
information supplied from the input unit.
 It also stores the final output.
 This is connected to the CPU by means of a bidirectional
bus.
 The CPU processes the information as taken from the
memory and performs the operations in the ALU section.
 The results are either transferred to the output unit or stored
in the memory for later use by the CPU.
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A Micro-Computer
 As the name implies, microcomputers are small
computers.
 The block diagram of the microcomputer is similar to
the computer except that the central processing unit
of the microcomputer is contained in a single IC
called the microprocessor.
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A Micro-Computer
 A microprocessor is a LSI (Large Scale Integration) IC
that does almost all the functions of the CPU.
 It is also defined as a CPU contained in a single chip.
 The basic function of the microprocessor is:
 to fetch the instructions stored in the main memory
 identify the operations and the devices involved in it
 and accordingly generate control signals to determine when
a given action is to take place.
 We can say that a computer with a microprocessor as its
CPU, is known as Microcomputer.
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Some Definitions
 Microprocessor:
 The central processing unit built on a single IC is called
Microprocessor.
 A microprocessor (sometimes abbreviated as µP) is a
digital electronic component with miniaturized
transistors on a single semiconductor integrated circuit
(IC).
 One or more microprocessors typically serve as a
central processing unit (CPU) in a computer system or
handheld device.
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Some Definitions
 Microcomputer:
 A digital computer, in which one microprocessor has
been provided to act as a CPU, is called
Microcomputer.
 A desktop computer, laptop, notebook, palmtop, etc.
contain one microprocessor to act as a CPU and hence
they come under the category of microcomputer.
 The term microcomputer is generally synonymous with
personal computer.
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Some Definitions
 Multiprocessor System:
 The CPU of a large powerful digital computer contains
more than one microprocessor.
 High-end powerful servers, mainframe computers,
supercomputers, etc. contain more than one
microprocessor to act as CPU.
 A computer whose CPU contains more than one
microprocessor is called Multiprocessor System.
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Some Definitions
 Microcontroller:
 A highly integrated chip that contains all the
components such as CPU, RAM, some form of ROM,
I/O ports, and timers is called Microcontroller.
 Unlike a general-purpose computer, which also
includes all of these components, a microcontroller is
designed for a very specific task to control a particular
system.
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Microprocessor Characteristics
 Instruction Set:
 The set of instructions that a microprocessor can
understand.
 Bandwidth:
 The number of bits processed in a single instruction.
 Capability:
 It depends upon the number of instructions and capability of
each instruction.
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 Clock Speed:
 The clock speed determines how many operations per second the
processor can perform.
 It is also called Clock Rate.
 Every computer contains an internal clock that regulates the rate at
which instructions are executed and synchronizes the various
computer components.
 The faster the clock, the more instructions the CPU can execute per
second.
 Clock speeds are expressed in megahertz (MHz) or gigahertz (GHz).
 The microprocessors of personal computers have clock speeds of
anywhere from 300 MHz to over 3.8 GHz.
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 Word Length:
 It depends upon the width of internal data bus,
registers, ALU etc.
 An 8-bit microprocessor can process 8 bit data at a
time.
 A processor with longer word length is more powerful
and can process data at a faster speed as compared to
processor with shorter word length.
 The word length ranges from 4 bits for small
microprocessor, to 64 bits for high-end microcomputers.
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 Width of Data Bus:
 This is the size of the data bus. It defines the number of bits that can be
transferred through data bus.
 Width of Address Bus:
 This parameter decides the memory addressing capability of the
microprocessor. The maximum size of the memory unit is decided by this
parameter.
 Input/Output Addressing Capability:
 The maximum number of the input/output ports accessed by the
microprocessor depends upon the width of the input/output address provided
in the input/output instruction.
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 Data Types:
 The microprocessor handles various types of data formats
like binary, BCD, ASCII, signed and unsigned numbers.
 Interrupt Capability:
 Interrupts are used to handle unpredictable and random
events in the microcomputer.
 It is used to interrupt the microprocessor.
 Interrupt driven input/output improves the throughput of a
system.
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Features of Microprocessor
 Cost:
 The most important feature of a microcomputer is its low cost.
 Because of the widespread use of microprocessors, the volume of
production is very high.
 That is why, microprocessor chips are available at fairly low prices.
 Size:
 The second important feature of a microprocessor is its small size.
 As a result of improvement in fabrication technology, VLSI,
electronic circuitry has become so dense that a minute silicon chip
can contain hundred and thousands of transistors.
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Features of Microprocessor
 Power Consumption:
 Another important feature is its low power consumption.
 Microprocessors are normally manufactured by Metal-Oxide semiconductor
technology, which has the feature of low power consumption.
 Versatility:
 The microprocessors are versatile.
 Keeping the same basic hardware, a microprocessor-based system can be
configured for a number of applications by simply altering the software
program.
 Reliability:
 Another important property of microprocessors is its extreme reliability.
 It has been established that the failure rate of an IC is fairly uniform at the
package level, regardless of its complexity.
03-Aug-2011

Micron
 A unit of length equal to one millionth of a meter.
 It is denoted by µ (Mu).
 For Example:
 If we pluck a hair from the head, it is very thin.
 But a hair is more than 2000 times wider than a transistor on a
microprocessor.
 Wires between transistors are even thinner.
 They're more than 4000 times thinner than a hair.
 A hair is about 100 microns in diameter.
 That means, a transistor is just 0.045 microns wide.
03-Aug-2011

03-Aug-2011

Introduction to Microprocessor .ppt

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