R
P2B
Pentium® II Motherboard
USER’S MANUAL
USER'S NOTICE
No part of this manual, including the products and software described in it, may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language in
any form or by any means, except documentation kept by the purchaser for backup purposes,
without the express written permission of ASUSTeK COMPUTER INC. (“ASUS”).
ASUS PROVIDES THIS MANUAL “AS IS” WITHOUT WARRANTY OF ANY KIND,
EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED
WARRANTIES OR CONDITIONS OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL ASUS, ITS DIRECTORS, OFFICERS,
EMPLOYEES OR AGENTS BE LIABLE FOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES (INCLUDING DAMAGES FOR LOSS OF
PROFITS, LOSS OF BUSINESS, LOSS OF USE OR DATA, INTERRUPTION OF BUSINESS AND THE LIKE), EVEN IF ASUS HAS BEEN ADVISED OF THE POSSIBILITY
OF SUCH DAMAGES ARISING FROM ANY DEFECT OR ERROR IN THIS MANUAL
OR PRODUCT.
Product warranty or service will not be extended if: (1) the product is repaired, modified or
altered, unless such repair, modification of alteration is authorized in writing by ASUS; or (2)
the serial number of the product is defaced or missing.
Products and corporate names appearing in this manual may or may not be registered trademarks or copyrights of their respective companies, and are used only for identification or
explanation and to the owners’ benefit, without intent to infringe.
• Intel, LANDesk, and Pentium are registered trademarks of Intel Corporation.
• IBM and OS/2 are registered trademarks of International Business Machines.
• Symbios is a registered trademark of Symbios Logic Corporation.
• Windows and MS-DOS are registered trademarks of Microsoft Corporation.
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The product name and revision number are both printed on the product itself. Manual revisions are released for each product design represented by the digit before and after the period
of the manual revision number. Manual updates are represented by the third digit in the manual
revision number.
For previous or updated manuals, BIOS, drivers, or product release information, contact ASUS
at http://www.asus.com.tw or through any of the means indicated on the following page.
SPECIFICATIONS AND INFORMATION CONTAINED IN THIS MANUAL ARE FURNISHED FOR INFORMATIONAL USE ONLY, AND ARE SUBJECT TO CHANGE AT
ANY TIME WITHOUT NOTICE, AND SHOULD NOT BE CONSTRUED AS A COMMITMENT BY ASUS. ASUS ASSUMES NO RESPONSIBILITY OR LIABILITY FOR
ANY ERRORS OR INACCURACIES THAT MAY APPEAR IN THIS MANUAL, INCLUDING THE PRODUCTS AND SOFTWARE DESCRIBED IN IT.
Copyright © 1999 ASUSTeK COMPUTER INC. All Rights Reserved.
Product Name:
ASUS P2B
Manual Revision: 1.02+ E307
Release Date:
March 1999
2
ASUS P2B User’s Manual
ASUS CONTACT INFORMATION
ASUSTeK COMPUTER INC. (Asia-Pacific)
Marketing
Address:
Telephone:
Fax:
Email:
150 Li-Te Road, Peitou, Taipei, Taiwan 112
+886-2-2894-3447
+886-2-2894-3449
info@asus.com.tw
Technical Support
Tel (English):
Tel (Chinese):
Fax:
Email:
Newsgroup:
WWW:
FTP:
+886-2-2894-3447 ext. 706
+886-2-2894-3447 ext. 111
+886-2-2895-9254
tsd@asus.com.tw
news2.asus.com.tw
www.asus.com.tw
ftp.asus.com.tw/pub/ASUS
ASUS COMPUTER INTERNATIONAL (America)
Marketing
Address:
Fax:
Email:
6737 Mowry Avenue, Mowry Business Center, Building 2
Newark, CA 94560, USA
+1-510-608-4555
info-usa@asus.com.tw
Technical Support
Fax:
BBS:
Email:
WWW:
FTP:
+1-510-608-4555
+1-510-739-3774
tsd-usa@asus.com.tw
www.asus.com
ftp.asus.com.tw/pub/ASUS
ASUS COMPUTER GmbH (Europe)
Marketing
Address:
Telephone:
Fax:
Email:
Harkort Str. 25, 40880 Ratingen, BRD, Germany
49-2102-445011
49-2102-442066
sales@asuscom.de
Technical Support
Hotline:
BBS:
Email:
WWW:
FTP:
49-2102-499712
49-2102-448690
tsd@asuscom.de
www.asuscom.de
ftp.asuscom.de/pub/ASUSCOM
ASUS P2B User’s Manual
3
CONTENTS
I. INTRODUCTION ............................................................................... 7
How this Manual is Organized ........................................................... 7
Item Checklist ..................................................................................... 7
II. FEATURES ........................................................................................ 8
Features of the ASUS P2B Motherboard ............................................ 8
The ASUS P2B Motherboard .......................................................... 9
III. HARDWARE SETUP .................................................................... 10
Layout of the ASUS P2B Motherboard ............................................ 10
Installation Steps ............................................................................... 12
Jumpers ............................................................................................. 12
Jumper Settings ............................................................................. 13
System Memory (DIMM) ................................................................. 17
SPD Support ................................................................................ 17
DIMM Memory Installation Procedures: .................................... 18
Central Processing Unit (CPU) ......................................................... 19
Universal Retention Mechanism ................................................. 19
Heatsinks ..................................................................................... 19
Installing the Processor ................................................................. 20
ASUS Smart Thermal Solutions ................................................. 22
Recommended Heatsinks for Slot 1 Processors .......................... 23
Expansion Cards ............................................................................... 24
Expansion Card Installation Procedure ....................................... 24
Assigning IRQs for Expansion Cards ......................................... 24
Assigning DMA Channels for ISA Cards ................................... 25
ISA Cards and Hardware Monitor ............................................... 25
External Connectors .......................................................................... 26
Power Connection Procedures .......................................................... 33
Power Connection Procedures .......................................................... 33
4
ASUS P2B User’s Manual
CONTENTS
IV. BIOS SETUP ................................................................................... 34
Managing and Updating Your BIOS ................................................. 34
Upon First Use of the Computer System ....................................... 34
Updating BIOS Procedures ........................................................... 35
Managing and Updating Your Motherboard’s BIOS ..................... 36
BIOS Setup ....................................................................................... 37
Load Defaults .............................................................................. 38
Standard CMOS Setup .................................................................. 38
Details of Standard CMOS Setup: .............................................. 38
BIOS Features Setup ..................................................................... 41
Details of BIOS Features Setup .................................................. 41
Chipset Features Setup .................................................................. 44
Details of Chipset Features Setup ............................................... 44
Power Management Setup ............................................................. 47
Details of Power Management Setup .......................................... 47
PNP and PCI Setup ........................................................................ 50
Details of PNP and PCI Setup ..................................................... 50
Load BIOS Defaults ...................................................................... 52
Load Setup Defaults ...................................................................... 52
Supervisor Password and User Password ...................................... 53
IDE HDD Auto Detection ............................................................. 54
Save & Exit Setup ......................................................................... 55
Exit Without Saving ...................................................................... 55
V. SUPPORT SOFTWARE ................................................................. 56
Desktop Management Interface (DMI) ............................................. 56
Introducing the ASUS DMI Configuration Utility ...................... 56
System Requirements .................................................................. 56
Using the ASUS DMI Configuration Utility ............................... 57
VI. APPENDIX ..................................................................................... 59
The ASUS CIDB Chassis Intrusion Sensor Module ......................... 59
The ASUS S370 CPU Card .............................................................. 61
ASUS PCI-L101 Fast Ethernet Card ................................................ 63
Glossary ............................................................................................ 65
ASUS P2B User’s Manual
5
FCC & DOC COMPLIANCE
Federal Communications Commission Statement
This device complies with FCC Rules Part 15. Operation is subject to the following
two conditions:
•
•
This device may not cause harmful interference, and
This device must accept any interference received, including interference that
may cause undesired operation.
This equipment has been tested and found to comply with the limits for a Class B
digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to
provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if
not installed and used in accordance with manufacturer's instructions, may cause
harmful interference to radio communications. However, there is no guarantee that
interference will not occur in a particular installation. If this equipment does cause
harmful interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
•
•
•
•
Re-orient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment to an outlet on a circuit different from that to which
the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
WARNING! Any changes or modifications to this product not expressly approved by the manufacturer could void any assurances of safety or performance
and could result in violation of Part 15 of the FCC Rules.
Canadian Department of Communications Statement
This digital apparatus does not exceed the Class B limits for radio noise emissions
from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications.
This Class B digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe B est conforme à la norme NMB-003 du Canada.
6
ASUS P2B User’s Manual
I. INTRODUCTION
I. INTRODUCTION
Manual / Checklist
How this Manual is Organized
This manual is divided into the following sections:
I.
II.
III.
IV.
V.
VI.
Introduction:
Features:
Hardware Setup:
BIOS Setup:
Support Software:
Appendix
Manual information and checklist
Information and specifications concerning this product
Instructions on setting up the motherboard
Instructions on setting up the BIOS software
Information on the included support software
Optional items and general reference
Item Checklist
Please check that your package is complete. If you discover damaged or missing
items, please contact your retailer.
(1) ASUS Motherboard
(1) Universal Retention Mechanism for SECC/SECC2/SEPP
(1) IDE ribbon cable for master and slave drives
(1) Floppy ribbon cable for (1) 5.25inch floppy and (2) 3.5inch floppies
(1) Bag of spare jumper caps
(1) Support CD with drivers and utilities
(1) User’s manual
S-P2FAN or P2T-Cable for Slot 1 processors
IrDA-compliant infrared module (optional)
ASUS PCI-L101 Wake-on-LAN 10/100 Ethernet Card (optional)
ASUS P2B User’s Manual
7
II. FEATURES
Features of the ASUS P2B Motherboard
The ASUS P2B is carefully designed for the demanding PC user who wants advanced features processed by the fastest CPU.
•
•
•
II. FEA TURES
Specifications
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
8
Multi-Speed: Supports Intel Pentium® III (450MHz and faster), Pentium® II (233MHz
to 450MHz), and CeleronTM (266MHz and faster) processors.
Multi-Cache: Supports processors with 512, 128, or 0KB Pipelined Burst Level 2 cache.
Intel AGPset: Features Intel’s 440BX AGPset with I/O subsystems and front-side bus
(FSB) platform, which boosts the traditional 66-MHz internal bus speed to 100MHz.
Enhanced ACPI and Anti-Boot Virus BIOS: Features a programmable BIOS, offering
enhanced ACPI for Windows 98 compatibility, built-in hardware-based virus protection through
Trend ChipAway Virus, and autodetection of most devices for virtually automatic setup.
PC100 Memory Support: Equipped with three DIMM sockets to support Intel PC100compliant SDRAMs (8, 16, 32, 64, 128, or 256MB) up to 768MB. These new SDRAMs
are necessary to meet the critical enhanced 100MHz bus speed requirement.
Thermal Sensor Connector with Optional Sensor: Accurately detects the CPU temperature of processors with the ASUS Smart Fan or the Intel boxed processor heatsink
with fan when connected to an ASUS P2T-Cable.
Wake-On-LAN: Supports Wake-On–LAN activity with special network cards, such as
the ASUS PCI-L101 10/100 Fast Ethernet PCI card.
AGP Slot: Supports Accelerated Graphics Port cards for high performance, component
level interconnect targeted at 3D graphical display applications.
SB-Link™: Features Creative’s SB-Link™, allowing SB16 compatibility, using Intel’s
PC-PCI DMA and serialized IRQ protocols, to AWE64D or compatible PCI audio cards.
SMBus: Features the System Management Bus interface, which is used to physically
transport commands and information between SMBus devices.
PCI & ISA Expansion Slots: Provides four 32-bit PCI and three 16-bit ISA slots.
Intelligence: Supports Keyboard Power Up, Fan Status Monitoring and Alarm, Temperature Monitoring and Alert, Voltage Monitoring and Alert, System Resources Alert,
Intel LANDesk Client Manager (LDCM), and ASUS PC Probe software.
Super Multi-I/O: Provides two high-speed UART compatible serial ports and one parallel port with EPP and ECP capabilities. UART2 can also be directed from COM2 to the
Infrared Module for wireless connections.
Desktop Management Interface (DMI): Supports DMI through BIOS, which allows
hardware to communicate within a standard protocol creating a higher level of compatibility. (Requires DMI-enabled components.) (See section V)
Ultra DMA/33 Bus Master IDE: Comes with an onboard PCI Bus Master IDE controller with two connectors that support four IDE devices in two channels, supports UltraDMA/
33, PIO Modes 3 and 4 and Bus Master IDE DMA Mode 2, and supports Enhanced IDE
devices, such as Tape Backup, CD-ROM, and LS-120 drives.
Universal Retention Mechanism: Supports a Pentium® II processor packaged in a Single
Edge Contact Cartridge (SECC/SECC2) or a CeleronTM processor packaged in a Single
Edge Processor Package (SEPP).
SCSI BIOS: Supports optional ASUS SCSI cards through onboard SYMBIOS firmware.
IrDA: Supports an optional infrared port module for wireless interface.
Concurrent PCI: Allows multiple PCI transfers from PCI master buses to memory to CPU.
ASUS P2B User’s Manual
II. FEATURES
The ASUS P2B Motherboard
ATX Power
Connector
CPU
Slot 1
Intel 440BX AGPset
3 DIMM Sockets
II. FEA TURES
Motherboard Parts
T: PS/2 Mouse
B: PS/2 Keyboard
T: USB Port 1
B: USB Port 2
B: COM 1
T: Parallel
B: Serial
B: COM 2
Universal Folding
Retention Mechanism
Accelerated
Graphics Port
Wake-On-LAN
Connector
4 PCI Slots
Programmable
2Mbit Flash EEROM
Hardware
Monitoring ASIC
3 ISA Slots
ASUS P2B User’s Manual
9
III. HARDWARE SETUP
Layout of the ASUS P2B Motherboard
PWR_FAN
TOP:
Accelerated Graphics Port
Wake-On-LAN
Connector
PCI Slot 1
CR2032 3V
Lithium Cell
(BIOS Power)
PCI Slot 2
CLRTC
PCI Slot 3
Intel PIIX4E
PCIset
CHASIS
BUS FREQ
JTPWR
Flash EEPROM
(Programable BIOS)
SBLINK
PRIMARY IDE
III. H/W SETUP
Board Layout
JTCPU
Multi-I/O
FS2
FS1
FS0
SECONDARY IDE
Intel
440BX
AGPset
BUS FREQ
FLOPPY
CPU Slot 1
COM 1
COM 2
Parallel Port
USB 2
DIMM Socket 3 (64/72 bit, 168 pin module)
BOTTOM:
Keyboard Power
USB 1
DIMM Socket 1 (64/72 bit, 168 pin module)
ATX Power Conenctor
TOP:
DIMM Socket 2 (64/72 bit, 168 pin module)
BOTTOM:
Keyboard
USB
CPU_FAN
Mouse
PS/2
PCI Slot 4
BF3
BF2
BF1
BF0
ISA Slot 1
Hardware
Monitor
R
ASUS
ASIC
CHA_FAN
ISA Slot 2
Infrared Connector
IDE LED
SMB Connector
ISA Slot 3
Panel Connectors
10
ASUS P2B User’s Manual
III. HARDWARE SETUP
Jumpers
1)
2)
3)
4)
CLRTC
KBPWR
FS0, FS1, FS2
BF0, BF1, BF2, BF3
p. 13 Clear Real Time Clock (RTC) RAM (Short/Clear CMOS)
p. 13 Keyboard Power
p. 14 CPU External Clock (BUS) Frequency Selection
p. 14 CPU Core:BUS Frequency Multiple
Expansion Slots/Sockets
1)
2)
3)
4)
5)
6)
System Memory
DIMM Sockets
CPU Slot 1
SLOT1, SLOT2, SLOT3
PCI1, PCI2,PCI3, PCI4
AGP
p. 17 System Memory Support
p. 18 DIMM Memory Module Support
p. 19 Pentium II/Celeron CPU Support
p. 24 16-bit ISA Bus Expansion Slots*
p. 24 32-bit PCI Bus Expansion Slots
p. 25 Accelerated Graphics Port
Hardware Monitor
1) JTPWR, JTCPU
p. 23 Thermal Sensor Connector
1)
2)
3)
4)
5)
6)
7)
8)
9)
10)
11)
12)
13)
14)
15)
16)
17)
18)
19)
20)
21)
22)
III. H/W SETUP
Board Layout
Connectors
PS2KBMS
p. 26 PS/2 Keyboard Connector (6-pin female)
PS2KBMS
p. 26 PS/2 Mouse Connector (6-pin female)
PARALLEL
p. 27 Parallel (Printer) Port Connector (25-pin female)
COM1, COM2
p. 27 Serial Port COM1 & COM2 (two 9-pin male)
FLOPPY
p. 27 Floppy Drive Connector (34-pin block)
USB
p. 28 Universal Serial BUS Ports 1 & 2 (two 4-pin female)
Primary/Secondary IDE p. 28 Primary/Secondary IDE Connector (40-pin blocks)
IDELED
p. 28 IDE LED Activity Light (2 pins)
CHA_, PWR_, CPU_FAN p. 29 Chassis, Power Supply, CPU Fan Power Lead (3-pin block)
CHASIS
p. 29 Chassis Intrusion Alarm Lead (4-1 pins)
IR
p. 30 Infrared Port Module Connector (5 pins)
ATXPWR
p. 30 ATX Motherboard Power Connector (20-pin block)
WOL_CON
p. 31 Wake on LAN Connector (3 pins)
SBLINK
p. 31 SB-Link™ Connector (6-1 pins)
SMB
p. 31 SMBus Connector (5-1 pins)
MSG.LED (PANEL) p. 32 System Message LED (2 pins)
SMI (PANEL)
p. 32 SMI Switch Lead (2 pins)
PWR.SW (PANEL)
p. 32 ATX Power & Soft-Off Switch Lead (2 pins)
RESET (PANEL)
p. 32 Reset Switch Lead (2 pins)
PWR.LED (PANEL)
p. 32 System Power LED Lead (3 pins)
KEYLOCK (PANEL)
p. 32 Keyboard Lock Switch Lead (2 pins)
SPEAKER (PANEL) p. 32 Speaker Output Connector (4 pins)
*
The onboard hardware monitor uses the address 290H-297H so legacy ISA cards must not
use this address otherwise conflicts will occur.
ASUS P2B User’s Manual
11
III. HARDWARE SETUP
Installation Steps
Before using your computer, you must complete the following steps:
1.
2.
3.
4.
5.
6.
Set Jumpers
Install Memory Modules
Install the Central Processing Unit (CPU)
Install Expansion Cards
Connect Ribbon Cables, Cabinet Wires, and Power Supply
Setup the BIOS Software
Jumpers
III. H/W SETUP
Jumpers
WARNING! Computer motherboards and expansion cards contain very delicate
Integrated Circuit (IC) chips. To protect them against damage from static electricity, you should follow some precautions whenever you work on your computer.
1. Unplug your computer when working on the inside.
2. Use a grounded wrist strap before handling computer components. If you do
not have one, touch both of your hands to a safely grounded object or to a
metal object, such as the power supply case.
3. Hold components by the edges and try not to touch the IC chips, leads or
connectors, or other components.
4. Place components on a grounded antistatic pad or on the bag that came with
the component whenever the components are separated from the system.
12
ASUS P2B User’s Manual
III. HARDWARE SETUP
Jumper Settings
1. Clear Real Time Clock (RTC) RAM (CLRTC)
The CMOS RAM is powered by the onboard button cell battery. To clear the
RTC data: (1) Turn off your computer and unplug your AC power, (2) Short the
two points labeled CLRTC, (3) Turn on your computer, (4) Hold down
<Delete> during bootup and enter BIOS setup to re-enter user preferences.
R
Short small solder points to clear CMOS
CLRTC
III. H/W SETUP
Jumpers
P2B Clear RTC RAM
2. Keyboard Power Up (KBPWR)
This allows you to disable or enable the keyboard power up function. Set to
Enable if you want to use your keyboard (by pressing <Spacebar>) to power up
your computer. This feature requires an ATX power supply that can supply at
least 300mA on the +5VSB lead and the new ACPI BIOS support. The default is
set to Disable because not all computers have the appropriate ATX power supply. Your computer will not function if you set this to Enable and if you do not
have the right ATX power supply.
KBPWR
1 2 3
1 2 3
Disable
Enable
R
P2B Keyboard Power Up
ASUS P2B User’s Manual
13
III. HARDWARE SETUP
3. CPU Bus Frequency (FS0, FS1, FS2)
This option tells the clock generator what frequency to send to the CPU, DRAM, and
AGPset. This allows the selection of the CPU’s External frequency (or BUS Clock).
The BUS Clock multiplied by the BUS Ratio equals the CPU’s Internal frequency (the
advertised CPU speed).
1
2
3
4.0X (4/1)
4.5X (9/2)
BF0
BF1
BF2
BF3
1
2
3
BF0
BF1
BF2
BF3
BF0
BF1
BF2
BF3
BF0
BF1
BF2
BF3
3.5X (7/2)
BF0
BF1
BF2
BF3
BF0
BF1
BF2
BF3
BF0
BF1
BF2
BF3
5.0X (5/1)
1
2
3
1
2
3
1
2
3
1
2
3
FS0
FS1
FS2
FS0
FS1
FS2
FS0
FS1
FS2
FS0
FS1
FS2
FS0
FS1
FS2
R
1
1
1
2
2
2
3
3
3
6.5X (13/2) 7.0X (7/1) 7.5X (15/2) 8.0X (8/1)
5.5x (11/2) 6.0x (6/1)
CPU Core:BUS Frequency Multiple
FS0
FS1
FS2
1
2
3
FS0
FS1
FS2
III. H/W SETUP
Jumpers
1
2
3
1
2
3
3.0X (3/1)
BF0
BF1
BF2
BF3
2.5x (5/2)
2.0x (2/1)
1
2
3
BF0
BF1
BF2
BF3
1
2
3
BF0
BF1
BF2
BF3
BF0
BF1
BF2
BF3
BF0
BF1
BF2
BF3
1
2
3
P2B CPU
BF0
BF1
BF2
BF3
4. CPU Core:BUS Frequency Multiple (BF0, BF1, BF2, BF3)
This option sets the frequency ratio between the Internal frequency of the CPU
and the CPU’s External frequency. These must be set in conjunction with the CPU
Bus Frequency.
1
2
3
1
2
3
66.8MHz 75MHz 83.3MHz 100.2MHz 103MHz 112MHz 133MHz
33.4MHz 37.5MHz 41.65MHz 33.3MHz 33.4MHz 37.3MHz 33.3MHz/
44.3MHz
CPU External Clock (BUS) Frequency Selection
CPU
PCI
WARNING! Frequencies above 100MHz exceed the specifications for the onboard Intel Chipset and are not guaranteed to be stable.
14
ASUS P2B User’s Manual
III. HARDWARE SETUP
Set the jumpers by the Internal speed of your processor as follows:
Intel CPU Model
Pentium III
Pentium III
Freq. Ratio BUS F.
550MHz 5.5x 100MHz
500MHz 5.0x 100MHz
(BUS Freq.)
FS0 FS1 FS2
[1-2] [1-2] [1-2]
[1-2] [1-2] [1-2]
(Freq. Ratio)
BF0 BF1 BF2 BF3
[1-2] [1-2] [1-2] [2-3]
[2-3] [1-2] [1-2] [2-3]
Pentium III/II
Pentium II
Pentium II
450MHz
400MHz
350MHz
4.5x
4.0x
3.5x
100MHz
100MHz
100MHz
[1-2] [1-2] [1-2]
[1-2] [1-2] [1-2]
[1-2] [1-2] [1-2]
[1-2] [2-3] [1-2] [2-3]
[2-3] [2-3] [1-2] [2-3]
[1-2] [1-2] [2-3] [2-3]
Celeron
Celeron
Celeron
466MHz
433MHz
400MHz
7.0x
6.5x
6.0x
66MHz
66MHz
66MHz
[1-2] [1-2] [2-3]
[1-2] [1-2] [2-3]
[1-2] [1-2] [2-3]
[2-3] [1-2] [2-3] [1-2]
[1-2] [2-3] [2-3] [1-2]
[2-3] [2-3] [2-3] [1-2]
Pentium II/Celeron
Pentium II/Celeron
Pentium II/Celeron
Pentium II
333MHz
300MHz
266MHz
233MHz
5.0x
4.5x
4.0x
3.5x
66MHz
66MHz
66MHz
66MHz
[1-2]
[1-2]
[1-2]
[1-2]
[2-3]
[1-2]
[2-3]
[1-2]
[2-3]
[2-3]
[2-3]
[2-3]
[1-2]
[2-3]
[2-3]
[1-2]
[1-2]
[1-2]
[1-2]
[2-3]
[2-3]
[2-3]
[2-3]
[2-3]
III. H/W SETUP
Jumpers
[1-2]
[1-2]
[1-2]
[1-2]
For updated processor settings, please visit ASUS’ web site (see ASUS CONTACT INFORMATION)
NOTES: Overclocking your processor is not recommended. It may result in a slower
speed. Voltage Regulator Output Selection (VID) is not needed for the Pentium III/
II/Celeron processor because it sends a VID signal directly to the onboard power
controller.
ASUS P2B User’s Manual
15
III. HARDWARE SETUP
(This page was intentionally left blank.)
III. H/W SETUP
Jumpers
16
ASUS P2B User’s Manual
III. HARDWARE SETUP
System Memory (DIMM)
NOTE: No hardware or BIOS setup is required after adding or removing memory.
This motherboard uses only Dual Inline Memory Modules (DIMMs). Sockets are
available for 3.3Volt (power level) unbuffered Synchronous Dynamic Random Access Memory (SDRAM). One side (with memory chips) of the DIMM takes up one
row on the motherboard.
To utilize the chipset’s Error Checking and Correction (ECC) feature, you must use a
DIMM module with 9 chips per side (standard 8 chips/side + 1 ECC chip) and make
the proper settings through Chipset Features Setup in BIOS SETUP.
Memory speed setup is recommended through SDRAM Configuration under “Chipset
Features Setup” in BIOS SETUP.
DIMM Location
168-pin DIMM
Socket 1 (Rows 0&1)
SDRAM 8, 16, 32, 64, 128, 256MB
x1
Socket 2 (Rows 2&3)
SDRAM 8, 16, 32, 64, 128, 256MB
x1
Socket 3 (Rows 4&5)
SDRAM 8, 16, 32, 64, 128, 256MB
x1
III. H/W SETUP
System Memory
Install memory in any combination as follows:
Total Memory
Total System Memory (Max 768MB) =
NOTE: At the time this User’s Manual was written, 256MB DIMMs are only available as registered memory.
SPD Support
This motherboard supports SPD DIMMs, and it is recommended that SPD DIMMs
be used.
General DIMM Notes
• For the system CPU bus to operate above 100MHz, use only PC100-compliant DIMMs. When this motherboard operates at 100MHz, most system will not
even boot if non-compliant modules are used because of the strict timing issues
involved under this speed. If your DIMMs are not PC100-compliant, set the
CPU bus frequency (FS) to 66MHz for system stability.
• ASUS motherboards support SPD (Serial Presence Detect) DIMMs. This is the
memory of choice for best performance vs. stability.
• SDRAM chips are generally thinner with higher pin density than EDO (Extended Data Output) chips.
• BIOS shows SDRAM memory on bootup screen.
• Single-sided DIMMs come in 16, 32, 64,128MB; double-sided come in 32, 64, 128, 256MB.
ASUS P2B User’s Manual
17
III. HARDWARE SETUP
DIMM Memory Installation Procedures:
Insert the module(s) as shown. Because the number of pins are different on either
side of the breaks, the module will only fit in the orientation as shown. DRAM
SIMM modules have the same pin contacts on both sides. SDRAM DIMMs have
different pin contacts on each side and therefore have a higher pin density.
R
20 Pins 60 Pins
88 Pins
Lock
FRONT
III. H/W SETUP
System Memory
P2B 168-Pin DIMM Memory Sockets
The DIMMs must be 3.3Volt unbuffered SDRAMs. To determine the DIMM type,
check the notches on the DIMMs (see figure below).
168-Pin DIMM Notch Key Definitions (3.3V)
DRAM Key Position
Unbuffered
RFU
Buffered
Voltage Key Position
Reserved
5.0V
3.3V
The notches on the DIMM will shift between left, center, or right to identify the type
and also to prevent the wrong type from being inserted into the DIMM slot on the
motherboard. You must tell your retailer the correct DIMM type before purchasing.
This motherboard supports four clock signals.
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ASUS P2B User’s Manual
III. HARDWARE SETUP
Central Processing Unit (CPU)
NOTE: The following pictures are provided for reference purposes only. The appearance of your retention mechanism and fan may be different from the following
examples.
Pentium II processor packaged in an SECC with
heatsink and fan (top view)
III. H/W SETUP
CPU
Your motherboard provides a Slot 1 connector for a Pentium® III processor packaged in a Single Edge Contact Cartridge (SECC2), a Pentium® II processor packaged in SECC/SECC2, or a Celeron™ processor packaged in a Single Edge Processor Package (SEPP). An ASUS S370 CPU card can allow Socket 370 processors to
be used on any ASUS motherboard with the Slot 1 connector (See ASUS S370 CPU
Card in APPENDIX for instructions on using this card).
Pentium III (in an SECC2) with heatsink and fan
NOTE: The SEPP fan (for Celeron processors) is
similar to SECC2 fan except that the clamping
design is different.
Universal Retention Mechanism
Your motherboard comes preinstalled
with a Universal Retention Mechanism
(URM). The URM supports Pentium III /
II and Celeron processors.
Heatsinks
Universal Retention Mechanism (URM)
The recommended heatsinks (see section on recommended heatsinks for Pentium
III / II processors for more information) for the boxed Pentium III / II and Celeron
processors are those with three-pin fans that can be connected to the fan connectors
on the motherboard.
WARNING! Be sure that there is sufficient air circulation across the processor’s
heatsink by regularly checking that your CPU fan is working. Without sufficient
circulation, the processor could overheat and damage both the processor and the
motherboard. You may install an auxiliary chassis fan, if necessary.
ASUS P2B User’s Manual
19
III. HARDWARE SETUP
Installing the Processor
1. Unlock the URM’s Folding Support Arms:
The folding support arms of the URM are
locked when shipped.
Locked Folding
Support Arms
To unlock the support arms, simply flip them
up to an upright position.
Unlocked Folding
Support Arms
The URM is now ready for the installation
of your processor.
III. H/W SETUP
CPU
2. Attach the Heatsink
NOTE: If provided, you should follow the heatsink attachment instructions
that came with your heatsink or processor. The following steps are provided
only as a general guide and may not reflect those for your heatsink.
Using the SECC fan with the Pentium® II
Push the two lock arms one direction to clamp
the heatsink onto the processor and the other
direction to release.
Lock Arm
Using the SECC2 fan with the Pentium® III
Insert the four heatsink’s pins through the
holes of the SECC2. Place the metal clip on
the ends of the pins and slide until it locks
into place.
Lock Arm
Four Pins and metal clip
NOTE: The SEPP heatsink and fan (for Intel Celeron processors) is similar to
the SECC2 heatsink and fan except that the clamping design is different.
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ASUS P2B User’s Manual
III. HARDWARE SETUP
WARNING! Make sure the heatsink is mounted tightly against the SECC, SECC2
or SEPP; otherwise, the CPU will overheat. You may install an auxiliary fan to
provide adequate circulation across the processor’s passive heatsink.
3. Insert the SECC/SECC2/SEPP
SECC with Pentium® II only: Push the SECC’s two locks inward until you hear
a click (the picture in step 2 shows the locks in the outward position and inward in
the picture below).
With the heatsink facing the motherboard’s chipset, push the SECC, SECC2, or
SEPP gently but firmly into the Slot 1 connector until it is fully inserted.
SECC
SECC2/SEPP
CPU fan cable to
fan connector
III. H/W SETUP
CPU
Push lock inward
CPU fan cable to
fan connector
4. Secure the SECC/SECC2/SEPP
Secure the SECC/SECC2/SEPP in place by pushing the SECC/SECC2/SEPP
until it is firmly seated on the Slot 1 connector.
SECC with Pentium® II only: The SECC locks should be outward when secured so that the lock shows through the retention mechanism’s lock holes.
SECC
SECC2/SEPP
Lock hole
Lock hole
CPU fan cable to
fan connector
ASUS P2B User’s Manual
CPU fan
cable to fan
connector
21
III. HARDWARE SETUP
ASUS Smart Thermal Solutions
ASUS provides two smart solutions to Slot 1 CPU thermal problems: the ASUS
Smart Fan or ASUS S-P2FAN and the ASUS P2T-Cable.
ASUS S-P2FAN
The optional ASUS Smart Fan or ASUS S-P2FAN is a
CPU fan for a Pentium® II processor packaged in an SECC.
Unlike other CPU thermal solutions, the ASUS S-P2FAN
has an integrated thermal sensor located near the center
of the CPU heat source. The sensor is optimized by ASUS
to give the most accurate reading of the CPU temperature, thus provides the best protection to your computer
system.
Thermal Cable CPU Fan Cable
(2 black wires) (3 colored wires)
III. H/W SETUP
CPU
To Use the ASUS S-P2FAN
See 2. Attach the Heatsink on the preceding page for the relevant procedures. Note
that the S-P2FAN comes with a rock arm design for easy FAN/CPU installation.
ASUS P2T-Cable
The optional ASUS P2T-Cable can be
used for a Pentium® III/II processor packaged in an SECC2/SECC or a Celeron™
processor packaged in an SEPP.
NOTE: The ASUS P2T-Cable can only
be used in a Slot 1 motherboard with a
2-pin thermal sensor connector.
Sensor
Sensor Connector Plug
To Use the ASUS P2T-Cable
NOTE: The following procedures assume that you have properly attached a
heatsink onto an SECC/SECC2/SEPP.
1. Simply peel off the tab from the sensor and then stick the sensor near the middle
edge of the Intel boxed processor heatsink with fan (middle) or to either the
upper or lower edge of the Celeron™ heatsink (right), as indicated.
Tab
← OR STICK ABOUT HERE
Sensor
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ASUS P2B User’s Manual
III. HARDWARE SETUP
WARNING! Do not insert the sensor between the processor and heatsink, otherwise, it will cause damage to the P2T-Cable.
IMPORTANT! ASUS guarantees accurate readings only for the ASUS Smart
Fan and the Intel boxed processor heatsink with fan because both have similar
heat distribution and heatsink material.
2. Connect the P2T-Cable to the CPU thermal sensor connector (JTCPU).
JTPWR
R
Power Supply Thermal Sensor Connector
JTCPU
CPU Thermal Sensor Connector
III. H/W SETUP
CPU
P2B-F Thermal Sensor Connectors
NOTE: If you have a power supply with thermal monitoring, connect its thermal sensor cable to JTPWR.
Recommended Heatsinks for Slot 1 Processors
The recommended heatsinks for the Slot 1 processors are those with three-pin fans,
such as the ASUS Smart Fan, that can be connected to the motherboard’s CPU fan
connector. These heatsinks dissipate heat more efficiently and with an optional hardware monitor, they can monitor the fan’s RPM and use the alert function with the
Intel LANDesk Client Manager (LDCM) or the ASUS PC Probe software.
SECC Heatsink & Fan
SECC2 Heatsink & Fan
NOTE: The SEPP heatsink and fan (for Intel Celeron processors) is similar to the
SECC2 heatsink and fan except that the clamping design is different.
ASUS P2B User’s Manual
23
III. HARDWARE SETUP
Expansion Cards
WARNING! Unplug your power supply when adding or removing expansion
cards or other system components. Failure to do so may cause severe damage to
both your motherboard and expansion cards.
Expansion Card Installation Procedure
III. H/W SETUP
Expansion Cards
1. Read the documentation for your expansion card and make any necessary hardware or software settings for your expansion card, such as jumpers.
2. Remove your computer system’s cover and the bracket plate on the slot you
intend to use. Keep the bracket for possible future use.
3. Carefully align the card’s connectors and press firmly.
4. Secure the card on the slot with the screw you removed above.
5. Replace the computer system’s cover.
6. Set up the BIOS if necessary
(such as IRQ xx Used By ISA: Yes in PNP AND PCI SETUP)
7. Install the necessary software drivers for your expansion card.
Assigning IRQs for Expansion Cards
Some expansion cards need to use an IRQ to operate. Generally, an IRQ must be
exclusively assigned to one use. In a standard design, there are 16 IRQs available
but most of them are already in use, leaving 6 IRQs free for expansion cards. If your
motherboard has PCI audio onboard, an extra IRQ will be used, leaving 5 IRQs
free. If your motherboard has ISA audio onboard, an extra 3 IRQs will be used,
leaving 3 IRQs free.
Both ISA and PCI expansion cards may require to use IRQs. System IRQs are available to cards installed in the ISA expansion bus first, then any remaining IRQs are
available to PCI cards. Currently, there are two types of ISA cards. The original ISA
expansion card design, now referred to as legacy ISA cards, requires that you configure the card’s jumpers manually and then install it in any available slot on the ISA
bus. You may use the Microsoft Diagnostics (MSD.EXE) utility located in the Windows directory to see a map of your used and free IRQs. If you use Windows 95, the
Resources tab under Device Manager displays the resource settings being used by
a particular device (to gain access, double-click the System icon under the Control
Panel program). Ensure that no two devices share the same IRQs or your computer
will experience problems when those two devices are in use at the same time.
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ASUS P2B User’s Manual
III. HARDWARE SETUP
To simplify this process, this motherboard complies with the Plug and Play (PnP
specification, which was developed to allow automatic system configuration whenever a PnP-compliant card is added to the system. For PnP cards, IRQs are assigned
automatically from those available.
If the system has both legacy and PnP ISA cards installed, IRQs are assigned to PnP
cards from those not used by legacy cards. The PCI and PNP configuration section
of the BIOS setup utility can be used to assign which IRQs are being used by legacy
cards. For older legacy cards that do not work with the BIOS, you may contact your
vendor for an ISA Configuration Utility.
III. H/W SETUP
DMA Ch. / AGP Slot
An IRQ number is automatically assigned to PCI expansion cards after those used
by legacy and PnP ISA cards. In the PCI bus design, the BIOS automatically assigns
an IRQ to a PCI slot that contains a card requiring an IRQ. To install a PCI card, you
need to set the INT (interrupt assignment). Since all the PCI slots on this motherboard use an INTA #, set the jumpers on your PCI cards to INT A.
Assigning DMA Channels for ISA Cards
Some ISA cards, both legacy and PnP, may also need to use a DMA (Direct Memory
Access channel. DMA assignments for this motherboard are handled the same way
as the IRQ assignment process described earlier. You can select a DMA channel in
the PCI and PnP configuration section of the BIOS Setup utility.
IMPORTANT: To avoid conflicts, reserve the necessary IRQs and DMAs for legacy
ISA cards (under PNP AND PCI SETUP of the BIOS SOFTWARE, choose Yes in IRQ
xx Used By ISA and DMA x Used By ISA for those IRQs and DMAs you want to reserve.
ISA Cards and Hardware Monitor
The onboard hardware monitor uses the address 290H-297H so legacy ISA cards
must not use this address or else conflicts will occur.
Accelerated Graphics Port
This motherboard provides an accelerated graphics port (AGP) slot to support a new
generation of graphics cards with ultra-high memory bandwidth, such as an ASUS
3D Hardware Accelerator.
R
P2B Accelerated Graphics Port (AGP)
ASUS P2B User’s Manual
25
III. HARDWARE SETUP
External Connectors
WARNING! Some pins are used for connectors or power sources. These are
clearly distinguished from jumpers in the Motherboard Layout. Placing jumper
caps over these connector pins will cause damage to your motherboard.
IMPORTANT: Ribbon cables should always be connected with the red stripe to
Pin 1 on the connectors. Pin 1 is usually on the side closest to the power connector on hard drives and CD-ROM drives, but may be on the opposite side on
floppy disk drives. Check the connectors before installation because there may
be exceptions. IDE ribbon cables must be less than 46 cm (18 in.), with the
second drive connector no more than 15 cm (6 in.) from the first connector.
III. H/W SETUP
Connectors
1. PS/2 Keyboard Connector (6-pin Female)
This connection is for a standard keyboard using an PS/2 plug (mini DIN). This
connector will not allow standard AT size (large DIN) keyboard plugs. You
may use a DIN to mini DIN adapter on standard AT keyboards.
PS/2 Keyboard (6-pin Female)
2. PS/2 Mouse Connector (6-pin Female)
The system will direct IRQ12 to the PS/2 mouse if one is detected. If not detected, expansion cards can use IRQ12. See “PS/2 Mouse Control” in BIOS
Features Setup of the BIOS SOFTWARE.
PS/2 Mouse (6-pin Female)
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ASUS P2B User’s Manual
III. HARDWARE SETUP
3. Parallel Port Connector (25-pin Female)
You can enable the parallel port and choose the IRQ through “Onboard Parallel
Port” in Chipset Features Setup of the BIOS SOFTWARE. NOTE: Serial printers must be connected to the serial port.
Parallel (Printer) Port (25-pin Female)
III. H/W SETUP
DMA
Connectors
Channels
4. Serial Port COM1 and COM2 Connectors (Two 9-pin Male)
The two serial ports can be used for pointing devices or other serial devices. See
“Onboard Serial Port” in Chipset Features Setup of the BIOS SOFTWARE.
COM 1
COM 2
Serial Ports (9-pin Male)
5. Floppy Disk Drive Connector (34-1pin FLOPPY)
This connector supports the provided floppy disk drive ribbon cable. After connecting the single end to the board, connect the two plugs on the other end to the
floppy drives. (Pin 5 is removed to prevent inserting in the wrong orientation when using ribbon cables with pin 5 plugged).
NOTE: Orient the red stripe to Pin 1
R
Floppy Drive Connector
Pin 1
P2B Floppy Disk Drive Connector
ASUS P2B User’s Manual
27
III. HARDWARE SETUP
6. Universal Serial BUS Ports 1 & 2 (Two 4-pin Female)
Two USB ports are available for connecting USB devices.
USB 1
Universal Serial Bus (USB) 2
III. H/W SETUP
Connectors
7. Primary / Secondary IDE Connectors (Two 40-1pin IDE)
These connectors support the provided IDE hard disk ribbon cable. After connecting the single end to the board, connect the two plugs at the other end to your hard
disk(s). If you install two hard disks, you must configure the second drive to Slave
mode by setting its jumper accordingly. Refer to the documentation of your hard
disk for the jumper settings. BIOS now supports SCSI device or IDE CD-ROM
bootup (see “HDD Sequence SCSI/IDE First” & “Boot Sequence” in the BIOS
Features Setup of the BIOS SOFTWARE) (Pin 20 is removed to prevent inserting in the wrong orientation when using ribbon cables with pin 20 plugged).
TIP: You may configure two hard disks to be both Masters using one ribbon
cable on the primary IDE connector and another ribbon cable on the secondary
IDE connector. You may install one operating system on an IDE drive and another on a SCSI drive and select the boot disk through BIOS Features Setup.
NOTE: Orient the red stripe to PIN 1
PIN 1
Secondary IDE Connector
R
Primary IDE Connector
P2B IDE Connectors
8. IDE Device Activity LED (2-pin IDELED)
This connector supplies power to the cabinet’s IDE device activity LED. Read
and write activity by devices connected to the Primary or Secondary IDE connectors will cause the LED to light up.
IDELED
R
TIP: If the case-mounted LED does not light,
try reversing the 2-pin plug.
P2B IDE Activity LED
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ASUS P2B User’s Manual
III. HARDWARE SETUP
9. Chassis / CPU / Power Supply Fan Connectors (3-pin FAN)
These connectors support cooling fans of 500mA (6 Watts) or less. Orientate the
fans so that the heat sink fins allow airflow to go across the onboard heat sink(s)
instead of the expansion slots. Depending on the fan manufacturer, the wiring and
plug may be different. The red wire should be positive, while the black should be
ground. Connect the fan’s plug to the board taking into consideration the polarity
of the connector. NOTE: The “Rotation” signal is to be used only by a specially designed fan with rotation signal. The Rotations per Minute (RPM)
can be monitored using ASUS PC Probe Utility or Intel LDCM Utility.
III. H/W SETUP
Connectors
WARNING! The CPU and/or motherboard will overheat if there is no airflow
across the CPU and onboard heatsinks. Damage may occur to the motherboard
and/or the CPU fan if these pins are incorrectly used. These are not jumpers,
do not place jumper caps over these pins.
R
Rotation
+12V
GND
Power Supply Fan
CPU Fan Power
Chassis Fan Power
P2B 12Volt Cooling Fan Power
10. Chassis Intrusion Alarm Lead (4-1 pin CHASIS)
This requires an external detection mechanism such as a chassis intrusion monitor/sensor or microswitch. The sensor is triggered when a high level signal is
sent to the CHASIS lead. This occurs when the side panel is opened or drive bay
doors are opened.
NOTE: When the chassis is opened, connect/short the Chassis Signal pin to the
+5VSB pin. When the chassis is opened, connect/short the Chassis Signal pin to
the Ground pin.
+5VSB
Chassis Signal
R
Ground
P2B Chassis Intrusion Alarm Lead
ASUS P2B User’s Manual
29
III. HARDWARE SETUP
11. IrDA-Compliant Infrared Module Connector (5-pin IR)
This connector supports the optional wireless transmitting and receiving infrared
module. This module mounts to a small opening on system cases that support this
feature. You must also configure the setting through “UART2 Use Infrared” in
Chipset Features Setup to select whether UART2 is directed for use with COM2
or IrDA. Use the five pins as shown on the Back View and connect a ribbon cable
from the module to the motherboard according to the pin definitions.
Front View
Back View
+5V
(NC)
IRRX
GND
IRTX
R
+5V
IRTX
GND
FIRRX
IRRX
III. H/W SETUP
Connectors
P2B Infrared Module Connector
For the infrared feature to be available,
you must connect the optional Infrared
(IrDA) module to the motherboard
+5.0 Volts
+5.0 Volts
-5.0 Volts
Ground
Ground
Ground
PWR Supply On
Ground
-12.0Volts
+3.3Volts
12. ATX Power Supply Connector (20-pin ATXPWR)
This connector connects to a ATX power supply. The plug from the power supply will only insert in one orientation because of the different hole sizes. Find
the proper orientation and push down firmly but gently making sure that the pins
are aligned.
+12.0Volts
+5V Standby
Power Good
Ground
+5.0 Volts
Ground
+5.0 Volts
Ground
+3.3 Volts
+3.3 Volts
R
P2B ATX Power Connector
IMPORTANT: Make sure that your ATX power supply can supply at least
10mAmp on the 5-volt standby lead (5VSB). You may experience difficulty in
powering on your system if your power supply cannot support the load. For
Wake on LAN support, your ATX power supply must supply at least 720mA.
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ASUS P2B User’s Manual
III. HARDWARE SETUP
13. Wake-on-LAN Connector (3-pin WOL_CON)
The WOL_CON connector powers up the system when a wakeup packet or
signal is received from the network through the ASUS PCI-L101 LAN card (see
section VII. ASUS LAN Card).
IMPORTANT: This feature requires that the WAKE On LAN Power Up Control is
set to Enabled (see “Power Management Setup” under IV. BIOS SOFTWARE) and
that your system has an ATX power supply with at least 720mA +5V standby power.
+5VSB
(No Connection)
Ground
R
P2B Wake on LAN Connector
PC/PCI Grant
Sideband Signal
1
2
III. H/W SETUP
Connectors
14. SB-Link™ Connector (6-1 pin SBLINK)
Using Intel’s PC-PCI DMA and serialized IRQ protocols found in this
motherboard’s AGPset, this connector allows Sound Blaster 16 compatibility to
AWE64D (Digital) or other PCI audio cards, enabling users to play Real-mode
DOS games and multimedia applications. SB-Link acts as a bridge between the
motherboard and the PCI audio card by providing the DMA and IRQ signals
present in the ISA bus but not available on the PCI bus.
DGND
Request
4 PC/PCI
Sideband Signal
DGND
5
6
Serial IRQ
R
NOTE: Pin 3 is removed to ensure the
correct orientation of the cable on it.
P2B SB-Link™ Connector
15. SMBus Connector (5-1 pin SMB)
This connector allows you to connect SMBus devices. SMBus devices communicate by means of the SMBus with an SMBus host and/or other SMBus devices. The SMBus or System Management Bus is a specific implementation of
an I2C bus, which is a multi-master bus, that is, multiple chips can be connected
to the same bus and each one can act as a master by initiating data transfer.
1
SMBCLK
Ground
SMBDATA
+5V
R
P2B SMBus Connector
ASUS P2B User’s Manual
31
III. HARDWARE SETUP
16. Message LED Lead (MSG.LED)
This indicates whether a message has been received from a fax/modem. The
LED will remain lit when there is no signal and blink when there is data transfer
or waiting in the inbox. This function requires ACPI OS and driver support.
17. SMI Suspend Switch Lead (SMI)
This allows the user to manually place the system into a suspend mode or “Green”
mode where system activity will be instantly decreased to save electricity and
expand the life of certain components when the system is not in use. This 2-pin
connector (see the figure below) connects to the case-mounted suspend switch.
If you do not have a switch for the connector, you may use the “Turbo Switch”
since it does not have a function. SMI is activated when it detects a short to open
moment and therefore leaving it shorted will not cause any problems. This may
require one or two pushes depending on the position of the switch.
III. H/W SETUP
Connectors
18. ATX Power Switch / Soft Power Switch (PWR.SW)
The system power is controlled by a momentary switch connected to this lead.
Pushing the button once will switch the system between ON and SLEEP. Pushing the switch while in the ON mode for more than 4 seconds will turn the
system off. The system power LED shows the status of the system’s power.
19. Reset Switch Lead (RESET)
This 2-pin connector connects to the case-mounted reset switch for rebooting
your computer without having to turn off your power switch. This is a preferred
method of rebooting to prolong the life of the system’s power supply.
20. System Power LED (PWR LED)
This 3-pin connector connects the system power LED, which lights when the
system is powered on and blinks when it is in sleep mode.
21. Keyboard Lock Switch Lead (KEYLOCK)
This 2-pin connector connects to the case-mounted key switch to allow keyboard locking.
22. Speaker Connector (SPEAKER)
This 4-pin connector connects to the case-mounted speaker.
R
Message
LED
SMI Lead
ATX Power
Switch*
Reset SW
+5 V
+5 V
MLED
ExtSMI#
Ground
PWR_SW
+3VSB
ResetCon
Ground
Keyboard Lock
+5V
Ground
Ground
SPKR
Speaker
Connector
* Requires an ATX power supply.
P2B System Panel Connections
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ASUS P2B User’s Manual
Power LED
PLED
KEYLOCK
Ground
III. HARDWARE SETUP
Power Connection Procedures
1. After all connections are made, close the system case cover.
2. Be sure that all switches are off (in some systems, marked with ).
3. Connect the power supply cord into the power supply located on the back of
your system case according to your system user’s manual.
4. Connect the power cord into a power outlet that is equipped with a surge protector.
5. You may then turn on your devices in the following order:
a. Your monitor
b. External SCSI devices (starting with the last device on the chain)
c. Your system power. For ATX power supplies, you need to switch on the power
supply as well as press the ATX power switch on the front of the case.
III. H/W SETUP
Power Connections
6. The power LED on the front panel of the system case will light. For ATX power
supplies, the system LED will light when the ATX power switch is pressed. The
LED on the monitor may light up or switch between orange and green after the
system’s if it complies with “green” standards or if it has a power standby feature.
The system will then run power-on tests. While the tests are running, additional
messages will appear on the screen. If you do not see anything within 30 seconds
from the time you turn on the power, the system may have failed a power-on test.
Recheck your jumper settings and connections or call your retailer for assistance.
7. During power-on, hold down <Delete> to enter BIOS setup. Follow the instructions in BIOS SETUP.
* Powering Off your computer: You must first exit or shut down your operating
system before switching off the power switch. For ATX power supplies, you can
press the ATX power switch after exiting or shutting down your operating system.
If you use Windows 95, click the Start button, click Shut Down, and then click
Shut down the computer? The power supply should turn off after Windows
shuts down.
NOTE: The message “You can now safely turn off your computer” will not appear when shutting down with ATX power supplies.
ASUS P2B User’s Manual
33
IV. BIOS SETUP
Managing and Updating Your BIOS
Upon First Use of the Computer System
It is recommended that you save a copy of the original motherboard BIOS along
with a Flash Memory Writer utility (AFLASH.EXE) to a bootable floppy disk in
case you need to reinstall the BIOS later. AFLASH.EXE is a Flash Memory Writer
utility that updates the BIOS by uploading a new BIOS file to the programmable
flash ROM on the motherboard. This file works only in DOS mode. To determine
the BIOS version of your motherboard, check the last four numbers of the code
displayed on the upper left-hand corner of your screen during bootup. Larger numbers represent a newer BIOS file.
IV. BIOS
Updating BIOS
1. Type FORMAT A:/S at the DOS prompt to create a bootable system floppy
disk. DO NOT copy AUTOEXEC.BAT & CONFIG.SYS to the disk.
2. Type COPY D:\AFLASH\AFLASH.EXE A:\ (assuming D is your CD-ROM
drive) to copy AFLASH.EXE to the just created boot disk.
NOTE: AFLASH works only in DOS mode. It will not work with DOS prompt in
Windows and will not work with certain memory drivers that may be loaded when
you boot from your hard drive. It it recommended that you reboot using a floppy.
3. Reboot your computer from the floppy disk. NOTE: BIOS setup must specify
“Floppy” as the first item in the boot sequence.
4. In DOS mode, type A:\AFLASH <Enter> to run AFLASH.
IMPORTANT! If “unknown” is displayed after Flash Memory:, the memory
chip is either not programmable or is not supported by the ACPI BIOS and therefore, cannot be programmed by the Flash Memory Writer utility.
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IV. BIOS SETUP
5. Select 1. Save Current BIOS to File from the Main menu and press <Enter>.
The Save Current BIOS To File screen appears.
6. Type a filename and the path, for example, A:\XXX-XX.XXX and then press <Enter>.
Updating BIOS Procedures
WARNING! Only update your BIOS if you have problems with your motherboard and you know that the new BIOS revision will solve your problems. Careless updating can result in your motherboard having more problems!
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IV. BIOS
Updating BIOS
1. Download an updated ASUS BIOS file from the Internet (WWW or FTP) (see
ASUS CONTACT INFORMATION on page 3 for details) and save to the disk
you created earlier.
2. Boot from the disk you created earlier.
3. At the “A:\” prompt, type AFLASH and then press <Enter>.
4. At the Main Menu, type 2 and then press <Enter>. The Update BIOS Including Boot Block and ESCD screen appears.
5. Type the filename of your new BIOS and the path, for example, A:\XXXXX.XXX, and then press <Enter>.
NOTE: To cancel this operation, press <Enter>.
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IV. BIOS SETUP
6. When prompted to confirm the BIOS update, press Y to start the update.
7. The utility starts to program the new BIOS information into the flash ROM. The
boot block will be updated automatically only when necessary. This will minimize the chance that a failed update will prevent your system from booting up.
When the programming is finished, Flashed Successfully will be displayed.
IV. BIOS
Updating BIOS
8. Follow the onscreen instructions to continue.
WARNING! If you encounter problems while updating the new BIOS, DO NOT
turn off your system since this might prevent your system from booting up. Just
repeat the process, and if the problem still persists, update the original BIOS file
you saved to disk above. If the Flash Memory Writer utility was not able to successfully update a complete BIOS file, your system may not be able to boot up. If
this happens, your system will need servicing.
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IV. BIOS SETUP
BIOS Setup
The motherboard supports a 5 Volt programmable Flash ROM chip, which can be
updated when BIOS upgrades are released. Use the Flash Memory Writer utility to
download the new BIOS file into the ROM chip as described in detail in this section.
All computer motherboards provide a Setup utility program for specifying the system
configuration and settings. If your motherboard came in a computer system, the proper
configuration entries may have already been made. If so, invoke the Setup utility, as
described later, and take note of the configuration settings for future reference; in
particular, the hard disk specifications.
If you are installing the motherboard, reconfiguring your system or you receive a Run
Setup message, you will need to enter new setup information. This section describes
how to configure your system using this utility.
IV. BIOS
Updating BIOS
The BIOS ROM of the system stores the Setup utility. When you turn on the computer, the system provides you with the opportunity to run this program. This appears
during the Power-On Self Test (POST). Press <Delete> to call up the Setup utility. If
you are a little bit late pressing the mentioned key(s), POST will continue with its test
routines, thus preventing you from calling up Setup. If you still need to call Setup,
reset the system by pressing <Ctrl> + <Alt> + <Delete>, or by pressing the Reset
button on the system case. You can also restart by turning the system off and then
back on again. But do so only if the first two methods fail.
When you invoke Setup, the CMOS SETUP UTILITY main program screen will
appear with the following options:
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IV. BIOS SETUP
Load Defaults
The “Load BIOS Defaults” option loads the minimum settings for troubleshooting.
“Load Setup Defaults”, on the other hand, is for loading optimized defaults for
regular use. Choosing defaults at this level, will modify all applicable settings.
A section at the bottom of the above screen displays the control keys for this screen.
Take note of these keys and their respective uses. Another section just below the control
keys section displays information on the currently highlighted item in the list.
Standard CMOS Setup
The “Standard CMOS Setup” option allows you to record some basic system hardware configuration and set the system clock and error handling. If the motherboard is
already installed in a working system, you will not need to select this option. However, if the configuration stored in the CMOS memory on the board gets lost or damaged, or if you change your system hardware configuration, you will need to respecify
the configuration values. The configuration values usually get lost or corrupted when
the power of the onboard CMOS battery weakens.
IV. BIOS
Standard CMOS
The preceding screen provides you with a list of options. At the bottom of this screen
are the control keys for this screen. Take note of these keys and their respective uses.
User-configurable fields appear in a different color. If you need information on the
selected field, press <F1>. The help menu will then appear to provide you with the
information you need. The memory display at the lower right-hand side of the screen
is read-only and automatically adjusts accordingly.
Details of Standard CMOS Setup:
Date
To set the date, highlight the “Date” field and then press either <Page Up>/<Page Down>
or <+>/<–> to set the current date. Follow the month, day and year format. Valid values for
month, day and year are: Month: (1 to 12), Day: (1 to 31), Year: (up to 2079)
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IV. BIOS SETUP
Time
To set the time, highlight the “Time” field and then press either <Page Up>/<Page Down> or
<+>/<–> to set the current time. Follow the hour, minute and second format. Valid values for
hour, minute and second are: (Hour: (00 to 23), Minute: (00 to 59), Second: (00 to 59).
NOTE: You can bypass the date and time prompts by creating an AUTOEXEC.BAT
file. For information on how to create this file, please refer to the MS-DOS manual.
Hard Disks
This field records the specifications for all non-SCSI hard disk drives installed in your
system. The onboard PCI IDE connectors provide Primary and Secondary channels
for connecting up to four IDE hard disks or other IDE devices. Each channel can
support up to two hard disks; the first of which is the “master” and the second is the
“slave”.
Specifications for SCSI hard disks need not to be entered here since they operate
using device drivers and are not supported by the motherboard BIOS software. If the
motherboard has SCSI onboard, see the SCSI section for information on configuring
SCSI devices. If you are using SCSI controller cards, refer to their respective documentations on how to configure and setup SCSI devices.
IV. BIOS
Standard CMOS
For IDE hard disk drive setup, you can:
• Use the Auto setting for detection during bootup.
• Use the IDE HDD AUTO DETECTION in the main menu to automatically
enter the drive specifications.
• Enter the specifications yourself manually by using the “User” option.
The entries for specifying the hard disk type include CYLS (number of cylinders),
HEAD (number of read/write heads), PRECOMP (write precompensation), LANDZ
(landing zone), SECTOR (number of sectors) and MODE. The SIZE field automatically adjusts according to the configuration you specify. The documentation that
comes with your hard disk should provide you with the information regarding the
drive specifications.
The MODE entry is for IDE hard disks only, and can be ignored for MFM and ESDI
drives. This entry provides three options: Normal, Large, LBA, or Auto (see below).
Set MODE to the Normal for IDE hard disk drives smaller than 528MB; set it to LBA
for drives over 528MB that support Logical Block Addressing (LBA) to allow larger
IDE hard disks; set it to Large for drives over 528MB that do not support LBA. Large
type of drive can only be used with MS-DOS and is very uncommon. Most IDE
drives over 528MB support the LBA mode.
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IV. BIOS SETUP
Auto detection of hard disks on bootup
For each field: Primary Master, Primary Slave, Secondary Master, and Secondary
Slave, you can select Auto under the TYPE and MODE fields. This will enable auto
detection of your IDE hard disk during bootup. This will allow you to change your
hard disks (with the power off) and then power on without having to reconfigure your
hard disk type. If you use older hard disks that do not support this feature, then you
must configure the hard disk in the standard method as described earlier by the “User”
option.
NOTE: After the IDE hard disk drive information has been entered into BIOS, new
IDE hard disk drives must be partitioned (such as with FDISK) and then formatted
before data can be read from and write on. Primary IDE hard disk drives must have its
partition set to active (also possible with FDISK).
NOTE: SETUP Defaults are noted in parenthesis next to each function heading.
Drive A / Drive B
These fields record the types of floppy disk drives installed in your system. The
available options for drives A and B are: 360K, 5.25 in.; 1.2M, 5.25 in.; 720K, 3.5 in.;
1.44M, 3.5 in.; 2.88M, 3.5 in.; None
IV. BIOS
Standard CMOS
To enter the configuration value for a particular drive, highlight its corresponding
field and then select the drive type using the <Page Up>/<Page Down> or <+>/<->
keys.
Floppy 3 Mode Support
This is the Japanese standard floppy drive. The standard stores 1.2MB in a 3.5inch
diskette. This is normally disabled but you may choose from either: Drive A, Drive B,
Both, and Disabled.
Video
Set this field to the type of video display card installed in your system. The options
are EGA/VGA, CGA 40, CGA 80, and MONO (for Hercules or MDA).
If you are using a VGA or any higher resolution card, choose EGA/VGA.
Halt On
This field determines which types of errors will cause the system to halt. Choose from
All Errors; No Errors; All, But Keyboard, All, But Diskette; and All, But Disk/Key.
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IV. BIOS SETUP
BIOS Features Setup
The “BIOS Features Setup” option consists of configuration entries that allow you to
improve your system performance, or let you set up some system features according
to your preference. Some entries are required by the motherboard’s design to remain
in their default settings.
IV. BIOS
BIOS Features
A section at the lower right of the screen displays the control keys you can use. Take
note of these keys and their respective uses. If you need information on a particular
entry, highlight it and then press <F1>. A pop-up help menu will appear to provide
you with the information you need. <F5> loads the last set values, <F6> and <F7>
loads the BIOS default values and Setup default values, respectively.
NOTE: SETUP Defaults are noted in parenthesis next to each function heading.
Details of BIOS Features Setup
CPU Internal Core Speed (Manual)
This function is reserved for future use and is currently disabled.
Boot Virus Detection (Enabled)
This field allows you to set boot virus detection, ensuring a virus-free boot sector.
This new antivirus solution is unlike native BIOS tools, which offer limited virus
protection typically by write-protecting the partition table. With this new solution,
your computer is protected against boot virus threats earlier in the boot cycle, that is,
before they have a chance to load into your system. This ensures your computer boots
to a clean operating system. The system halts and displays a warning message when it
detects a virus. If this occurs, you can either allow the operation to continue or use a
virus-free bootable floppy disk to restart and investigate your system. Because of
conflicts with new operating systems, for example, during installation of new softwares,
you may have to set this to Disabled to prevent write errors.
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IV. BIOS SETUP
Processor Serial Number (Enabled)
The Processor Serial Number is a unique electronic number that is added to every
Pentium III processor to help verify the identity of the user across the Internet. Set this
field to Enabled when you need increased security for doing business online (e-commerce). Otherwise, set it to Disabled for greater anonymity when surfing the Internet.
CPU Level 1 Cache / CPU Level 2 Cache (Enabled)
These fields allow you to choose from the default of Enabled or choose Disabled to
turn on or off the CPU’s Level 1 and Level 2 built-in cache.
CPU Level 2 Cache ECC Check (Disabled)
This function controls the ECC check capability in the CPU level 2 cache.
BIOS Update (Enabled)
This functions as an update loader integrated into the BIOS to supply the processor
with the required data. The BIOS will load the update on all processors during system
bootup in the default position of Enabled.
Turbo Mode (Disabled)
Leave on default setting for best performance.
Quick Power On Self Test (Enabled)
This field speeds up the Power-On Self Test (POST) routine by skipping retesting a
second, third, and forth time. Setup default setting for this field is Enabled. A complete test of the system is done on each test.
IV. BIOS
BIOS Features
HDD Sequence SCSI/IDE First (IDE)
When using both SCSI and IDE hard disk drives, IDE is always the boot disk using
drive letter C (default setting of IDE). This new feature allows a SCSI hard disk drive
to be the boot disk when set to SCSI. This allows multiple operating systems to be
used on both IDE and SCSI drives or the primary operating system to boot using a
SCSI hard disk drive.
Boot Sequence (A,C)
This field determines where the system looks first for an operating system. Options
are A, C; C, A; A, CDROM, C; CDROM, C, A; CDROM, A, C; D, A; E, A; F, A; C only;
LS/ZIP, C; LAN, A, C; and LAN, C, A. The setup default setting is to check first the
floppy disk and then the hard disk drive, that is, A, C.
Boot Up Floppy Seek (Disabled)
When enabled, the BIOS will seek drive A once.
Floppy Disk Access Control (R/W)
This allows protection of files from the computer system to be copied to floppy disks
by allowing the setting of Read Only to only allow reads from the floppy disk drive
but not writes. The setup default R/W allows both reads and writes.
IDE HDD Block Mode Sectors (HDD MAX)
This field enhances hard disk performance by making multi-sector transfers instead
of one sector per transfer. Most IDE drives, except older versions, can utilize this
feature. Selections are HDD MAX, Disabled, 2, 4, 8, 16, and 32.
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IV. BIOS SETUP
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IV. BIOS
BIOS Features
HDD S.M.A.R.T. capability (Disabled)
This allows the enabling or disabling of the S.M.A.R.T. (Self-Monitoring, Analysis
and Reporting Technology) system which utilizes internal hard disk drive monitoring
technology. This feature is normally disabled because system resources used in this
feature may decrease system performance.
PS/2 Mouse Function Control (Auto)
The default of Auto allows the system to detect a PS/2 mouse on bootup. If detected,
IRQ12 will be used for the PS/2 mouse. IRQ12 will be reserved for expansion cards
if a PS/2 mouse is not detected. Enabled will always reserve IRQ12, whether on
bootup a PS/2 mouse is detected or not.
OS/2 Onboard Memory > 64M (Disabled)
When using OS/2 operating systems with installed DRAM of greater than 64MB,
you need to set this option to Enabled otherwise leave this on Disabled.
......................................................................................................................................
PCI/VGA Palette Snoop (Disabled)
Some display cards that are nonstandard VGA such as graphics accelerators or MPEG
Video Cards may not show colors properly. The setting Enabled should correct this
problem. Otherwise leave this on the setup default setting of Disabled.
Video ROM BIOS Shadow (Enabled)
This field allows you to change the video BIOS location from ROM to RAM. Relocating to RAM enhances system performance, as information access is faster than the
ROM.
C8000-CBFFF to DC000-DFFFF (Disabled)
These fields are used for shadowing other expansion card ROMs. If you install other
expansion cards with ROMs on them, you will need to know which addresses the
ROMs use to shadow them specifically. Shadowing a ROM reduces the memory
available between 640K and 1024K by the amount used for this purpose.
Boot Up NumLock Status (On)
This field enables users to activate the Number Lock function upon system boot.
Typematic Rate Setting (Disabled)
When enabled, you can set the two typematic controls listed next. Setup default setting is Disabled.
Typematic Rate (Chars/Sec) (6)
This field controls the speed at which the system registers repeated keystrokes. Options range from 6 to 30 characters per second. Setup default setting is 6; other
settings are 8, 10, 12, 15, 20, 24, and 30.
Typematic Delay (Msec) (250)
This field sets the time interval for displaying the first and second characters. Four
delay rate options are available: 250, 500, 750, and 1000.
Security Option (System)
When you specify a Supervisor Password and/or User Password (explained later in
this section), the Security Option field determines when the system prompts for the
password. The default setting is System, where the system prompts for the User Password every time you start your system. The other option is Setup, where the system
goes through its startup routine unless the Setup utility is called, when the system
prompts for the Supervisor Password.
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IV. BIOS SETUP
Chipset Features Setup
The “Chipset Features Setup” option controls the configuration of the board’s chipset.
Control keys for this screen are the same as for the previous screen.
NOTE: SETUP Defaults are noted in parenthesis next to each function heading.
Details of Chipset Features Setup
IV. BIOS
Chipset Features
SDRAM Configuration (By SPD)
This sets the optimal timings for items 2-5. Leave on default setting.
SDRAM CAS Latency
This controls the latency between SDRAM read command and the time that the data
actually becomes available. Leave on default setting.
SDRAM RAS to CAS Delay
This controls the latency between SDRAM active command and the read/write command. Leave on default setting.
SDRAM RAS Precharge Time
This controls the idle clocks after issuing a precharge command to SDRAM. Leave
on default setting.
DRAM Idle Timer
This controls the idle clocks before closing an opened SDRAM page. Leave on default setting.
SDRAM MA Wait State (Normal)
This controls the leadoff clocks for CPU read cycles. Leave on default setting.
Snoop Ahead (Enabled)
Enabled will allow PCI streaming. Leave on default setting.
Host Bus Fast Data Ready (Disabled)
Leave on default setting.
16-bit I/O Recovery Time (1 BUSCLK) / 8-bit I/O Recovery Time (1 BUSCLK)
Timing for 16-bit and 8-bit ISA cards, respectively. Leave on default setting.
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IV. BIOS SETUP
Graphics Aperture Size (64MB)
Memory-mapped, graphics data structures can reside in a Graphics Aperture. Leave
on default setting.
Video Memory Cache Mode (UC)
USWC (uncacheable, speculative write combining) is a new cache technology for the
video memory of the processor. It can greatly improve the display speed by caching
the display data. You must leave this on the default setting of UC (uncacheable) if
your display card cannot support this feature or else your system may not boot.
PCI 2.1 Support (Enabled)
This function allows you to enable or disable PCI 2.1 features including passive release and
delayed transaction. Leave Enabled (default setting) for PCI 2.1 compliancy.
Memory Hole At 15M–16M (Disabled)
Enabling this feature reserves 15MB to 16MB memory address space to ISA expansion cards that specifically require this setting. This makes the memory from 15MB
and up unavailable to the system. Expansion cards can only access memory up to
16MB. The default is Disabled.
IV. BIOS
Chipset Features
DRAM are xx bits wide
If all your DIMMs have ECC (e.g., 8 chips + 1 ECC chip), they are considered 72bits
and the following will be displayed:
If your DIMMs do not have ECC (e.g. 8 chips), they are considered 64 bits and the
following will be displayed instead:
Data Integrity Mode (Non-ECC)
Non-ECC has byte-wise write capability but no provision for protecting data integrity in
the DRAM array. EC-Only data errors are detected but not corrected. ECC with hardware
scrubbing allows a detection of single-bit and multiple-bit errors and recovery of single-bit
errors. (See section III for more information on DRAM memory modules.)
....................................................................................................................................
Onboard FDC Controller (Enabled)
When Enabled, this field allows you to connect your floppy disk drives to the onboard
floppy disk drive connector instead of a separate controller card. If you want to use a
different controller card to connect the floppy disk drives, set this field to Disabled.
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IV. BIOS SETUP
Onboard FDC Swap A & B (No Swap)
This field allows you to reverse the hardware drive letter assignments of your floppy disk
drives. Two options are available: No Swap and Swap AB. If you want to switch drive letter
assignments through the onboard chipset, set this field to Swap AB.
Onboard Serial Port 1 (3F8H/IRQ4)
Settings are 3F8H/IRQ4, 2F8H/IRQ3, 3E8H/IRQ4, 2E8H/IRQ10, and Disabled for
the onboard serial connector.
Onboard Serial Port 2 (2F8H/IRQ3)
Settings are 3F8H/IRQ4, 2F8H/IRQ3, 3E8H/IRQ4, 2E8H/IRQ10, and Disabled for
the onboard serial connector.
Onboard Parallel Port (378H/IRQ7)
This field sets the address of the onboard parallel port connector. You can select either:
3BCH / IRQ 7, 378H / IRQ 7, 278H / IRQ 5, Disabled. If you install an I/O card with a
parallel port, ensure that there is no conflict in the address assignments. The PC can
support up to three parallel ports as long as there are no conflicts for each port.
Parallel Port Mode (ECP+EPP)
This field allows you to set the operation mode of the parallel port. The setting Normal, allows normal-speed operation but in one direction only; EPP allows bidirectional parallel port operation at maximum speed; ECP allows the parallel port to operate in bidirectional mode and at a speed faster than the maximum unidirectional data
transfer rate; ECP+EPP allows normal speed operation in a two-way mode.
IV. BIOS
Chipset Features
ECP DMA Select (3)
This selection is available only if you select ECP or ECP+EPP in the Parallel Port
Mode. Select either DMA Channel 1, 3, or Disable.
UART2 Use Infrared (Disabled)
When enabled, this field activates the onboard infrared feature and sets the second serial
UART to support the infrared module connector on the motherboard. If your system
already has a second serial port connected to the onboard COM2 connector, it will no
longer work if you enable the infrared feature. By default, this field is set to Disabled,
which leaves the second serial port UART to support the COM2 serial port connector.
See IrDA-compliant infrared module connector under section III.
Onboard PCI IDE Enable (Both)
You can select to enable the primary IDE channel, secondary IDE channel, both, or
disable both channels (for systems with only SCSI drives).
IDE Ultra DMA Mode (Auto)
This field autodetects Ultra DMA capability (for improved transfer speeds and data integrity) for compatible IDE devices. Set to Disable to suppress Ultra DMA capability.
IDE 0 Master/Slave PIO/DMA Mode, IDE 1 Master/Slave PIO/DMA Mode (Auto)
Each channel (0 and 1) has both a master and a slave making four IDE devices
possible. Because each IDE device may have a different Mode timing (0, 1, 2, 3, 4),
it is necessary for these to be independent. The default setting of Auto will allow
autodetection to ensure optimal performance
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IV. BIOS SETUP
Power Management Setup
The “Power Management Setup” option allows you to reduce power consumption.
This feature turns off the video display and shuts down the hard disk after a period of
inactivity.
NOTE: SETUP Defaults are noted in parenthesis next to each function heading.
Details of Power Management Setup
IV. BIOS
Power Management
Power Management (User Define)
This field acts as the master control for the power management modes. Max Saving
puts the system into power saving mode after a brief period of system inactivity; Min
Saving is almost the same as Max Saving except that this time the system inactivity
period is longer; Disable disables the power saving features; User Define allows you
to set power saving options according to your preference.
IMPORTANT: Advanced Power Management (APM) should be installed to keep
the system time updated when the computer enters suspend mode activated by the
BIOS Power Management. For DOS environments, you need to add the statement,
DEVICE=C:\DOS\POWER.EXE, in you CONFIG.SYS. For Windows 3.x and Windows 95, you need to install Windows with the APM feature. A battery and power
cord icon labeled “Power” will appear in the “Control Panel.” Choose “Advanced” in
the Power Management Field.
Video Off Option (Suspend -> Off )
This field determines when to activate the video off feature for monitor power management.
The settings are Suspend -> Off and Always On.
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IV. BIOS SETUP
Video Off Method (DPMS OFF)
This field defines the video off features. The following options are available: DPMS
OFF, DPMS Reduce ON, Blank Screen, V/H SYNC+Blank, DPMS Standby, and DPMS
Suspend. The DPMS (Display Power Management System) features allow the BIOS
to control the video display card if it supports the DPMS feature. Blank Screen only
blanks the screen (use this for monitors without power management or “green” features. If set up in your system, your screen saver will not display with Blank Screen
selected). V/H SYNC+Blank blanks the screen and turns off vertical and horizontal
scanning.
.......................................................................................................................................
PM Timers
This section controls the time-out settings for the Power Management scheme. The
fields included in this section are “HDD Power Down”, which places the hard disk
into its lowest power consumption mode, and the Suspend mode which suspends the
CPU.
The system automatically “wakes up” from any power saving mode when there is
system activity such as when a key is pressed from the keyboard, or when there is
activity detected from the enabled IRQ channels.
IV. BIOS
Power Management
HDD Power Down (Disable)
Shuts down any IDE hard disk drives in the system after a period of inactivity. This
time period is user-configurable to 1–15 Min or Disable. This feature does not affect
SCSI hard drives.
Suspend Mode (Disable)
Sets the period of time after which the suspend mode activates: 30 sec, 1 Min, 2 Min,
4 Min, 8 Min, 20 Min, 30 Min, 40 Min, 1 Hour, and Disable.
.......................................................................................................................................
Power Up Control
This section determines the ways the system can be controlled when it is started or
restarted, when modem activity is detected, or when power to the computer is interrupted and reapplied. The Soft-Off mode refers to powering off the system through a
momentary button switch (ATX switch) or through the software as opposed to disconnecting the AC power by way of a rocker switch or other means.
PWR Button < 4 Secs (Soft Off)
When set to Soft Off, the ATX switch can be used as a normal system power-off button
when pressed for less than 4 seconds. Suspend allows the button to have a dual function where pressing less than 4 seconds will place the system in sleep mode. Regardless of the setting, holding the ATX switch for more than 4 seconds will power off the
system.
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IV. BIOS SETUP
PWR Up On Modem Act (Enabled)
This allows either settings of Enabled or Disabled for powering up the computer (turns the
ATX power supply on) when the modem receives a call while the computer is Soft Off.
NOTE: The computer cannot receive or transmit data until the computer and applications are fully running, thus connection cannot be made on the first try. Turning an
external modem off and then back on while the computer is off causes an initialization
string that will also cause the system to power on.
AC PWR Loss Restart (Disabled)
This allows you to set whether you want your system to boot up after the power has
been interrupted. Disabled leaves your system off after reapplying power and Enabled boots up your system after reapplying power.
Wake On LAN (Disabled)
This allows you to remotely power up your system through your network by sending
a wake-up frame or signal. With this feature, you can remotely upload/download data
to/from systems during off-peak hours. Set to Enabled to set this feature.
IMPORTANT: This feature requires the ASUS PCI-L101 LAN Card and an ATX
power supply with at least 720mA +5V standby power.
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IV. BIOS
Power Management
Automatic Power Up (Disabled)
This allows you to have an unattended or automatic power up of your system. You may
configure your system to power up at a certain time of the day by selecting Everyday,
which will allow you to set the time or at a certain time and day by selecting By Date.
.....................................................................................................................................
Fan Monitor (xxxxRPM)
The onboard hardware monitor is able to detect the Chassis Fan Speed, CPU Fan
Speed, and the Power Supply Fan Speed in Rotations Per Minute (RPM). Set to Ignore if one of these are not used so that error messages will not be given.
.....................................................................................................................................
Thermal Monitor (xxxC/xxxF)
The onboard hardware monitor is able to detect the CPU and MB (motherboard) temperatures. Set to Ignore only if necessary.
.....................................................................................................................................
Voltage Monitor (xx.xV)
The onboard hardware monitor is able to detect the voltages put out by the voltage
regulators. Set to Ignore only if necessary.
NOTE: If any of the monitored items are out of range, an error message will appear:
“Hardware Monitor found an error, enter POWER MANAGEMENT SETUP for details”. You will then be prompted to “Press F1 to continue, DEL to enter SETUP”.
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IV. BIOS SETUP
PNP and PCI Setup
The “PNP and PCI Setup” option configures the PCI bus slots. All PCI bus slots on
the system use INTA#, thus all installed PCI cards must be set to this value.
NOTE: SETUP Defaults are noted in parenthesis next to each function heading.
Details of PNP and PCI Setup
IV. BIOS
Plug & Play / PCI
PNP OS Installed (No)
This field allows you to use a Plug-and-Play (PnP) operating system to configure the
PCI bus slots instead of using the BIOS. Thus interrupts may be reassigned by the OS
when Yes is selected. When a non-PnP OS is installed or to prevent reassigning of
interrupt settings, select the default setting of No.
Slot 1/2/3/4/5 IRQ (Auto)
These fields set how IRQ use is determined for each PCI slot. The default setting for each
field is Auto, which uses auto-routing to determine IRQ use. The other options are manual
settings of NA, 3, 4, 5, 7, 9, 10, 11, 12, 14, or 15 for each slot.
PCI Latency Timer (32 PCI Clock)
The default setting of 32 PCI Clock enables maximum PCI performance for this motherboard.
IRQ xx Used By ISA (No/ICU)
These fields indicate whether or not the displayed IRQ for each field is being used by
a legacy (non-PnP) ISA card. Two options are available: No/ICU and Yes. The first
option, the default value, indicates either that the displayed IRQ is not used or an ISA
Configuration Utility (ICU) is being used to determine if an ISA card is using that
IRQ. If you install a legacy ISA card that requires a unique IRQ, and you are not
using an ICU, you must set the field for that IRQ to Yes. For example: If you install a
legacy ISA card that requires IRQ 10, then set IRQ10 Used By ISA to Yes.
......................................................................................................................................
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IV. BIOS SETUP
DMA x Used By ISA (No/ICU)
These fields indicate whether or not the displayed DMA channel for each field is
being used by a legacy (non-PnP) ISA card. Available options include: No/ICU and
Yes. The first option, the default setting, indicates either that the displayed DMA
channel is not used or an ICU is being used to determine if an ISA card is using that
channel. If you install a legacy ISA card that requires a unique DMA channel, and
you are not using an ICU, you must set the field for that channel to Yes.
ISA MEM Block BASE (No/ICU)
This field allows you to set the base address and block size of a legacy ISA card that
uses any memory segment within the C800H and DFFFH address range. If you have
such a card, and you are not using an ICU to specify its address range, select a base
address from the six available options; the ISA MEM Block SIZE field will then
appear for selecting the block size. If you have more than one legacy ISA card in your
system that requires to use this address range, you can increase the block size to either
8K, 16K, 36K, or 64K. If you are using an ICU to accomplish this task, leave ISA
MEM Block BASE to its default setting of No/ICU.
IV. BIOS
Plug & Play / PCI
SYMBIOS SCSI BIOS (Auto)
[Auto] allows the motherboard’s BIOS to detect whether you have a Symbios SCSI
card. If a Symbios SCSI card is detected, the motherboard’s Symbios BIOS will be
enabled; if no Symbios SCSI card is detected, the onboard Symbios SCSI BIOS will
be disabled.
[Disabled] will disable the motherboard’s Symbios SCSI BIOS so that the BIOS on
an external Symbios SCSI card can be used. (If your Symbios SCSI card does not
have a BIOS, the Symbios SCSI card will not function.)
USB IRQ (Enabled)
Enabled reserves an IRQ# for the USB to work, Disabled does not allow the USB to
have an IRQ# and therefore prevents the USB from functioning. If you are not using
any USB devices, you may set this feature to Disabled to save an extra IRQ# for
expansion cards.
VGA BIOS Sequence (PCI/AGP)
If your computer has both PCI and AGP VGA cards, this field allows you to select
which of the cards will act as your primary card. The default, PCI/AGP, allows your
PCI card to take precedent when detected. AGP/PCI uses the AGP card as your primary card.
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IV. BIOS SETUP
Load BIOS Defaults
The “Load BIOS Defaults” option allows you to load the troubleshooting default
values permanently stored in the BIOS ROM. These default settings are non-optimal
and disable all high performance features. To load these default settings, highlight
“Load BIOS Defaults” on the main screen and then press <Enter>. The system displays a confirmation message on the screen. Press <Y> and then <Enter> to confirm.
Press <N> and then <Enter> to abort. This feature does not affect the fields on the
Standard CMOS Setup screen.
Load Setup Defaults
The “Load Setup Defaults” option allows you to load the default values to the system
configuration fields. These default values are the optimized configuration settings for
the system. To load these default values, highlight “Load Setup Defaults” on the main
screen and then press <Enter>. The system displays a confirmation message on the
screen. Press <Y> and then <Enter> to confirm. Press <N> and then <Enter> to
abort. This feature does not affect the fields on the Standard CMOS Setup screen.
IV. BIOS
Load Defaults
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IV. BIOS SETUP
Supervisor Password and User Password
IV. BIOS
Passwords
These two options set the system passwords. “Supervisor Password” sets a password that will be used to protect the system and the Setup utility; “User Password”
sets a password that will be used exclusively on the system. By default, the system
comes without any passwords. To specify a password, highlight the type you want
and then press <Enter>. A password prompt appears on the screen. Taking note that
the password is case sensitive, and can be up to 8 alphanumeric characters long, type
in your password and then press <Enter>. The system confirms your password by
asking you to type it again. After setting a password, the screen automatically reverts to the main screen.
To implement password protection, specify in the “Security Option” field of the
BIOS Features Setup screen when the system will prompt for the password. If you
want to disable either password, press <Enter> instead of entering a new password
when the “Enter Password” prompt appears. A message confirms the password has
been disabled.
Forgot the password?
If you forgot the password, you can clear the password by erasing the CMOS Real
Time Clock (RTC) RAM. The RAM data containing the password information is
powered by the onboard button cell battery. To erase the RTC RAM, see the CLRTC
jumper in the Jumper Settings section.
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IV. BIOS SETUP
IDE HDD Auto Detection
The “IDE HDD Auto Detection” option detects the parameters of an IDE hard disk
drive, and automatically enters them into the Standard CMOS Setup screen.
IV. BIOS
Hard Disk Detect
Up to four IDE drives can be detected, with parameters for each listed inside the box.
To accept the optimal entries, press <Y> or else select from the numbers displayed
under the OPTIONS field (2, 1, 3 in this case); to skip to the next drive, press <N>. If
you accept the values, the parameters will appear listed beside the drive letter on the
screen. The process then proceeds to the next drive letter. Pressing <N> to skip rather
than to accept a set of parameters causes the program to enter zeros after that drive
letter.
Remember that if you are using another IDE controller that does not feature Enhanced
IDE support for four devices, you can only install two IDE hard disk drives. Your IDE
controller must support the Enhanced IDE features in order to use Drive E and Drive
F. The onboard PCI IDE controller supports Enhanced IDE, with two connectors for
connecting up to four IDE devices. If you want to use another controller that supports
four drives, you must disable the onboard IDE controller in the Chipset Features Setup
screen.
When auto-detection is completed, the program automatically enters all entries you
accepted on the field for that drive in the Standard CMOS Setup screen. Skipped
entries are ignored and are not entered in the screen.
If you are auto-detecting a hard disk that supports the LBA mode, three lines will
appear in the parameter box. Choose the line that lists LBA for an LBA drive. Do not
select Large or Normal.
The auto-detection feature can only detect one set of parameters for a particular IDE
hard drive. Some IDE drives can use more than one set. This is not a problem if the
drive is new and empty.
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IV. BIOS SETUP
IMPORTANT: If your hard disk was already formatted on an older previous system,
incorrect parameters may be detected. You will need to enter the correct parameters
manually or use low-level format if you do not need the data stored on the hard disk.
If the parameters listed differ from the ones used when the disk was formatted, the
disk will not be readable. If the auto-detected parameters do not match the ones that
should be used for your disk, do not accept them. Press <N> to reject the presented
settings and enter the correct ones manually from the Standard CMOS Setup screen.
Save & Exit Setup
IV. BIOS
Save & Exit
Select this option to save into the CMOS memory all modifications you specified
during the current session. To save the configuration changes, highlight the “Save &
Exit Setup” option on the main screen, type “Y”, and then press <Enter>.
Exit Without Saving
Select this option to exit the Setup utility without saving the modifications you specify
during the current session. To exit without saving, highlight the “Exit Without Saving” option on the main screen and then press <Enter>.
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V. SUPPORT SOFTWARE
Desktop Management Interface (DMI)
Introducing the ASUS DMI Configuration Utility
This motherboard supports DMI within the BIOS level and provides a DMI Configuration Utility to maintain the Management Information Format Database (MIFD).
DMI is able to auto-detect and record information pertinent to a computer’s system
such as the CPU type, CPU speed, and internal/external frequencies, and memory
size. The onboard BIOS will detect as many system information as possible and store
those collected information in a 4KB block in the motherboard’s Flash EPROM and
allow the DMI to retrieve data from this database. Unlike other BIOS software, the
BIOS on this motherboard uses the same technology implemented for Plug and Play
to allow dynamic real-time updating of DMI information versus creating a new BIOS
image file and requiring the user to update the whole BIOS. This DMI Configuration
Utility also allows the system integrator or end user to add additional information into
the MIFD such as serial numbers, housing configurations, and vendor information.
Those information not detected by the motherboard BIOS and has to be manually
entered through the DMI Configuration Utility and updated into the MIFD. This
DMI Configuration Utility provides the same reliability as PnP updating and will
prevent the refreshing failures associated with updating the entire BIOS.
System Requirements
The DMI Configuration Utility (DMICFG2.EXE) must be used in real mode in order
for the program to run, the base memory must be at least 180K. Memory managers
like HIMEM.SYS (required by windows) must not be installed. You can boot up
from a system diskette without AUTOEXEC.BAT and CONFIG.SYS files, “REM”
HIMEM.SYS in the CONFIG.SYS, or press <F5> during bootup to bypass your
AUTOEXEC.BAT and CONFIG.SYS files.
V. SOFTW ARE
DMI Introduction
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V. SUPPORT SOFTWARE
Using the ASUS DMI Configuration Utility
NOTE: The following screen displays are provided as examples only and may not
reflect the screen contents on your system.
Edit DMI (or delete)
V. SOFTW ARE
Using DMI Utility
Use the ←→ (left-right) cursors to move the top menu items and the ↑↓ (up-down)
cursor to move between the left hand menu items. The bottom of the screen will
show the available keys for each screen. Press enter at the menu item to enter the
right hand screen for editing. “Edit component” appears on top. The reversed color
field is the current cursor position and the blue text are available for editing. The
orange text shows auto-detected information and are not available for editing. The
blue text “Press [ENTER] for detail” contains a second pop-up menu is available,
use the + - (plus-minus) keys to change the settings. Enter to exit and save, ESC to
exit and not save.
If the user has made changes, ESC will prompt you to answer Y or N. Enter Y to go
back to the left-hand screen and save, enter N to go back to left-hand screen and not
save. If editing has not been made, ESC will send you back to the left hand menu
without any messages.
Notes
A heading, *** BIOS Auto Detect ***, appears on the right for each menu item on
the left side that has been auto detected by the system BIOS.
A heading, *** User Modified ***, will appear on the right for menu items that
have been modified by the user.
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V. SUPPORT SOFTWARE
Save MIFD
You can save the MIFD (normally only saved to flash ROM) to a file by entering the
drive and path here. If you want to cancel save, you may press ESC and a message
“Bad File Name” appears here to show it was not saved.
Load MIFD
You can load the disk file to memory by entering a drive and path and file name here.
Load BIOS Defaults
V. SOFTW ARE
UsinAg DMI Utility
You can load the BIOS defaults from a MIFD file and can clear all user modified and
added data. You must reboot your computer in order for the defaults to be saved back
into the Flash BIOS.
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VI. APPENDIX
VI. APPENDIX
ASUS CIDB Module
The ASUS CIDB Chassis Intrusion Sensor Module
The optional ASUS CIDB is a module for providing audio alarm and logging when
there is an intrusion into the chassis of a computer system. The module detects a chassis intrusion by either light striking its photo sensor or by contact when its switch
connectors are shorted by chassis-mounted momentary toggle switches. An intrusion
memory function allows detection by BIOS and LDCM on the next bootup.
Photo sensor to detect intrusion by light
Photo sensor sensitivity adjustment
Battery for the memory
Buzzer to sound the alarm
Intrusion memory
Chassis connector
extension cable
Connector to dock with the motherboard’s chassis connector
Two switch connectors to detect intrusion by chassis
mounted micro switches
Using the ASUS CIDB
1. You must have an ASUS motherboard with a chassis connector.
2. Connect the CIDB directly to the chassis connector or use the provided extension
cable and mount the CIDB to the chassis using a double-sided foam adhesive tape.
CAUTION! The CIDB component pins and metallic points must not come in
contact with another metallic surface or else shorting will occur!
3. Check the hardware settings:
• JP1 jumper should be enabled to use the photo sensor
• MS1 and MS2 connectors should be connected to momentary toggle switches
mounted on the chassis to use the contact method for triggering alarms.
• SW jumper should be enabled to allow the hardware monitoring components to receive signals from the CIDB.
4. To stop the alarm from sounding, use the LDCM software or place a jumper on
(or short manually) the CLR jumper momentarily.
5. If you have an updated BIOS with intrusion support, booting the computer after
an intrusion will require a password which is configured through BIOS.
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VI. APPENDIX
VI. APPENDIX
ASUS CIDB Module
Setting up the ASUS CIDB
JP1
OR
CON
CR2032 3V
Lithium Cell
CLR
SW
JP1
JP1
1
1
Enable
Disable
JP1:
Enable/Disable
the Photo Sensor
Buzzer
3
MS2
+5 volt standby
from power supply
MS1
CLR
CLR
Normal
Clear
MS1
0 (not sensitive)
CON:
Sensitivity adjustment for the
photo sensor, (0) is least sensitive
and (5) is most sensitive
SW
SW
Clear:
Stops the sounding alarm
MS2
1
CON
(sensitive) 5
best range
2
4
MS1/MS2:
Micro Switch from the chassis
panel can be connected here
to trigger the chassis intrusion
alarm.
1
1
Enable
Disable
SW:
Enable/Disable chassis intrusion
function in the motherboard
ASUS CIDB Additional Considerations
1. All motherboards with CIDB: If there is no power to the motherboard (i.e. removing the power cord or turning the power supply’s switch off) the alarm will
not sound but the CIDB will still remember an intrusion event which BIOS and
LDCM will detect on the next bootup.
2. Motherboard with chassis intrusion components: Photo sensor, switch, and
memory will not operate with power removed. Power is required to send a signal
to the motherboard’s intrusion memory and buzzer. When using the CIDB on
these motherboards, all the CIDB functions will be disabled, the motherboard’s
intrusion components must still be used. The CIDB can benefit these motherboards by providing a chassis switch which will operate even when the power is
removed. Pins [2-3] of the SW jumper can be used for a momentary toggle switch
and the CIDB’s battery will be used to send an intrusion signal to the motherboard’s
intrusion memory.
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VI. APPENDIX
VI. APPENDIX
ASUS S370 CPU Card
The ASUS S370 CPU Card
The optional ASUS S370 CPU card allows Slot 1 motherboards to accept socket 370
processors. The ASUS S370 CPU card gives Slot 1 motherboard owners an inexpensive way to upgrade their Pentium II computers using lower costing socket 370 processors. Since socket 370 processors are based on the Pentium II design, the only
difference is the connector and the amount of internal cache within the processor.
The following picture shows the ASUS S370 CPU card with a plastic retainer attached to the edge. The retainer is used to hold the ASUS S370 CPU card in place
using the motherboard’s Slot 1 retention mechanism.
ASUS S370 CPU Card Retainer
Fin
Fin
Slot 1 Compatible Connector
Using the ASUS S370
The general procedure for using the ASUS S370 CPU card:
1. Check the voltage setting for your socket 370 processor using the jumpers on
the card if necessary. For current socket 370 processors, the default setting should
be used. See the reverse side of the ASUS S370 CPU card or the next page for
voltage settings.
2. Install the socket 370 processor. Installation of socket 370 processors is exactly
like socket 7 processors. Lift the brown lever to 90° to install the processor and
lower the brown lever to lock the processor.
3. Insert the ASUS S370 CPU card into Slot 1 on the motherboard. The two fins
on the sides of the ASUS S370 CPU card must catch on the retention mechanism so that it locks in place.
4. Connect the socket 370 processor’s fan connector to the motherboard.
5. Make sure that no wires or objects come in contact with the fan.
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VI. APPENDIX
Socket 370
VI. APPENDIX
ASUS S370 CPU Card
Setting up the ASUS S370
CPU Voltage
JP5
JP4
JP3
JP2
JP1
Screw Hole
Screw Hole
Brown Lever
ASUS S370 Jumper Settings
Setting the CPU voltage is not necessary for current socket 370 processors. If required, your socket 370 processor should have its voltage requirement printed on its
surface or documentation. If no voltage is indicated or you are not sure, use the
“CPU Def.” setting as shown below.
1 2 3
1 2 3
1 2 3
1 2 3
1 2 3
1 2 3
1 2 3
JP5
JP5
JP5
JP5
JP5
JP5
JP4
JP4
JP4
JP4
JP4
JP4
JP3
JP3
JP3
JP3
JP3
JP3
JP2
JP2
JP2
JP2
JP2
JP2
JP1
JP1
JP1
JP1
JP1
JP1
1.80Volts
1.85Volts
1.90Volts
1.95Volts
2.00Volts
2.05Volts
2.10Volts
1 2 3
1 2 3
1 2 3
1 2 3
1 2 3
1 2 3
1 2 3
JP5
JP5
JP5
JP5
JP5
JP5
JP5
JP4
JP4
JP4
JP4
JP4
JP4
JP4
JP3
JP3
JP3
JP3
JP3
JP3
JP3
JP2
JP2
JP2
JP2
JP2
JP2
JP2
JP1
JP1
JP1
JP1
JP1
JP1
JP1
2.20Volts
2.30Volts
2.40Volts
2.50Volts
2.60Volts
CPU Def.
Reserved
JP5
JP4
JP3
JP2
JP1
Socket 370 CPU Voltage
WARNING! Exceeding your socket 370 processor’s required voltage can damage your processor permanently! Make sure that the jumpers are as shown for
“CPU Def.” unless otherwise specified before powering on your motherboard.
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VI. APPENDIX
VI. APPENDIX
ASUS LAN Card
ASUS PCI-L101 Fast Ethernet Card
LEDs
LAN Activity
Output Signal
Intel
Chipset
RJ45
Wake on LAN
Output Signal
ASUS
Motherboard type
Other
If you are using the ASUS PCI-L101 on an ASUS motherboard, leave the jumper on
its defaut setting of “ASUS.” If you are using another brand of motherboard, set the
jumper to “Other.” Connect the Wake on LAN (WOL) output signal to the
motherboard’s WOL_CON in order to utilize the wake on LAN feature of the motherboard. Connect the LAN activity output signal (LAN_LED) to the system cabinet’s
front panel LAN_LED in order to display the LAN data activity.
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VI. APPENDIX
VI. APPENDIX
ASUS LAN Card
Features
•
•
•
•
•
•
•
•
•
•
•
•
Intel 82558 Ethernet LAN Controller (Fully integrated 10BASE-T/100BASE-TX)
Wake-On-LAN Remote Control Function Supported
PCI Bus Master Complies to PCI Local Bus Rev. 2.1 specifications
Consists of MAC & PHY (10/100Mbps) interfaces
Complies to IEEE 802.3 10BASE-T and IEEE 802.3u 100BASE-TX interfaces
Fully supports 10BASE-T & 100BASE-TX operations through a single RJ45 port
Supports 32-bit Bus Master Technology / PCI Rev. 2.1
Enhancements on ACPI & APM
Adheres to PCI Bus Power Management Interface Rev. 1.0, ACPI Rev. 1.0, and
Device Class Power Management Rev. 1.0
IEEE 802.3u auto-negotiation for 10Mbps/100Mbps Network Data Transfer
Rates.
Provides LED indicators for monitoring network conditions
Plug and Play
Software Driver Support
•
•
•
NetWare ODI Drivers - Novell Netware 3.x, 4.x, DOS, OS/2 Client
NDIS 2.01 Drivers - Microsoft LAN Manager, Microsoft Windows 3.11, IBM
LAN Server
NDIS 3.0 Drivers - Microsoft Windows NT, Microsoft Windows 95, Microsoft
Windows 3.11
Question and Answer
Q: What is Wake-On-LAN ?
A: The Wake-On-LAN feature provides the capability to remotely power on systems supporting Wake-On-LAN by simply sending a wake-up frame. With this
feature, remotely uploading/downloading data to/from systems during off-peak
hours will be feasible.
Q: What can Wake-On-LAN do for you ?
A: Wake-On-LAN is a remote management tool with advantages that can reduce
system management workload, provide flexibility to the system administrator’s
job, and then of course save you time-consuming efforts and costs.
Q: What components does Wake-On-LAN require to be enable?
A: To enable Wake-On-LAN function, your system requires Ethernet LAN adapter
card that can activate Wake-On-LAN function, a client with Wake-On-LAN capability, and software such as LDCM Rev. 3.10 or up that can trigger wake-up frame.
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VI. APPENDIX
VI. APPENDIX
Glossary
Glossary
AGP (Accelerated Graphics Port)
An interface specification that enables high-performance 3D graphics on mainstream
PCs. AGP offers a higher throughput than PCI by providing the graphics controller
with direct access to system memory.
Bus
Bus Frequency
PCI
AGP 1X
AGP 2X
AGP 4X
33MHz
66MHz
133MHz
266MHz
Bus Speed
133MB/s
200-300MB/s
528MB/s
1 GB/s
AUTOEXEC.BAT
AUTOEXEC.BAT is a special-purpose file that is automatically executed by DOS
whenever the computer is turned ON or restarted. This file contains important commands that help configure the system to work with certain software and devices.
Windows 95 and later has its own startup files and may not use or may ignore parts
of the AUTOEXEC.BAT file.
BIOS (Basic Input/Output System)
BIOS is a set of routines that affect how the computer transfers data between computer components, such as memory, disks, and the display adapter. The BIOS instructions are built into the computer’s read-only memory. BIOS parameters can be
configured by the user through the BIOS Setup program. The BIOS can be updated
using the provided utility to copy a new BIOS file into the EEPROM.
Bit (Binary Digit)
Represents the smallest unit of data used by the computer. A bit can have one of two
values: 0 or 1.
Boot
Boot means to start the computer operating system by loading it into system memory.
When the manual instructs you to “boot” your system (or computer), it means to
turn ON your computer. “Reboot” means to restart your computer. When using Windows 95 or later, selecting “Restart” from “Start | Shut Down...” will reboot your
computer.
Bus Master IDE
PIO (Programmable I/O) IDE requires that the CPU be involved in IDE access and
waiting for mechanical events. Bus master IDE transfers data to/from the memory
without interrupting the CPU. Bus master IDE driver and bus master IDE hard disk
drives are required to support bus master IDE mode.
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VI. APPENDIX
VI. APPENDIX
Glossary
Byte (Binary Term)
One byte is a group of eight contiguous bits. A byte is used to represent a single
alphanumeric character, punctuation mark, or other symbol.
COM Port
COM is a logical device name used by to designate the computer serial ports. Pointing devices, modems, and infrared modules can be connected to COM ports. Each
COM port is configured to use a different IRQ and address assignment.
CPU (Central Processing Unit)
The CPU, sometimes called “Processor,” actually functions as the “brain” of the
computer. It interprets and executes program commands and processes data stored
in memory. Currently, there are socket 370 (for Pentium Celeron-PPGA), socket 7
(for Pentium, AMD, Cyrix, IBM), slot 1 (for Pentium II and III), and slot 2 (for
Xeon) processors.
Device Driver
A device driver is a special set of instructions that allows the computer’s operating system to communicate with devices such as VGA, audio, ethernet, printer, or modem.
DOS (Disk Operating System)
DOS is the foundation on which all other programs and software applications operate, including Windows. DOS is responsible for allocating system resources such as
memory, CPU time, disk space, and access to peripheral devices. For this reason,
DOS constitutes the basic interface between you and your computer.
Hardware
Hardware is a general term referring to the physical components of a computer system, including peripherals such as printers, modems, and pointing devices.
IDE (Integrated Drive Electronics)
IDE devices integrate the drive control circuitry directly on the drive itself, eliminating the need for a separate adapter card (in the case for SCSI devices). UltraDMA/
33 IDE devices can achieve up to 33MB/Sec transfer.
LPT Port (Line Printer Port)
Logical device name reserved by DOS for the computer parallel ports. Each LPT
port is configured to use a different IRQ and address assignment.
MMX
A set of 57 new instructions based on a technique called Single Instruction, Multiple
Data (SIMD), which is built into the new Intel Pentium PP/MT (P55C) and Pentium
II (Klamath) CPU as well as other x86-compatible microprocessors. The MMX instructions are designed to accelerate multimedia and communications applications,
such as 3D video, 3D sound, video conference.
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VI. APPENDIX
VI. APPENDIX
Glossary
PCI Bus (Peripheral Component Interconnect Local Bus)
PCI bus is a specification that defines a 32-bit data bus interface. PCI is a standard
widely used by expansion card manufacturers.
Peripherals
Peripherals are devices attached to the computer via I/O ports. Peripheral devices
allow your computer to perform an almost limitless variety of specialized tasks.
POST (Power On Self Test)
When you turn on the computer, it will first run through the POST, a series of software-controlled diagnostic tests. The POST checks system memory, the motherboard circuitry, the display, the keyboard, the diskette drive, and other I/O devices.
PS/2 Port
PS/2 ports are based on IBM Micro Channel Architecture. This type of architecture
transfers data through a 16-bit or 32-bit bus. A PS/2 mouse and/or keyboard may be
used on ATX motherboards.
RAID (Redundant Array of Independent Disks)
RAID can be set up to provide mirroring (for fault tolerance), parity (for data guarding), or striping (for data distribution over several drives for increased performance).
A RAID card is required to setup a RAID system.
RAM (Random Access Memory)
There are several different types of RAM such as DRAM (Dynamic RAM), EDO
DRAM (Extended Data Output DRAM), SDRAM (Synchronous DRAM).
ROM (Read Only Memory)
ROM is nonvolatile memory used to store permanent programs (called firmware)
used in certain computer components. Flash ROM (or EEPROM) can be reprogrammed with new programs (or BIOS).
SCSI (Small Computer System Interface)
High speed parallel interface defined by the X3T9.2 committee of the American
National Standards Institute (ANSI) for connecting many peripheral devices.
System Disk
A system disk contains the core file of an operating system and is used to boot up the
operating system.
Ultra DMA/33
Ultra DMA/33 is a new specification to improve IDE transfer rates. Unlike traditional PIO mode, which only uses the rising edge of IDE command signal to transfer
data, the DMA/33 uses both rising edge and falling edge. Hence, the data transfer
rate is double of the PIO mode 4 or DMA mode 2. (16.6MB/s x2 = 33MB/s).
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VI. APPENDIX
VI. APPENDIX
Glossary
USB (Universal Serial Bus)
A new 4-pin serial peripheral bus that allows plug and play computer peripherals
such as keyboard, mouse, joystick, scanner, printer and modem/ISDN to be automatically configured when they are attached physically without having to install
drivers or reboot. With USB, the traditional complex cables from back panel of your
PC can be eliminated.
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ASUS P2B User’s Manual