Intel Computer Hardware AP440FX User Manual

AP440FX Motherboard  
Technical Product Specification  
May, 1997  
Order Number 281830-002  
The AP440FX motherboard may contain design defects or errors known as errata which may cause the product to deviate from published specifications. Current characterized  
errata are documented in the AP440FX Motherboard Specification Update.  
 
Table of Contents  
1 Motherboard Description  
1.1 Overview......................................................................................................................7  
1.2 Motherboard Manufacturing Options ...........................................................................9  
1.3 Form Factor .................................................................................................................9  
1.4 I/O Shield...................................................................................................................10  
1.5 Microprocessor ..........................................................................................................11  
1.5.1  
1.5.2  
Microprocessor Upgrade .............................................................................11  
Microprocessor Heatsink and Clips .............................................................11  
1.6 Main System Memory ................................................................................................12  
1.6.1  
1.6.2  
DRAM..........................................................................................................12  
Parity and ECC DRAM ................................................................................12  
1.7 Chipset ......................................................................................................................12  
1.7.1  
1.7.2  
1.7.3  
1.7.4  
1.7.5  
1.7.6  
82441FX PCI Bridge and Memory Controller (PMC) ...................................12  
82442FX Data Bus Accelerator (DBX) ........................................................13  
82371SB PCI/ISA IDE Xccelerator (PIIX3)..................................................13  
IDE Support.................................................................................................14  
Secure Flash Support..................................................................................14  
USB Support ...............................................................................................14  
1.8 PC87307 Super I/O Controller...................................................................................15  
1.8.1  
1.8.2  
1.8.3  
1.8.4  
1.8.5  
Floppy Controller .........................................................................................15  
Keyboard and Mouse Interface ...................................................................15  
Real-Time Clock, CMOS RAM and Battery .................................................16  
Infrared Support ..........................................................................................16  
Parallel Port.................................................................................................16  
1.9 Graphics Subsystem..................................................................................................16  
1.9.1  
1.9.2  
1.9.3  
1.9.4  
S3 ViRGE Graphics Subsystem ..................................................................17  
S3 ViRGE/DX Graphics Subsystem ............................................................18  
LBP VESA Feature Connector ....................................................................18  
Graphics Drivers and Utilities ......................................................................18  
1.10 Audio Subsystem.......................................................................................................19  
1.11 Management Extension Hardware.............................................................................19  
1.12 Motherboard Connectors...........................................................................................20  
1.12.1 Front Panel Connectors...............................................................................22  
1.12.2 Memory/Expansion Connectors...................................................................25  
1.12.3 VESA Feature Connector............................................................................27  
1.12.4 Serial Header ..............................................................................................27  
1.12.5 Audio Connectors........................................................................................28  
1.12.6 Power Supply Connectors...........................................................................29  
1.12.7 Floppy/IDE Connectors ...............................................................................30  
1.12.8 Back Panel Connectors...............................................................................32  
1.13 Jumper Settings.........................................................................................................35  
1.13.1 Microprocessor Configuration (J4L2)...........................................................36  
1.13.2 Motherboard Configuration (J4L2, J1J1) .....................................................36  
1.14 Reliability ...................................................................................................................37  
iii  
 
AP440FX Motherboard Technical Product Specification  
1.15 Environmental............................................................................................................38  
1.16 Power Consumption ..................................................................................................38  
1.16.1 Power Supply Considerations .....................................................................39  
1.17 Regulatory Compliance..............................................................................................39  
1.17.1 Safety..........................................................................................................39  
1.17.2 EMI..............................................................................................................40  
1.17.3 Product Certification Markings.....................................................................40  
2 Motherboard Resources  
2.1 Memory Map..............................................................................................................41  
2.2 I/O Map......................................................................................................................42  
2.3 Soft-Off Control..........................................................................................................43  
2.4 PCI Configuration Space Map ...................................................................................43  
2.5 DMA Channels...........................................................................................................43  
2.6 Interrupts ...................................................................................................................44  
3 Motherboard BIOS and Setup Utility  
3.1 Introduction................................................................................................................45  
3.2 BIOS Flash Memory Organization .............................................................................45  
3.3 BIOS Upgrades..........................................................................................................45  
3.4 PCI IDE Support ........................................................................................................46  
3.5 PCI Auto-Configuration..............................................................................................46  
3.6 ISA Plug and Play......................................................................................................47  
3.7 Desktop Management Interface (DMI).......................................................................47  
3.8 Advanced Power Management (APM).......................................................................48  
3.9 Advanced Power Control (APC) ................................................................................48  
3.10 Language Support.....................................................................................................49  
3.11 Boot Options..............................................................................................................49  
3.12 Flash LOGO Area......................................................................................................49  
3.13 Setup Enable Jumper ................................................................................................49  
3.14 Overview of the Setup Menu Screens .......................................................................49  
3.14.1 Main BIOS Setup Screen ............................................................................50  
3.14.2 Floppy Options Subscreen ..........................................................................51  
3.14.3 IDE Device Configuration Subscreen ..........................................................52  
3.14.4 Boot Options Subscreen .............................................................................54  
3.14.5 Advanced Screen........................................................................................56  
3.14.6 Event Logging Configuration.......................................................................57  
3.14.7 Peripheral Configuration Subscreen............................................................57  
3.14.8 Advanced Chipset Configuration Subscreen...............................................61  
3.14.9 Power Management Configuration Subscreen............................................63  
3.14.10 Plug and Play Configuration Subscreen......................................................64  
3.14.11 Event Logging Configuration.......................................................................66  
3.14.12 Security Screen...........................................................................................68  
3.14.13 Security Screen Options..............................................................................68  
3.14.14 Exit Screen..................................................................................................69  
iv  
 
Contents  
4 Error Messages and Beep Codes  
4.1 BIOS Beep Codes .....................................................................................................71  
4.2 PCI Configuration Error Messages ............................................................................71  
4.3 BIOS Error Messages................................................................................................73  
4.4 ISA NMI Messages....................................................................................................74  
Figures  
1.  
Motherboard Features .................................................................................................8  
Motherboard Dimensions.............................................................................................9  
Back Panel I/O Shield Dimensions ............................................................................10  
Motherboard Connector Locations.............................................................................21  
Front Panel I/O Connectors.......................................................................................22  
Fan Connector Usage................................................................................................24  
I/O Connections.........................................................................................................32  
Jumper Locations ......................................................................................................35  
2.  
3.  
4.  
5.  
6.  
7.  
8.  
Tables  
1.  
2.  
3.  
4.  
5.  
6.  
7.  
8.  
9.  
Key to Motherboard Features......................................................................................8  
S3 ViRGE Supported Resolutions .............................................................................17  
S3 ViRGE/DX Supported Resolutions .......................................................................18  
Front Panel I/O Connector (J2A1) .............................................................................22  
Keylock Connector (J3A1) .........................................................................................24  
Auxiliary Fan Connector (J4A1).................................................................................24  
PCI/ISA Riser Connector (J6J2) ................................................................................25  
LBP VESA Feature Connector (J1K1).......................................................................27  
Serial Port (COM2H, J3N1) Pinout ............................................................................27  
10. CD-ROM Connector (J9N1).......................................................................................28  
11. Wavetable Upgrade Connector (J9L1) ......................................................................28  
12. Telephony Connector (J9K1).....................................................................................28  
13. Primary Power Supply Connector (J9H1) ..................................................................29  
14. External 3.3 V Power Supply Connector (J9J1)........................................................29  
15. Soft-Off Power Supply Connector (J9F1)...................................................................30  
16. Floppy Drive Connector (J8L1)..................................................................................30  
17. IDE Connectors (J8H1, J9H2) ...................................................................................31  
18. VGA Video Connector (J1N1)....................................................................................32  
19. Serial Port Connector Pinout .....................................................................................33  
20. USB Connector Pinout...............................................................................................33  
21. PS/2 Keyboard/Mouse Connector Pinout ..................................................................33  
22. Parallel Port Connector Pinout...................................................................................34  
23. Microprocessor/System Speed Settings ....................................................................36  
24. Configuration Jumper Settings...................................................................................37  
25. Motherboard Environmental Specifications................................................................38  
26. Power Usage .............................................................................................................38  
27. DC Voltage ................................................................................................................39  
28. Memory Map..............................................................................................................41  
29. I/O Map......................................................................................................................42  
30. PCI Configuration Space Map ...................................................................................43  
31. DMA Channels...........................................................................................................43  
v
 
AP440FX Motherboard Technical Product Specification  
32. Interrupts ...................................................................................................................44  
33. Flash Memory Organization.......................................................................................45  
34. Recommendations for Configuring an ATAPI Device ................................................46  
35. Overview of the Setup Menu Screens .......................................................................50  
36. Serial Port Configuration Options ..............................................................................58  
37. Parallel Port Configuration Options............................................................................59  
38. ECP - Compatible Configuration Options...................................................................60  
39. Event Log Subscreens...............................................................................................67  
40. Administrative and User Password Functions............................................................68  
41. BIOS Beep Codes .....................................................................................................71  
42. PCI Configuration Error Messages ............................................................................71  
43. Chained PCI Error Messages ....................................................................................72  
44. BIOS Error Messages................................................................................................73  
45. ISA NMI Messages....................................................................................................74  
vi  
 
1 Motherboard Description  
1.1 Overview  
The AP440FX motherboard is a 64-bit, high-performance, mixed-voltage, energy-conscious,  
highly integrated platform. The AP440FX motherboard supports the following set of features:  
Uses a 9-inch by 13-inch LPX form factor.  
Uses a type 8 Zero Insertion Force (ZIF) socket to house the standard processor, and provides  
an upgrade path to future OverDrive® processors.  
Accepts Pentium® Pro processors with core clock frequencies of 150 MHz, 166 MHz,  
180 MHz, and 200 MHz.  
Supports up to 128 MB of DRAM using four standard 72-pin, tin-lead SIMMsockets. The  
modules can use Fast Page Mode (FPM) or Extended Data Out (EDO) memory. Non-parity  
(32-bit) and parity (36-bit) memory SIMMs are supported. With parity SIMMs, the board can  
be configured to support Error Checking and Correcting (ECC) memory operation.  
Uses Intel's 82440FX chipset. The Intel 82371SB PCI/ISA IDE Xccelerator (PIIX3) provides  
an integrated Bus Mastering IDE controller with two high performance IDE interfaces for up to  
four devices (such as hard drives or CD-ROM).  
Uses a flash BIOS with the following features:  
Uses both hardware and software Secure Flash features to protect flash contents from  
corruption.  
Uses a BIOS that complies with the Desktop Management Interface (DMI-compliant).  
Uses the National Semiconductor Super I/O controller (the PC87307 or the pin-compatible  
PC87308 device) to integrate the following standard PC I/O functions:  
floppy interface, two FIFO serial ports and one EPP/ECP capable parallel port  
real-time clock  
keyboard controller  
support for an IrDAand Consumer Infrared interface at both slow and medium speeds  
Integrates a Crystal audio codec (CS4236) on the motherboard to provide 16-bit stereo, Sound  
BlasterPro compatible audio. Provides an onboard telephony (modem) connector to support  
the latest telephony applications.  
Integrates an S3ViRGE/DXgraphics controller onboard to support SVGA graphics at  
resolutions up to 1600x1200. An enhanced LBP VESAfeature connector supports external  
multimedia capabilities.  
A hardware monitoring ASIC provides the following monitoring functions:  
Integrated temperature sensor  
Fan speed monitoring  
Power supply voltage monitoring  
Storage of power-on self test (POST) results and error codes  
PCI and ISA expansion slots are supported by a connector on the motherboard designed to  
accept a riser card. An onboard jumper supports riser cards with either two or three PCI slots.  
7
 
AP440FX Motherboard Technical Product Specification  
I
F
A
B
C D E  
H
G
J
K
L
MM  
LL  
KK  
JJ  
II  
M
N
O
P
HH  
GG  
FF  
Q
EE  
R
DD  
CC  
S
T
U
V
AA Z  
Y
X
W
BB  
OM06178  
Figure 1. Motherboard Features  
Key to Motherboard Features  
Table 1.  
Key Description  
Key Description  
Key Description  
A
D
G
J
VGAconnector  
B
E
H
K
N
Serial port connector  
C
F
I
Side-by-side USB connectors  
PS/2mouse connector  
I/O Controller (U7M1)  
Crystal audio controller (U9M1)  
Floppy connector (J8L1)  
PS/2 keyboard connector  
Microphone input jack  
Parallel port connector  
Audio output jack  
CD-ROM header (4x1, J9N1)  
L
O
Wavetable header (2x4, J9L1)  
Standard 3.3V power connector (J9J1)  
M
Telephony (modem) header (2x2,  
J9K1)  
P
S
V
Y
Main power connector (J9H1)  
Hardware monitor ASIC (U9C1)  
Onboard speaker (L9A1)  
Q
T
IDE connectors (J8H1, J9H2)  
Flash BIOS (E28F002, U8C1)  
3.5 V processor jumper (J8A2)  
Auxiliary fan header (1x3, J4A1)  
R
U
X
Soft Off header (3x1, J9F1)  
Real-time clock battery (BT9B1)  
SIMM sockets (J6J1, J7J1, J7J2, J7J3)  
W
Z
Intel SB82371SB (PIIX3, U6E1)  
AA Keylock header (3x1, J3A1)  
BB Front panel connector (J2A1)  
EE Intel SB82442FX (DBX, U2F1)  
CC Processor socket (U3C1)  
DD Intel SB82441FX (PMC, U4F1)  
GG Consumer/Fast IR header (5x2, J4L1)  
JJ S3 ViRGE/DX video controller (U2K1)  
MM COM2H header (5x2, J3N1)  
FF  
ISA/PCI riser socket (J6J2)  
LPB VESA header (J1K1)  
HH PCI slot Jumper block (2x3, J1J1) II  
KK 2 MB of Video DRAM LL  
Configuration jumper block (J4L2)  
8
 
Motherboard Description  
1.2 Motherboard Manufacturing Options  
Contact your local Intel Field Sales Office for options and ordering information.  
1.3 Form Factor  
The motherboard is designed to fit into a standard LPX form factor chassis. Figure 2 illustrates the  
mechanical form factor for the AP440FX. The AP440FX LPX form factor adheres to the standard  
LPX guidelines with outer dimensions of 9 inches x 13 inches.  
7.10  
12.63  
10.98  
5.50  
0.00  
0.150  
8.65  
0.37  
0.35  
3.55  
7.15  
0.00  
8.45  
OM06179  
Figure 2. Motherboard Dimensions  
9
 
AP440FX Motherboard Technical Product Specification  
1.4 I/O Shield  
The back panel I/O shield for the AP440FX motherboard must meet specific dimensional and  
material requirements. Computers based on the AP440FX motherboard need the back panel I/O  
shield in order to pass certification testing. Figure 3 shows the critical dimensions for the I/O  
shield and indicates the position of each cutout.  
0.118  
0.235 0.900  
0.682  
0.525  
2.534  
3.945  
4.645  
5.302  
5.963  
6.904  
8.193  
9.000  
0.021  
0.080  
0.075  
0.079  
Right-end View  
0.027  
OM06183A  
Figure 3. Back Panel I/O Shield Dimensions  
10  
 
Motherboard Description  
1.5 Microprocessor  
The AP440FX motherboard operates with 2.1 V to 3.5 V Pentium Pro processors. An onboard  
voltage regulator circuit provides the required voltages from the 5 V and 3.3 V taps off the power  
supply. The onboard voltage regulator makes use of the VID capabilities to automatically adjust  
its voltage output to match that of the installed processor. Pentium Pro processors running at 150,  
166, 180, and 200 MHz are supported.  
The Pentium Pro processor integrates the second level cache and cache controller that were  
previously implemented on the motherboard. The internal, non-blocking L2 cache on the 150, 180  
and 200 MHz processors is 256 KB, while second versions of the 166 and 200 MHz processors  
integrate a 512 KB cache. The Pentium Pro processor has an advanced numeric coprocessor that  
significantly increases the speed of floating point operations, while maintaining backward  
compatibility with math coprocessors that comply with ANSI/IEEE standard 754-1985.  
NOTE  
If you are installing a 3.5 V processor, a jumper must be installed on the jumper block located at  
J8A2. See Section 1.13 for more information.  
NOTE  
The 200 MHz Pentium Pro processor with 512 KB of cache memory is not supported on the  
AP440FX motherboard.  
1.5.1 Microprocessor Upgrade  
Socket 8 is a 387-pin, modified staggered pin grid array (SPGA) zero insertion force (ZIF) socket,  
along with a programmable voltage regulator for the microprocessor core. It provides users with a  
performance upgrade path to OverDrive processors. The voltage regulator programming is  
automatic and controlled by the VID pins of the processor.  
1.5.2 Microprocessor Heatsink and Clips  
An approved Pentium Pro processor heatsink is necessary for proper thermal dissipation in an LPX  
compliant chassis. The processor/heatsink assembly must be securely fastened to the Socket 8 ZIF  
socket by two clips. These clips fit over the heatsink assembly and attach to the outer wide tabs of  
the Socket 8 assembly.  
CAUTION  
Do not use the older style of bail-wire clips for securing the heatsink assembly. These clips have  
been found to damage the motherboard when installed or removed incorrectly.  
11  
 
AP440FX Motherboard Technical Product Specification  
1.6 Main System Memory  
The motherboard has four 72-pin tin-lead SIMM sockets that make it possible to install up to  
128 MB of RAM. The sockets support 1M x 32 (4 MB) single-sided modules, 2M x 32 (8 MB),  
4M x 32 (16 MB), and 8M x 32 (32 MB) single- or double-sided modules. Minimum memory size  
is 8 MB and maximum memory size, using four 8M x 32 SIMM modules, is 128 MB. Memory  
timing requires 60 ns fast page devices or, for optimum performance, 60 ns EDO DRAM. Both  
parity and non-parity memory modules are supported. With parity SIMMs, the board can be  
configured to support ECC operation.  
The four sockets are arranged in two banks of two sockets each. The sockets are designated  
Bank 0 and Bank 1. Each bank provides a 64/72-bit wide data path. Both SIMMs in a bank must  
be of the same memory size and type, although the types and sizes of memory may differ between  
banks. Bank 0 only, Bank 1 only, or both of the banks may be populated. There are no jumper  
settings required for the memory size or type, which is automatically detected by the BIOS. Use  
only tin lead SIMMs when adding DRAM.  
1.6.1 DRAM  
EDO (or Hyper Page) DRAM is designed to improve the DRAM read performance. EDO DRAM  
holds the memory data valid until the next memory access cycle, unlike standard fast page mode  
DRAM that tri-states the memory data when the precharge cycle occurs, prior to the next memory  
access cycle.  
1.6.2 Parity and ECC DRAM  
Memory error checking and correction is supported by parity SIMMs. With parity SIMMs, the  
board can be configured to support ECC memory operation. Parity SIMMs are automatically  
detected, but the user must enter Setup to configure the SIMMs for either Parity or ECC operation.  
Parity memory detects single bit errors. ECC memory detects double bit errors and corrects single  
bit errors. Errors may be generated by a defective memory module, by different speeds of memory  
modules, or by DMA or memory conflicts.  
1.7 Chipset  
The Intel 82440FX PCIset consists of the 82441FX PCI Bridge and Memory controller (PMC) and  
the 82442FX Data Bus Accelerator (DBX). The Intel 82371SB PCI ISA/IDE Xccelerator (PIIX3)  
bridge, provides the connection between the ISA and PCI buses.  
1.7.1 82441FX PCI Bridge and Memory Controller (PMC)  
The 82441FX comes in a 208 pin QFP package and provides the following features:  
Microprocessor interface control  
Pentium Pro processor host bus up to 66 MHz  
32-bit addressing  
12  
 
Motherboard Description  
Integrated DRAM controller  
64/72-bit Non-Interleaved path to memory w/ ECC support  
Support for EDO and Fast Page DRAM  
8 MB to 256 MB main memory  
Fully synchronous PCI bus interface  
PCI Rev. 2.1 - 5 V interface compliant  
25/30/33 MHz  
PCI to DRAM > 100 MBps  
Data Buffering  
Host-to-DRAM and PCI-to-DRAM write data buffering  
Write combining support for host-to-PCI burst writes  
1.7.2 82442FX Data Bus Accelerator (DBX)  
The DBX connects to the 64 bit Pentium Pro processor data bus, the 64/72 bit memory data bus  
and the 16 bit PMC private data bus. The DBX works in parallel with the PMC to provide a high  
performance memory subsystem for Pentium Pro processor based computers. The DBX comes in  
a 208 pin PQF package.  
1.7.3 82371SB PCI/ISA IDE Xccelerator (PIIX3)  
The 82371SB provides the interface between the PCI and ISA buses and integrates a dual channel  
fast IDE interface capable of supporting up to four devices. The 82371SB integrates four 8-bit and  
three 16-bit DMA channels, three 8-bit timer/counters, two eight-channel interrupt controllers,  
PCI-to-ATinterrupt mapping circuitry, NMI logic, ISA refresh address generation, and PCI/ISA  
bus arbitration circuitry together into the same device. The PIIX3 comes in a 208-pin QFP  
package and provides the following features:  
Interface between the PCI bus and ISA bus  
Universal Serial Bus (USB)  
Host/Hub Controller  
Support for 2 USB ports  
Integrated fast IDE interface  
Support for up to 4 devices with separate Master/Slave mode support  
PIO Mode 4 transfers up to 16 MB/sec  
Integrated 8 x 32-bit buffer for Bus Master IDE PCI burst transfers  
Enhanced DMA controller with Fast Type-F DMA  
Counters/Timers  
Power Management  
Programmable system management interrupt (SMI)  
13  
 
AP440FX Motherboard Technical Product Specification  
1.7.4 IDE Support  
The motherboard provides two independent high performance bus-mastering PCI IDE interfaces  
capable of supporting PIO Mode 3 and Mode 4 devices. The BIOS supports Logical Block  
Addressing (LBA) and Extended Cylinder Sector Head (ECHS) translation modes as well as ATAPI  
(e.g., CD-ROM) devices on both IDE interfaces. Detection of IDE device transfer rate and  
translation mode capability is automatically determined by the BIOS.  
Normally, programmed I/O operations require a substantial amount of microprocessor bandwidth.  
In true multi-tasking operating systems like Windows95, the microprocessor bandwidth freed up  
by using PCI bus mastering IDE can be used to complete other tasks while disk transfers are  
occurring. When used in conjunction with the appropriate driver for the Windows 95 environment,  
the IDE interface can operate as a PCI bus master capable of supporting PIO Mode 4 devices with  
transfer rates of up to 16 MB/sec.  
Detailed information on the PCIset is available in the Intel 82440FX PCISet data sheet.  
1.7.5 Secure Flash Support  
The AP440FX motherboard uses both onboard hardware and BIOS code support to protect the  
onboard flash memory device from accidentally or intentionally being corrupted. A general  
purpose I/O (GPIO) port of the I/O controller is used to control the write enable line of the flash  
device. By putting the microprocessor in System Management Mode (SMM) whenever the flash  
write is enabled, the BIOS can ensure that the SMM code is not corrupted and that flash can only  
be written from within SMM.  
1.7.6 USB Support  
The AP440FX motherboard has two USB ports. This permits connection of two USB peripheral  
devices directly to the computer without an external hub. If more devices are required, an external  
hub can be connected to either of the built-in ports. The motherboard completely supports the  
standard universal host controller interface (UHCI) and takes advantage of the standard software  
drivers written to be compatible with UHCI. Features of the USB include:  
Self-identifying peripherals  
Automatic mapping of function to driver and configuration  
Support for isochronous and asynchronous transfer types over the same set of wires  
Support for up to 127 physical devices  
Guaranteed bandwidth and low latencies appropriate for telephony, audio, and other  
applications  
Error handling and fault recovery mechanisms built into protocol  
Low cost cables and connectors  
14  
 
Motherboard Description  
1.8 PC87307 Super I/O Controller  
Control for the integrated serial ports, parallel port, floppy drive, real-time clock, and keyboard  
controller is incorporated into a single component, the National Semiconductor PC87307. The  
PC87307 is a fully Plug and Play compatible device which provides:  
Two NS16C550-compatible UARTs with send/receive 16 byte FIFO  
Support for an IrDA and Consumer IR compliant Infrared interface  
Multi-mode bi-directional parallel port  
Standard mode; IBMand Centronicscompatible  
Enhanced Parallel Port (EPP) with BIOS/Driver support  
High Speed mode; Extended Capabilities Port (ECP) compatible  
Industry standard floppy controller with 16 byte data FIFO (2.88 MB floppy support)  
Integrated Real Time Clock with Century calendar functionality  
Integrated 8042 compatible keyboard controller  
The PC87307 is normally configured automatically by the BIOS, but configuration of these  
interfaces also is possible using the CMOS Setup utility that can be invoked during boot. The  
serial ports can be enabled as COM1, COM2, COM2 as IrDA, or disabled. The parallel port can  
be configured as compatible, bi-directional, EPP/ECP, or disabled. The floppy interface can be  
configured for 360 KB or 1.2 MB 5¼" media or for 720 KB, 1.2 MB, 1.44 MB, or 2.88 MB  
3½" media.  
1.8.1 Floppy Controller  
The PC87307 is software compatible with the DP8473 and 82077 floppy disk controllers. The  
floppy interface can be configured for 360 KB or 1.2 MB 5¼" media or for 720 KB, 1.2 MB,  
1.44 MB, or 2.88 MB 3½" media in the BIOS setup. By default, the Floppy A interface is  
configured for 1.44 MB and Floppy B is disabled. Configuring the floppy interface for 1.2 MB  
3½" (3-mode floppy) requires the use of a driver to operate correctly.  
1.8.2 Keyboard and Mouse Interface  
PS/2 keyboard/mouse connectors are located on the back panel side of the motherboard. The 5V  
lines to these connectors are protected with a PolySwitchcircuit which acts much like a self-  
healing fuse, re-establishing the connection after an over-current condition is removed. While this  
device eliminates the possibility of having to replace a fuse, care should be taken to turn off the  
power before installing or removing a keyboard or mouse.  
The integrated 8042 microcontroller contains the AMI Megakey keyboard/mouse controller code  
which, besides providing traditional keyboard and mouse control functions, supports Power-  
On/Reset (POR) password protection. The POR password can be defined by the user in the Setup  
program. The keyboard controller also provides for the following “hot-key” sequences:  
<CTRL> <ALT> <DEL>: System software reset. This sequence performs a software reset of  
the computer by jumping to the beginning of the BIOS code and running the POST operation.  
15  
 
AP440FX Motherboard Technical Product Specification  
<CTRL> <ALT> <defined in Setup>: Power down and coffee-break key sequences take  
advantage of the SMM features of the Pentium Pro processor to greatly reduce the computer’s  
power consumption while maintaining the responsiveness necessary to service external  
interrupts.  
<CTRL> <ALT> <defined in Setup>: Keyboard secure hot keys lock the keyboard until user  
specified password is given.  
1.8.3 Real-Time Clock, CMOS RAM and Battery  
The integrated real-time clock is compatible with DS1287 and MC146818 components. It  
provides a time of day clock, a 100-year calendar with alarm features, and a century register. The  
real-time clock can be set in the Setup program. The real-time clock also supports 242-byte  
battery-backed CMOS RAM in two banks which is reserved for BIOS use. The CMOS RAM can  
be set to specific values or cleared to the default values using the Setup program. Also, the CMOS  
RAM values can be cleared to the defaults by using a configuration jumper on the motherboard.  
An external coin-cell style battery provides power to the real-time clock and CMOS memory. The  
battery used is a long-life version that is socketed for easy replacement. When the computer is on,  
the life of the battery is extended by a trickle current from the power supply.  
1.8.4 Infrared Support  
A 5-pin interface on the front panel I/O connector allows connection to a Hewlett PackardHSDL-  
1000 compatible infrared (IrDA) transmitter/receiver. Once the module is connected to the front  
panel I/O header, Serial port 2 can be redirected to the IrDA module. When configured for IrDA,  
the user can transfer files to or from portable devices such as laptops, PDAs and printers using  
application software such as LapLink. The IrDA specification provides for data transfers at  
115kbps from a distance of 1 meter. Support for Consumer Infrared (ASK-IR and DASK-IR  
options for SHARP-IR) is also included. Consumer infrared is supported at both slow and medium  
speeds.  
1.8.5 Parallel Port  
A 25-pin D-Sub header is provided on the back panel for a multi-mode bi-directional parallel port.  
The parallel port operates in standard mode, Enhanced Parallel Port (EPP) version 1.7 mode, with  
BIOS and Driver support, and a high speed Extended Capabilities Port (ECP) compatible mode.  
EPP Mode requires a driver provided by the peripheral manufacturer to operate correctly.  
1.9 Graphics Subsystem  
The AP440FX motherboard is available with a factory option of an S3 ViRGEor ViRGE/DX  
SVGA graphics controller. Both options are supported by 2 MB of 50 ns EDO SOJ DRAM  
soldered to the motherboard. The AP440FX motherboard also supports the S3 media channel, also  
known as the Local Peripheral Bus (LBP) or Scenic Highway.  
16  
 
Motherboard Description  
1.9.1 S3 ViRGE Graphics Subsystem  
The AP440FX motherboard is available with a factory option of an S3 ViRGE SVGA graphics  
controller with 2 MB of 50 ns EDO SOJ DRAM. The S3 ViRGE has a high performance 64-bit  
2D/3D graphics engine and incorporates the S3 Streams Processor that enables the device to  
convert YUV formatted video data to RGB and provides acceleration for scaling the video display  
without compromising picture quality or frame rate. The on-chip RAMDAC/clock synthesizer is  
capable of output pixel data rates of 135 MHz providing non-interlaced screen resolutions of up to  
1280x1024x256 colors at 75 Hz. The 64-bit S3d Engine incorporates the key Windows and other  
GUI accelerator functions of BitBLT, line draw and polygon fill. 3D features include flat shading,  
Gouraud shading and texture mapping support. Advanced texture mapping features include  
perspective correction, bi-linear and tri-linear filtering, MIP-mapping, and Z-buffering. These  
features provide the most realistic user experience for interactive 3D applications. In addition, a  
fast linear addressing scheme based upon DCI reduces software overhead by mapping the display  
memory into the microprocessor’s upper memory address space and permitting direct  
microprocessor access to the display memory.  
Table 2.  
S3 ViRGE Supported Resolutions  
Resolution  
Refresh rate (Hz)  
60  
640 x 480 x 16 colors  
640 x 480 x 256 colors  
640 x 480 x 65,536 colors  
60, 72, 75, 85  
60, 72, 75  
640 x 480 x 16,777,216 colors (non-accelerated mode) 60, 72, 75  
800 x 600 x 256  
56, 60, 72, 75, 85  
60, 72, 75  
800 x 600 x 65,536  
800 x 600 x 16,777,216 colors (non-accelerated mode) 60, 72, 75  
1024 x 768 x 256  
1024 x 768 x 65,536  
1280 x 1024 x 256  
NOTE: IL = Interlaced  
43(IL), 60, 70, 75, 85  
43(IL), 60, 70, 75  
45(IL), 60, 72, 75  
The S3 ViRGE graphics controller supports more modes than shown above. The graphics drivers provide options for  
additional resolutions.  
17  
 
AP440FX Motherboard Technical Product Specification  
1.9.2 S3 ViRGE/DX Graphics Subsystem  
The optional onboard graphics subsystem uses the S3 ViRGE/DX graphics controller, with the  
following features:  
64-bit graphics engine with accelerator core  
24-bit RAMDAC/clock synthesizer  
Dual programmable clock generators  
DCI-based linear addressing scheme  
S3 Streams Processor, which enables the conversion of video data from YUV format to RGB  
format and accelerates display scaling while maintaining picture quality and frame rate  
3-D graphics support including flat shading, Gouraud shading, and advanced texture mapping  
S3 Scenic Highway support for hardware MPEG  
Table 3.  
S3 ViRGE/DX Supported Resolutions  
Refresh Rate (Hz) At:  
15/16-bit Color  
4-bit Color  
(16 Colors)  
8-bit Color  
24-bit Color 32-bit Color  
(32K/64K Colors) (16M Colors) (16M Colors)  
Resolution  
640 x 480  
800 x 600  
(256 Colors)  
60  
60, 72, 75, 85  
60, 72, 75  
60, 72, 75  
60, 72, 75 *  
60, 72, 75 *  
60, 72, 75  
60, 72, 75  
not supported  
56, 60, 72, 75,  
85  
1024 x 768  
1280 x 1024  
1600 x 1200  
not supported  
43(IL), 60 ,70,  
75, 85  
43(IL), 60, 70, 75 not supported not supported  
43(IL), 45(IL),  
60, 72, 75 *  
45(IL), 60, 72, 75 not supported  
48.5(IL) not supported  
not supported not supported  
not supported not supported  
not supported  
* Non-accelerated mode only  
IL = Interlaced  
The S3 ViRGE/DX graphics controller supports more modes than shown above. The graphics drivers provide options for  
additional resolutions.  
1.9.3 LBP VESA Feature Connector  
The AP440FX motherboard supports a 34-pin VESA feature connector (which also accepts a  
26-pin peripheral plug) for synchronizing graphics output with an external NTSC or PAL signal  
and a shared frame buffer interface to maximize multimedia performance, as well as the LPB or  
Scenic Highway that provides a glueless bi-directional interface to a video companion device such  
as an MPEG/live video decoder. The AP440FX also supports other VESA standards such as the  
VESA DPMS protocol to put a DPMS compliant monitor into power saving modes and the VESA  
Display Data Channel (DDC2B) that permits transfer of monitor identification and resolution  
support data for ease of use.  
1.9.4 Graphics Drivers and Utilities  
Graphics drivers and utilities may be downloaded from the Intel Applications Support web site at  
http://www-cs.intel.com/oem_developer/motherbd. Once the site is accessed, perform a keyword  
search for the specific application and its driver. Drivers for SCOUNIXare available from SCO.  
18  
 
Motherboard Description  
1.10 Audio Subsystem  
The AP440FX motherboard features a 16-bit stereo audio subsystem as a factory installed option.  
The audio subsystem is based on the Crystal CS4236 multimedia codec. The CS4236 provides all  
the digital audio and analog mixing functions required for playing and recording of audio on  
personal computers. These functions include:  
Stereo analog-to-digital and digital-to-analog converters  
Analog mixing  
Anti-aliasing and reconstruction filters  
Line and microphone level inputs  
Digital audio compression using selectable A-law / µlaw  
Full digital control of all mixer and volume control functions  
The CS4236 also provides support for four major sound standards including AdLib, Sound  
Blaster Pro 2.0, Windows Sound System, and MPU-401. The CS4236 also supports full-duplex  
operation which ensures support for applications such as video conferencing.  
The CS4236 includes a Plug and Play compatible ISA interface and is comprised of seven logical  
devices including:  
Synthesizer  
Game Port  
Sound Blaster  
Sound System  
MPU-401  
CD-ROM  
CS4236 device  
Each logical device is configured into the host environment using the ISA Plug and Play  
configuration methodologies. The audio subsystem requires up to two DMA channels and one  
interrupt. The computer can be configured to use either DMA channels 0, 1, or 3. The interrupt  
can be mapped to use interrupt 5, 7, 9, 11, 12, or 15.  
1.11 Management Extension Hardware  
The Management Extension hardware provides low-cost instrumentation capabilities designed to  
reduce the total cost of PC ownership. The Management Extension hardware incorporates features  
that support the requirements of the Desktop Management Interface (DMI) compliant areas of the  
BIOS, as well as those of the LANDesk Client Manager software. The hardware implementation  
is a single-chip ASIC with the following features:  
An integrated temperature sensor plus support for an external temperature sensor  
Support for one fan speed sensor  
Power supply voltage monitoring to detect levels above or below acceptable values  
Registers for storing POST hardware test results and error codes  
Remote reset capabilities from a remote peer or server through LANDesk Client Manager,  
Version 3.0 and service layers (when available)  
Hardware compatibility with Windows NT.  
19  
 
AP440FX Motherboard Technical Product Specification  
When an out-of-range condition (temperature, fan speed, or voltage) is reached, an interrupt is  
activated. The Management Extension circuitry connects to the ISA bus as an 8-bit I/O mapped  
device and uses the I/O addresses identified in the I/O map.  
1.12 Motherboard Connectors  
The AP440FX motherboard has onboard connectors supporting the following feature areas:  
Front panel features  
Memory (SIMM) and expansion (PCI/ISA riser) sockets  
Video features  
Serial header  
Audio features  
Power connectors  
Floppy and PCI IDE connectors  
Figure 4 identifies the connectors on the AP440FX motherboard, and indicates the feature area  
with which each connector is associated.  
20  
 
Motherboard Description  
Audio  
J9L1  
Serial  
PCI/ISA Riser  
Connector(J6J2)  
J3N1  
9
1
8
2
7
Bank 0(J6J1, J7J1)  
Bank 1(J7J2, J7J3)  
8
2
1
Wavetable  
1
4
COM2H  
CD-ROM  
J9N1  
1
J9K1  
Video  
Telephony  
1
2
LPB  
VESA  
J1K1  
Power  
28  
34  
1
33  
3.3V  
Power  
1
J9J1  
6
Primary  
Power  
Floppy/IDE  
Secondary  
Primary  
J9H1  
1
5
2
J9F1  
Floppy  
Drive  
3
1
Soft  
Off  
12  
J8L1  
1
2
33  
34  
Front Panel  
J4A1  
PCI IDE  
J3A1  
1
3
J8H1  
J9H2  
Aux.  
Fan  
Keylock  
1
J2A1  
1
27  
39  
40  
Front Panel I/O Connector Header  
OM06182  
Figure 4. Motherboard Connector Locations  
21  
 
AP440FX Motherboard Technical Product Specification  
1.12.1 Front Panel Connectors  
The AP440FX motherboard provides connectors to support functions typically located on the  
chassis bezel. In addition, connectors are provided that support a cooling fan and a keyboard lock.  
Front panel features supported by front panel connectors include:  
Soft Power-On  
Sleep/Resume  
Infrared (IrDA) port  
Hard Drive activity LED  
Power LED  
Reset  
Speaker  
Keyboard lock  
Each of the front panel connectors is identified in Figure 4. The front panel I/O connector and  
keyboard lock connector are shown, in detail, in Figure 5.  
Keyboard  
Lock  
J3A1  
1
J2A1  
3
6
13  
18  
1
27  
SW_ON  
SLP  
IRDA  
PWRLED  
SPKR  
HDLED  
RESET  
OM04953  
Figure 5. Front Panel I/O Connectors  
Table 4 lists the pinout for the front panel I/O connector.  
Table 4.  
Front Panel I/O Connector (J2A1)  
Pin  
1
Signal Name  
SW_ON  
FPPWR_ON  
SLEEP_REQ  
FPSLP  
Key  
Pin  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
Signal Name  
HD ACTIVE  
+5V  
2
3
Key  
4
Ground  
5
Key  
6
+5V  
PWRDVR  
Key  
7
Key  
8
IR_RX  
Ground  
IR_TX  
Ground  
9
FP_RESET  
+5V  
10  
11  
12  
13  
14  
IR_SL1  
Key  
Key  
SPKR_DAT connect  
PC_SPKROUT  
+5V  
Key  
22  
 
Motherboard Description  
1.12.1.1 SW_ON  
This 2-pin header connects to a front panel power switch. When the switch is closed, the power  
supply turns on. If a mechanical switch is connected to this header, it must apply a momentary  
ground to the SW_ON header pin in order to signal the supply to turn on or off. Because of the  
motherboard’s internal debounce circuitry, the ground must be applied for at least 50ms. At least  
two seconds must pass before the power supply will recognize another on/off signal (to prevent  
“double clicking”).  
1.12.1.2 Sleep/Resume  
When Advanced Power Management (APM) is activated in the BIOS and the Operating System’s  
APM driver is loaded, Sleep mode (Standby) can be entered in one of three ways:  
An optional front panel “Sleep/Resume” button  
A user defined keyboard hot key  
Prolonged computer inactivity  
The Sleep/Resume button is supported by a 2-pin header located on the front panel I/O connector.  
Closing the “Sleep” switch generates an SMI (System Management Interrupt) to the processor  
which immediately goes into System Management Mode (SMM).  
The front panel “Sleep mode” switch must be a momentary two pin SPST type that is normally  
open. The function of the Sleep/Resume button can also be achieved by using a keyboard hot-key  
sequence, or by a time-out of the inactivity timer. Both the keyboard hot key and the inactivity  
timer are programmable in the BIOS Setup (timer is set to 10 minutes by default). To reactivate  
the computer, or “Resume”, the user must simply press the sleep/resume button again, or use the  
keyboard or PS/2 mouse. Mouse activity only “wakes up” the computer if a mouse driver is  
loaded. While the computer is in Standby or “sleep” mode, it is fully capable of responding to and  
servicing external interrupts (such as in-coming FAX) even though the monitor only turns on if a  
user interrupt (keyboard/mouse) occurs as mentioned above.  
1.12.1.3 Infrared Connector  
Serial port 2 can be configured to support an IrDA module with a 5 pin header connector. Once  
configured for IrDA, the user can transfer files to or from portable devices such as laptops, PDAs  
and printers using application software such as LapLink. The IrDA specification provides for data  
transfers at 115 Kbps from a distance of 1 meter. Consumer IR is also supported by the same  
connector.  
1.12.1.4 Hard Drive LED  
This 3-pin, keyed header can be connected to a front panel LED to indicate when hard drive  
activity is taking place. When the hard drive is being accessed, the HDACTIVE pin (J2A1-15)  
goes low.  
1.12.1.5 Power-ON LED  
This 2-pin header can be connected to a front panel LED to indicate when power is applied to the  
motherboard. When the motherboard is powered up, power is applied to the PWRDRV pin  
(J2A1-20) to light the front panel LED.  
23  
 
AP440FX Motherboard Technical Product Specification  
1.12.1.6 Reset  
This 2-pin header can be connected to a momentary SPST type switch that is normally open.  
When the switch is closed, the computer performs a hard reset and runs POST.  
1.12.1.7 Speaker  
The speaker provides error beep code information during the POST, if the computer cannot use the  
video interface. Jumpering pins 26-27 (the last two pins of J2A1) engage the onboard speaker. To  
disable the onboard speaker (and allow use of the chassis speaker), remove the jumper from these  
pins.  
1.12.1.8 Keylock Connector (J3A1)  
The Keylock connector pinout is listed in Table 5.  
Table 5.  
Keylock Connector (J3A1)  
Pin  
1
Signal Name  
Ground  
2
KB_LOCK  
Ground  
3
1.12.1.9 Fan Connector (J4A1)  
The auxiliary fan connector (J4A1) is a 1-by-3 header that can accept either two-position (power  
and ground) or three-position (power, ground, and fan sense) fan plugs. Figure 6 indicates the  
required orientation and positioning of the fan plug. Table 6 lists the signals and pinout for the fan  
connector.  
J4A1  
3-Wire Fan  
Fan Sense  
Connector  
(Tach.)  
3
Fan Power  
1
Ground  
Std. Fan  
Connector  
OM06181  
Figure 6. Fan Connector Usage  
Table 6.  
Auxiliary Fan Connector (J4A1)  
Pin  
1
Signal Name / Function  
Ground  
2
Fan Power  
3
Fan Sense (Tachometer)  
24  
 
Motherboard Description  
1.12.2 Memory/Expansion Connectors  
The AP440FX motherboard has four 72-pin SIMM sockets for main memory. These sockets  
accept standard SIMM 72-pin modules, as long as they satisfy the requirements described in the  
“Main System Memory” section of this specification, starting on page 12.  
The AP440FX motherboard uses a PCI/ISA riser connector (J6J2) to provide for expansion PCI or  
ISA boards. The associated riser board can support either two or three PCI slots. A pair of  
jumpers on the AP440FX motherboard must be set to define the number of PCI slots on the riser  
board. Refer to Figure 8 on page 35 for jumper block details. Table 7 shows the pinout listing for  
the PCI/ISA riser connector.  
Table 7.  
PCI/ISA Riser Connector (J6J2)  
Pin  
A1  
Signal Name  
IOCHK#  
SD7  
Pin  
B1  
Signal Name  
GND  
Pin  
E1  
Signal  
GND  
Pin  
F1  
Signal Name  
GND  
A2  
B2  
RSTDRV  
Vcc  
E2  
GND  
F2  
GND  
A3  
SD6  
B3  
E3  
PCIINT1#  
PCIIINT2#  
Vcc  
F3  
PCIINT3#  
PCIINT4#  
Vcc  
A4  
SD5  
B4  
IRQ9  
E4  
F4  
A5  
SD4  
B5  
-5 V  
E5  
F5  
A6  
SD3  
B6  
DRQ2  
-12 V  
E6  
Key  
F6  
Key  
A7  
SD2  
B7  
E7  
Vcc  
F7  
Vcc  
A8  
SD1  
B8  
0WS#  
E8  
PCIRST#  
GNT0#  
REQ0#  
GND  
F8  
PCKLF  
GND  
A9  
SD0  
B9  
+12 V  
E9  
F9  
A10  
A11  
A12  
A13  
A14  
A15  
A16  
A17  
A18  
IOCHRDY  
AEN  
B10  
B11  
B12  
B13  
B14  
B15  
B16  
B17  
B18  
GND  
E10  
E11  
E12  
E13  
E14  
E15  
E16  
E17  
E18  
F10  
F11  
F12  
F13  
F14  
F15  
F16  
F17  
F18  
GNT1#  
GND  
SMEMW#  
SMEMR#  
IOW#  
SA19  
SA18  
SA17  
SA16  
SA15  
SA14  
SA13  
PCKLE  
GND  
REQ1#  
AD31  
IOR#  
AD30  
3.3 V  
AD29  
DACK3#  
DRQ3  
3.3 V  
Key  
Key  
DACK1#  
DRQ1  
3.3 V  
3.3 V  
AD28  
AD27  
continued  
25  
 
AP440FX Motherboard Technical Product Specification  
Table 7.  
PCI/ISA Riser Connector (J6J2) (continued)  
Pin  
A19  
A20  
A21  
A22  
A23  
A24  
A25  
A26  
A27  
A28  
A29  
A30  
A31  
C1  
Signal Name  
SA12  
SA11  
SA10  
SA9  
Pin  
B19  
B20  
B21  
B22  
B23  
B24  
B25  
B26  
B27  
B28  
B29  
B30  
B31  
D1  
Signal Name  
REFRESH#  
SYSCLK  
IRQ7  
Pin  
E19  
E20  
E21  
E22  
E23  
E24  
E25  
E26  
E27  
E28  
E29  
E30  
E31  
G1  
Signal  
AD26  
AD24  
AD22  
AD20  
AD18  
3.3 V  
Key  
Pin  
F19  
F20  
F21  
F22  
F23  
F24  
F25  
F26  
F27  
F28  
F29  
F30  
F31  
H1  
Signal Name  
AD25  
CBE3#  
AD23  
AD21  
AD19  
3.3 V  
Key  
IRQ6  
SA8  
IRQ5  
SA7  
IRQ4  
SA6  
IRQ3  
SA5  
DACK2#  
TC  
3.3 V  
AD16  
FRAME#  
CBE2#  
TRDY#  
STOP#  
SDONE  
SBO#  
CBE1#  
PAR  
3.3 V  
AD17  
IRDY#  
DEVSEL#  
PLOCK#  
PERR#  
SERR#  
AD15  
AD14  
AD12  
GND  
SA4  
SA3  
BALE  
SA2  
Vcc  
SA1  
OSC  
SA0  
GND  
SBHE#  
LA23  
LA22  
LA21  
LA20  
LA19  
LA18  
LA17  
MEMR#  
MEMW#  
SD8  
MEMCS16#  
IOCS16#  
IRQ10  
IRQ11  
IRQ12  
IRQ15  
IRQ14  
DACK0#  
DRQ0  
C2  
D2  
G2  
H2  
C3  
D3  
G3  
H3  
C4  
D4  
G4  
H4  
C5  
D5  
G5  
GND  
H5  
C6  
D6  
G6  
Key  
H6  
Key  
C7  
D7  
G7  
GND  
H7  
GND  
C8  
D8  
G8  
AD13  
AD11  
AD9  
H8  
AD10  
AD8  
C9  
D9  
G9  
H9  
C10  
C11  
C12  
C13  
C14  
C15  
C16  
C17  
C18  
D10  
D11  
D12  
D13  
D14  
D15  
D16  
D17  
D18  
DACK5#  
DRQ5  
G10  
G11  
G12  
G13  
G14  
G15  
G16  
G17  
G18  
H10  
H11  
H12  
H13  
H14  
H15  
H16  
H17  
AD7  
CBE0#  
AD6  
AD5  
SD9  
DACK6#  
DRQ6  
AD3  
SD10  
SD11  
SD12  
SD13  
SD14  
SD15  
AD4  
AD1  
DACK7#  
DRQ7  
AD2  
AD0  
Key  
Key  
Vcc  
Vcc  
Vcc  
MASTER#  
GND  
GNT2  
Vcc  
(GND | REQ2) * H18  
(GND |  
PCCLK2) *  
G19  
GND H19  
GND  
* These signals are (2 slot | 3 slot) jumpered signal names.  
26  
 
Motherboard Description  
1.12.3 VESA Feature Connector  
Table 8 provides the pinout and signal listing for the LBP VESA feature connector.  
Table 8.  
LBP VESA Feature Connector (J1K1)  
Pin  
1
Signal Name / Function  
Ground  
Pin  
Signal Name / Function  
Pixel Data 0  
Pixel Data 1  
Pixel Data 2  
Pixel Data 3  
Pixel Data 4  
Pixel Data 5  
Pixel Data 6  
Pixel Data 7  
PCLK, Pixel Clock  
BLANKING  
2
3
Ground  
4
5
Ground  
6
7
Enable External Pixel Data  
Enable External Sync  
Enable External Pixel Clock  
N/C, not used  
Ground  
8
9
10  
12  
14  
16  
18  
20  
22  
24  
26  
28  
30  
32  
34  
11  
13  
15  
17  
19  
21  
23  
25  
27  
29  
31  
33  
Ground  
Ground  
Ground  
HSYNC, Horizontal Sync  
VSYNC, Vertical Sync  
Ground  
N/C, not used  
Key (no pin)  
Key (no pin)  
IICCLK  
Key (no pin)  
Ground  
IICDAT  
N/C  
EN1  
EN2  
1.12.4 Serial Header  
The COM2 serial port can be accessed using the COM2H header (J3N1) on the motherboard.  
Table 9 lists the signals and pinout for the COM2H header.  
Table 9.  
Serial Port (COM2H, J3N1) Pinout  
Pin  
1
Signal Name  
DCD  
Description  
Carrier Detect  
Data Set Ready  
Serial Data In  
Request To Send  
Serial Data Out  
Clear To Send  
Data Terminal Ready  
Ring Indicator  
Chassis Ground  
Vacant  
2
DSR  
3
SIN#  
RTS  
4
5
SOUT#  
CTS  
6
7
DTR  
8
RI  
9
GND  
Key  
10  
27  
 
AP440FX Motherboard Technical Product Specification  
1.12.5 Audio Connectors  
The pinouts and signal listings for the audio connectors are provided in Table 10, Table 11, and  
Table 12.  
Table 10. CD-ROM Connector (J9N1)  
Pin  
1
Signal Name  
Ground  
2
CD-Left  
3
Ground  
4
CD-Right  
Table 11. Wavetable Upgrade Connector (J9L1)  
Pin  
1
Signal Name  
Wave Right  
Ground  
Wave Left  
Ground  
Key  
2
3
4
5
6
Midi_In  
7
NC  
8
MIDI_Out  
Table 12. Telephony Connector (J9K1)  
Pin  
1
Signal Name  
Ground  
Mono Out  
Mic In  
2
3
4
Key  
28  
 
Motherboard Description  
1.12.6 Power Supply Connectors  
The AP440FX motherboard must be used with a power supply that supports remote power on/off,  
so the motherboard can turn off the power under software control. The Powerman utility supplied  
for Windows 3.1x allows for soft-off as does the shutdown icon in Windows 95 Start menu. The  
BIOS turns the power off when it receives the proper APM command from the operating system.  
For example, Windows 95 issues this APM command after the user selects “Shutdown the  
computer” option. APM must be enabled in the BIOS and operating system in order for the soft-  
off feature to work correctly. The user has the ability to determine the state of the power supply, so  
if the computer was turned on when power was disconnected, the computer turns back on when  
power is reapplied or it remains off, depending on the user setup configuration in CMOS.  
Table 13 provides the pinout listing for the primary power supply connector of the AP440FX  
motherboard.  
Table 13. Primary Power Supply Connector (J9H1)  
Pin  
Name  
PWRGD  
+5 V  
Function  
Power good  
+5 volts VCC  
+12 volts  
-12 volts  
1
2
3
+12 V  
-12 V  
4, key  
5
Ground  
Ground  
Ground  
Ground  
-5 V  
Ground  
6
Ground  
7, key  
8
Ground  
Ground  
9
-5 volts  
10  
11  
12  
+5 V  
+5 volts VCC  
+5 volts VCC  
+5 volts VCC  
+5 V  
+5 V  
Table 14 provides the pinout listing for the external 3.3 volt power supply connector of the  
AP440FX motherboard.  
Table 14. External 3.3 V Power Supply  
Connector (J9J1)  
Pin  
Name  
1
Ground  
Ground  
Ground  
+3.3 V  
+3.3 V  
+3.3 V  
2
3
4
5
6 key  
29  
 
AP440FX Motherboard Technical Product Specification  
The pinout listing for the soft-off power supply connector of the AP440FX motherboard is shown  
in Table 15. This 3-pin, keyed position supports a software-controlled power supply shutoff (soft-  
off). When connected to this position, the power supply follows remote on/off commands.  
Table 15. Soft-Off Power Supply Connector (J9F1)  
Pin  
1
Name  
Function  
+5 VSB  
PS_ON  
PS_COM  
+5 Volts Standby  
Remote On/Off  
Supply presence  
2
3
1.12.7 Floppy/IDE Connectors  
Table 16 lists the pinout and signal names for the floppy drive connector.  
Table 16. Floppy Drive Connector (J8L1)  
Pin  
1
Signal Name  
Ground  
Ground  
Key  
Pin  
2
Signal Name  
DENSEL  
3
4
Reserved  
5
6
FDEDIN  
7
Ground  
Ground  
Ground  
Ground  
Ground  
MSEN1  
Ground  
Ground  
Ground  
Ground  
MSEN0  
Ground  
Ground  
Ground  
8
Index#  
9
10  
12  
14  
16  
18  
20  
22  
24  
26  
28  
30  
32  
34  
Motor Enable A#  
Drive Select B#  
Drive Select A#  
Motor Enable B#  
DIR#  
11  
13  
15  
17  
19  
21  
23  
25  
27  
29  
31  
33  
STEP#  
Write Data#  
Write Gate#  
Track 00#  
Write Protect#  
Read Data#  
Side 1 Select#  
Diskette Change#  
30  
 
Motherboard Description  
Table 17 lists the pinout and signal names for the IDE connectors.  
Table 17. IDE Connectors (J8H1, J9H2)  
Pin  
1
Signal Name  
Reset IDE  
Pin  
2
Signal Name  
Ground  
3
Host Data 7  
Host Data 6  
Host Data 5  
Host Data 4  
Host Data 3  
Host Data 2  
Host Data 1  
Host Data 0  
Ground  
4
Host Data 8  
Host Data 9  
Host Data 10  
Host Data 11  
Host Data 12  
Host Data 13  
Host Data 14  
Host Data 15  
Key  
5
6
7
8
9
10  
12  
14  
16  
18  
20  
22  
24  
26  
28  
30  
32  
34  
36  
38  
40  
11  
13  
15  
17  
19  
21  
23  
25  
27  
29  
31  
33  
35  
37  
39  
DDRQ0 (DDRQ1)  
I/O Write#  
Ground  
Ground  
I/O Read#  
Ground  
IOCHRDY  
Vcc pull-down  
Ground  
DDACK0 (DDACK1)#  
IRQ14 (IRQ15)  
DAG1  
Reserved  
Reserved  
DAG0  
DAG2  
Chip Select 1P (1S)#  
Activity#  
Chip Select 3P (3S)#  
Ground  
31  
 
AP440FX Motherboard Technical Product Specification  
1.12.8 Back Panel Connectors  
Figure 7 shows the location of the back panel connectors.  
Audio  
Out  
PS/2  
Mouse  
Mic Input  
Parallel Port  
PS/2  
Keyboard  
USB 1 USB 2  
Serial  
Port 1  
VGA Video  
OM06183  
Figure 7. I/O Connections  
1.12.8.1 VGA Video Connector  
Table 18 lists the pinout and signal names for the VGA video connector.  
Table 18. VGA Video Connector (J1N1)  
Pin  
1
Signal Name / Function  
Red Video  
Pin  
9
Signal Name / Function  
Key (no pin)  
2
Green Video  
10  
Sync Return (Ground)  
Monitor ID Bit 0 (not used)  
Monitor ID Bit 1 (not used)  
Horizontal Sync  
3
Blue Video  
11  
4
Monitor ID Bit 2 (not used)  
Chassis Ground  
12  
5
13  
6
Red Return (Ground)  
Green Return (Ground)  
Blue Return (Ground)  
14  
Vertical Sync  
7
15  
Not used  
8
Shield  
Chassis Ground  
32  
 
Motherboard Description  
1.12.8.2 COM1 Serial Port  
Table 19 lists the pinout and signal names for the serial connectors.  
Table 19. Serial Port Connector Pinout  
Pin  
1
Signal Name  
DCD  
Description  
Carrier Detect  
Serial Data In  
2
SIN#  
3
SOUT#  
DTR#  
GND  
Serial Data Out  
Data Terminal Ready  
Chassis Ground  
Data Set Ready  
Request To Send  
Clear To Send  
Ring Indicator  
4
5
6
DSR#  
RTS#  
CTS#  
RI  
7
8
9
1.12.8.3 USB Back Panel Connectors  
Table 20 lists the pinout and signal names for the USB back panel connectors.  
Table 20. USB Connector Pinout  
Pin  
1
Signal Name  
+5 v (fused)  
2
USBP0# [USBP1#] (fused)  
USBP0 [USBP1] (fused)  
Ground  
3
4
1.12.8.4 Keyboard and Mouse Ports  
Table 21 lists the pinout and signal names for the PS/2 keyboard and mouse connectors. Although  
they are labeled as “Keyboard” and “Mouse” on the motherboard and the back panel, the  
connectors can be used interchangeably for either keyboard or mouse.  
Table 21. PS/2 Keyboard/Mouse Connector Pinout  
Pin  
1
Signal Name / Function  
Data  
2
No connect  
Ground  
3
4
+5 VDC (fused)  
Clock  
5
6
No connect  
33  
 
AP440FX Motherboard Technical Product Specification  
1.12.8.5 Parallel Port  
Table 22 lists the pinout and signal names for the parallel port connector.  
Table 22. Parallel Port Connector Pinout  
Pin  
1
Signal Name  
STB#  
PPD0  
PPD1  
PPD2  
PPD3  
PPD4  
PPD5  
PPD6  
PPD7  
ACK#  
BUSY  
PE  
Description  
Strobe  
Pin  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
Signal Name  
AFD#  
Description  
Auto Feed  
2
Data Bit 0  
Data Bit 1  
Data Bit 2  
Data Bit 3  
Data Bit 4  
Data Bit 5  
Data Bit 6  
Data Bit 7  
Acknowledge  
Port Busy  
Paper end  
Select  
ERROR#  
INIT#  
Fault  
3
Initializing printer  
Select input  
4
SLCTIN#  
GND  
5
Chassis Ground  
Chassis Ground  
Chassis Ground  
Chassis Ground  
Chassis Ground  
Chassis Ground  
Chassis Ground  
Chassis Ground  
6
GND  
7
GND  
8
GND  
9
GND  
10  
11  
12  
13  
GND  
GND  
GND  
SLCT  
34  
 
Motherboard Description  
1.13 Jumper Settings  
There are three jumper blocks on the AP440FX motherboard. The jumper block at J1J1 defines the  
number of PCI slots (two or three slots) available on the riser board used with the motherboard.  
The jumper block at J4L2 defines a range of microprocessor and motherboard configuration  
parameters. The jumper block at J8A2 is used to provide 3.5 V for processors that require that  
voltage. Figure 8 shows the jumper block locations on the motherboard, and indicates how jumper  
placement corresponds to the value defined by the motherboard silk-screening.  
Jumper  
Placement  
Detail  
B
5
UP  
6
3
4
1
2
B
A
H
G
D
C
F
E
DOWN  
A
4
1
6
3
6
3
4
1
6
3
4
1
4
1
6
3
Configuration  
Jumpers  
J4L2  
J1J1  
4
6
3
DOWN  
UP  
PCI Riser  
1
1
2
3.5 V  
Processor  
Voltage  
OM06180  
J8A2  
Figure 8. Jumper Locations  
35  
 
AP440FX Motherboard Technical Product Specification  
1.13.1 Microprocessor Configuration (J4L2)  
These allow the motherboard to be switched between different speeds of the Pentium Pro  
processor. These jumpers also affect the PCI and ISA clock speeds as shown in Table 23.  
Table 23. Microprocessor/System Speed Settings  
Host Bus  
Microprocessor Microprocessor Freq.  
PCI Bus  
Freq.  
ISA Bus  
Freq.  
J4L2-A J4L2-B J4L2-C Clock Multiplier Freq. (MHz)  
(MHz)  
(MHz)  
(MHz)  
DOWN DOWN DOWN 2.5  
150  
166  
60  
30  
33  
7.5  
DOWN DOWN UP  
2.5  
66  
8.33  
DOWN UP  
DOWN UP  
DOWN  
UP  
reserved  
reserved  
reserved  
reserved  
60  
UP  
UP  
UP  
UP  
DOWN DOWN  
DOWN UP  
UP  
UP  
DOWN  
UP  
3
3
180  
200  
30  
33  
7.5  
66  
8.33  
1.13.2 Motherboard Configuration (J4L2, J1J1)  
The jumpers for sections D, E, F, G, and H of J4L2 allow the selection of various motherboard  
features. A second jumper block (J1J1) allows selection of a riser board with either two or three  
PCI board connectors. A third jumper (J8A2) is used to provide 3.5 V for processors that require  
that voltage.  
CAUTION  
Do not install a jumper on the J8A2 header if you are using a processor that does not require  
3.5V. The increased voltage could damage the processor.  
36  
 
Motherboard Description  
Table 24 lists the motherboard configuration jumper positions and indicates the meaning for each  
position.  
Table 24. Configuration Jumper Settings  
Function  
Jumper  
Configuration  
FDWPR - Flash Write Protect  
J4L2-D, 5-6  
J4L2-D, 4-5  
UP - NOR (Default), Normal operation  
DOWN - PRT, Protect  
FLASH - Flash Recover  
J4L2-E, 2-3  
J4L2-E, 1-2  
UP - NOR (Default), Normal operation  
DOWN - REC - Enable Top Boot block to  
recover Flash.  
CMOS - Clear CMOS Contents  
J4L2-F, 5-6  
J4L2-F, 4-5  
UP - NOR (Default), Normal operation  
DOWN - CLR, Clear CMOS content.  
PSWCLR - Password Clear  
Disable/Enable  
J4L2-G, 2-3  
J4L2-G, 1-2  
UP - DIS, Disable  
DOWN - ENA, Enable system password  
capability.  
SETUP - Setup Enable/Disable  
J4L2-H, 5-6  
J4L2-H, 4-5  
UP - ENA, Enable  
DOWN - DIS, Disable setup accessibility.  
Riser with 2 PCI slots  
Riser with 3 PCI slots  
J1J1, 1-2 and  
J1J1, 4-5  
Enables use of riser card with two (2) PCI  
slots.  
J1J1, 2-3 and  
J1J1, 5-6  
Enables use of riser card with three (3) PCI  
slots.  
3.5 V Processor Voltage Jumper J8A2  
Installed - 3.5 V Processor.  
Not Installed - All other processor types.  
Note: The text appearing in a BOLD-ITALIC font duplicates the text of the motherboard silk-screening.  
1.14 Reliability  
The Mean-Time-Between-Failures (MTBF) data is calculated from predicted data @55 °C in  
accordance with the Intel Reliability Policy and Procedures Handbook.  
Motherboard  
60239 Hours  
37  
 
AP440FX Motherboard Technical Product Specification  
1.15 Environmental  
Table 25. Motherboard Environmental Specifications  
Parameter  
Specification  
Temperature  
Non-Operating  
-40 oC to +70 oC  
+0 oC to +55 oC  
Operating  
DC Voltage  
+3.3 V  
±5 %  
±5 %  
±5 %  
±5 %  
±5 %  
+5 V  
-5 V  
+12 V  
-12 V  
Vibration  
Unpackaged  
5 Hz to 20 Hz : 0.01g² Hz sloping up to 0.02 g² Hz  
20 Hz to 500 Hz : 0.02g² Hz (flat)  
Packaged  
10 Hz to 40 Hz : 0.015g² Hz (flat)  
40 Hz to 500 Hz : 0.015g² Hz sloping down to 0.00015 g² Hz  
1.16 Power Consumption  
Table 26 lists the voltage and current specifications for a hypothetical computer configured with  
the AP440FX motherboard and the following components: a 200 MHz Pentium Pro processor w/  
256 KB Cache, 16 MB EDO DRAM, 3.5-inch floppy drive, 1.6 GB IDE hard drive, and 4X IDE  
CD-ROM. The power supply is a 200 watt LPX power supply with at least 65% efficiency. This  
information is preliminary and is provided only as a guide for calculating approximate total power  
usage with additional resources added.  
Table 26. Power Usage  
DC (amps)  
+12 V  
Operating Conditions  
AC (watts)  
+3.3 V +5 V  
-5 V  
-12 V  
+5VSB  
APM enabled, idle and running  
Windows 95 desktop  
29.6  
400 mA 1.96 A < 10 mA 240 mA 50 mA N/A  
APM disabled, running  
Windows 95 SCT AVI test  
53.7  
N/A  
410 mA 6.08 A < 10 mA 240 mA 80 mA N/A  
Computer powered down  
N/A  
N/A  
N/A  
N/A  
N/A  
< 10 mA  
38  
 
Motherboard Description  
1.16.1 Power Supply Considerations  
The AP440FX motherboard is designed to operate with a switching power supply in the PS/2  
form-factor with dual line input capability, remote ON/OFF, forced air cooling, standby voltage  
(VSB), and the following electrical characteristics:  
Power - 200 W maximum peak, 160 W maximum continuous  
Rise time for power supply - 2 ms to 20 ms  
Minimum delay from reset to Powergood - 100ms  
Minimum Powerdown warning - 1 ms  
Table 27. DC Voltage  
Current Range (amps)  
DC Voltage  
+3.3 V  
Acceptable Tolerance  
Maximum  
14.0  
18.0  
0.1  
Minimum  
+5/-3%  
0.3  
1.0  
0
+5 V  
± 5%  
+5 V SB (standby) ± 5%  
-5 V  
± 10%  
± 5%  
0.3  
0
+12 V  
-12 V  
6.0  
0
± 10%  
0.8  
0
1.17 Regulatory Compliance  
This printed circuit assembly complies with the following safety and EMI regulations when  
correctly installed in a compatible host system.  
1.17.1 Safety  
1.17.1.1 UL 1950 - CSA 950-95, 3rd edition, Dated 07-28-95  
The Standard for Safety of Information Technology Equipment including Electrical Business  
Equipment. (USA & Canada)  
1.17.1.2 CSA C22.2 No. 950-93, 3rd Edition  
The Standard for Safety of Information Technology Equipment including Electrical Business  
Equipment. (Canada)  
1.17.1.3 EN 60 950, 2nd Edition, 1992 (with Amendments 1, 2 & 3)  
The Standard for Safety of Information Technology Equipment including Electrical Business  
Equipment. (European Union)  
1.17.1.4 IEC 950, 2nd edition, 1991 (with Amendments 1, 2 & 3)  
The Standard for Safety of Information Technology Equipment including Electrical Business  
Equipment. (International)  
39  
 
AP440FX Motherboard Technical Product Specification  
1.17.1.5 EMKO-TSE (74-SEC) 207/94  
Summary of Nordic deviations to EN 60 950. (Norway, Sweden, Denmark & Finland)  
1.17.2 EMI  
1.17.2.1 FCC Class B  
Title 47 of the Code of Federal Regulations, Parts 2 & 15, Subpart B, pertaining to unintentional  
radiators. (USA)  
1.17.2.2 CISPR 22, 2nd Edition, 1993  
Limits and methods of measurement of Radio Interference Characteristics of Information  
Technology Equipment. (International)  
1.17.2.3 EN 55 022, 1995  
Limits and methods of measurement of Radio Interference Characteristics of Information  
Technology Equipment. (Europe)  
1.17.2.4 EN 50 082-1 (1992)  
Generic Immunity Standard; Currently compliance is determined via testing to IEC 801-2, -3,  
and -4. (Europe)  
1.17.2.5 VCCI Class 2 (ITE)  
Implementation Regulations for Voluntary Control of Radio Interference by Data Processing  
Equipment and Electronic Office Machines. (Japan)  
1.17.2.6 ICES-003, Issue 2  
Interference-Causing Equipment Standard, Digital Apparatus. (Canada)  
1.17.3 Product Certification Markings  
This printed circuit assembly has the following product certification markings:  
European CE Marking: Consists of a marking on the board and shipping container.  
UL Recognition Mark: Consists of the UL File No. E139761 on the component side of the  
board and the PB No. on the solder side of the board. Board material flammability is 94V-1  
or -0.  
Canadian Compliance: Consists of small c followed by a stylized backward UR on component  
side of board.  
40  
 
2 Motherboard Resources  
2.1 Memory Map  
Table 28. Memory Map  
Address Range  
(Decimal)  
Address Range (hex)  
100000-8000000  
F0000-FFFFF  
Size  
127M  
64K  
16K  
8K  
Description  
1024K-131072K  
960K-1023K  
944K-959K  
936K-943K  
932K-935K  
928K-931K  
896K-927K  
800-895K  
Extended Memory  
AMI BIOS  
EC000-EFFFF  
EA000-EBFFF  
E9000-E9FFF  
E8000-E8FFF  
E0000-E7FFF  
C8000-DFFFF  
Boot Block  
ESCD (Plug and Play configuration area)  
Reserved for BIOS  
OEM LOGO Area  
BIOS Reserved  
4K  
4K  
32K  
96K  
Available HI DOS memory (open to ISA and  
PCI bus)  
640K-799K  
639K  
A0000-C7FFF  
9FC00-9FFFF  
160K  
1K  
Video memory and BIOS  
Extended BIOS Data (moveable by QEMM,  
386MAX)  
512K-638K  
0K-511K  
80000-9FBFF  
00000-7FFFF  
127K  
512K  
Extended conventional  
Conventional  
41  
 
AP440FX Motherboard Technical Product Specification  
2.2 I/O Map  
Table 29. I/O Map  
Address  
Address  
(hex)  
(hex)  
Size  
16 bytes PIIX3 - DMA 1  
2 bytes  
Description  
Size  
Description  
0000 - 000F  
0020 - 0021  
0376  
1 byte  
1 byte  
Sec IDE Chan Cmd Port  
Sec IDE Chan Stat Port  
PIIX3 - Interrupt Controller 1 0377  
002E - 002F 2 bytes  
87307 Base Configuration  
PIIX3 - Timer 1  
0378 - 037F 8 bytes Parallel Port 1  
0388 - 038B 4 bytes CS4236 Audio  
0040 - 0043  
0060  
4 bytes  
1 byte  
Keyboard Controller Byte - 03B0 - 03BB 12 bytes S3 Virge or Virge/DX  
Reset IRQ  
0061  
0064  
1 byte  
1 byte  
PIIX3 - NMI, speaker control 03BC - 03BF 4 bytes Parallel Port 3  
Kbd Controller, CMD/STAT 03C0 - 03DF 32 bytes S3 Virge or Virge/DX  
Byte  
0070, bit 7  
1 bit  
PIIX3 - Enable NMI  
03E8 - 03EF 8 bytes Serial Port 3  
0070, bits 6:0 7 bits  
PIIX3 - Real Time Clock,  
Address  
03F0 - 03F5 6 bytes Floppy Channel 1  
0071  
1 byte  
PIIX3 - Real Time Clock,  
Data  
03F6  
1 byte  
Pri IDE Chan Cmd Port  
0078  
1 byte  
1 byte  
Reserved - Brd. Config.  
Reserved - Brd. Config.  
03F7 (Write) 1 byte  
Floppy Chan 1 Cmd  
0079  
03F7, bit 7  
1 bit  
Floppy Disk Chg Chan 1  
Pri IDE Chan Status Port  
0080 - 008F  
16 bytes PIIX3 - DMA Page Register 03F7, bits  
6:0  
7 bits  
00A0 - 00A1 2 bytes  
PIIX3 - Interrupt Controller 2 03F8 - 03FF 8 bytes Onboard Serial Port 1  
00C0 - 00DE 31 bytes PIIX3 - DMA 2  
04D0 - 04D1 2 bytes Edge/level triggered  
LPT + 400h 8 bytes ECP port, LPT + 400h  
00F0-00FF  
0170 - 0177  
16 bytes Math Coprocessor  
Compatible I/O Registers  
8 bytes Secondary IDE Channel  
0608 - 060B* 4 bytes CS4236 Audio  
01F0 - 01F7 8 bytes Primary IDE Channel  
0CF8**  
0CF9  
1 byte  
1 byte  
PCI Config Address Reg.  
0200 - 0207  
8 bytes  
Game Port  
Turbo & Reset control  
Reg.  
0228 - 022F  
8 bytes Parallel Port 3, ECP/EPP  
Mode  
0CFC-0CFF 4 bytes PCI Config Data Reg  
290 - 0297  
0240-024F  
8 bytes  
Management Extension  
Hardware  
0FE0-0FE7  
8 bytes CS4236 Audio  
16 bytes CS4236 Audio  
Parallel Port 2  
8 bytes Serial Port 4  
FF00 - FF07 8 bytes IDE Bus Master Reg.  
FF80 - FF9F 32 bytes PCI Universal Serial Bus  
FFA0 - FFA7 8 bytes IDE primary Channel  
FFA8 - FFAF 8 bytes IDE secondary channel  
0278 - 027B 4 bytes  
02E8-02EF  
02F8 - 02FF 8 bytes  
0330 - 0331 2 bytes  
Onboard Serial Port 2  
MPU-401 (MIDI)  
* This is only part of one of the Windows Sound System (WSS) selectable ranges. The defined ranges are 0530-0537, 0604-  
060B, 0E80-0E87, or 0F40-0F47. Only one of these ranges needs to be used for WSS to work.  
** Only by DWORD accesses.  
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Motherboard Resources  
2.3 Soft-Off Control  
The motherboard design uses Soft-off control implemented under the SMM code in the BIOS.  
Any power supply used with the AP440FX motherboard must support the Soft-off feature. The  
ONCTL# pin of the I/O controller is connected to the Soft-off control line in the power supply  
circuit. The registers in the I/O controller that set the I/O address and control the ONCTL# pin are  
not setup until the SMM code is activated.  
2.4 PCI Configuration Space Map  
Table 30. PCI Configuration Space Map  
Bus Number (hex) Dev Number (hex) Function Number (hex) Description  
00  
00  
00  
00  
00  
00  
00  
00  
00  
07  
07  
07  
08  
13  
11  
0B  
00  
00  
01  
02  
00  
00  
00  
00  
Intel 82440FX (PMC) Host Bridge  
Intel 82371SB (PIIX3 ) ISA bridge  
Intel 82371SB (PIIX3 ) IDE Controller  
Intel 82371SB (PIIX3) USB  
Video Controller  
PCI Expansion Slot: user available  
PCI Expansion Slot: user available  
PCI Expansion Slot: Optional PCI  
Expansion Slot for 3 slot Riser  
2.5 DMA Channels  
Table 31. DMA Channels  
DMA  
Data Width  
8- or 16-bits  
8- or 16-bits  
8- or 16-bits  
8- or 16-bits  
Resource  
Open  
0
1
2
3
4
5
6
7
Audio  
Floppy  
Parallel Port (for ECP/EPP Config.)  
Reserved - Cascade channel  
16-bits  
16-bits  
16-bits  
Open  
Open  
Open  
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AP440FX Motherboard Technical Product Specification  
2.6 Interrupts  
Table 32. Interrupts  
IRQ  
NMI  
0
Resource  
I/O Channel Check  
Reserved, Interval Timer  
Reserved, Keyboard buffer full  
Reserved, Cascade interrupt from slave PIC  
Serial Port 2  
1
2
3
4
Serial Port 1  
5
Audio - Codec  
6
Floppy  
7
Parallel Port 1  
8
Real Time Clock  
9
Audio - FM Synthesis  
USB  
10  
11  
12  
13  
14  
15  
Video  
Onboard Mouse Port if present, else user available  
Reserved, Math coprocessor  
Primary IDE if present, else user available  
Secondary IDE if present, else user available  
44  
 
3 Motherboard BIOS and Setup Utility  
3.1 Introduction  
The AP440FX motherboard uses an Intel BIOS, which is stored in flash memory and easily  
upgraded using a floppy disk-based program. In addition to the Intel BIOS, the flash memory also  
contains the Setup utility, Power-On Self Tests (POST), APM 1.2, the PCI auto-configuration  
utility, and Windows 95 ready Plug and Play 1.0a. This motherboard also supports BIOS  
shadowing, allowing the BIOS to execute from 64-bit onboard write-protected DRAM.  
The BIOS displays a sign-on message during POST identifying the type of BIOS and a five-digit  
revision code. The initial production BIOS in the motherboard is identified as 1.00.01.CT1.  
3.2 BIOS Flash Memory Organization  
The Intel PA28FB002BX 2 MB flash component is organized as 256K x 8 (256 KB). The flash  
device is divided into seven areas, as described in Table 33.  
Table 33. Flash Memory Organization  
Address  
Flash Memory Area  
FFFF0000H  
FFFEC000H  
FFFEA000H  
FFFE9000H  
FFFE8000H  
FFFE0000H  
FFFD0000H  
FFFC0000H  
FFFFFFFFH  
FFFEFFFFH  
FFFEBFFFH  
FFFE9FFFH  
FFFE8FFFH  
FFFE7FFFH  
FFFDFFFFH  
FFFCFFFFH  
64 KB Main BIOS  
16 KB Boot block (Not flash erasable)  
8 KB ESCD Area (Plug and Play data storage area)  
4 KB Reserved for BIOS  
4 KB OEM Logo Area  
32 KB Reserved for BIOS  
64 KB Reserved for BIOS  
64 KB Reserved for BIOS  
3.3 BIOS Upgrades  
Flash memory makes distributing BIOS upgrades easy. A new version of the BIOS can be  
installed from a diskette. BIOS upgrades are available to be down loaded from the Intel  
Applications Support web site at http://www-cs.intel.com/oem_developer/motherbd/, or from  
Intel’s FTP site at ftp://ftp.intel.com/pub/bios/. Be sure to have the BIOS identification that applies  
to this motherboard.  
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AP440FX Motherboard Technical Product Specification  
The disk-based Flash upgrade utility, FMUP.EXE, has three options for BIOS upgrades:  
The Flash BIOS can be updated from a file on a disk.  
The current BIOS code can be copied from the Flash EEPROM to a disk file as a backup in the  
event that an upgrade cannot be successfully completed.  
The BIOS in the Flash device can be compared with a file to ensure the computer has the  
correct version.  
The upgrade utility ensures the upgrade BIOS extension matches the target computer to prevent  
accidentally installing a BIOS for a different type of computer.  
3.4 PCI IDE Support  
The two local bus IDE connectors with independent I/O channel support are setup up automatically  
by the BIOS if the user selects “Autoconfiguration” in Setup. The IDE interface supports PIO  
Mode 3, and Mode 4 hard drives and recognition of ATAPI CD-ROMs, tape drives, and any other  
ATAPI devices. The BIOS determines the capabilities of each drive and configures them to  
optimize capacity and performance. For the high capacity hard drives typically available, the drive  
is automatically configured for Logical Block Addressing (LBA) for maximum capacity and to  
PIO Mode 3 or 4 depending on the capability of the drive. The user can override the auto-  
configuration options by using the manual mode setting. The ATAPI Specification Revision 2.5  
recommends that an ATAPI device be configured as shown in Table 34.  
Table 34. Recommendations for Configuring an ATAPI Device  
Primary Cable  
Drive 0  
ATA  
Secondary Cable  
Drive 1  
ATAPI  
Drive 0  
Drive 1  
Normal, no ATAPI  
ATA  
ATAPI  
Disk and CD-ROM for enhanced  
IDE systems  
ATA  
ATA  
Legacy IDE System with only one  
cable  
ATAPI  
ATAPI  
Enhanced IDE with CD-ROM and  
a tape or two CD-ROMs  
3.5 PCI Auto-Configuration  
The PCI auto-configuration utility operates in conjunction with the Setup utility to allow the  
insertion and removal of PCI cards without user intervention (Plug and Play). When the computer  
is turned on after adding a PCI add-in card, the BIOS automatically configures interrupts, I/O  
space, and other parameters. PCI interrupts are distributed to available ISA interrupts that have not  
been assigned to an ISA card, or other resources. Those interrupts left set to “available” in Setup  
are considered free for PCI add-in card use.  
The PCI Auto-Configuration function complies with version 2.10 of the PCI BIOS specification.  
Configuration information is stored in ESCD format. The ESCD data may be cleared (i.e., “write  
protection” is removed) by setting the CMOS clear jumper to the DOWN (CLR) position.  
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Motherboard BIOS and Setup Utility  
PCI specification 2.1 for add-in card auto-configuration is also a part of the Plug and Play BIOS.  
Peer-to-peer hierarchical PCI Bridge 1.0 is supported, and by using an OEM supplied option ROM  
or TSR, a PCI-to-PCMCIA bridge capability is possible as well.  
3.6 ISA Plug and Play  
The BIOS incorporates ISA Plug and Play capabilities as delivered by Plug and Play Release 1.0A  
(Plug and Play BIOS V.. 1.0A, ESCD V.. 1.03). When used in conjunction with the ISA  
Configuration Utility (ICU) for DOS or Windows 3.x, the computer allows auto-configuration of  
Plug and Play ISA cards, PCI cards, and resource management for legacy ISA cards. Because the  
BIOS supports configuring devices across PCI bridges, release 1.41 or greater of the ICU must be  
used with the motherboard to properly view and change settings. Configuration information is  
stored in ESCD format. The ESCD data may be cleared (i.e., “write protection” is removed) by  
setting the CMOS clear jumper to the DOWN (CLR) position.  
The BIOS also has a setup option to support the Windows 95 run time Plug and Play utilities.  
When this option is selected, only devices critical to booting are assigned resources by the BIOS.  
Device Node information is available for all devices to ensure compatibility with Windows 95.  
Copies of the Intel Architecture Laboratory (IAL) Plug and Play specification may be obtained  
from the Intel World Wide Web site at http://www.intel.com/IAL/plugplay/.  
3.7 Desktop Management Interface (DMI)  
DMI is a method of managing computers in an enterprise. The main component of DMI is the  
Management Information Format Database (MIF), which contains information about the computer  
and its components. Using DMI, a system administrator can obtain the types, capabilities,  
operational status, installation date and other information about the computer’s components. The  
DMI specification requires that certain information about the motherboard be made available to an  
applications program. This user-defined information is located in a series of data structures which  
are accessed in various ways by means of the DMI service layer. Component instrumentation  
allows the service layer to gain access to the information stored in the GPNV. The included MIF  
database defines the data and provides the method for accessing the information.  
The AP440FX BIOS provides the first stage of DMI v. 2.0 support, including static system  
configuration information, including motherboard and peripheral data. Future AP440FX product  
releases will provide event detection and error logging, achieving the maximum benefit of DMI  
with applications such as LANDesk Client Manager from Intel.  
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AP440FX Motherboard Technical Product Specification  
3.8 Advanced Power Management (APM)  
This section describes the use of System Management Mode (SMM) by the BIOS. The BIOS  
supports APM version 1.2. APM is enabled in BIOS by default; however, the computer must be  
configured with an APM driver to utilize the system power saving features. Windows 95 enables  
APM automatically upon detecting the presence of the APM BIOS.  
The energy saving Standby mode can be initiated by one of the following:  
a keyboard hot-key sequence set by the user  
a time-out period set by the user  
a suspend/resume button tied to the front panel sleep connector.  
When in Standby mode, the motherboard reduces power consumption by utilizing the Pentium Pro  
processor’s SMM capabilities and also spinning down hard drives and turning off VESA DPMS  
compliant monitors. The user may select which DPMS mode (Standby, Suspend, or Off) to send  
to the monitor in Setup. The ability to respond to external interrupts is fully maintained while in  
Standby mode allowing the system to service requests such as an in-coming fax or network  
message while unattended. Any keyboard or mouse activity brings the system out of the energy  
saving Standby mode. When this occurs the monitor and IDE drives are turned back on  
immediately.  
Because SMM uses its own address space, the pointers to interrupt service routines in protected  
mode do not necessarily point to the executable interrupt service routines when the processor goes  
into SMM. Interrupts are disabled upon entry into SMM. Any program that wants to use  
interrupts during SMM must provide a valid interrupt service routine and place a pointer to it in an  
interrupt descriptor table before renabling interrupts.  
Windows 95 places an Energy Star compliant monitor in video standby mode after a period of  
system inactivity. Windows 95 uses the motherboard BIOS to put the processor into SMM. The  
motherboard BIOS in turn invokes the video BIOS to place the monitor into standby mode. Some  
video BIOSes reenable interrupts when they are called but do not ensure that a valid interrupt  
service routine is available. If the video BIOS then generates a hardware or software interrupt  
while the system is in SMM, in most cases the system will lock up.  
3.9 Advanced Power Control (APC)  
The BIOS supports APC through the National 87307 Super I/O controller. Two features that have  
been implemented are Auto Start On AC Loss and Power-On COM1 Ring. Auto Start On AC  
Loss sets the control for returning to the last known state of the computer, or powering down upon  
AC power loss to the motherboard. Power-On COM1 Ring sets the control for allowing the  
computer to be powered on upon an incoming POTS call to a telephony device configured for  
operation on COM1.  
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Motherboard BIOS and Setup Utility  
3.10 Language Support  
The BIOS setup screen and help messages are supported in 32 languages. There are 5 languages  
available at this time: American English, German, Italian, French, and Spanish. Translation to  
other languages may become available at a later date.  
3.11 Boot Options  
Booting from CD-ROM is supported in adherence to the “El Torito” v. 1.0 bootable CD-ROM  
format specification developed by Phoenix Technologies and IBM. Under the Boot Options field  
in Setup, CD-ROM is one of four possible boot devices which are defined in priority order. The  
default setting is for floppy to be the primary boot device and hard drive to be the secondary boot  
device. If CD-ROM is selected, it must be the first device. The third and fourth devices are set to  
disabled in the default configuration. The user can add also select network as a boot device. The  
network option allows booting from a network add-in card with a remote boot ROM installed.  
NOTE  
A copy of “El Torito” v. 1.0 is available on the Phoenix Web page  
(http://www.ptltd.com/techs/specs.html).  
3.12 Flash LOGO Area  
The motherboard supports a 4 KB programmable flash user area located at E8000-E8FFF. An  
OEM may use this area to display a custom logo. The BIOS accesses the user area just after  
completing POST. A utility is available from Intel to assist with installing a logo into flash for  
display during POST. Contact your local Intel Sales office or authorized distributor for further  
information.  
3.13 Setup Enable Jumper  
A motherboard configuration jumper controls access to the BIOS Setup utility. By setting the  
jumper to the disable position, the user is prevented from accessing the Setup utility during the  
POST or at any other time. The message prompting the user to press <F1> to enter Setup is also  
disabled.  
3.14 Overview of the Setup Menu Screens  
The Setup program initially displays the Main menu screen. In each screen there are options for  
modifying the computer’s configuration. Select a menu screen by pressing the left <> or right  
<> arrow keys. Use the up <> or down <> arrow keys to select items in a screen. Use the  
<Enter> key to select an item for modification. For certain items, pressing <Enter> brings up a  
subscreen. After you have selected an item, use the arrow keys to modify the setting.  
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AP440FX Motherboard Technical Product Specification  
Table 35. Overview of the Setup Menu Screens  
Setup Menu Screen  
Description  
Main  
Set up and modify some of the basic options of a PC, such as time, date,  
diskette drives, hard drives.  
Advanced  
Modify the more advanced features of a PC, such as peripheral configuration  
and advanced chipset configuration.  
Security  
Exit  
Specify passwords that can be used to limit access to the computer.  
Save or discard changes.  
Setup Subscreen  
Description  
Floppy Options  
Configure your diskette drives.  
IDE Device Configuration  
Boot Options  
Configure your IDE devices.  
Modify options that affect boot up, such as the boot sequence.  
Peripheral Configuration  
Modify options that affect the serial ports, the parallel port, and the disk drive  
interfaces.  
Advanced Chipset  
Configuration  
Modify options that affect memory and system busses.  
Power Management  
Configuration  
Access and modify APM options.  
Plug and Play  
Configuration  
Modify options that affect the computer’s Plug and Play capabilities.  
Event Logging  
Configuration  
Modify options that affect the computer’s ability to log events such as  
parity/ECC errors, POST errors, and system limit errors.  
3.14.1 Main BIOS Setup Screen  
This section describes the Setup options found on the main menu screen. If you select certain  
options from the main screen (e.g., Hard Disk), the Setup program switches to a subscreen for the  
selected option.  
3.14.1.1 System Date  
Specifies the current date. Select the month from a pop-up menu.  
3.14.1.2 System Time  
Specifies the current time.  
3.14.1.3 Floppy Options  
When selected, this brings up the Floppy Options menu.  
3.14.1.4 Primary IDE Master  
Reports if an IDE device is connected to the computer. When selected, this brings up the IDE  
Device Configuration subscreen.  
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Motherboard BIOS and Setup Utility  
3.14.1.5 Primary IDE Slave  
Reports if an IDE device is connected to the computer. When selected, this brings up the IDE  
Device Configuration subscreen.  
3.14.1.6 Secondary IDE Master  
Reports if an IDE device is connected to the computer. When selected, this brings up the IDE  
Device Configuration subscreen.  
3.14.1.7 Secondary IDE Slave  
Reports if an IDE device is connected to the computer. When selected, this brings up the IDE  
Device Configuration subscreen.  
3.14.1.8 Language  
Specifies the language of the text strings used in the Setup program and the BIOS. The options are  
any installed languages.  
3.14.1.9 Boot Options  
When selected, this brings up the Boot Options subscreen.  
3.14.1.10 Video Mode  
Reports the video mode. There are no options.  
3.14.1.11 Mouse  
Reports if a PS/2 mouse is installed or not. There are no options.  
3.14.1.12 Base Memory  
Reports the amount of base memory. There are no options.  
3.14.1.13 Extended Memory  
Reports the amount of extended memory. There are no options.  
3.14.1.14 BIOS Version  
Reports the BIOS identification string. There are no options.  
3.14.2 Floppy Options Subscreen  
3.14.2.1 Floppy A:  
Reports if a floppy drive is connected to the computer. There are no options.  
3.14.2.2 Floppy B:  
Reports if a second floppy drive is connected to the computer. There are no options.  
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AP440FX Motherboard Technical Product Specification  
3.14.2.3 Floppy A: Type  
Specifies the physical size and capacity of the floppy drive. The options are:  
Disabled  
360 KB, 5.25-inch  
1.2 MB, 5.25-inch  
720 KB, 3.5-inch  
1.44/1.25 MB, 3.5-inch (default)  
2.88 MB, 3.5-inch.  
3.14.2.4 Floppy B: Type  
Specifies the physical size and capacity of the floppy drive. The options are:  
Disabled (default)  
360 KB, 5.25-inch  
1.2 MB, 5.25-inch  
720 KB, 3.5-inch  
1.44/1.25 MB, 3.5-inch  
2.88 MB, 3.5-inch  
3.14.3 IDE Device Configuration Subscreen  
There are separate configuration subscreens for the Primary IDE Master, Primary IDE Slave,  
Secondary IDE Master and Secondary IDE Slave devices.  
3.14.3.1 IDE Device Configuration  
Used to manually configure the IDE device or have the computer auto configure it. The options  
are:  
Auto Configured (default)  
User Definable  
Disabled  
If you select User Definable then the Number of Cylinders, Number of Heads, and Number of  
Sectors items can be modified.  
3.14.3.2 Cylinders  
If IDE Device Configuration is set to User Definable, you must type the correct number of  
cylinders for your IDE device.  
If IDE Device Configuration is set to Auto Configured, this reports the number of cylinders for  
your IDE device and cannot be modified.  
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Motherboard BIOS and Setup Utility  
3.14.3.3 Heads  
If IDE Device Configuration is set to User Definable, you must type the correct number of heads  
for your IDE device.  
If IDE Device Configuration is set to Auto Configured, this reports the number of heads for your  
IDE device and cannot be modified.  
3.14.3.4 Sectors  
If IDE Device Configuration is set to User Definable, you must type the correct number of sectors  
for your IDE device.  
If IDE Device Configuration is set to Auto Configured, this reports the number of sectors for your  
IDE device and cannot be modified.  
3.14.3.5 Maximum Capacity  
Reports the maximum capacity of your IDE device. It is calculated from the number of cylinders,  
heads, and sectors. There are no options.  
3.14.3.6 IDE Translation Mode  
Specifies the IDE translation mode. The options are:  
Standard CHS (standard cylinder head sectorless than 1024 cylinders)  
Logical Block  
Extended CHS (extended cylinder head sectorgreater than 1024 cylinders)  
Auto Detected (BIOS detects IDE drive support for LBA) (default)  
CAUTION  
Do not change the IDE Translation Mode from the option selected when the hard drive was  
formatted. Changing the option can result in corrupted data.  
3.14.3.7 Multiple Sector Setting  
Sets the number of sectors transferred by an IDE drive per interrupt generated. The options are:  
Disabled  
4 Sectors/Block  
8 Sectors/Block  
Auto Detected (default)  
Check the specifications for your IDE device drive to determine which setting provides optimum  
performance for your drive.  
3.14.3.8 Fast Programmed I/O Modes  
Sets how fast transfers on the IDE interface occur. The options are:  
Disabled  
Auto Detected (default)  
If set to Disabled, transfers occur at a less than optimized speed. If set to Auto Detected, transfers  
occur at the drive's maximum speed.  
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AP440FX Motherboard Technical Product Specification  
3.14.4 Boot Options Subscreen  
This section describes the options available on the Boot Options subscreen.  
3.14.4.1 First Boot Device  
Sets which drive the computer checks first to find a bootable operating system. The options are:  
Disabled  
Floppy (default)  
Hard Disk  
CD-ROM  
Network  
3.14.4.2 Second Boot Device  
Sets which drive the computer checks second to find a bootable operating system. The options are:  
Disabled  
Floppy  
Hard Disk (default)  
Network  
3.14.4.3 Third Boot Device  
Sets which drive the computer checks third to find a bootable operating system. The options are:  
Disabled (default)  
Floppy  
Hard Disk  
Network  
3.14.4.4 Fourth Boot Device  
Sets which drive the computer checks fourth to find a bootable operating system. The options are:  
Disabled (default)  
Floppy  
Hard Disk  
Network  
3.14.4.5 System Cache  
Enables or disables both the primary and the secondary cache memory. The options are:  
Disabled  
Enabled (default)  
3.14.4.6 Boot Speed  
Sets the boot speed. The options are:  
Deturbo  
Turbo (default)  
If Turbo is selected, boot-up occurs at full speed. If Deturbo is selected, the board operates at a  
slower speed.  
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Motherboard BIOS and Setup Utility  
3.14.4.7 Num Lock  
Sets the state of the Num Lock feature on your keyboard when you boot. The options are:  
Off (default)  
On  
3.14.4.8 Setup Prompt  
Turns on (or off) the “Press <F1> Key if you want to run Setup” prompt during the power-up  
sequence. The options are:  
Disabled  
Enabled (default)  
NOTE  
This option has no effect on your ability to access the Setup program. It only toggles the prompt.  
3.14.4.9 Hard Disk Pre-Delay  
Sets the hard disk drive pre-delay. The options are:  
Disabled (default)  
3 seconds  
6 seconds  
9 seconds  
12 seconds  
15 seconds  
21 seconds  
30 seconds  
When enabled, this option causes the BIOS to wait the specified time before it accesses the first  
hard drive.  
If your computer contains a hard drive, and you don’t see the drive type displayed during boot-up,  
the hard drive may need more time before it is able to communicate with the controller. Setting a  
pre-delay provides additional time for the hard drive to initialize.  
3.14.4.10 Typematic Rate Programming  
Sets the typematic rates. The options are:  
Default (default)  
Override  
Choosing Override enables the Typematic Rate Delay and Typematic Rate setup options.  
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AP440FX Motherboard Technical Product Specification  
3.14.4.11 Typematic Rate Delay  
Sets how long it takes (in milliseconds) for the key-repeat function to start when you hold down a  
key on the keyboard. The options are:  
250 msec (default)  
500 msec  
750 msec  
1000 msec  
If Typematic Rate Programming is set to Default, this option is not visible.  
3.14.4.12 Typematic Rate  
Sets the speed (in characters per second) at which characters repeat when you hold down a key on  
the keyboard. The higher the number, the faster the characters repeat. The options are:  
6 char/sec (default)  
8 char/sec  
10 char/sec  
12 char/sec  
15 char/sec  
20 char/sec  
24 char/sec  
30 char/sec  
If Typematic Rate Programming is set to Default, this option is not visible.  
3.14.4.13 Scan User Flash Area  
Scans the user Flash area for ROMs. The options are:  
Disabled  
Enabled (default)  
3.14.4.14 Quick Mode  
Enables the user to speed up the boot process. The options are:  
Disabled (default)  
Enabled  
3.14.5 Advanced Screen  
This section describes the Setup options found on the Advanced menu screen. If you select certain  
options from the Advanced screen (e.g., Peripheral Configuration), the Setup program switches to a  
subscreen for the selected option. Subscreens are described in the sections following the  
description of the Advanced screen options.  
3.14.5.1 Processor Type  
Reports the microprocessor type. There are no options.  
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Motherboard BIOS and Setup Utility  
3.14.5.2 Processor Speed  
Reports the microprocessor clock speed. There are no options.  
3.14.5.3 Cache Size  
Reports the size of the secondary cache. There are no options. If your computer contains no L2  
cache, this item does not appear.  
3.14.5.4 Peripheral Configuration  
When selected, this brings up the Peripheral Configuration subscreen.  
3.14.5.5 Advanced Chipset Configuration  
When selected, this brings up the Advanced Chipset Configuration subscreen.  
3.14.5.6 Power Management Configuration  
When selected, this brings up the Power Management subscreen.  
3.14.5.7 Plug and Play Configuration  
When selected, this brings up the Plug and Play Configuration subscreen.  
3.14.6 Event Logging Configuration  
This section describes the options available in the Event Logging Configuration subscreen.  
3.14.7 Peripheral Configuration Subscreen  
This section describes the screens for the peripheral configuration subscreen.  
3.14.7.1 Primary PCI IDE Interface  
Enables or disables the Primary PCI IDE interface. The options are:  
Disabled  
Auto Configured (default)  
3.14.7.2 Secondary PCI IDE Interface  
Enables or disables the Secondary PCI IDE interface. The options are:  
Disabled  
Auto Configured (default)  
3.14.7.3 Floppy Interface  
Enables or disables the diskette drive interface. The options are:  
Disabled  
Enabled  
Auto Configured (default)  
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AP440FX Motherboard Technical Product Specification  
3.14.7.4 Serial Port 1 Interface  
Configures serial port 1. The options are described and listed in Table 36. The default option is  
Auto Configured.  
If the Configuration Mode is set to Auto Configured, the Setup program assigns the first free COM  
port (normally COM1, 3F8h) to serial port 1.  
Table 36. Serial Port Configuration Options  
Option  
Description  
Disable  
Port not enabled  
COM1, 3F8, IRQ4  
COM2, 2F8, IRQ3  
COM3, 3E8, IRQ4  
COM4, 2E8, IRQ3  
COM1, 3F8, IRQ3  
COM2, 2F8, IRQ4  
COM3, 3E8, IRQ3  
COM4, 2E8, IRQ4  
Auto Configured  
Enabled as COM1 at indicated I/O address and IRQ  
Enabled as COM2 at indicated I/O address and IRQ  
Enabled as COM3 at indicated I/O address and IRQ  
Enabled as COM4 at indicated I/O address and IRQ  
Enabled as COM1 at indicated I/O address and IRQ  
Enabled as COM2 at indicated I/O address and IRQ  
Enabled as COM3 at indicated I/O address and IRQ  
Enabled as COM4 at indicated I/O address and IRQ  
Port will be auto configured (Default option)  
3.14.7.5 Serial Port 2 Address  
Configures serial port 2. The options are described and listed in Table 36. The default option is  
Auto Configured. If the Configuration Mode is set to Auto Configured, the Setup program assigns  
the first free COM port (normally COM2, 2F8h) to serial port 2.  
NOTE  
If either serial port address is set, the address it is set to does not appear in the options dialog box  
of the other serial port.  
3.14.7.6 Serial Port 2 IR Mode  
Makes Serial Port 2 available to infrared applications. The options are:  
Disabled (default)  
Enabled  
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3.14.7.7 Parallel Port Interface  
Selects the address and IRQ of the parallel port. The options are described and listed in Table 37.  
If the Configuration Mode is set to Auto Configured, the Setup program assigns LPT1, 378h, IRQ7  
to the parallel port.  
Table 37. Parallel Port Configuration Options  
Option  
Description  
Disabled  
Port not enabled  
LPT3, 3BC, IRQ7  
LPT1, 378, IRQ7  
LPT2, 278, IRQ7  
LPT3, 3BC, IRQ5  
LPT1, 378, IRQ5  
LPT2, 278, IRQ5  
Auto Configured  
Enabled as LPT3 at indicated I/O address and IRQ  
Enabled as LPT1 at indicated I/O address and IRQ  
Enabled as LPT2 at indicated I/O address and IRQ  
Enabled as LPT3 at indicated I/O address and IRQ  
Enabled as LPT1 at indicated I/O address and IRQ  
Enabled as LPT2 at indicated I/O address and IRQ  
Port will be auto configured (Default option)  
3.14.7.8 Parallel Port Type  
Selects the mode for the parallel port. The options are:  
Compatible (default)  
Bi-directional  
ECP  
EPP  
Compatible means the parallel port operates in AT-compatible mode. Bi-directional means the  
parallel port operates in bi-directional PS/2-compatible mode. EPP and ECP mean the parallel port  
operates high-speed, bi-directionally.  
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AP440FX Motherboard Technical Product Specification  
Table 38 lists and describes the options that are available if the parallel port mode is ECP.  
Table 38. ECP - Compatible Configuration Options  
Option  
Description  
Disable  
Port not enabled  
LPT1, 378, IRQ7, DMA3  
LPT2, 278, IRQ7, DMA3  
LPT1, 378, IRQ5, DMA3  
LPT2, 278, IRQ5, DMA3  
LPT1, 378, IRQ7, DMA1  
LPT2, 278, IRQ7, DMA1  
LPT1, 378, IRQ5, DMA1  
LPT2, 278, IRQ5, DMA1  
LPT3, 228, IRQ7, DMA3  
LPT3, 228, IRQ5, DMA3  
LPT3, 228, IRQ7, DMA1  
LPT3, 228, IRQ5, DMA1  
Auto Configured  
Enabled as LPT1 at indicated I/O address, IRQ, and DMA channel.  
Enabled as LPT2 at indicated I/O address, IRQ, and DMA channel.  
Enabled as LPT1 at indicated I/O address, IRQ, and DMA channel.  
Enabled as LPT2 at indicated I/O address, IRQ, and DMA channel.  
Enabled as LPT1 at indicated I/O address, IRQ, and DMA channel.  
Enabled as LPT2 at indicated I/O address, IRQ, and DMA channel.  
Enabled as LPT1 at indicated I/O address, IRQ, and DMA channel.  
Enabled as LPT2 at indicated I/O address, IRQ, and DMA channel.  
Enabled as LPT3 at indicated I/O address, IRQ, and DMA channel.  
Enabled as LPT3 at indicated I/O address, IRQ, and DMA channel.  
Enabled as LPT3 at indicated I/O address, IRQ, and DMA channel.  
Enabled as LPT3 at indicated I/O address, IRQ, and DMA channel.  
Port will be auto configured (default option)  
3.14.7.9 USB Interface  
Enables or disables the USB interface. The options are:  
Disabled  
Enabled default)  
3.14.7.10 Audio Interface  
Enables or disables the onboard audio subsystem. The options are:  
Disabled  
Enabled (frees the I/O resources and addresses used to support the audio interface)  
(default)  
3.14.7.11 Hardware Monitor Interface  
Enables or disables the Hardware Monitor Controller. The options are:  
Disabled  
Enabled (default)  
3.14.7.12 Primary PCI IDE Status  
Displays the current status of the Primary PCI IDE Interface from the selectable setting above.  
This is an informational field and is not accessible.  
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3.14.7.13 Secondary PCI IDE Status  
Displays the current status of the Secondary PCI IDE Interface from the selectable setting above.  
This is an informational field and is not accessible.  
3.14.7.14 Floppy Status  
Reports the current status of the floppy drive from the selectable setting above. There are no  
options.  
3.14.7.15 Serial Port 1 Status  
Reports the current status of serial port 1 from the selectable setting above. There are no options.  
3.14.7.16 Serial Port 2 Status  
Reports the current status of serial port 2 from the selectable setting above. There are no options.  
3.14.7.17 Parallel Port Status  
Reports the current status of the parallel port from the selectable setting above. There are no  
options.  
3.14.8 Advanced Chipset Configuration Subscreen  
This section describes the options available on the Advanced Chipset Configuration Subscreen.  
3.14.8.1 Base Memory Size  
Sets the size of the base memory. The options are:  
512 KB  
640 KB (default)  
3.14.8.2 ISA LFB Size  
Sets the size of the linear frame buffer. The options are:  
Disabled (default)  
1 MB  
If this is set to 1 MB, the ISA LFB Base Address field appears.  
3.14.8.3 ISA LFB Base Address  
Reports the base address of the LFB. There are no options.  
The base address is 16 MB minus the ISA LFB size value. This field does not appear if the ISA  
LFB Size is set to Disabled.  
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AP440FX Motherboard Technical Product Specification  
3.14.8.4 Onboard Video IRQ  
Enables or disables the onboard video IRQ. The options are:  
Disabled (default)  
Enabled  
3.14.8.5 Video Palette Snoop  
Controls the ability of a primary PCI graphics controller to share a common palette with an ISA  
add-in video card. Some add-in cards that use the VESA feature connector might need this feature  
enabled. The options are:  
Disabled (default)  
Enabled  
3.14.8.6 ISA VGA Write Combining  
Enables or disables the ISA VGA write combining. Enabling this feature provides faster video  
performance by combining processor writes to video memory. The options are:  
Disabled  
Enabled (default)  
3.14.8.7 Latency Timer (PCI Clocks)  
Sets the length of time (in PCI clocks) an agent on the PCI bus can hold the bus when another  
agent has requested the bus. The options are:  
Auto Configured (default)  
16  
24  
32  
40  
48  
56  
64  
72  
80  
88  
96  
104  
112  
120  
128  
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Motherboard BIOS and Setup Utility  
3.14.8.8 Memory Error Detection  
Sets the type of error detection or correction. The options are:  
Disabled (default)  
ECC  
Parity  
This field appears if either ECC or Parity SIMMs are detected. Parity and ECC SIMMs can be  
configured to run either as Parity or ECC (e.g. Parity SIMMs may be configured to run in ECC  
mode.)  
3.14.8.9 Bank 0  
Reports the type of memory found in the Bank 0 SIMM slots. There are no options.  
3.14.8.10 Bank 1  
Reports the type of memory found in the Bank 1 SIMM slots. There are no options.  
3.14.9 Power Management Configuration Subscreen  
This section describes the options available on the Power Management Subscreen.  
3.14.9.1 Advanced Power Management (APM)  
Enables or disables the APM support in your computer’s BIOS. The options are:  
Disabled  
Enabled (default)  
Power Management only works with APM-capable operating systems to manage power  
consumption in your computer.  
3.14.9.2 IDE Drive Power Down  
Spins down IDE drives when the computer goes into power managed mode. The options are:  
Disabled  
Enabled (default)  
This field does not appear if APM is disabled.  
3.14.9.3 VESA Video Power Down  
Sets any VESA compliant monitor to be power managed when the computer goes into power  
managed mode. The options are:  
Disabled  
Standby  
Suspend  
Sleep (default)  
This field does not appear if APM is disabled.  
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AP440FX Motherboard Technical Product Specification  
3.14.9.4 Inactivity Timer (Minutes)  
Sets how long the computer must be inactive before it enters power managed mode. Enter the  
number of minutes. The range is 0 to 255 minutes. The default is 10 minutes.  
This field does not appear if APM is disabled.  
3.14.9.5 Hot Key (CTRL - ALT-)  
Sets the hot key that, when pressed while holding down the <Ctrl> and <Alt> keys, causes the  
computer to enter power managed mode. All alphanumeric keys are valid.  
This field does not appear if APM is disabled.  
3.14.9.6 Auto Start On AC Loss  
Enables returning to the last known state of the computer, or powering down upon AC power loss  
to the motherboard. The options are:  
Disabled  
Enabled (default)  
3.14.9.7 Power-On COM1 Ring  
Enables the computer to power on upon an incoming POTS call to a telephony device configured  
for operation on COM1. The options are:  
Disabled (default)  
Enabled  
3.14.10 Plug and Play Configuration Subscreen  
This section describes the options found on the Plug and Play configuration subscreen.  
3.14.10.1 Configuration Mode  
Sets how the BIOS gets information about ISA cards that do not have Plug and Play capabilities.  
The options are:  
Use BIOS Setup  
Use PnP OS (default)  
If Use PnP OS is selected, the BIOS will depend on run-time software to ensure that there are no  
conflicts between ISA boards with Plug and Play capabilities and those without. Only the Boot  
With PnP OS will be visible.  
3.14.10.2 PnP OS  
Enables the computer to select the type of PnP OS to boot from. The options are:  
Disabled  
Other PnP OS  
Windows 95 (default)  
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Motherboard BIOS and Setup Utility  
3.14.10.3 ISA Shared Memory Size  
Sets a range of memory addresses that will be directed to the ISA bus rather than on-board  
memory. The options are:  
Disabled (default)  
16 KB  
32 KB  
48 KB  
64 KB  
80 KB  
96 KB  
If this is set to Disabled, the ISA Shared Memory Base Address (described below) will not be  
visible.  
This field should be set to Enabled only when a non Plug and Play ISA card (legacy card) that  
requires non-ROM memory space is used. LAN cards that have on-board memory buffers are one  
example of this; video capture cards that have video buffer memory are another.  
By default, allocation of upper memory is as follows: memory from C0000-C7FFF is  
automatically shadowed. (This memory range is typically reserved for video BIOS.) Memory  
from C8000-DFFFFh is initially unshadowed. The BIOS scans this range for any ISA expansion  
card BIOS that may be present and notes the location and size. The BIOS will then autoconfigure  
the PCI and Plug and Play devices, shadowing the ROM requirements (other than video) into the  
area above E0000h until that area is full. It will then assign additional PCI and Plug and Play  
expansion cards to the area between C8000h and DFFFFh. If an ISA legacy card has non-ROM  
memory requirements, the autoconfigure routine may write into an area that is needed by the ISA  
expansion card. The ISA Shared Memory Size parameter signifies the autoconfigure routine that  
this block of memory is reserved and should not be shadowed.  
Shadowing is a technique that copies a block of memory from an add-in card’s ROM to the same  
address in system memory. This provides faster access and achieves higher performance. By  
default, all upper memory is shadowed.  
3.14.10.4 ISA Shared Memory Base Address  
Sets the base address for the ISA Shared Memory. The options are:  
C8000h (default)  
CC000h  
D0000h  
D4000h  
D8000h  
DC000h  
This setting could affect the ISA Shared Memory Size item. The value entered in the ISA Shared  
Memory Size item cannot extend to the E0000h address.  
For example, if a size of 64K is selected, options D4000h, D8000h, and DC000h are not available.  
If the ISA Shared Memory Size is set to Disabled, this field will not appear.  
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AP440FX Motherboard Technical Product Specification  
3.14.10.5 IRQ 3, 4, 5, 7, 9, 10, 11, 12, 14, 15  
Sets the status of the IRQ. The options are:  
Available (default)  
Used By ISA Card  
The PCI auto-configuration code looks here to see if these interrupts are available for use by a PCI  
or Plug and Play device.  
If an interrupt is available, the PCI auto-configuration code or the PnP configuration agent can  
assign the interrupt to be used by the PCI or PnP device.  
If your computer contains a legacy ISA agent that uses one of these interrupts, select Used By ISA  
Card for that interrupt. This lets PCI and PnP cards know that the marked interrupts are not  
available for their use.  
NOTE  
IRQ 3, 4, 5, and 7 may not be available in this option, depending on the setting chosen for the  
COM1, COM2 and parallel ports in the Peripheral Configuration Subscreen. IRQ 14 and 15 may  
not be available if the Primary and Secondary IDE ports are enabled.  
3.14.11 Event Logging Configuration  
This section describes the options available in the Event Logging Configuration subscreen.  
3.14.11.1 Event Log Capacity  
This information field tells whether the log is full.  
3.14.11.2 Event Count Granularity  
Defines the number of log events that must occur before the event log is updated. The default is 10  
events.  
3.14.11.3 Event Time Granularity (Minutes)  
Defines the amount of time that must pass before the event log is updated. The default is 30  
minutes.  
3.14.11.4 Event Log Control  
Allows users to enable or disable event logging. The options are:  
All Events Enabled (default)  
ECC Events Disabled  
All Events Disabled  
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Motherboard BIOS and Setup Utility  
3.14.11.5 Clear Event Log  
Sets a flag that clears the event log on the next pass through the POST. The options are:  
Keep (default)  
On Next Boot  
3.14.11.6 Mark Existing Events as Read  
Marks all events already in the log as having been not read (Do Not Mark) or read (Mark). The  
options are:  
Do Not Mark (default)  
Mark  
3.14.11.7 Event Log Subscreens  
The bottom of the Event Log screen includes several information fields that display information  
about the date and time of the last event of a specific type, as well as a count of how many events  
of that type are logged. Selecting a field and pressing <Enter> brings up a subscreen that shows  
information specific to that event type. Event types for which subscreens are available include:  
Single Bit ECC Events  
Multiple Bit ECC Events  
Pre-Boot Events  
The subscreens presented for each of these event types are described in Table 39. Note that the  
initial three lines of information for all screens cover the same information.  
Table 39. Event Log Subscreens  
Event Type  
Subscreen Detail  
Date of Last Occurrence  
Single Bit ECC Events  
None (initial value)  
None (initial value)  
None (initial value)  
None (initial value)  
Time of Last Occurrence  
Total Count of Events/Errors  
Memory Bank with Errors  
Multiple Bit ECC Events *  
Pre-Boot Events *  
Date of Last Occurrence  
Time of Last Occurrence  
Total Count of Events/Errors  
Memory Bank with Errors  
None (initial value)  
None (initial value)  
None (initial value)  
None (initial value)  
Date of Last Occurrence  
Time of Last Occurrence  
Total Count of Events/Errors  
POST ERRORS FOUND:  
None (initial value)  
None (initial value)  
None (initial value)  
None (initial value)  
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AP440FX Motherboard Technical Product Specification  
3.14.12 Security Screen  
This section describes the two access modes that can be set using the options found on the Security  
screen, and then describes the Security screen options themselves.  
3.14.12.1 Administrative and User Access Modes  
The options on the Security screen menu enable you to restrict access to the Setup program by  
enabling you to set passwords for two different access modes: Administrative mode and User  
mode.  
In general, Administrative mode has full access to the Setup fields, whereas User mode has  
restricted access to the options. Thus, by setting separate Administrative and User passwords, a  
system administrator can limit who can change critical Setup values. The actual limitations depend  
on whether either the Administrative or User passwords or both are set.  
To limit access to who can boot the computer, set the User password. This is the password that the  
computer asks for before booting. If only the Administrative password is set, the computer boots  
up without asking for a password. If both passwords are set, you can enter either password to boot  
the computer.  
Table 40 shows the effects of setting the Administrative and User passwords. (The table is for  
reference only, and is not shown on the Security screen.) In the table, the statement “Can change a  
limited number of options” means you can change the date and time, the power management hot  
key, the User password, the security hot key, and unattended start.  
Table 40. Administrative and User Password Functions  
Password Required  
Password Set  
Administrative mode can . . . User mode can . . .  
During Boot Process  
Neither  
Can change all options*  
Can change all options*  
None  
None  
Administrative only Can change all options  
Can change a limited  
number of options  
User only  
Both  
N/A  
Can change all options  
User  
Can change all options  
Can change a limited  
number of options  
Administrative or User  
* If no password is set, any user can change all Setup options.  
3.14.13 Security Screen Options  
3.14.13.1 User Password  
Reports if there is a User password set. There are no options.  
3.14.13.2 Administrative Password  
Reports if there is an Administrative password set. There are no options.  
3.14.13.3 Enter Password  
Sets the User password. The password can be up to seven alphanumeric characters.  
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3.14.13.4 Set Administrative Password  
Sets the Administrative password. The password can be up to seven alphanumeric characters.  
3.14.14 Exit Screen  
This section describes the different ways to exit and save or not save changes made in the Setup  
program.  
3.14.14.1 Exit Saving Changes  
Saves the changes to CMOS RAM and exits the Setup program. You can also press the <F10> key  
anywhere in the Setup program to initiate this.  
3.14.14.2 Exit Discarding Changes  
Exits the Setup program without saving any changes. This means that any changes made while in  
the Setup program are discarded and NOT SAVED. Pressing the <Esc> key in any of the four  
main screens initiates this activity.  
3.14.14.3 Load Setup Defaults  
Resets all of the Setup options to their defaults. You can also press the <F5> key anywhere in the  
Setup program to initiate this.  
This selection loads the default Setup values from the ROM table.  
3.14.14.4 Discard Changes  
Discards any changes you made during the current Setup session without exiting the program. You  
can also press the <F6> key anywhere in the Setup program to initiate this.  
This selection loads the CMOS RAM values that were present when the computer was turned on.  
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4 Error Messages and Beep Codes  
4.1 BIOS Beep Codes  
Table 41. BIOS Beep Codes  
Beeps  
Error Message  
Description  
1
2
3
4
Refresh Failure  
The memory refresh circuitry on the motherboard is faulty.  
A parity error has been detected.  
Memory failure in the first 64 KB.  
Parity Error  
Base 64 KB Memory Failure  
Timer Not Operational  
Memory failure in the first 64 KB of memory, or Timer 1 on the  
motherboard is not functioning.  
5
6
Processor Error  
Gate A20 Failure  
The microprocessor on the motherboard generated an error.  
The keyboard controller might be bad. The BIOS cannot switch  
to protected mode.  
7
Processor Exception Interrupt  
Error  
The microprocessor generated an exception interrupt.  
8
Display Memory Read/Write  
Error  
The video adapter is either missing or its memory is faulty.  
This is not a fatal error.  
9
ROM Checksum Error  
ROM checksum value does not match the value encoded in  
BIOS.  
10  
CMOS Shutdown Register  
Read/Write Error  
The shutdown register for CMOS RAM failed.  
4.2 PCI Configuration Error Messages  
The following PCI messages are displayed as a group with bus, device and function information.  
Table 42. PCI Configuration Error Messages  
Error Message  
Explanation  
NVRAM Checksum Error, NVRAM  
Cleared  
The ESCD data was reinitialized because of an NVRAM  
checksum error. Try rerunning the ICU.  
System Board Device Resource  
Conflict  
A non Plug and Play ISA card has requested a resource that is  
already in use.  
Primary Output Device Not Found  
Primary Input Device Not Found  
Primary Boot Device Not Found  
The designated primary output device (printer, modem, or other, if  
output is redirected) could not be found.  
The designated primary input device (keyboard, mouse, or other,  
if input is redirected) could not be found.  
The designated primary boot device (hard disk drive, diskette  
drive, or CD-ROM drive) could not be found.  
continued ☛  
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AP440FX Motherboard Technical Product Specification  
Table42. PCI Configuration Error Messages (continued)  
Error Message  
Explanation  
NVRAM Cleared By Jumper  
The “Clear CMOS” jumper has been moved to the “CLR” position  
and CMOS RAM has been cleared.  
NVRAM Data Invalid, NVRAM Cleared Invalid entry in the ESCD.  
Static Device Resource Conflict  
A non Plug and Play ISA card has requested a resource that is  
already in use.  
PCI Error Log is Full  
If and when more than 15 PCI conflict errors are detected the log  
full message is displayed. If this message displays, no additional  
PCI errors can be logged.  
Floppy Disk Controller Resource  
Conflict  
The floppy disk controller has requested a resource that is already  
in use.  
Primary IDE Controller Resource  
Conflict  
The primary IDE controller has requested a resource that is  
already in use.  
Secondary IDE Controller Resource  
Conflict  
The secondary IDE controller has requested a resource that is  
already in use.  
Parallel Port Resource Conflict  
Serial Port 1 Resource Conflict  
Serial Port 2 Resource Conflict  
The parallel port has requested a resource that is already in use.  
Serial port 1 has requested a resource that is already in use.  
Serial port 2 has requested a resource that is already in use.  
The following PCI messages are chained together to give an error message.  
Table 43. Chained PCI Error Messages  
Error Message  
Explanation  
PCI resource name Conflict: Bus: aa, A PCI resource conflict has been detected. The full message Is  
Device bb, Function: cc  
where:  
formed by chaining the fixed text with the variable text indicated by  
italics. Each message variation provides details on the type of  
resource conflict, and detailed information on the bus, device, and  
function associated with the resource conflict.  
PCI I/O Port Conflict:  
Two devices requested the same I/O port, resulting in a conflict.  
PCI Memory Conflict:  
PCI IRQ Conflict:  
Bus: aa  
Two devices requested the same memory address, resulting in a  
conflict.  
Two devices requested the same IRQ address, resulting in a  
conflict.  
Is a hexadecimal number corresponding to the PCI bus number.  
For desktop motherboards, the bus number is 00.  
Device: bb  
Is a hexadecimal number corresponding to the PCI device.  
Function: cc  
Is a hexadecimal number corresponding to the active PCI function  
within a device.  
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Error Messages and Beep Codes  
4.3 BIOS Error Messages  
Table 44. BIOS Error Messages  
Error Message  
Gate A20 Error  
Explanation  
Gate A20 on the keyboard controller is not working.  
Address Line Short!  
Error in the address decoding circuitry on the motherboard.  
Cache memory is defective. Replace it.  
Cache Memory Bad, Do Not  
Enable Cache!  
CH-2 Timer Error  
There is an error in timer 2.  
CMOS Battery State Low  
CMOS RAM is powered by a battery. The battery power is low. Replace  
the battery.  
CMOS Checksum Failure  
After CMOS RAM values are saved, a checksum value is generated for  
error checking. The previous value is different from the current value. Run  
Setup.  
CMOS System Options Not  
Set  
The values stored in CMOS RAM are either corrupt or nonexistent. Run  
Setup.  
CMOS Display Type  
Mismatch  
The video type in CMOS RAM does not match the type detected by the  
BIOS. Run Setup.  
CMOS Memory Size  
Mismatch  
The amount of memory on the motherboard is different than the amount in  
CMOS RAM. Run AMIBIOS Setup.  
CMOS Time and Date Not  
Set  
Run Setup to set the date and time in CMOS RAM.  
Diskette Boot Failure  
The boot disk in floppy drive A: is corrupt. It cannot be used to boot the  
computer. Use another boot disk and follow the screen instructions.  
Display Switch Not Proper  
The display jumper is not implemented on this product. This error should  
not occur.  
DMA Error  
Error in the DMA controller.  
DMA #1 Error  
Error in the first DMA channel.  
Error in the second DMA channel.  
DMA #2 Error  
FDD Controller Failure  
The BIOS cannot communicate with the floppy disk drive controller. Check  
all appropriate connections after the computer is powered down.  
HDD Controller Failure  
The BIOS cannot communicate with the hard disk drive controller. Check  
all appropriate connections after the computer is powered down.  
INTR #1 Error  
Interrupt channel 1 failed POST.  
Interrupt channel 2 failed POST.  
INTR #2 Error  
Invalid Boot Diskette  
The BIOS can read the disk in floppy drive A:, but cannot boot the  
computer. Use another boot disk.  
Keyboard Is Locked...Unlock The keyboard lock on the computer is engaged. The computer must be  
It  
unlocked to continue.  
KB/Interface Error  
On Board Parity Error  
There is an error in the keyboard connector.  
Parity error detected in memory.  
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AP440FX Motherboard Technical Product Specification  
4.4 ISA NMI Messages  
Table 45. ISA NMI Messages  
ISA NMI Message  
Explanation  
Memory Parity Error at xxxxx Memory failed. If the memory location can be determined, it is displayed as  
xxxxx. If not, the message is Memory Parity Error ????.  
I/O Card Parity Error at xxxxx An expansion card failed. If the address can be determined, it is displayed  
as xxxxx. If not, the message is I/O Card Parity Error ????.  
DMA Bus Time-out  
A device has driven the bus signal for more than 7.8 microseconds.  
74  
 

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