salient featurs of 80386
TRANSCRIPT
Agenda:
Friday, August 22, 2014 Architecture of 80386
Salient Features of 80386
Functional Block Diagram of 80836
Pin Description of 8086
1
Salient Features of 80386XIt supports 8/16/32 bit data operands
It has 132 pins.
It has 32-bit internal registers
It supports 32-bit data bus and 32-bit
non-multiplexed address bus
Friday, August 22, 2014 2Architecture of 80386
Cont’d…It supports
Physical Address of 4GB
Maximum Segment size of 4GB
Virtual Address of 64TB(4GB seg. * 16,384 segments)
3 Types of 80386
1. 80386DX(floating point capability.)
2. 80386SX(16-bit data bus)
3. 80386SL(several power management options)
Friday, August 22, 2014 3Architecture of 80386
Cont’d…It operates in 3 different modes
Real
Protected
Virtual .
MMU provides virtual memory, paging
and 4 levels of protection
Low cost & low power consumption.
Clock Frequency : 20,25 and 33MHz
Friday, August 22, 2014 4Architecture of 80386
Friday, August 22, 2014 Architecture of 80386 5
**Snapshot of 80386
Friday, August 22, 2014 6Architecture of 80386
Central Processing Unit
Bus Control UnitMemory Management Unit
Architecture of 80386
Central Processing Unit
Memory Management Unit
Bus Control Unit
Friday, August 22, 2014 7Architecture of 80386
Central Processing Unit
Execution Unit:Execution unit has 8 General and Special purpose
registers, which are either used for handling data or
calculating offset addresses.
The 64-bit barrel shifter increases the speed of all shift, rotate.
Multiply/divide logic implements the bit-shift-rotate algorithms to complete the operation in minimum time.
8Friday, August 22, 2014 Architecture of 80386
The CPU is further divided into:
Execution Unit
Instruction Unit
Instruction Unit:
It decodes the opcode bytes received from the 16-byte instruction code queue and arrange them into a 3-decoded instruction queue.
After decoding it is passed to control section for deriving necessary control signals
9Friday, August 22, 2014 Architecture of 80386
Memory Management Unit
MMU consists of a segmentation unit and paging unit.
Segmentation Unit:
Uses of two address components - segment and offset –
for relocability and sharing of data.
It allows a maximum segment size of 4GB.
10Friday, August 22, 2014 Architecture of 80386
Memory Management UnitPaging Unit
It organizes physical memory in terms of pages of 4KB
size.
It works under the control of segmentation unit i.e. each
segment is divided into pages.
It converts linear addresses into physical addresses.
The control and attribute PLA checks privileges at page
level.
11Friday, August 22, 2014 Architecture of 80386
Bus Control Unit
12
It has a prioritizer to resolve the priority of various bus
requests. This controls the access of the bus.
The address driver drives the bus enable and address
signals A2 –A31.
Friday, August 22, 2014 Architecture of 80386
Friday, August 22, 2014 Architecture of 80386 13
**Snapshot of 80386
Pin Layout
Friday, August 22, 2014 14Architecture of 80386
80386
PROCESSOR
CLK 2
2 X CLOCK
DATA
BUSD 0 – D 31
32 BIT
DATA
BUS
CONTROL
ADS #
NA #
BS 16 #
READY
HOLD
HLDA
INTR
NMI
RESET
BUS
ARBITRATION
INTERRUPTSGND
V CC
POWER
CONNECTIO
NS
ERROR #
BUSY #
PEREQ
LOCK #
M / IO
D / C #
ADDRESS
BUSA 2 – A 31
BE 3 #
BE 2 #
BE 1 #
BE 0 #
W / R #
COPROCESS
OR
SIGNALLING
BUS CYCLE
DEFINATION
BYTE
ENABLI
NES
32 – BIT
ADDRESS
Friday, August 22, 2014 15Architecture of 80386
W/R: The write / read output distinguishes the write and read cycles from one another.
D/C: Whether the bus operation is data R/W or control word transfer.
M/IO: Operation is memory or I/O.
PEREQ: Requset to fetch first part of data word for coprocessor.
BUSY: Coprocessor uses this to notify that, instruction execution is going on.
LOCK: The LOCK output pin enables the CPU to prevent the other bus masters from gaining the control of the system bus.
NA: The next address input pin, if activated, allows address pipelining.
Friday, August 22, 2014 16Architecture of 80386
ADS#: The address status output pin indicates that the address bus and bus cycle definition pins( W/R#, D/C#, M/IO#, BE0# to BE3# ) are carrying the respective valid signals.
BS16: The bus size – 16 input pin allows the interfacing of 16 bit devices with the 32 bit wide 80386 data bus.
READY#: The ready signals indicates to the CPU that the previous bus cycle has been terminated and the bus is ready for the next cycle.
VCC: These are system power supply lines.
VSS/GND:These return lines for the power supply.
Friday, August 22, 2014 17Architecture of 80386
Friday, August 22, 2014 18Architecture of 80386
S.N. Parameter 8086 80386
1 Number of Pins 40 132
2 Pin Nature DIP No DIP
3 Clock rate Supports 5,8 & 10Mhz 16 & 20 MHz
4 Operating Mode 2(viz. minimum & Maximum)
3(viz. real, protected & virtual)
5 Signal Category 3 2
6 Number of Registers 14, 16bit 16, 32 bit
7 Architecture(Processor) 16bit 32bit
8 Architecture Composition in unit 2 (viz. EU, BIU) 3(CPU,MMU & BCU)
9 Data Bus 16 bit 32 bit
10 Address Bus 20 bit 32 bit
11 Memory Access Up to 1 MB Up to 4 Gb
12 Power Consumption High Low
13 Cost High Low