Bus Interfacing with Intel Microprocessors Based Systems
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Transcript of Bus Interfacing with Intel Microprocessors Based Systems
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By:Murtadha S. Al-Sabbagh
Supervised By: Dr. Basim Abd Al-Baqi
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A bus connects all the internal computer components to the CPU and Main memory.
In this presentation we will present the ISA (industry standard architecture) bus, the PCI (peripheral component interconnect) and PCI Express buses, the USB (universal serial bus), and the AGP (advanced graphics port).
Also provided are some simple interfaces to many of these bus systems as design guides.
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The Industry Standard Architecture, bus has been around since start of the IBM-PC◦ circa 1982
Any card from the very first personal computer will plug in & function in anyP 4- desabmetsys.◦ provided they have an ISA slot
ISA bus mostly gone from the home PC, but still found in many industrialapplications.◦ due to low cost & number of existing cards
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An ISA bus, or data pathway, operates at 8 MHz clock rate and has a
maximum data rate of 8 MBps for 8-bit bus.
Over years, the ISA bus evolved from original 8-bit, to the
16-bit standard found today.
With the P4, ISA bus started to disappear.
◦ a 32-bit version called the EISA bus (Extended ISA) has also
largely disappeared
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Fig 15–1 shows an 8-bit ISA connector as found on the main board of all PC systems
◦ may be combined with a 16-bit connector
The ISA bus connector contains
◦ the demultiplexed address bus (A19–A0) forthe 1M-byte 8088 system
◦ the 8-bit data bus (D7–D0)
◦ control signals MEMR, MEMW, IOR, and IOW for controlling I/O and any memory placed on the printed circuit card
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Memory is seldom added to ISA today
because ISA cards operate at only 8 MHz.
◦ EPROM or flash memory for setup may be
on some ISA cards, but never RAM
Other signals, useful for I/O interface, are
the interrupt request lines IRQ2–IRQ7.
DMA channel 0–3 control signals are also
present on the connector.
IRQ2 is redirected to IRQ9 on modern
systems, and is so labeled here
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DMA request inputs are labeled DRQ1–DRQ3
and the DMA acknowledge outputs are labeled
DACK0 - DACK3.
Note the DRQ0 input pin is missing,
Early PCs used DRQ0 & the DACK0 output as a
refresh signal to refresh DRAM on the ISA card
today, this output pin contains a 15.2 µs clock
signal used for refreshing DRAM
remaining pins are for power and RESET
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Fig 15–2 shows an interface for the ISA bus, which
provides 32 bits of parallel data .◦ this example system shows some important points about any
system interface
It is extremely important that loading to the bus be kept to
one low-power load.◦ a 74LS244 buffer reduces loading on the bus
If all bus cards were to present heavy loads, the system
would not operate properly.◦ perhaps not at all
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In the PC, the ISA bus is designed to operate at I/O address
0000H through 03FFH.
Newer systems often allow ISA ports above 03FFH, but
older systems do not.
◦ some older cards only decode 0000H–03FFH
& may conflict with addresses above 03FFH
The ports in 15–2 are decoded by three 74LS138 decoders.
◦ more efficient and cost-effective to decode the ports with a
programmable logic device.
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Figure 15–4 shows an input interface to the ISA bus, using
a pair of ADC804 analog-to-digital converters .◦ made through a nine-pin DB9 connector
Decoding I/O port addresses is more complex, as each
converter needs:1. write pulse to start a conversion.
2. read pulse to read the digital data converted.
3. pulse to enable the selection of the INTRtuptuo .
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The difference between 8- & 16-bit ISA is an extra connector behind the 8-bit connector.
A 16-bit card contains two edge connectors: ◦ one plugs into the original 8-bit connector
◦ the other plugs into the new 16-bit connector
Figure 15–5 shows pin-out and placementof the additional connector in relation to the 8-bit connector.
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Original 8 bit ISA
connectors
Additional connections converts
to 16 bit ISA
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PCI (peripheral component interconnect)is virtually the only bus found in new systems.
PCI has replaced the ISA local bus.
PCI has plug-and-play characteristics andability to function with a 64-bit data bus.
It operates at clock speeds of 33 or 66 MHz.
At 32 bits and 33 MHz, a PCI bus has a maximum data rate of 132 MBps.
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PCI functions with a 32-bit or 64- tib data bus
and a full 32- tibsserddasub .◦ address and data buses, labeled AD 0– AD63 are multiplexed to
reduce size of the edge connector
A 32- tibdracsahsnoitcennoc1 through 62 eht ,64- tibdrac
sahlla94 connections .
The 64- tibdracnacetadommocca a64- tibsserddafi
deriuqertaemoserutuftniop .
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The PCI address appears on
AD 0– AD31 and
is multiplexed with data .◦ some systems have a 64- atad tib
subgnisu
AD 32– AD63 for data transfer only
◦ these pins can be used for
extending the
address to 64 bits
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Frame# : is driven by the current master to indicate the beginning of an access and will remain active until the final data cycle (here DMA is not used instead some bus arbitration scheme is).
BC/BE#: Bus Command/Byte Enables are multiplexed. During the address phase of a transaction, they define the bus command. During the data phase, they are used as byte enables.
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PCI Commands• PCI commands are controlled by
using the four pins C/BE3-C/BE0.
• These commands are set by CPU
to control the PCI devices.
Special Cycle The special cycle is used to transfer
data to all PCI components. If the rightmost 16 bits
of the data bus contain a 0000H, indicating a
processor shutdown, 0001H for a processor halt, or
0002H for 80X86 specific code or data.
Configuration Read Configuration information is
read from the PCI device .
Configuration Write The configuration write
allows data to be written to the configuration.
Memory Multiple This is similar to the memory
read access, except it access many data instead of
one.
Dual Addressing Used for transferring address
information to a 64-bit PCI device. which only
contains a 32-bit data path.
Line Memory Addressing Used to read more than
two 32-bit numbers from the PCI bus.
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PCI contains a 256-byte memory to allow the PC to interrogate
the PCI interface.
◦ this feature allows the system to automatically configure itself for the PCI
plug-board
◦ Microsoft calls this plug-and-play (PnP)
The first 64 bytes contain information about the PCI interface.
The first 32-bit doubleword contains the unit ID code and the
vendor ID code.
Fig15–9 shows the configuration memory.
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Unit ID code is a 16- tibrebmunD31– D16.◦ a number between 0000H & FFFEH to identify the
unit if it is installed◦ FFFFH if the unit is not installed
The class code is found in bits D 31– D16 of configurationmemory at location 08H .◦ class codes identify the PCI interface class◦ bits D 15– D0 are defined by the manufacturer
Current class codes are listed in Table 15–5 and areassigned by the PCI SIG.
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The base address space consists of a base address
for the memory, a second for the I/O space, and a
third for the expansion ROM .
Though Intel microprocessors use a 16- O/I tib
sserdda ,ereht simoor rofgnidnapxeot32 bits
addressing.
The status word is loaded in bits D 31– D16 of
location 04H of the configuration memory.
the command is at bits D 15– D0 of 04H
Fig 15–10 shows the status & command registers.31
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Most modern PCs have an extension to the normal system
BIOS that supports PCI bus .◦ these systems access PCI at interrupt vector 1AH
Table 15–6 lists functions available through the DOS INT
1AH instruction with AH = 0B1H for the PCI.
Example 15–5 shows how the BIOS is used
to determine whether the PCI bus extension available .
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The PCI Express (version 1) transfers data in serial at 2.5 GHz.
Each serial connection on the PCI Express bus is called a lane.
The PCIe v1 transfers data at rate 250 MBps (1 lane) to 4 GBps (16 lanes) for PCI Express interfaces .
A PCI Express video card connector currently has 16 lanes with a transfer speed of 4 GBps.
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the lane is constructed from a pair of data pipes eno ,
atad tuptuo rof eno dna atad tupni rof
signaling on the PCI Express bus uses 3.3 V
with differential signals
the pin-out for the single lane connector ,
appears in Table 15–7
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PCIe Versions Speed Comparison
Transfer rate is expressed in transfers per second instead of bits per
second because the number of transfers includes the overhead bits, which
do not provide additional throughput; PCIe 1.x uses an 8b/10b
encoding scheme, resulting in a 20% (= 2/10) overhead on the raw
channel bandwidth
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The standard allows up to 32 lanes.
◦ at present the widest is the 16 lanes video card
Most main boards contain four single lane slots for
peripherals and one 16 lane slot for the video card.
◦ a few newer boards contain two 16 lane slots
PCI Express 2 bus was released in late 2007.
◦ transfer speed from 250 MBps to 500 MBps,
twice that of the PCI Express v1
PCI is replacing most current video cards on the AGP port
with the PCI Express bus.
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This technology allows manufacturers to use less space on
the main board and reduce the cost of manufacturing a main
board .◦ connectors are smaller, which also reduces cost
Software used with PCI Express remains the same as used
with the PCI bus.◦ new programs are not needed to develop drivers
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The parallel printer interface (LPT) is located on the rear of
the PC.
LPT stands for line printer.
The printer interface gives the user access
to eight lines that can be programmed to receive or send
parallel data.
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– the Centronics interface on the
parallel port uses two connectors
– a 25-D nip-epyt eht nokcab fo
CP eht
– a 36- nipscinortneC eht nokcab
eht foretnirp
– the pin-outs of these connectors
are listed in
Table 15–8
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The parallel port can work as both a receiver and a
transmitter at its data pins D 0– D7
◦ allows other devices such as CD-ROMs, to be connected to and
used by the PC through port
Anything that can receive and/or send data through an 8-
tibecafretninac dnanetfoseodtcennocot ehtlellaraptrop
TPL(1CP a fo ).
See Figure 15–14.
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The data port 378H
The status register 379H
An additional status port
37AH
Note that some of
the status bits are true when
logic 0
Shown here are the contents
of:
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For most systems since the PS/2, one can follow the information presented in Fig 15–14 to use the parallel port.
To read the port, it must be initialized by sending 20H to register 37AH.
Once the parallel port is programmed to function as an input port, reading is accomplished by accessing the data port at address 378H.
To write data to the parallel port, reprogram the command register at address 37A by writing 00H to program the bidirectional bit with a zero. data are then sent to the parallel port through the data port at address 378H.
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On 80286 systems, the bidirectional bit is missing from the
interface.
◦ these systems do not have a register at 37AH
◦ to read information from the parallel port, write 0FFH to the port
(378H), so that it can be read
Accessing the printer port from Windows is difficult
because a driver must be written for Windows 2000 or
Windows XP.
Windows 98 or Windows ME port access
is accomplished as explained for DOS.
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Serial communications ports are COM1–COM8
◦ most PCs have only COM1 and COM2 installed
Under DOS these ports are controlled and accessed with the
16550 serial interface.
USB devices often interface using the HID (human
interface device) as a COM port.
◦ allows standard serial software to access USB
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The universal serial bus (USB) has solved a problem with the PC system.
Current PCI sound cards use internal PC power, which generates a lot of noise. ◦ USB allows the sound card to have its own power supply, for high-fidelity sound with no
60 Hz hum
Other benefits are ease of connection and access to up to 127 different connections.
The interface is ideal for keyboards, sound cards, simple video-retrieval, and modems.
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USB Types Comparison (Power & Data rate):
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The Connector
– two types of connectors are specified, both are in
use
– there are four pins on each connector, with signals
indicated in Table 15–10
– the +5.0 V and ground can power devices
connected to the bus
– data signals are biphase signals
– when +data are at 5.0 V, –data are at zero volts and
vice versa
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Data signals are biphase signals generated using a circuit such as shown in Fig 15–16.
The line receiver is also shown.
A noise-suppression circuit available from Texas Instruments (SN75240) is placed on the transmission pair
Once the transceiver is in place, interfacingto the USB is complete.
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– a 75773 IC from Texas Instruments functions as
differential line driver and receiver here
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– USB uses NRZI (non-return to zero, inverted)
encoding to transmit packet data
– this method does not change signal level for
the transmission of logic 1
– signal level is inverted for each change to logic 0
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Actual data transmitted includes sync bits, a method called
bit stuffing, because it lengthens the data stream.
If logic 1 is transmitted for more than 6 bits in a row, the bit
stuffing technique adds an extra bit (logic 0) after six
continuous 1s in a row.
Bit stuffing ensures the receiver can maintain
synchronization for long strings of 1s.
◦ data are always transmitted with the least-significant bit first,
followed by subsequent bits
See Fig 15–18.
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– a bit-stuffed serial data stream
and the algorithm used to create
it from raw digital serial data
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To begin communication, sync byte 80H is transmitted first, followed by the packet identification byte (PID).
The PID contains 8 bits.◦ only the rightmost 4 bits contain the type of packet that follows, if any.
The leftmost 4 bits of the PID are the ones complementing the rightmost 4 bits.
ENDP (endpoint) is a 4- tibrebmundesuybBSU eht .◦ Endpoint 0000 is used for initialization .◦ Other endpoints are unique to each USB device.
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Two types of CRC (cyclic redundancy checks )desu no
BSU.◦ 5-bit CRC generated with polynomial X 5X +2 +1
◦ a 16- ,CRC tibdesu atad rofstekcap ,detarenegX eht htiw16X +15
X +2 +1 polynomial
When using 5- a ,CRC tiblaudiser fo01100 is received for
no error in all five bits of the CRC and the data bits .◦ a 16- tibonrorre CRClaudiser si1000000000001101
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Once a packet is transferred from host to USB device, ifdata & CRC are received correctly, ACK (acknowledge) is sent to the host .
If data and CRC are not devieceryltcerroc( KAN eht ,tonegdelwonkca si )tnes.
◦ if the host receives a NAK token, it retransmitsthe data packet until it is received correctly
This method of data transfer is often called stop and waitflow control .◦ host must wait for client to send an ACK or
NAK before transferring additional data packets
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National Semiconductor produces a USB bus interface
easy to interface to the processor.
Connect this device using non-DMA access:
◦ connect the data bus to D0–D7
◦ connect control inputs RD, WR, and CS and a 24 MHz fundamental
crystal across XIn and XOut pins
The USB bus connection is located on the D– and D+ pins.
Figure 15–20 shows a USBN9604 USB node.
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USBN9604 is a USB
bus transceiver that can
receive and transmit
USB data
this provides an interface
point to
the USB bus for
a minimal cost of about
two dollars
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Simplest interface is achieved by connecting the two mode
inputs to ground .
This places the device into nonmultiplexed parallel mode .◦ in this mode the A0 pin is used to select address ( 1 (roatad (0)
Fig 15–21 shows this connection decodes
at I/O addresses 0300H (data) and 0301H (address)
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The latest addition to most systems was the accelerated
graphics port (AGP), until PCI Express became available
for video.
It is designed for transfer between video card and system
memory at a maximum speed.
◦ AGP transfers at a maximum of 2GB/s
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Thank you ^_~