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INTRODUCTION OF 8085 MICROPROCESSOR
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CHAPTER OUTLINE
Block diagram of a computer system
Basic components of a computer system using block diagrams: Cpu
Memory
Input and output unit
Evolution of microprocessor : 4,8,16,32 dan 64 byte
Nibble, byte, word dan longword
Fecthing and execution cycles.
Internal structure and basic operation of a microprocessor (arithmetic and logic unit, control unit, register sets, accumulator, condition code register, program counter, stack pointer)
Bus system: data bus, address bus and control bus.
Microprocessor clock system
Examples of microprocessor: 8085,8086. 2
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Introduction
A computer is a programmable machine that
receives input, stores and manipulates
data//information, and provides output in a useful
format.
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1.1 DIAGRAM OF A COMPUTER
SYSTEMA computer is a programmable machine that receives input, stores and
manipulates data//information, and provides output in a useful format.
4
Diagram Of A Computer System
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1.1 BLOCK DIAGRAM OF A BASIC
COMPUTER SYSTEM
ROM RAM I/O
interface
I/O
devicesCPU
5
Basic computer system consist of a Central processing unit (CPU),
memory (RAM and ROM), input/output (I/O) unit.
Block diagram of a basic computer system
Address bus
Data bus Control
bus
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BASIC COMPONENT OF MICROCOMPUTER
1. CPU - Central Processing Unit
the portion of a computer system that carries out the
instructions of a computer program
the primary element carrying out the computer's functions. It is
the unit that reads and executes program instructions.
The data in the instruction tells the processor what to do.
6Pentium D dual core processors
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2. Memory
physical devices used to store data or programs (sequences of
instructions) on a temporary or permanent basis for use in an
electronic digital computer.
Computer main memory comes in two principal varieties:
random-access memory (RAM) and read-only memory (ROM).
RAM can be read and written to anytime the CPU commands it,
but ROM is pre-loaded with data and software that never
changes, so the CPU can only read from it.
ROM is typically used to store the computer's initial start-up
instructions.
In general, the contents of RAM are erased when the power to
the computer is turned off, but ROM retains its data indefinitely.
In a PC, the ROM contains a specialized program called the
BIOS that orchestrates loading the computer's operating system
from the hard disk drive into RAM whenever the computer is
turned on or reset. 7
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3. I/O Unit
Input/output (I/O), refers to the communication between an
information processing system (such as a computer), and the
outside world possibly a human, or another information
processing system.
Inputs are the signals or data received by the system, and
outputs are the signals or data sent from it
Devices that provide input or output to the computer are called
peripherals
On a typical personal computer, peripherals include input devices
like the keyboard and mouse, and output devices such as the
display and printer. Hard disk drives, floppy disk drives and
optical disc drives serve as both input and output devices.
Computer networking is another form of I/O.
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EVOLUTION OF MICROPROCESSOR
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DATA SIZE
Nibble 4 bit
Byte 8 bit
Word 16 bit
Long word 32 bit
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8085 8-bit general purpose microprocessor
Capable to address 64k of memory
Forty pins, requires +5 V single power supply
3-MHz single-phase clock.
R.Ha
rihar
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AP/
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BLOCK DIAGRAM
R.Ha
rihar
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AP/
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FETCHING & EXECUTION CYCLES
Fetching Cycles
The fetch cycle takes the instruction required
from memory, stores it in the instruction register,
and
moves the program counter on one so that it
points to the next instruction.
Execute cycle
The actual actions which occur during the
execute cycle of an instruction.
depend on both the instruction itself and the
addressing mode specified to be used to access
the data that may be required.13
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FETCHING AN INSTRUCTION
Step 1
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Instruction pointer (program counter) hold the address
of the next instruction to be fetch.
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Step 2
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FETCHING AN INSTRUCTION (cont.)
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Step 3
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FETCHING AN INSTRUCTION (cont.)
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Step 4
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FETCHING AN INSTRUCTION (cont.)
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Step 5
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FETCHING AN INSTRUCTION (cont.)
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Step 6
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FETCHING AN INSTRUCTION (cont.)
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INTERNAL STRUCTURE AND BASIC OPERATION
OF MICROPROCESSOR
ALU Register
Section
Control and timing
section
Address bus
Data bus
Control bus
20Block diagram of a microprocessor
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ARITHMETIC AND LOGIC UNIT (ALU)
The component that performs the arithmetic and
logical operations
the most important components in a microprocessor,
and is typically the part of the processor that is
designed first.
able to perform the basic logical operations (AND,
OR), including the addition operation.
The inclusion of inverters on the inputs enables the
same ALU hardware to perform the subtraction
operation (adding an inverted operand), and the
operations NAND and NOR.
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INTERNAL STRUCTURE OF ALU
2 bits of ALU 22
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CONTROL UNIT
The circuitry that controls the flow of information
through the processor, and coordinates the
activities of the other units within it.
In a way, it is the "brain within the brain", as it
controls what happens inside the processor, which
in turn controls the rest of the PC.
On a regular processor, the control unit performs
the tasks of fetching, decoding, managing
execution and then storing results.
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INTERNAL STRUCTURE OF CONTROL UNIT
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REGISTER SETS
The register section/array consists completely of
circuitry used to temporarily store data or program
codes until they are sent to the ALU or to the
control section or to memory.
The number of registers are different for any
particular CPU and the more register a CPU have
will result in easier programming tasks.
Registers are normally measured by the number of
bits they can hold, for example, an "8-bit register" or
a "32-bit register". 25
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REGISTER IN MOTOROLA 68000
MICROPROCESSOR
SUPERVISOR STACK POINTER
USER STACK POINTER
USER VYTESYSTEM BYTE
D0
D1
D2D3
D4
D5D6
D7
A0
A1
A2A3
A4
A5
A6
A7
A7
PC
SR
31 16 15 8 7 0
31 16 15 8 7 0
15 8 7 0
DATA REGISTERS
ADDRESS REGISTERS
STACK POINTER
PROGRAM CONTER
STATUS REGISTER
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ACCUMULATOR
a register in which intermediate arithmetic and logic
results are stored.
example for accumulator use is summing a list of
numbers.
The accumulator is initially set to zero, then each
number in turn is added to the value in the accumulator.
Only when all numbers have been added is the result
held in the accumulator written to main memory or to
another, non-accumulator, CPU register.
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CONDITION CODE REGISTER (CCR)
an 8 bit register used to store the status of CPU,
such as carry, zero, overflow and half carry.
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Flag Name Description
Z Zero flag Indicates that the result of a mathematical or logical operation was zero.
C Carry flag
Indicates that the result of an operation produced an answer greater
than the number of available bits. (This flag may also be set before a
mathematical operation as an extra operand to certain instructions, e.g.
"add with carry".)
X Extend flagMasks the XIRQ request when set. It is set by the hardware and
cleared by the software as well is set by unmaskable XIRQ.
N Negative/ Sign flag
Indicates that the result of a mathematical operation is negative. In
some processors, the N and S flags have different meanings: the S flag
indicates whether a subtraction or addition has taken place, whereas
the N flag indicates whether the last operation result is positive or
negative.
V Overflow Flag
Indicates that the result of an operation has overflowed according to the
CPU's word representation, similar to the carry flag but for signed
operations.
I interrupts
Interrupts can be enabled or disabled by respectively setting or clearing
this flag. Modifying this flag may be restricted to programs executing in
supervisor mode
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PROGRAM COUNTER (PC)
a 16 bit register, used to store the next address of the operation code to be fetched by the CPU.
Not much use in programming, but as an indicator to user only.
Purpose of PC in a Microprocessor
to store address of tos (top of stack)
to store address of next instruction to be executed.
count the number of instructions.
to store base address of the stack.30
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INTERNAL STRUCTURE OF PC
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STACK POINTER (SP)
The stack is configured as a data structure that grows downward from high memory to low memory.
At any given time, the SP holds the 16-bit address of the next free location in the stack.
The stack acts like any other stack when there is a subroutine call or on an interrupt. ie. pushing the return address on a jump, and retrieving it after the operation is complete to come back to its original location.
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BUS SYSTEM
a subsystem that transfers data between computer
components inside a computer or between
computers.
4 PCI Express bus card slots (from top to bottom: x4, x16, x1 and x16),
compared to a traditional 32-bit PCI bus card slot (very bottom).
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BUS SYSTEM CONNECTION
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DATA BUS
The data bus is 'bi-directional'
data or instruction codes from memory or
input/output.are transferred into the
microprocessor
the result of an operation or computation is sent
out from the microprocessor to the memory or
input/output.
Depending on the particular microprocessor,
the data bus can handle 8 bit or 16 bit data.
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ADDRESS BUS
The address bus is 'unidirectional', over which the
microprocessor sends an address code to the
memory or input/output.
The size (width) of the address bus is specified by
the number of bits it can handle.
The more bits there are in the address bus, the
more memory locations a microprocessor can
access.
A 16 bit address bus is capable of addressing
65,536 (64K) addresses.
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CONTROL BUS
The control bus is used by the microprocessor to
send out or receive timing and control signals in
order to coordinate and regulate its operation and
to communicate with other devices, i.e. memory or
input/output.
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MICRO PROCESSOR CLOCK
Also called clock rate, the speed at which a microprocessor executes instructions. Every computer contains an internal clock that regulates the rate at which instructions are executed and synchronizes all the various computer components.
The CPU requires a fixed number of clock ticks (or clock cycles) to execute each instruction. The faster the clock, the more instructions the CPU can execute per second. Clock speeds are expressed in megahertz (MHz) or gigahertz ((GHz).
Some microprocessors are superscalar, which means that they can execute more than one instruction per clock cycle.
Like CPUs, expansion buses also have clock speeds. Ideally, the CPU clock speed and the bus clock speed should be the same so that neither component slows down the other. In practice, the bus clock speed is often slower than the CPU clock speed, which creates a bottleneck. This is why new local buses, such as AGP, have been developed.
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EXAMPLES OF MICRO PROCESSOR
Intel 8085
Intel 8086
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8086
The 8086 is a 16-bit microprocessor
chip designed by Intel, which gave
rise to the x86 architecture;
development work on the 8086
design started in the spring of 1976
and the chip was introduced to the
market in the summer of 1978.
The Intel 8088, released in 1979,
was a slightly modified chip with an
external 8-bit data bus (allowing the
use of cheaper and fewer
supporting logic chips and is notable
as the processor used in the original
IBM PC.40
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8085
The Intel 8085 is an 8-bit
microprocessor introduced by
Intel in 1977.
It was binary-compatible with the
more-famous Intel 8080 but
required less supporting
hardware, thus allowing simpler
and less expensive
microcomputer systems to be
built.
An Intel 8085AH processor.
ProducedFrom 1977 to
1990s
Common manufacturer(s)•Intel and
several others
Max. CPU clock rate3,5 and
6 MHz
Instruction set pre x86
Package(s) •40 pin DIP
41
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Instruction Cycle:
TIMING DIAGRAM
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time required to access the memory or
input/output devices is called machine cycle
Machine Cycle:
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The machine cycle and instruction cycle takes multiple
clock periods.
T- States:
A portion of an operation carried out in one
system clock period is called as T-state
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• Microprocessor operates with reference to
clock signals.
• X1 and X2 we provide clock signals and this
frequency is divided by two.
• This frequency is called as the operating
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Addressing Modes
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TYPES OF ADDRESSING MODES
Intel 8085 uses the following addressing modes:
1. Direct Addressing Mode
2. Register Addressing Mode
3. Register Indirect Addressing Mode
4. Immediate Addressing Mode
5. Implicit Addressing Mode
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DIRECT ADDRESSING MODE
In this mode, the address of the operand is given in
the instruction itself.
LDA is the operation.
2500 H is the address of source.
Accumulator is the destination.
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LDA 2500 H Load the contents of memory
location 2500 H in accumulator.
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REGISTER ADDRESSING MODE
In this mode, the operand is in general purpose
register.
MOV is the operation.
B is the source of data.
A is the destination.
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MOV A, B Move the contents of register B to
A.
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REGISTER INDIRECT ADDRESSING MODE
In this mode, the address of operand is specified by
a register pair.
MOV is the operation.
M is the memory location specified by H-L register
pair.
A is the destination.
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MOV A, M Move data from memory location
specified by H-L pair to accumulator.
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IMMEDIATE ADDRESSING MODE
In this mode, the operand is specified within the
instruction itself.
MVI is the operation.
05 H is the immediate data (source).
A is the destination.
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MVI A, 05 H Move 05 H in accumulator.
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IMPLICIT ADDRESSING MODE
If address of source of data as well as address of
destination of result is fixed, then there is no need
to give any operand along with the instruction.
CMA is the operation.
A is the source.
A is the destination.
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CMA Complement accumulator.
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8085 Instruction Set 1
8085 Instruction Set
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8085 Instruction Set 2
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8085 Instruction Set 3
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8085 Instruction Set 4
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8085 Instruction Set 5
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8085 Instruction Set 6
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8085 Instruction Set 7
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8085 Instruction Set 8
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8085 Instruction Set 9
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8085 Instruction Set 10
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8085 Instruction Set 11
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8085 Instruction Set 12
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8085 Instruction Set 13
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8085 Instruction Set 14
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8085 Instruction Set 15
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8085 Instruction Set 16
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8085 Instruction Set 17
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8085 Instruction Set 18
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8085 Instruction Set 19
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8085 Instruction Set 20
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8085 Instruction Set 21
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8085 Instruction Set 22
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8085 Instruction Set 23
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8085 Instruction Set 24
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8085 Instruction Set 25
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8085 Instruction Set 26
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8085 Instruction Set 27
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8085 Instruction Set 28
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8085 Instruction Set 29
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8085 Instruction Set 30
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8085 Instruction Set 31
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8085 Instruction Set 32
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8085 Instruction Set 33
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8085 Instruction Set 34
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8085 Instruction Set 35
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8085 Instruction Set 36
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8085 Instruction Set 37
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8085 Instruction Set 38
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8085 Instruction Set 39
PSW (Program Status word)
- Flag unaffected
* affected
0 reset
1 set
S Sign (Bit 7)
Z Zero (Bit 6)
AC Auxiliary Carry (Bit 4)
P Parity (Bit 2)
CY Carry (Bit 0)
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8085 Instruction Set 40
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8085 Instruction Set 41
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8085 Instruction Set 42
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8085 Instruction Set 43
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8085 Instruction Set 44
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8085 Instruction Set 45
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8085 Instruction Set 46
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8085 Instruction Set 47
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8085 Instruction Set 48
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8085 Instruction Set 49
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8085 Instruction Set 50
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8085 Instruction Set 51
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8085 Instruction Set 52
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8085 Instruction Set 53
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8085 Instruction Set 54
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8085 Instruction Set 55
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8085 Instruction Set 56
circular Left shift
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8085 Instruction Set 57
circular right shift
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8085 Instruction Set 58
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8085 Instruction Set 59
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8085 Instruction Set 60
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8085 Instruction Set 61
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8085 Instruction Set 62
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8085 Instruction Set 63
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8085 Instruction Set 64
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8085 Instruction Set 65
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8085 Instruction Set 66
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8085 Instruction Set 67
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8085 Instruction Set 68
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8085 Instruction Set 69
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8085 Instruction Set 70
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8085 Instruction Set 71
Summary – Data transfer
MOV Move
MVI Move Immediate
LDA Load Accumulator Directly from Memory
STA Store Accumulator Directly in Memory
LHLD Load H & L Registers Directly from
Memory
SHLD Store H & L Registers Directly in
Memory
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8085 Instruction Set 72
Summary Data transfer
An 'X' in the name of a data transfer instruction implies that it
deals with a register pair (16-bits);
LXI Load Register Pair with Immediate data
LDAX Load Accumulator from Address in Register Pair
STAX Store Accumulator in Address in Register Pair
XCHG Exchange H & L with D & E
XTHL Exchange Top of Stack with H & L
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8085 Instruction Set 73
Summary - Arithmetic Group Add, Subtract, Increment / Decrement data in registers or memory.
ADD Add to Accumulator
ADI Add Immediate Data to Accumulator
ADC Add to Accumulator Using Carry Flag
ACI Add Immediate data to Accumulator Using Carry
SUB Subtract from Accumulator
SUI Subtract Immediate Data from Accumulator
SBB Subtract from Accumulator Using Borrow (Carry) Flag
SBI Subtract Immediate from Accumulator
Using Borrow (Carry) Flag
INR Increment Specified Byte by One
DCR Decrement Specified Byte by One
INX Increment Register Pair by One
DCX Decrement Register Pair by One
DAD Double Register Add; Add Content of Register Pair to H & L
Register Pair
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8085 Instruction Set 74
Summary Logical Group
This group performs logical (Boolean) operations on data in registers and memory and on condition flags.
These instructions enable you to set specific bits in the accumulator ON or OFF.
ANA Logical AND with Accumulator
ANI Logical AND with Accumulator Using Immediate
Data
ORA Logical OR with Accumulator
OR Logical OR with Accumulator Using Immediate
Data
XRA Exclusive Logical OR with Accumulator
XRI Exclusive OR Using Immediate Data
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8085 Instruction Set 75
The Compare instructions compare the content of an 8-bit value with the contents of the accumulator;
CMP Compare
CPI Compare Using Immediate Data
The rotate instructions shift the contents of the accumulator one bit position to the left or right:
RLC Rotate Accumulator Left
RRC Rotate Accumulator Right
RAL Rotate Left Through Carry
RAR Rotate Right Through Carry
Complement and carry flag instructions:
CMA Complement Accumulator
CMC Complement Carry Flag
STC Set Carry Flag
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8085 Instruction Set 76
Summary - Branch Group
Unconditional branching JMP Jump
CALL Call
RET Return
Conditions NZ Not Zero (Z = 0)
Z Zero (Z = 1)
NC No Carry (C = 0)
C Carry (C = 1)
PO Parity Odd (P = 0)
PE Parity Even (P = 1)
P Plus (S = 0)
M Minus (S = 1)
Conditional branching
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8085 Instruction Set 77
Summary - Stack
PUSH Push Two bytes of Data onto the Stack
POP Pop Two Bytes of Data off the Stack
XTHL Exchange Top of Stack with H & L
SPHL Move content of H & L to Stack Pointer
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8085 Instruction Set 78
I/0 instructions
IN Initiate Input Operation
OUT Initiate Output Operation
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8085 Instruction Set 79
Summary -Machine Control instructions
EI Enable Interrupt System
DI Disable Interrupt System
HLT Halt
NOP No Operation
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8086 MICROPROCESSOR
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Block diagram of 8086
2
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Software Model of the 8086 Microprocessors
3
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8086 Registers
4
C S
S S
D S
E S
S e g m e n t
B P
In d e x
S P
S I
D I
A H
B H
C H
D H D L
C L
B L
A L
G e n e r a l P u r p o s e
S t a t u s a n d C o n t ro l
F la g s
IP
A X
B X
C X
D X
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General Purpose Registers
• Normally used for storing temporary results
• Each of the registers is 16 bits wide (AX, BX, CX, DX)
• Can be accessed as either 16 or 8 bits AX, AH, AL
5
AX - the AccumulatorBX - the Base RegisterCX - the Count RegisterDX - the Data Register
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General Purpose Registers
• AX
– Accumulator Register
– Preferred register to use in arithmetic, logic and data transfer instructions because it generates the shortest Machine Language Code
– Must be used in multiplication and division operations
– Must also be used in I/O operations
• BX
– Base Register
– Also serves as an address register
6
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General Purpose Registers
• CX
– Count register
– Used as a loop counter
– Used in shift and rotate operations
• DX
– Data register
– Used in multiplication and division
– Also used in I/O operations
7
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Pointer and Index Registers
• All 16 bits wide, L/H bytes are not accessible
• Used as memory pointers
– Example: MOV AH, [SI]
• Move the byte stored in memory location whose address is contained in
register SI to register AH
• IP is not under direct control of the programmer8
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Flag Register
9
Carry
Parity
Auxiliary Carry
Zero
Overflow
Direction
Interrupt enable
Trap
Sign6 are status flags
3 are control flag
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8086 Programmer’s Model
10
ES
CS
SS
DS
IP
AH
BH
CH
DH
AL
BL
CL
DL
SP
BP
SI
DI
FLAGS
AX
BX
CX
DX
Extra Segment
Code Segment
Stack Segment
Data Segment
Instruction Pointer
Accumulator
Base Register
Count Register
Data Register
Stack Pointer
Base Pointer
Source Index Register
Destination Index Register
BIU registers(20 bit adder)
EU registers
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The Stack
• The stack is used for temporary storage of information
such as data or addresses.
• When a CALL is executed, the 8086 automatically PUSHes
the current value of CS and IP onto the stack.
• Other registers can also be pushed
• Before return from the subroutine, POP instructions can
be used to pop values back from the stack into the
corresponding registers.
11
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The Stack
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INTEL 8086 - Pin Diagram
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INTEL 8086 - Pin Details
14
Ground
Clock
Duty cycle: 33%
Power Supply
5V 10%
Reset
Registers, seg
regs, flags
CS: FFFFH, IP:
0000H
If high for
minimum 4
clks
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INTEL 8086 - Pin Details
15
Address/Data Bus:
Contains address
bits A15-A0 when ALE
is 1 & data bits D15 –D0 when ALE is 0.
Address Latch Enable:
When high,
multiplexed
address/data bus
contains address
information.
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INTEL 8086 - Pin Details
16
INTERRUPT
Non - maskable
interrupt
Interrupt request
Interrupt
acknowledge
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INTEL 8086 - Pin Details
17
Direct
Memory
Access
Hold
acknowledge
Hold
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INTEL 8086 - Pin Details
18
Address/Status Bus
Address bits A19 –A16 & Status bits S6
– S3
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INTEL 8086 - Pin Details
19
Bus High Enable/S7
Enables most
significant data bits
D15 – D8 during read
or write operation.
S7: Always 1.
BHE#, A0:
0,0: Whole word (16-bits)
0,1: High byte to/from odd address
1,0: Low byte to/from even address
1,1: No selection
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INTEL 8086 - Pin Details
20
Min/Max mode
Minimum Mode: +5V
Maximum Mode: 0V
Minimum Mode Pins
Maximum Mode
Pins
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Minimum Mode- Pin Details
21
Read Signal
Write Signal
Memory or I/0
Data Bus Enable
Data
Transmit/Receive
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Maximum Mode - Pin Details
22
Status Signal
Inputs to 8288 to
generate eliminated
signals due to max
mode.
S2 S1 S0
000: INTA
001: read I/O port
010: write I/O port
011: halt
100: code access
101: read memory
110: write memory
111: none -passive
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Maximum Mode - Pin Details
23
DMA
Request/Grant
Lock Output
Lock Output
Used to lock peripherals
off the system
Activated by using the
LOCK: prefix on any
instruction
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Maximum Mode - Pin Details
24
Queue Status
Used by numeric
coprocessor (8087)
QS1 QS0
00: Queue is idle
01: First byte of opcode
10: Queue is empty
11: Subsequent byte of
opcode
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Minimum Mode 8086 System
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Minimum Mode 8086 System
26
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‘Read’ Cycle timing Diagram for Minimum Mode
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‘Write’ Cycle timing Diagram for Minimum Mode
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Maximum Mode 8086 System
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Maximum Mode 8086 System
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Maximum Mode 8086 System • Here, either a numeric coprocessor of the type 8087 or another
processor is interfaced with 8086.
• The Memory, Address Bus, Data Buses are shared resources
between the two processors.
• The control signals for Maximum mode of operation are
generated by the Bus Controller chip 8788.
• The three status outputs S0*, S1*, S2* from the processor are
input to 8788.
• The outputs of the bus controller are the Control Signals, namely
DEN, DT/R*, IORC*, IOWTC*, MWTC*, MRDC*, ALE etc.
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Memory Read timing in
Maximum Mode
32
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Memory Write timing in
Maximum Mode
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8086 Control Signals
1. ALE
2. BHE
3. M/IO
4. DT/R
5. RD
6. WR
7. DEN
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Coprocessor and Multiprocessor configuration
• Multiprocessor Systems refer to the use of multiple
processors that executes instructions simultaneously
and communicate with each other using mail boxes and
Semaphores.
• Maximum mode of 8086 is designed to implement 3
basic multiprocessor configurations:
1. Coprocessor (8087)
2. Closely coupled (8089)
3. Loosely coupled (Multibus)
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Coprocessor and Multiprocessor configuration
• Coprocessors and Closely coupled configurations are
similar in that both the 8086 and the external processor
shares the:
- Memory
- I/O system
- Bus & bus control logic
- Clock generator
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Coprocessor / Closely Coupled
Configuration
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TEST pin of 8086
• Used in conjunction with the WAIT instruction in
multiprocessing environments.
• This is input from the 8087 coprocessor.
• During execution of a wait instruction, the CPU checks this
signal.
• If it is low, execution of the signal will continue; if not, it
will stop executing.
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Advantages of Multiprocessor
Configuration1. High system throughput can be achieved by having more than
one CPU.
2. The system can be expanded in modular form.Each bus master module is an independent unit and normally resides on
a separate PC board. One can be added or removed without affecting the
others in the system.
3. A failure in one module normally does not affect the breakdown
of the entire system and the faulty module can be easily
detected and replaced
4. Each bus master has its own local bus to access dedicated
memory or IO devices. So a greater degree of parallel processing
can be achieved.
39
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WAIT State
• A wait state (Tw) is an extra clocking period, inserted
between T2 and T3, to lengthen the bus cycle, allowing
slower memory and I/O components to respond.
• The READY input is sampled at the end of T2, and again,
if necessary in the middle of Tw. If READY is ‘0’ then a
Tw is inserted.
40
1 2 3 4
Clock
READY
Tw
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Addressing Modes
• Immediate
• Direct
• Indirect
• Register
• Register Indirect
• Displacement (Indexed)
• Stack
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Immediate Addressing• Operand is part of instruction
• Operand = address field
• e.g. ADD AX, 5h
• LDA #5
– Add 5 to contents of accumulator
– 5 is operand
• No memory reference to fetch data
• Fast
• Limited range
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Direct Addressing
• Address field contains address of operand
• Effective address EA = address field (A)
ADD AX, value
Value DB 05h
– Add contents of cell value to accumulator AX
– Look in memory at address value for operand
• Single memory reference to access data
• No additional calculations to work out effective address
• Limited address space
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Direct Addressing Diagram
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Indirect Addressing (1/2)
• Memory cell pointed to by address field
contains the address of (pointer to) the
operand
• EA =(A)
– Look in A, find address (A) and look there for
operand
• e.g. ADD AX, (A)
– Add contents of cell pointed to by contents of
A to accumulator
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Indirect Addressing (2/2)
• Large address space
• 2n where n = word length
• May be nested, multilevel, cascaded
– e.g. EA = (((A)))
• Draw the diagram yourself
• Multiple memory accesses to find operand
• Hence slower
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Indirect Addressing Diagram
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Register Addressing (1/2)
• Operand is held in register named in
address filed
• EA = R
• Limited number of registers
• Very small address field needed
– Shorter instructions
– Faster instruction fetch
– MOV AX, BX
– ADD AX, BX
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Register Addressing (2/2)
• No memory access
• Very fast execution
• Very limited address space
• Multiple registers helps performance
– Requires good assembly programming or
compiler writing
– N.B. C programming
• register int a;
• c.f. Direct addressing
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Register Addressing Diagram
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Register Indirect Addressing
• C.f. indirect addressing
• EA = (R)
• Operand is in memory cell pointed to by
contents of register R
• Large address space (2n)
• One fewer memory access than indirect
addressing
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Register Indirect Addressing Diagram
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Displacement Addressing
• EA = A + (R)• Effective address=start address + displacement
• Effective address=Offset + (Segment Register)
• Use direct and register indirect
• Address field hold two values
– A = base value
– R = register that holds displacement
– or vice versa
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Displacement Addressing
Diagram
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Relative Addressing (PC-
Relative)• A version of displacement addressing
• R = Program counter, PC
• EA = A + (PC)
• i.e. get operand from A cells from current
location pointed to by PC
• c.f locality of reference & cache usage
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Base-Register Addressing
• A holds displacement
– EA = (CS) + A
• R holds pointer to base address
• R may be explicit or implicit
• e.g. segment registers in 80x86
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Indexed Addressing
• A = base
• R = displacement
– EA = A + (R)
• Good for accessing arrays
– EA = A + (R)
– R++
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Combinations• Postindex
– EA = (A) + (R)
• Preindex
– EA = (A+(R))
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Stack Addressing
• Operand is (implicitly) on top of stack
• e.g.
– ADD Pop top two items from stack
and add and push
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Question Bank(Objective Type Questions)
1. In Microprocessor
a. program is stored in memory and data is stored in the registers.
b. program is stored in the registers and data is stored in memory.
c. both program and data are stored in the memory.
d. both program and data are stored in the registers.
2 .A Microprocessor contains.
a. most of the control and arithmetic logic functions of a computer.
b. most of the RAM .
c. most of the ROM.
d. peripheral drivers.
3. A PC in a micro-computer.
a. counts the number of instructions executed in a run.
b. counts the number of programs run after startying.
c. counts the points to the next executable instruction
d. points to the present instruction being executed.
4. An instruction cycle is made up of:
a. one or more execute cycles
b. one or more fetch cycles
c. one opcode and one execute cycle
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d. none of the above.
5. The number of minimum clock cycles in a machine cycle for 8085 are.
a. 1
b. 2
c. 3
d. 5
6. In a 8-bit microprocessor ,the fetch reqired to fetch a 8 bytes instruction will be:
a. 1
b. 2
c. 3
d. depends on computer design
7. The maximun integer ahich can be stored on an 8-bit accunulator is
a. 2kb
b. 200
c. 224
d. 255.
8. The address bus of intel 8085 is 16 bit wide and hence the memory which can be accessed by
this address bus is :
a.112
b.4kb
c.16kb
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d.64 kb
9. A byte corresponds to
(a) 4 bits
(b) 8 bits
(c) 16 bits
(d) 32 bits
10. A gigabyte represents
(a) 1 billion bytes
(b) 1000 kilobytes
(c) 230 bytes
(d) 1024 bytes
11. A megabyte represents
(a) 1 million bytes
(b) 1000 kilobytes
(c) 220 bytes
(d) 1024 bytes
12. A Kb corresponds to
(a) 1024 bits
(b) 1000 bytes
(c) 210 bytes
(d) 210 bits
13. A superscalar processor has
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(a) multiple functional units
(b) a high clock speed
(c) a large amount of RAM
(d) many I/O ports
14. A 32-bit processor has
(a) 32 registers
(b) 32 I/O devices
(c) 32 Mb of RAM
(d) a 32-bit bus or 32-bit registers
15. A 20-bit address busallows access to a memory of capacity
(a) 1 Mb
(b) 2 Mb
(c) 32Mb
(d) 64 Mb
16. A 32-bit address bus allows access to a memory of capacity
(a) 64 Mb
(b) 16 Mb
(c) 1 Gb
(d) 4 Gb
17.Clock speed is measured in
(a) bits per second
(b) baud
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(c) bytes
(d) Hertz
18. An FPU
(a) makes integer arithmetic faster
(b) makes pipelining more efficient
(c) increases RAM capacity
(d) makes some arithmetic calculations faster
19. Pipelining improves CPU performance due to
(a) reduced memory access time
(b) increased clock speed
(c) the introduction of parallellism
(d) additional functional units
20. The system bus is made up of
(a) data bus
(b) data bus and address bus
(c) data bus and control bus
(d) data bus, control bus and address bus
21. A machine cycle refers to
(a) fetching an instruction
(b) clock speed
(c) fetching, decoding and executing an instruction
(d)executing an instruction
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22. A Pentium processor comprises
(a) more than 1 million transistors
(b) more than 3 million transistors
(c) 500,000 transistors
(d) 900,000 transistors
23. Which of the following is NOT a type of processor
(a) PowerPC 601
(b) Motorola 8086
(c) Motorola 68000
(d) Intel Pentium
24. An RS-232 interface is
(a) a parallel interface
(b) a serial interface
(c) printer interface
(d) a modem interface
25. Multiprogramming refers to
(a) having several programs in RAM at the same time
(b)multitasking
(c) writing programs in multiple languages
(d) none of the previous
26. Multitasking refers to
(a) having several programs in RAM at the same time
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(b) the ability to run 2 or more programs concurrently
(c) writing programs in multiple languages
(d) none of the previous
27. Multiprogramming is a prerequisite for
(a) multitasking
(b) an operating system
(c) to run more than one program at the same time
(d) none of the above
28. Multiprocessing is
(a) same as multitasking
(b) same as multiprogramming
(c)multiuser
(d) involves using more than one processor at the same time
29. A compiler is
(a) a fast interpreter
(b) slower than an interpreter
(c) converts a program to machine code
(d) none of the previous
30. An interpreter is
(a) faster than a compiler
(b) translates and executes programs statement by statement
(c) converts a program to machine code
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(d) none of the previous
31. Which of the following is not part of the processor
(a) the ALU
(b) the CU
(c) the registers
(d) the system bus
32. Pipelining improves CPU performance due to
(a) reduced memory access time
(b) increased clock speed
(c) the introduction of parallellism
(d) additional functional units
33. The Pentium processor is
(a) 16-bit
(b) 32-bit
(c) 64 bit
(d) 8-bit
34. The IBM/Motorola PowerPC 601 processor is
(a) 16-bit
(b) 32-bit
(c) 64 bit
(d) 8-bit
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35. An assembly language instruction
(a) always has a label
(b) always takes at least 1 operand
(c) always has an operation field
(d) always modifies the status register
36. An arithmetic instruction always modifies the
(a) stack pointer
(b) status register
(c) program counter
(d) an index register
37. A conditional jump instruction
(a) always cause a transfer of control
(b) always involves the use of the status register
(c) always modifies the program counter
(d) always involves testing the Zero flag
38. An interrupt instruction
(a) causes an unconditional transfer of control
(b) causes a conditional transfer of control
(c) modifies the status register
(d) is an I/O instruction
39. A data movement instruction will
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(a) modify the status register
(b) modify the stack pointer
(c) modify the program counter
(d) transfer data from one location to another
40. The memory address register is used to store
(a) data to be transferred to memory
(b) data that has been transferred from memory
(c) the address of a memory location
(d) an instruction that has been transferred from memory.
41. The memory data register is used to store
(a) data to be transferred to or from memory
(b) data to be transferred to the stack
(c) the address of a memory location
(d) an instruction that has been transferred from memory
42. The instruction register stores
(a) an instruction that has been decoded
(b) an instruction that has been fetched from memory
(c) an instruction that has been executed
(d) the address of the next instruction to be executed
43 The program counter
(a) stores the address of the instruction that is currently being executed
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(b) stores the next instruction to be executed
(c) stores the address of the next instruction to be executed
(d) stores the instruction that is being currently executed.
44. The stack pointer stores
(a) the address of the stack in memory
(b) address of the last item pushed on the stack
(c) the address of the next free stack location
(d) the address of the last item popped from the stack
45. Memory mapped I/O involves
(a) transferring information between memory locations
(b) transferring information between registers and memory
(c) transferring information between the CPU and I/O devices in the same way as
between the CPU and memory
(d) transferring information between I/O devices and memory
46. A hardware interrupt is
(a) also called an internal interrupt
(b) also called an external interrupt
(c) an I/O interrupt
(d) a clock interrupt
47. An assembly language program is typically
(a) non-portable
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(b) shorter than an equivalent HLL program
(c) harder to read than a machine code program
(d)slower to execute than a compiled HLL program
48. Programs are written in assembly language because they
(a) run faster than HLL programs
(b) are portable
(c) easier to write than machine code programs
(d) they allow the programmer access to registers or instructions
that are not usually provided by a HLL
49. An assembly language program is translated to machine code by
(a) an assembler
(b) a compiler
(c) an interpreter
(d) a linker
50. An assembly language directive is
(a) the same as an instruction
(b) used to define space for variables
(c) used to start a program
(d) to give commands to an assembler