Shuttle AV18A 1.3, AV18E 1.3 User Manual

AV18E

FC-PGA/PPGA Celeron and
FC-PGA Pentium III processor

Based AGPset MAIN BOARD

User's Manual

Shuttle AV18E

FC-PGA/PPGA Celeron and
FC-PGA Pentium III processor based AGPset Mainboard
Manual Version 1.2

Copyright

Copyright© 2000 by Shuttle Inc. All Rights Reserved.
No part of this publication may be reproduced, transcribed, stored in a retrieval system,

translated into any language, or transmitted in any form or by any means, electronic,
mechanical, magnetic, optical, chemical, photocopying, manual, or otherwise, without

prior written permission from Shuttle Inc.

Disclaimer

Shuttle Inc. shall not be liable for any incidental or consequential damages resulting from the
performance or use of this product.

This company makes no representations or warranties regarding the contents of this manual.
Information in this manual has been carefully checked for reliability; however, no guarantee is
given as to the correctness of the contents. In the interest of continued product improvement,
this company reserves the right to revise the manual or include changes in the specifications
of the product described within it at any time without notice and without obligation to notify any
person of such revision or changes. The information contained in this manual is provided for
general use by the customers.

Trademarks

Spacewalker is a registered trademark of Shuttle Inc.
Intel, Pentium is a registered trademarks of Intel Corporation.
VIA is a registered trademarks of VIA Corporation.
PC/AT is a registered trademark of International Business Machines (IBM) Corporation.
PS/2 is a registered trademark of IBM Corporation.
AWARD is a registered trademark of Award Software Inc.
Microsoft and Windows are registered trademarks of Microsoft Corporation.

General Notice: Other brand and product names used herein are for identification
purposes only and may be trademarks of their respective owners.

M429

TABLE OF CONTENTS

WHAT’S IN THE MANUAL .....................................................................4

Quick Reference................................................................................................4

About This Manual ............................................................................................4

1 INTRODUCTION ................................................................................. 5

1.1 TO DIFFERENT USERS ..............................................................................5

FIRST-TIME DIY SYSTEM BUILDER.........................................................5

EXPERIENCED DIY USER.......................................................................5

SYSTEM INTEGRA TOR ............................................................................5

1.2 ITEM CHECKLIST........................................................................................6

2 FEATURES .......................................................................................... 7

2.1 SPECIFICATIONS ........................................................................................7

3 HARDWARE INSTALLATION ...........................................................10

3.1 STEP BY STEP INSTALLATION................................................................10

Accessories Of AV18E ...........................................................................10

STEP 1 Install the CPU............................................................................11

STEP 2 Set Jumpers...............................................................................12

STEP 3 Install SDRAM System Memory.................................................. 12

STEP 4 Install Internal Peripherals in System Case..................................13

STEP 5 Mount the Mainboard on the Computer Chassis .........................14

STEP 6 Connect Front Panel Switches/LEDs/Speaker ...........................15

STEP 7 Connect IDE & Floppy Disk Drives.............................................17

STEP 8 Connect Other Internal Peripherals .............................................18

STEP 9 Connect the Power Supply .........................................................18

STEP 10 Install Add-on Cards in Expansion Slots ...................................19

- 1 -

STEP 1 1 Connect External Peripherals to Back Panel.............................20

STEP 12 First Time System Boot Up.......................................................22

STEP 13 Install Drivers & Software Components.....................................23

3.2 JUMPER SETTINGS.................................................................................. 24

Jumpers & Connectors Guide..................................................................25

EEPROM FLASH BLOCK LOCK (JP6) ..................................................27

CPU Clock Ratio Setting (JP4)................................................................27

Clear CMOS (JP2)..................................................................................28

System Frequency Configuration (JP7) ...................................................29

PS/2 Keyboard & PS/2 Mouse Connectors .............................................30

USB1 / USB2 Port Connectors................................................................30

COM1 / COM2 Connectors .....................................................................30

Parallel Port Connector ...........................................................................30

Line-Out and Line-In and Mic-In Header ...................................................31

MIDI/GAME Port......................................................................................31

Hardware Reset Connector (RST)...........................................................32

HDD LED Connector (HDLED) ...............................................................32

Green LED Connector (GLED)................................................................32

EPMI Connector (EPMI) ..........................................................................32

A TX Power On/Off Switch Connector (PWON).........................................33

Speaker Connector (SPEAKER).............................................................33

PWR LED Connector (POWER LED) .....................................................33

Enhanced IDE and Floppy Connectors....................................................34

Audio Connector CD_IN (JP10) ..............................................................34

Audio Connector T AD I/O (JP1 1) .............................................................35

Audio Connector AUX (JP12)..................................................................35

External USB Ports (JP5)........................................................................35

- 2 -

IR Connector (JP1).................................................................................. 36

Wake-on LAN Connector (J2)..................................................................36

CPU , Cooling Fan Connectors (F AN1), (F AN2) & (F AN3).......................37

A TX Power Supply Connector (A TX PWR) ..............................................37

3.3 SYSTEM MEMORY CONFIGURATION ......................................................38

Install Memory .........................................................................................38

Upgrade Memory ....................................................................................38

4 SOFTWARE UTILITY .......................................................................39

4.1 AV18E MAINBOARD CD OVERVIEW ......................................................39

4.2 INSTALL MAINBOARD SOFTWARE ........................................................40

4.3 INSTALL Audio Device SOFTWARE........................................................41

4.4 INSTALL VIA Hardware Monitor .............................................................. 42

4.5 TO VIEW THE USER'S MANUAL .............................................................43

5 BIOS SETUP..................................................................................... 44

5.1 ENTERING BIOS........................................................................................44

5.2 THE MAIN MENU .......................................................................................45

Standard CMOS Setup ...........................................................................47

Advanced BIOS Features........................................................................49

Advanced Chipset Features....................................................................53

Integrated Peripherals .............................................................................57

Power Management Setup......................................................................61

PnP / PCI Configurations.........................................................................65

PC Health Status.....................................................................................67

Frequency/Voltage Control ......................................................................68

Load Fail-Safe/Optimized Defaults..........................................................69

User Password Setting............................................................................70

Save & Exit Setup/Exit without Saving .....................................................71

- 3 -

WHAT’S IN THE MANUAL

Quick Reference

Hardware Installation >> Step-by-Step ................................................ Page 10

Jumper Settings >> A Closer Look ...................................................... Page 24

Software Utility >> How to Install ......................................................... Page 39

BIOS Setup >> How to Configure ........................................................ Page 44

About This Manual

For First-Time DIY System Builder......................................................... Page 5

For Experienced DIY User ...................................................................... Page 5

For System Integrator ............................................................................. Page 5

- 4 -

1 INTRODUCTION

1.1 To Different Users

First-Time DIY System Builder

Welcome to the DIY world! Building your own computer system is not as
difficult as you may think. To make your first computer DIY experience a
success, right from the start, we have designed the 3 Hardware Installation
section in a step-by-step fashion for all the first-time DIY system builders. Prior
to installation, we also suggest you to read the whole manual carefully to gain
a complete understanding of your new AV18E mainboard.

Experienced DIY User

Congratulations on your purchase of the Shuttle AV18E mainboard. You will
find that installing your new Shuttle AV18E mainboard is just that easy. Bundled
with an array of onboard functions, the highly-integrated AV18E mainboard
provides you with a total solution to build the most stable and reliable system.
Refer to section 3.2 Jumper Settings and Chapter 4 Software Utility to find out
how to get the best out of your new mainboard. Chapter 5 BIOS Setup also
contains relevant information on how to tune up your system to achieve higher
performance.

System Integrator

You have wisely chosen Shuttle AV18E to construct your system. Shuttle
AV18E incorporates all the state-of-the-art technology of the VT82C694X
chipset from VIA. It integrates the most advanced functions you can find to
date in a compact ATX board. Refer to section 3.2 Jumper Settings and
Chapter 4 Software Utility for an in-depth view of system construction.

- 5 -

1.2 Item Checklist

CS

)9)4

All rights reserved

PCI/PNP 586

S/

Check all items you received with your AV18E mainboard to make sure
nothing is missing. The complete package should include:

 One Shuttle AV18E Mainboard

 One ATA 66/100 Ribbon Cable

 One Floppy Ribbon Cable

COM 1 PRINT

COM2

USB PORT

807AB

W83781D

JP10

JP11

JP12

,

N 1997

+

RSTHDLEDGLEDEPMIPWON

+

J 3

SPKPOWER LED

111

AUX

TAD I/O

CD_IN

9916CD TAIWAN
VT82C693

12BON6101

['6

C

0006CF TAIWAN

1EK415111

CA3757A ES

VT82C686A

0005

9248CF 438

135

7

JP 7

246

8

KEYBOARD & MOUSE

RichTek

RT9231

AHK1

PGA370

 This AV18E Users Manual

 One CD-ROM containing:

Ø The AV18E users manual on PDF format
Ø The VIA 4 IN 1 Drivers
Ø The VIA Audio Driver
Ø The VIA Hardware Monitor
Ø The Award Flashing Utility

- 6 -

2 FEATURES

The AV18E mainboard is carefully designed for the demanding PC user who wants
high performance and maximum intelligent features in a compact package.

2.1 Specifications

 CPU Support

Support Intel FC-PGA/PPGA Celeron Processor with 66MHz Front Side
Bus Speed.

FC-PGA Intel Pentium III Processor with 100/133MHz Front Side Bus
Speed.

 Chipset

Features VIA VT82C694X AGPset with I/O built in VT82C686B.

 Jumperless CPU Configuration

Soft-configure CPU Speed (The CPU operating speed is software
configurable from Frequency/Voltage Control of BIOS Setup program.

 Versatile Memory Support

Equipped with three DIMM banks of PC66/100/133 compliant SDRAM to
provide up to 1.5GB of system memory.

Configurable support for EC (Error Checking) and ECC (Error Checking
and Correcting)

 AGP Slot

Supports up to 4X Accelerated Graphics Port cards for high-performance,
component level interconnect directed at 3D graphical display applica­tions.

 PCI and ISA Expansion Slots

Provides five 32-bit PCI slots and one 16-bit ISA slot.

 AMR Expansion Slots

Provides one AMR (Audio/Modem Riser) slot.

- 7 -

 Super South Chip

Provides a variety of integrated I/O interfaces:
Ø 1 × Floppy interface for 3.5-inch FDD with 720KB, 1.44MB, 2.88MB

format or for 5.25-inch FDD with 360KB or 1.2MB format.

Ø 1 × PS/2 mouse connector
Ø 1 × PS/2 Keyboard connector
Ø 2 ports USB connectors on back panel
Ø One set of USB header for two extended USB ports.
Ø 2 × DB9 Serial connectors 16550 UART compatible
Ø 1 × Infrared communications port ASKIR and HPSIR compatible.

(Serial port COM2 can also be redirected to an external IrDA Adapter
for wireless connection.)

Ø 1 × DB25 Parallel port supporting Standard Parallel Port (SPP),

Enhanced Parallel Port (EPP), and Extended Capabilities Port (ECP)
data transmission schemes.

Ø 1× Game/MIDI connector, 1 x Line out connector, 1 x Line in conector,

1 x Speaker connector.

 PCI Bus Master IDE Controller Onboard

Two UltraDMA 33/66/100 Bus Master Dual-channel IDE ports provide support
to a maximum of four IDE devices (one Master and one Slave per channel).
The IDE Bus implements data transfer speeds of up to 33/66/100 MB/sec and
also supports Enhanced PIO Modes 0 ~ 4.

 ATX Power Supply Connector

ATX power supply unit can connect to the onboard 20-pin ATX power
connector, supporting Suspend and Soft-On/Off by dual-function power
button.

 Advanced Configuration and Power Interface

Features four power saving modes: Snoop, Suspend to RAM, Suspend to
Disk, and Soft-Off. ACPI provides more efficient Energy Saving Features
controlled by your operating system that supports OS Direct Power Manage­ment (OSPM) functionality.

- 8 -

 System BIOS

Provides licensed Award V6.0PG BIOS on 2Mb Flash EEPROM.
Supports Green PC and Desktop Management Interface (DMI).

 ATX Form Factor

System board conforms to the ATX specification.
Board dimensions: 304mm × 190mm

 Advanced Features

Ø Dual Function Power Button - The system can be in one of two states,

one is Suspend mode and the other is Soft-Off mode. Pushing the power
button for less than 4 seconds places the system into Suspend mode.
When the power button is pressed for longer than 4 seconds, the system
enters the Soft-Off mode.

Ø Wake-on-LAN (WOL) - The onboard WOL connector can be attached to

a network card that supports this function to wake up the system via LAN.

ØModem Ring Power-On - The system can be powered on automatically

bythe activation of modem ring.

 Other Features

Ø Voltage Monitoring - Monitors various voltages of key elements, such as

the CPU, and other critical system voltage levels to ensure stable current
reach to mainboard components. System voltages include Vcore onCPU,
and +2.5V, +3.3V, +5V, +12V etc. on system.

Ø Fan Status Monitoring - To prevent overheating of CPU, the CPU fan is

monitored for RPM and failure. (CPU Cooling FAN with RPM sensor is
required.)

Ø Temperature Monitoring - This item allows users to make sure whether the

CPU or system operates in a suitable temperature.

- 9 -

3 HARDWARE INSTALLATION

CA3757AES

0005

9248 CF 43 8

Before removing or installing any of these devices including CPU, DIMMs, add-on
cards, cables, please make sure to unplug the onboard power connector.

This section outlines how to install and configure your AV18E mainboard. Refer to the
following mainboard layout to help you identify various jumpers, connectors, slots, and
ports. Then follow these steps designed to guide you through a quick and correct installa­tion of your system.

3.1 Step-by-Step Installation

Accessories Of AV18E

PS2 Keyboard/Mouse
Connectors

Two USB Con nectors

Socket 370

Serial Port Connector
(COM2)

Parallel Connector

Serial Port Connector
(COM1)

VIA 694X Chi pset

Line_In/Lin e_Out/Mic _In
GAME/MIDI Connectors

Onboard Audio
Connectors-JP10/JP11/JP12

AGP 2x/4x Slot

AC97 Audio CODEC

KEY BOA RD & MO USE

US B PO R T

COM 2

COM 1 PRINT

RT92 31

RichTek

HS4 9

GD 7532 3D

HS4 9

GD 7532 3D

JP10

1

CD_IN

JP11

1

TAD I/O

JP121

AUX

FAN 2
FAN 1

DIMM 1

DIMM 3

DIMM 2

CSAHK 1

FAN 2

FAN 1

1

1

PGA370

ATX PW R

FDC 1

Floppy Conn ector

1

VT82C693

9916CD TAIW AN

12BON6101

['

6

C

AGP 1

1

PCI 1

PCI 2

FAN 3

JP 7

1

3

5

7

2

4

6

8

IDE1 IDE2

11

ATX Power Connector

Two IDE Connectors

System Clock Setting- JP7

Five PCI Slots

Two USB Ports Header - JP5

Programmab le Flash
EEPROM

EEPROM Block Lock- JP6

IR Conne ctor- JP1

AMR Slot

ISA Slot

1

AV18 E

PCI 3

JP 5EXT USB PORT

PCI 4

S/N 1997

)9)4,

JP 6

All right s rese rve d

PCI/PN P 586

1

PCI 5

1

IR

AMR 1

ISA 1

1

VT82C686B
0006CF TAIWAN
1EK41 5111

JP 2

1

JP 4

2

1

4

3

JP 1

J2

Wake On Lan

5

6

8

7

SPEAKERPOW ER LED

J 3

GLE D

HDLEDRS T EP MI

PWO N

FAN 3

VIA 686B Chi pset

Front Panel Connectors- J3

Wake On Lan Conne cto r- J2

CPU Clock Ratio Setting- JP4

Clear CMOS- JP2

- 10 -

Step 1

®

Install the CPU:

1. Locate the CPU ZIF (Zero Insertion Force) socket on the upper-right
sector of your mainboard (between the back panel connectors and the

DIMM memory banks).

2. Pull the CPU ZIF socket lever slightly sideways away from the socket
to unlock the lever, then bring it to an upward vertical position.

3. Place your PPGA/FC-PGA 370 processor in the ZIF socket. Note that
the CPUs edges have been purposely designed non-symmetrical to
prevent from inserting the processor in the wrong direction. The follow
ing diagram demonstrates the correct placement of the CPU in the ZIF
socket. You can see that the two blunt-edged corners should face to
wards the socket-lever.

PPGA CPU

FC-PGA CPU

R

mc

I [99

Blank

Lever Blank

PG A 3 7

Notch

PG A 3 7

Notch

Pentium

MALAY

RB8 05 2 6P Y55 0 25 6
Q944A036-0393 SL3R3

4. Slightly push the PPGA/FC-PGA 370 processor into the socket without
applying excessive force while making sure there is no gap between CPU
and socket. Then lower the socket-lever all the way down to its horizontal
position and lock it to secure the CPU in place.

5. The FC-PGA/PPGA 370 CPU requires a set of heatsink/fan to ensure
proper cooling of the processor. If not already mounted on your CPU,
you must purchase the heatsink/fan separately and have it installed. Plug
the cable from the heatsink/fan to the CPU fan power connector located
nearby. Note that there are several types of CPU fan connectors. Nor­mally, if your mainboard supports the hardware monitoring function, a 3­pin fan power connector should allow your system to detect the CPU fans
speed . The CPU fan can also run with a 2-pin fan power connector,
however, detection of CPU fans speed is not supported. Another type of
CPU fan may feature a large 4-pin fan power connector, which does not
support CPU fan's speed detection and must connect directly to the
systems power supply unit.

PG A 3 7

- 11 -

Step 2.

Set Jumpers

The default jumper settings have been set for the common usage standard of
this mainboard. Therefore, you do not need to reset the jumpers unless you
require special adjustments as in any of the following cases:

1. Over-clock CPU

2. Clear CMOS

For first-time DIY system builders, we recommend that you do not change the
default jumper settings if you are not totally familiar with mainboard configu­ration procedures. The factory-set default settings are tuned for optimum
system performance. For the advanced users who wish to customize their
system, section 3.2 Jumper Settings will provide detailed information on how
to configure your mainboard manually.

Step 3

Install SDRAM System Memory

To install memory, insert SDRAM memory module(s) in any one, two or three
DIMM banks. Note that SDRAM modules are directional and will not go in
the DIMM slots unless they are properly oriented. After the module is fully
inserted into the DIMM socket, lift the clips of both sides of the DIMM bank to
lock the module in place.

- 12 -

Step 4

Install Internal Peripherals in System Chassis

Before you install and connect the mainboard into your system chassis, we
recommend that you first assemble all the internal peripheral devices into the
computer housing, including but not limited to the hard disk drive (IDE/
HDD), floppy disk drive (FDD), CD-ROM drive, and ATX power supply unit.
This will greatly facilitate in making the connections to the mainboard de­scribed below.

To install IDE & FDD drives, follow this procedure:

1. Set the required jumpers on each device according to the instructions
provided by the manufacturer. (IDE devices, HDD and CD-ROM, have to
set jumpers to Master or Slave mode depending on whether you install
more than one device of each kind.)

2. Connect IDE cable and FDD cable on the back panel of the internal
peripheral devices. Note that the cable should be oriented with its
colored stripe (usually red or magenta) connected to pin#1 both on the
mainboard IDE or FDD connector and on the device as well.

3. Connect an available power cable from your system power supply unit
to the back panel of each peripheral device. Note that the power cable is
directional and cannot fit in if it is not properly positioned.

- 13 -

Step 5

Mount the Mainboard on the Computer Chassis

1. You may find that there are a lot of different mounting hole positions
both on your computer chassis and on the mainboard. To choose a
correct mounting hole, the key point is to keep the back panel of the
mainboard in a close fit with your system case, as shown below.

2. After deciding on the proper mounting holes, position the studs between
the frame of the chassis and the mainboard. The studs are used to fix the
mainboard and to keep a certain distance between the system chassis
and the mainboard, in order to avoid any electrical shorts between the
board and the metal frame of the chassis. (If your computer case is
already equipped with mounting studs, you will need to tighten screws to
attach the mainboard.)

Note: In most computer housings, you will be able to find 4 or more

attachment points to install mounting studs and fix the mainboard.
If there arent enough matching holes, then make sure to install at
least 4 mounting studs to ensure proper attachment of the
mainboard.

- 14 -

Step 6

Connect Front Panel Switches/LEDs/Speaker

You can find there are several different cables already existing in the system
case and originating from the computers front panel devices (HDD LED,
Power LED, Reset Switch, PC Speaker, etc.) These cables serve to connect the
front panel switches and LEDs to the mainboards front panel connectors
group, as shown below :

J3

+

1

1. ATX Soft Power On/Off (PWON)

2. Green-LED (GLED)

POWER LED

+

+

RST

HDLEDGLED EPMI PWON

POWER LED

+

J3

RST

POWER LED

+

J3

RST

SPEAKER

SPEAKER

+

+

HDLED GLED EPMI PWON

SPEAKER

+

+

HDLED GLED EPMI PWON

3. EPMI
(Hardware System Management
Interface)

- 15 -

POWER LED

+

J3

RST

SPEAKER

+

+

HDLED GLED EPMI PWON

4. HDD-LED (HDLED)

POWER LED

+

J3

SPEAKER

5. Hardware Reset Switch (RST)

6. PC Speaker (SPEAKER)

RST

POWER LED

+

J3

RST

POWER LED

+

J3

RST

+

+

HDLED GLED EPMI PWON

SPEAKER

+

+

HDLED GLED EPMI PWON

SPEAKER

+

+

HDLED GLED EPMI PWON

7. POWER LED (POWER LED)

- 16 -

POWER LED

+

J3

RST

SPEAKER

+

+

HDLED GLED EPMI PWON

Step 7

Connect IDE & Floppy Disk Drives

1. IDE cable connector

2. Floppy cable connector

IDE 1 ID E 2

FDC 1

1

11

- 17 -

Step 8

Connect Other Internal Peripherals

1. IR connector

Step 9

Connect the Power Supply

JP1

1

1. System power connector

ATX PW R

- 18 -

Step 10

Install Add-on Cards in Expansion Slots

1. Accelerated Graphics Port (AGP) Card

2. PCI Card

3. AMR Card

4. ISA Card

- 19 -

Step 11

Connect External Peripherals to Back Panel

You are now ready to put the computer case back together and get on to the
external peripherals connections to your systems back panel.

KEYBOARD & MOUSE

USB PORT

COM2

COM1 PRINT

1. PS/2 Mouse and PS/2 Keyboard

PS/2 Mouse

2. USB Ports

3. COM Ports

PS/2 keyboard

- 20 -

USB1 & USB2

COM2

COM1

4. Parallel Port

5. Audio Line_Out/Line_In/Mic_In Ports

6. MIDI/Game Port

Parallel Port

Line_Out Line_In Mic_In

- 21 -

MIDI/GAME Port

Step 12

First Time System Boot Up

To assure the completeness and correctness of your system installation, you
may check the above installation steps once again before you boot up your
system for the first time.

1. Insert a bootable system floppy disk (DOS 6.2x, Windows 95/98/NT, or
others) which contains FDISK and FORMAT utilities into the FDD.

2. Turn on the system power.

3. First, you must use the FDISK utility to create a primary partition of the
hard disk. You can also add an extended partition if your primary parti­tion does not use all of the available hard disk space. If you choose to
add an extended partition, you will have to create one or more logical
partitions to occupy all the space available to the extended partition. The
FDISK utility will assign a drive letter (i.e., C:, D:, E:,...) to each partition
which will be shown in the FDISK program. After FDISK procedure,
reboot your system by using the same system floppy disk.

Note: DOS 6.2x and Windows 95A can only support up to 2.1GB of

HDD partition. If you use the FDISK utility with one of the
operating systems mentioned above, you can only device your
HDD into partitions no larger than 2.1GB each.

4. Now, use the FORMAT utility to format all the partitions youve created.
When formatting the primary partition (C:), make sure to use the
FORMAT C: /S command.

Note: FORMAT C: /S can transfer all the necessary system files into the

primary partition of your hard disk. Then, your HDD will become
a bootable drive.

5. Install all the necessary drivers for CD-ROM, Mouse, etc.

6. Setup the complete operating system according to your OS installation
guide.

- 22 -

Step 13

Install Drivers & Software Components

Please note that all the system utilities and drivers are designed for Win 9x
operating systems only. Make sure your Windows 9x operating system is
already installed before running the drivers installation CD-ROM programs.

1. Insert the AV18E bundled CD-ROM into your CD-ROM drive. The

auto-run program will display the drivers main installation window on
screen .

2. Choose " Install Mainboard Software" and complete it.

3. Return to the SHUTTLE MAINBOARD SOFTWARE SETUP screen.

4. Choose "Install Audio Device Software" and complete it.

5. Return to the SHUTTLE MAINBOARD SOFTWARE SETUP screen.

6. Choose "Install VIA Hardware Monitor" and complete it.

7. Return to the main installation window and exit the auto-run drivers

installation program.

- 23 -

3.2 Jumper Settings

Several hardware settings are made through the use of mini jumpers to con­nect jumper pins on the mainboard. Pin #1 is located at any corner of each
jumper, you just find a white right angle on the mainboard, that's pin 1#.
There are several types of pin1# shown as below:

3-pin and multi (>3) pin jumpers shown as following:
Pin #1 on the left:

Pin #1 on the top:

Pin #1 on the right:

1

1

1

1

Pin #1 on the bottom:

1

Jumpers with two pins are shown as for Close [On] or for
Open [Off]. To Short jumper pins, simply place a plastic mini jumper over
the desired pair of pins.

Caution!

1. Do not remove the mainboard from its antistatic protective packaging
until you are ready to install it.

2. Carefully hold the mainboard by its edges and avoid touching its
components. When putting the mainboard down, place it on top of its
original packaging film, on an even surface, and components side up.

3. Wear an antistatic wrist strap or take other suitable measures to prevent
electrostatic discharge (ESD) whenever handleing this equipment.

- 24 -

Jumpers & Connectors Guide

Use the mainboard layout on page 10 to locate CPU socket, memory banks,
expansion slots, jumpers and connectors on the mainboard during the instal­lation. The following list will help you to identify jumpers, slots, and connec­tors along with their assigned functions:

B1
B2

B3 ~B 5

B6 ~B 9

E1

E5

E2

A1
E3

E4

D1

E6

D1

D1

A4

A3
A2

C1 ~C 7

CPU/Memory/Expansion Slots

Socket370 : CPU Socket for FC-PGA/PGA 370 Celeron and FC-PGA

Intel Pentium III processors

DIMM1/2/3 : Three DIMM Sockets for 16,32,64,128,256,512MB 3.3V

SDRAM
AGP : One AGP (Accelerated Graphics Port) Slot
PCI : Five 32-bit PCI Expansion Slots
AMR : One AMR Expansion Slot for Audio/Modem Riser Cards
ISA : One 16-bit ISA Expansion Slot

Jumpers

JP6 : EEPROM Block Lock

A1

JP4 : CPU Clock Ratio Setting

A2

JP2 : Clear CMOS

A3

JP7 : System Frequency Configuration

A4

- 25 -

Back Panel Connectors

B1

KB : PS/2 Keyboard

B1

MS : PS/2 Mouse

B2

USB : 2 × USB (Universal Serial Bus)

B3

COM2 : Serial Port 2 (DB9 male)
PRINTER : Parallel Port (DB25 female)

B4
B5

COM1 : Serial Port 1 (DB9 male)
Line_out : Line_out port

B6
B7

Line_in : Line_in port
Mic_in : Mic_in port

B8

Game/MIDI : Game/MIDI port

B9

Front Panel Connectors

C1

RST : Hardware Reset Switch
HDLED : IDE Drive Active LED

C2

C3

GLED : Green LED (ON when system is in power saving mode)

C4

EPMI : Hardware System Management Interface Momentary

Type switch.

C5

PWON : ATX Power On/Off Momentary Type Switch

C6

POWER LED : System Power LED
SPEAKER : Housing Internal Speaker

C7

Internal Peripherals Connectors

FDC1 : Floppy Disk Drive Interface

D1

IDE1 : IDE Primary Interface (Dual-channel)

D1

IDE2 : IDE Secondary Interface (Dual-channel)

D1

Other Connectors:

JP10 : On Board Audio Connector CD_IN

E1
E1

JP11 : On Board Audio Connector TAD I/O

E1

JP12 : On Board Audio Connector AUX

E2

JP5 : Two USB ports Header

E3

JP1 : IR Connector

E4

J2 : Wake On Lan Connector

E5

FAN 1 : CPU Cooling Fan Power

E5

FAN 2 : System Cooling Fan Power

E5

FAN 3 : AGP Cooling Fan Power

E6

ATX PWR : ATX Power Connector (20-pin header)

- 26 -

A1

EEPROM FLASH BLOCK LOCK (JP6)

Placing mini jumper on Pin2-3 allows you to flash BIOS.

Pin 2-3

(Default- You may Flash BIOS)

Pin 1-2

(Lock BIOS Flash)

A2

CPU Frequency Ratio Configuration (JP4)

AV18E mainboard provides a jumper group JP4 to set CPU frequency ratio
configuration by BIOS or hardware jumper. By inserting mini jumpers on JP4
properly, the user can configure the CPU Clock Ratio manually.

Note: Normally, JP4 is a backup function because for all the processors on

market nowadays have locked frequency multiple.

Frequency

Ratio

3 x ON OFF ON ON

3.5 x ON OFF OFF ON
4 x OFF ON ON ON

4.5 x OFF ON OFF ON
5 x OFF OFF ON ON

5.5 x OFF OFF OFF ON
6 x ON ON ON OFF

6.5 x ON ON OFF OFF
7 x ON OFF ON OFF

7.5 x ON OFF OFF OFF
8 x OFF ON ON OFF

Factory Default OFF OFF OFF OFF

1-2 3-4 5-6 7-8

JP6

1

JP4

1

3

5

7

2

4

6

8

- 27 -

A3

Clear CMOS (JP2)

JP2 is used to clear CMOS data. Clearing CMOS will result in permanently
erasing the previous system configuration settings and restoring the original
(factory-set) system settings.

Pin 1-2 (Default)

Pin 2-3 (Clear CMOS)

Step 1. Turn off the system power (PC-> Off)
Step 2. Remove mini jumper from JP2 pins 1-2
Step 3. Place the mini jumper on JP2 pin 2-3

for a few seconds

Step 4. Return the mini jumper to pin 1-2
Step 5. Turn on the system power (PC-> On)

JP2

1

- 28 -

A4

System Frequency Configuration (JP7)

AV18E provides jumper JP7 to set auto configure front side bus at 66MHz,
100MHz and 133MHz. Inserting mini jumpers Pin 5-6 & 7-8 on JP7 as
below to identify automatically the FSB speed.

Default (Auto Configure)

1

3

5

7

2

4

6

8

1

3

5

7

JP7

2

4

6

8

When the FSB auto config function is enabled, the user may still adjust CPU
Host clock on each FSB through

Frequency/Voltage Control of BIOS Setup

program.
For experienced users, AV18E mainboard provides an alternative hardware

configure function to adjust front side bus manually. Please insert mini
jumpers perperly on JP7 and set CPU Host/PCI Clock in Frequency/Voltage
Control of BIOS Setup program.

Manual

1

3

5

7

2

4

6

8

System Clock 1-2 3-4 5-6 7-8

66 MHz ON ON OFF OFF
100 MHz ON OFF OFF OFF
133 MHz OFF OFF OFF OFF

AUTO OFF OFF ON ON

- 29 -

B1

PS/2 Keyboard & PS/2 Mouse Connectors

Two 6-pin female PS/2 keyboard & Mouse
connectors are located at the rear panel
of the mainboard. Depending on the com­puter housing you use (desktop or
minitower), the PS/2 Mouse connector is
situated at the top of the PS/2 Keyboard
connector when the mainboard is laid into
a desktop, as opposed to a minitower
where the PS/2 Mouse connector is lo­cated at the right of the PS/2 Keyboard's.
Plug the PS/2 keyboard and mouse jacks
into their corresponding connectors.

B2

USB1/USB2 Port Connectors

Two female connectors USB1/USB2 share
the same USB (Universal Serial Bus)
bracket at the rear panel of your
mainboard. Plug each USB device jack
into an available USB1/USB2 connector.

PS/2 Mouse

PS/2 keyboard

USB1 & USB2

B3~B4

B5

COM1/COM2 Connectors

This mainboard can accommodate two
serial devices on COM1/COM2 .

Attach a serial device cable to the DB9
serial port COM1/COM2 at the back panel
of your computer.

Parallel Port Connector

One DB25 female parallel connector is
located at the rear panel of the mainboard.
Plug the connection cable from your par­allel device (printer, scanner, etc.) into this
connector.

COM2

Parallel Port

COM1

- 30 -

B6

Line_Out

Line_Out is a stereo output port
through which the combined signal of
all internal and external audio sources
on the oard is output. It can be con­nected to 1/8-inch TRS stereo head­phones or to amplified speakers.

B7

Line_In

Line_In is a stereo line-level input port
that accepts a 1/8-inch TRS stereo
plug. It can be used as a source for
digital sound recording, a source to be
mixed with the output, or both.

B8

Mic_In

MIC_IN is a 1/8-inch jack that provides
a mono input. It can use a dynamic
mono or stereo microphone with a
resistance of not more than 600
Ohms.

Line_Out

Line_In

Mic_In

B9

MIDI/GAME Port

The MIDI/GAME port is a 15-pin fe­male connector. This port can be con­nected to any IBM PC compatible
game with a 15-pin D-sub connector.

MIDI Instrument Connection

You will need a MIDI adapter to
connect a MIDI compatible instru­ment to the sound card. The MIDI
adapter can in turn be connected
to the Joystick/MIDI port. You will
also need the MIDI sequencing
software to run MIDI instruments
with our computer.

MIDI/GAME Port

- 31 -

C1

Hardware Reset Connector (RST)

Attach the 2-pin hardware reset
switch cable to the RST header.
Pressing the reset switch causes the
system to restart.

C2

HDD LED Connector (HDLED)

Attach the connector cable from the
IDE device LED to the 2-pin HDD
LED header. The HDD LED lights
up whenever an IDE device is ac­tive.

POWER LED

1

RST

POWER LED

1

RST

J3

HDLEDGLED EPMI PWON

J3

HDLEDGLED EPMI PWON

SPEAKER

SPEAKER

Green LED Connector (GLED)

C3

The Green LED (GLED) indicates
that the system is currently in one of
the power saving mode (Doze/
Standby/Suspend). When the sys­tem resumes to normal operation,
mode, the Green LED will go off.
Attach a 2-pin Green LED cable to
GLED header.

EPMI Connector (EPMI)

C4

Hardware System Management In­terface (EPMI) header may attach to
a 2-pin momentary switch. Press
the EPMI switch to force the system
into power saving mode; press again
to resume normal operation.

POWER LED

1

RST

HDLEDGLED EPMI PWON

POWER LED

1

RST

HDLEDGLED EPMI PWON

SPEAKER

J3

SPEAKER

J3

- 32 -

C5

ATX Power On/Off Switch Connector (PWON)

The Power On/Off Switch is a mo­mentary type switch used for turn­ing on or off the systems ATX power
supply. Attach the connector cable
from the Power Switch to the 2-pin
PWON header on the mainboard.

Note : Please notice all the LED connectors are directional. If your chassiss

LED does not light during running, please simply change to the
opposite direction.

C6

Speaker Connector (SPEAKER)

Attach the PC speaker cable from
the case to the 4-pin speaker con­nector (SPEAKER).

POWER LED

RST

HDLEDGLED EPMI PWON

1

SPEAKER

J3

C7

POWER LED (POWER LED)

Attach the 3-pin Power-LED con­nector cable from the housing front
panel to the PW LED header on the
mainboard. The power LED stays
light while the system is running.

- 33 -

POWER LED

1

RST

POWER LED

1

RST

J3

HDLEDGLED EPMI PWON

HDLEDGLED EPMI PWON

SPEAKER

SPEAKER

J3

Enhanced IDE and Floppy Connectors

D1

The AV18E mainboard features two 40-pin dual-channel IDE device connec­tors (IDE1/IDE2) providing support for up to four IDE devices, such as CD­ROM and Hard Disk Drives (H.D.D.). This mainboard also includes one 34­pin floppy disk controller (FDC) to accommodate the Floppy Disk Drive
(F.D.D.). Moreover, this mainboard comes with one 40pin ribbon cable to
connect to IDE H.D.D. and one 34-pin ribbon cable for F.D.D. connection.

Note : Please connect your system H.D.D. to IDE 1.

Important: Ribbon cables are directional, therefore, make sure to always

connect with the red cable stripe on the same side as pin #1 of
the IDE1/IDE2 or FDC connector on the mainboard.

FDC 1

1

E1

Audio CD_IN Header (JP10)(BLACK)

Port JP10 is used to attach an audio connector cable from the CD-ROM drive.

JP10 Pin Assignments :

1=Right Channel
2=Ground
3=Ground
4=Left Channel

1

IDE 1 IDE 2

1

1

JP 10

CD_IN

- 34 -

E1

Audio TAD I/O Header (JP11)(GREEN)

Port JP11 can be used to connect a modem audio line to AV18E mainboard.
Typically, you would use this connector when running the voice mail soft­ware on your system for audio input and output.

JP11 Pin Assignments :

1=PHONE

E2

2=Ground
3=Ground
4=MONO

E1

Audio AUX Header (JP12)(WHITE)

Port JP12 can be used to connect a stereo audio input from such as CD­ROM, TV-turner or MPEG card.

JP12 Pin Assignments :

1=AUX_L
2=Ground
3=Ground
4=AUX_R

External USB Ports (JP5)

1

JP 11

TAD I/O

1

JP 12

AUX

This header is used to connect the cable attached to USB connectors
mounted on front panel or back panel. But the USB cable is optional at the
time of purchase.

EXT USB PORT

GN D

GN D

1

VCC++

GN D

JP5

VCC

GN D

- 35 -

E3

IR Connector (JP1)

If you have an Infrared device, this mainboard can implement IR transfer
function. To enable the IR transfer function, follow these steps:

NC

GND

JP1

1

VCC

IRRX

IRTX

Step 1. Attach the 5-pin infrared device cable to JP1connector. (Refer to the

above diagram for IR pin assignment.)

Step 2. Configure the Infrared transfer mode in the UR2 Mode field of

integrated Peripherals menu in BIOS Setup program. This mainboard
supports IrDA, ASKIR, Normal transfer modes.

Wake-on LAN Connector (J2)

E4

Attach a 3-pin connector from the LAN card which supports the Wake-On-LAN
(WOL) function. This function lets users wake up the connected system through
LAN card.

Wake On Lan

1

- 36 -

E5

CPU, Cooling Fan Connectors (FAN1, FAN2, FAN3)

The mainboard provides three onboard 12V cooling fan power connectors
to support CPU (FAN1), System (FAN2) and AGP (FAN3) cooling fans.

Note: Both cable wiring and type of plug may vary depending on the
fan maker. Keep in mind that the red wire should always be connected
to the 12V header and the black wire to the ground (GND) header.

SENS E

E6

ATX Power Supply Connector

+12V

GND

FAN 3

Locate the 20-pin male header ATX power connector (ATX PWR) on your
mainboard. Plug the power cable from the ATX power supply unit directly
into ATX PWR ATX power supply connector.

1

FAN 2

1

1

FAN 1

ATX PWR

Note 1 : The ATX power connector is directional and will not go in unless

the guides match perfectly. Make sure that pin#1 is properly
positioned.

Note 2: Make sure the latch of the ATX power connector clicks into place

to ensure a solid attachment.

Note 3: Your ATX power supply must be supplied to ACPI +5V standby

power and at least 720mA compatible.

Note 4: Make sure your power supply have enough power for higher

speed processor installed.

- 37 -

3.3 System Memory Configuration

The AV18E mainboard has three 168-pin DIMM sockets that allow you to
install from 16MB up to 1.5GB of system memory with PC66/100/133
SDRAM (Synchronous DRAM). Each DIMM (Dual In-line Memory Module)
socket can accommodate 16MB, 32MB, 64MB, 128MB, 256MB and
512MB 3.3V single or double side 64-bit or 72-bit wide data path SDRAM
modules.

The AV18E mainboard supports data integrity algorithms including EC (Error
Checking) and ECC (Error Checking and Correction) in the memory array. In
EC mode, single and multiple bit error detection is provided. In ECC mode,
when the memory is being read from DRAM, the AV18E provides both error
checking and correction of the data.

Install Memory:

Install memory in any or all of the banks and in any combination, as follows.

DIMM
Soc ket

DIMM 1

DIMM 2

DIMM 3

Memory Modules

16MB, 32MB, 64MB, 128MB, 256MB

and 512MB 168-pin 3.3V SDRAM DIMM

16MB, 32MB, 64MB, 128MB, 256MB

and 512MB 168-pin 3.3V SDRAM DIMM

16MB, 32MB, 64MB, 128MB, 256MB

and 512MB 168-pin 3.3V SDRAM DIMM

Module

Quan tity

x 1

x 1

x 1

Note: You do not need to set any jumper to configure memory since the

BIOS utility can detect the system memory automatically. You can
check the total system memory value in the BIOS Standard CMOS
Setup menu.

Upgrade Memory:

You can easily upgrade the system memory by inserting additional SDRAM
modules in available DIMM banks. The total system memory is calculated by
simply adding up the memory in all DIMM banks. After upgrade, the new
system memory value will automatically be computed and displayed by the
BIOS Standard CMOS Setup menu.

- 38 -

4 SOFTWARE UTILITY

4.1 AV18E Mainboard CD Overview

Note: The AV18E mainboard attached CD contents are subject to

change without notice.

To start your mainboard CD, just insert it into your CD-ROM drive and the
CD AutoRun screen should appear. If the AutoRun screen does not appear,
double click or run D:\Autorun.exe (assuming that your CD-ROM drive is
drive D:)

Navigation Bar Description:

Install Mainboard Software - Installing Mainboard Drivers for

F

Windows

F Install Audio Device Software - Installing Audio Driver
F Install VIA Hardware Monitor - Installing VIA Hardware

Monitor Driver

F Manual - AV18E series mainboard user's manual in PDF format.
F Link to Shuttle Homepage - Link to shuttle website homepage.
F Browse this CD - Allows you to see contents of this CD.
F Quit - Close this CD.

- 39 -

4.2 Install Mainboard Software

Insert the attached CD into your CD-ROM drive and the CD AutoRun screen
should appear. If the AutoRun screen does not appear, double click on
Autorun icon in My Computer to bring up Shuttle Mainboard Software
Setup screen.

Select using your pointing device (e.g. mouse) on the Install Mainboard
Software bar.

Once you made your selection, a Setup window runs the installation
automatically.

When the copying files is done, make sure you reboot the system to
take the installation effect.

- 40 -

4.3 Install Audio Device Software

Insert the attached CD into your CD-ROM drive and the CD AutoRun screen
should appear. If the AutoRun screen does not appear, double click on
Autorun icon in My Computer to bring up Shuttle Mainboard Software
Setup screen.

Select using your pointing device (e.g. mouse) on the Install Audio Device
Software bar.

Once you made your selection, a Setup window runs the installation
automatically.

When the copying files is done, make sure you reboot the system to
take the installation effect.

- 41 -

4.4 Install VIA Hardware Monitor

Insert the attached CD into your CD-ROM drive and the CD AutoRun screen
should appear. If the AutoRun screen does not appear, double click on
Autorun icon in My Computer to bring up Shuttle Mainboard Software
Setup screen.

Select using your pointing device (e.g. mouse) on the Install VIA Hardware
Monitor  bar.

Once you made your selection, a Setup window runs the installation
automatically.

When the copying files is done, make sure you reboot the system to
take the installation effect.

- 42 -

4.5 To View the User's Manual

Insert the attached CD into your CD-ROM drive and the CD AutoRun screen
should appear. If the AutoRun screen does not appear, double click on
Autorun icon in My Computer to bring up Shuttle Mainboard Software
Setup screen.

Select using your pointing device (e.g. mouse) on the Manual bar.

Then Online Information windows will appear on your screen. Click on
the Install Acrobe Reader bar if you need to install acrobe reader.

Then click on "AV18E Manual" bar to view AV18E user's manual.

- 43 -

5 BIOS SETUP

AV18E BIOS ROM has a built-in Setup program that allows users to modify the
basic system configuration. This information is stored in
battery-backed RAM so that it retains the Setup information even if the system
power is turned off.

The system BIOS is managing and executing a variety of hardware related
functions in the system, including:

System date and time
Hardware execution sequence
Power management functions
Allocation of system resources

5.1 Entering BIOS

To enter the BIOS (Basic Input / Output System) utility, follow these steps:

Step 1. Power on the computer and the system will perform its

POST (Power-On Self Test) routine checks.

Step 2. Press <Del> key immediately or at the following message:

Press DEL to enter SETUP
or simultaneously press <Ctrl>, <Alt>, <Esc> keys

Note 1. If you miss the train (the message disappears before you can

respond) and you still wish to enter BIOS Setup, restart the system
and try again by turning the computer OFF and ON again or by

pressing the <RESET> switch located at the computers front

panel. You may also reboot by simultaneously pressing the

<Ctrl>, <Alt>, <Del> keys.

Note 2. If you do not press the keys in time and system does not boot, the

screen will prompt an error message and you will be given the
following options:

Press F1 to Continue, DEL to Enter Setup

Step 3. As you enter the BIOS program, the CMOS Setup Utility will

prompt you the Main Menu, as shown in the next section.

- 44 -

5.2 The Main Menu

Once you enter the AwardBIOS(tm) CMOS Setup Utility, the Main Menu will
appear on the screen. The Main Menu allows you to select from several
setup functions and two exit choices. Use the arrow keys to select among the
items and press <Enter> to accept and enter the sub-menu.

Note that a brief description of each highlighted selection appears at the
bottom of the screen.

Standard CMOS Features

This setup page includes all items in a standard compatible BIOS.

Advanced BIOS Features

This setup page includes all items of Award special enhanced features.

Advanced Chipset Features

This setup page includes all items of chipset features.

Integrated Peripherals

This setup page includes all items of peripheral features.

Power Management Setup

This setup page includes all items of Power Management features.

PnP/PCI Configurations

This item specifies the value (in units of PCI bus blocks) of the latency
timer for the PCI bus master and the IRQ level for PCI device. Power-on
with BIOS defaults.

- 45 -

PC Health Status

This entry shows the current system temperature, voltage and Fan
speed.

Frequency/Voltage Control

Use this menu to specify your settings for frequency/voltage control.

Load Fail-Safe Defaults

Setup defaults loads the values required by the system for the O.K.
performance. However, you can change the parameter through each
Setup Menu.

Load Optimized Defaults

BIOS defaults loads the values required by the System for the maximum
performance. However, you can change the parameter through each
Setup Menu.

Set Supervisor Password

Change, set, or disable supervisor password. It allows you to limit
access to the system and Setup, or just to Setup.

Set User Password

Change, set, or disable user password. It allows you to limit access to
the system and Setup, or just to Setup.

Save & Exit Setup

Save CMOS value change to CMOS and exit setup.

Exit Without Saving

Abandon all CMOS value changes and exit setup.

- 46 -

@ Standard CMOS Features

The items in Standard CMOS Setup Menu are divided into 10 catego­ries. Each category includes no, one or more than one setup items.
Use the arrow keys to highlight the item and then use the <PgUp> or
<PgDn> keys to select the value you want in each item.

Date

The date format is <month> <date> <year>.
Press <F3> to show the calendar.

Time

The time format is <hour> <minute> <second>. The time is
calculated base on the 24-hour military-time clock. For example. 5 p.m.
is 17:00:00.

Hard Disks Type

This item identify the types of hard disk drives that has been installed in
the computer. There are 46 predefined types ,a user definable type and
AUTO type.

Press PgUp or PgDn to select a numbered hard disk type or type the
number and press <Enter>. Note that the specifications of your drive
must match with the drive table. The hard disk will not work properly if
you enter improper information for this item. If your hard disk drive
type is not matched or listed, you can use Type User to define your
own drive type manually.

- 47 -

If you select Type User, related information is asked to be entered to the
following items. Enter the information directly from the keyboard and
press <Enter>. Those information should be provided in the docu­mentation from your hard disk vendor or the system manufacturer.

The user may also set those items to AUTO to auto configure hard disk
drives parameter when system power-on.

If a hard disk drive has not been installed select NONE and press <En­ter>.

Drive A type/Drive B type

This item specifies the types of floppy disk drive A or drive B that has
been installed in the system.

Video

This item selects the type of adapter used for the primary system moni­tor that must matches your video display card and monitor. Although
secondary monitors are supported, you do not have to select the type in
Setup.

Halt On

This item determines if the system will stop, when an error is detected
during power up.

Memory

This item is display-only. It is automatically detected by POST (Power
On Self Test) of the BIOS.

Base Memory

The POST of the BIOS will determine the amount of base (or conven­tional) memory installed in the system. The value of the base memory
is typically 640K for systems with 640K memory installed on the
mainboard.

Extended Memory

The BIOS determines how much extended memory is present during
the POST. This is the amount of memory located above 1MB in the

CPU's memory address map.

- 48 -

( Advanced BIOS Features

Virus Warning

When this item is enabled, the Award BIOS will monitor the boot sector
and partition table of the hard disk drive for any attempt at modification.
If an attempt is made, the BIOS will halt the system and the following
error message will appear. Afterwards, if necessary, you will be able to
run an anti-virus program to locate and remove the problem before any
damage is done.

!WARNING!

Disk boot sector is to be modified

Type "Y" to accept write or "N" to abort write

Award Software, Inc.

Ø The choice: Enabled, Disabled.

CPU Internal Cache

This item enables CPU internal cache to speed up memory access.
Ø The choice: Enabled, Disabled.

External Cache

This item enables CPU secondary cache to speed up memory access.
Ø The choice: Enabled, Disabled.

- 49 -

CPU L2 Cache ECC Checking

When you select Enabled, memory checking is enable when the exter­nal cache contains ECC SRAMs.

Ø The choice: Enabled, Disabled.

Processor Number Feature

Allows you to Enabled/Disabled, the processor serial number.
Ø The choice: Enabled, Disabled.

Quick Power On Self Test

This item speeds up Power On Self Test (POST) after you power on the
computer. If it is set to Enabled, BIOS will shorten or skip some check
items during POST.

Ø The choice: Enabled, Disabled.

First/Second/Third Boot Device

This BIOS attempts to load the operating system from the devices in the
sequence selected in these items.
Ø The choice: Floppy, LS/ZIP, HDD-0, SCSI, CDROM, HDD-1, HDD-2,
HDD-3, LAN, Disabled.

Boot Other Device

Select your boot device priority.
ØThe choice: Enabled, Disabled.

Swap Floppy Drive

When this item enables, the BIOS will swap floppy drive assignments so
that Drive A: will function as Drive B: and Drive B: as Drive A:.

Ø The choice: Enabled, Disabled.

Boot Up Floppy Seek

During POST, BIOS will determine if the floppy disk drive installed is 40
or 80 tracks.

Ø The choice: Enabled, Disabled.

Boot Up NumLock Status

When this option enables, BIOS turns on Num Lock when system is
powered on.

Ø The choice: On, Off.

- 50 -

Gate A20 Option

This entry allows you to select how the gate A20 is handled. The gate
A20 is a device used to address memory above 1 MByte. Initially, the
gate A20 was handled via a pin on the keyboard. Today, while key­boards still provide this support, it is more common, and much faster,
set to Fast for the system chipset to provide support for gate A20.

Ø The choice: Normal, Fast.

Typematic Rate Setting

This determines if the typematic rate is to be used. When disabled,
continually holding down a key on your keyboard will generate only
one instance. In other words, the BIOS will only report that the key is
down. When the typematic rate is enabled, the BIOS will report as
before, but it will then wait a moment, and, if the key is still down, it will
begin the report that the key has been depressed repeatedly.
For example, you would use such a feature to accelerate cursor move­ments with the arrow keys.

Ø The choice: Enabled, Disabled.

Typematic Rate (Chars/Sec)

When the typematic rate is enabled, this selection allows you to select
the rate at which the keys are accelerated.

Ø The choice: 6, 8, 10, 12, 15, 20, 24, 30.

Typematic Delay (Msec)

When the typematic rate is enabled, this selection allows you to select
the delay between when the key was first depressed and when the
acceleration begins

Ø The choice: 250, 500, 750, 1000.

Security Option

This item allows you to limit access to the System and Setup, or just to
Setup. When System is selected, the System will not boot and access to
Setup will be denied if the correct password is not entered at the
prompt.
When Setup is selected, the System will boot, but access to Setup will
be denied if the correct password is not entered at the prompt.

Ø The choice: Setup, System.

- 51 -

OS Select For DRAM > 64MB

This item allows you to access the memory that over 64 MB in OS/2.
Ø The choice: Non-OS2, OS2.

Video BIOS Shadow

Determines whether video BIOS will be copied to RAM. However, it is
optional depending on chipset design. Video Shadow will increase the
video speed.

Ø The choice: Enabled, Disabled.

XX000-XXFFF Shadow

These categories determine whether option ROMs will be Chipset
Features Setup Auto Configuration copied to RAM. An example of such
option ROM would be support of on-board SCSI.

Ø The choice: Enabled, Disabled.

- 52 -

( Advanced Chipset Features

Bank x/x DRAM Timing

This value in this field is set by the system board manufacturer, depend­ing on whether the board has paged DRAMS or EDO DRAMS.

Ø The choice: SDRAM 10ns, SDRAM 8ns, Normal, Medium, Fast,

Turbo.

SDRAM Cycle Length

This field allows you to set the SDRAM latency timer.
Ø The choice: 2, 3.

DRAM Clock

This item set the DRAM Read/Write timings that the system uses.
Ø The choice: Host CLK, HCLK-33M, HCLK+33M.

Memory Hole

In order to improve performance, some space in memory can be re­served for ISA cards.

Ø The choice: Disabled, 15M-16M.

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P2C/C2P Concurrency

This item allows you to enabled/disabled the PCI to CPU, CPU to PCI
concurrency.

Ø The choice: Enabled, Disabled.

System BIOS Cacheable

This item allows the user to set whether the system BIOS F000~FFFF
areas are cacheable or non-cacheable.

Ø The choice: Enabled, Disabled.

Video RAM Cacheable

This 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 Disabled if your display
card cannot support this feature or else your system may not boot.

Ø The choice: Enabled, Disabled.

AGP Aperture Size

This item allows the user to set memory-mapped, graphics data struc­tures can reside in Graphics Aperture.

Ø The choice: 4M, 8M, 16M, 32M, 64M, 128M.

AGP-4X Mode

This item allows you to enable/disable AGP-4X function. See
www.apgforum.org for AGP information.

Ø The choice: Enabled, Disabled.

AGP Driving Control

This item allows you to adjust the AGP driving force. Choose Manual to
key in a AGP Driving Value in the next selection. This field is recom­mended to set in auto for avoiding any error in your system

Ø The choice: Auto, Manual

AGP Driving Value

This item allows you to adjust the AGP driving force
Ø The choice: Min:00 ~ Max:FF

- 54 -

AGP Fast Write

This item allows user to enable/disable AGP Fast Write function.
Ø The choice: Enabled, Disabled.

On Chip USB

Select Enabled if your system contains a Universal Serial Bus (USB)
controller and you have a USB peripheral.

Ø The choice: Enabled, Disabled.

USB Keyboard Support

Select Enabled if your system contains a Universal Serial Bus (USB)
controller and you have a USB keyboard.

Ø The choice: Enabled, Disabled.

OnChip Sound

This item allows you to control the onboard AC97 audio.
Ø The choice: Auto, Disabled.

OnChip Modem

This item allows you to control the onboard MC97 Modem.
Ø The choice: Auto, Disabled.

CPU to PCI Write Buffer

When enabled, up to four Dwords of data can be written to the PCI bus
without interrupting the CPU. When disabled, a write buffer is not used
and the CPU read cycle will not be completed until the PCI bus signals
that it is ready to receive the data.

Ø The choice: Enabled, Disabled.

PCI Dynamic Bursting

When Enabled, data transfers on the PCI bus, where possible, make
use of the high performance PCI burst protocol, in which greater
amounts of data are transferred at a single command.

Ø The choice: Enabled, Disabled.

PCI Master 0 WS Write

When Enabled, writes to the PCI bus are command with zero wait
state.

Ø The choice: Enabled, Disabled.

- 55 -

PCI Delay Transaction

The chipset has an embedded 32-bit posted write buffer to support
delay transactions cycles. Select Enabled to support compliance with
PCI specification version 2.1.

Ø The choice: Enabled, Disabled.

PCI #2 Access #1 Retry

This item allows you enable/disable the PCI #2 Access #1 Retry.
Ø The choice: Enabled, Disabled.

AGP Master 1 WS Write

This implements a single delay when writing to the AGP Bus. By de­fault, two-wait states are used by the system, allowing for greater
stability.

Ø The choice: Enabled, Disabled.

AGP Master 1 WS Read

This implements a single delay when reading to the AGP Bus. By
default, two-wait states are used by the system, allowing for greater
stability.

Ø The choice: Enabled, Disabled.

Memory Parity/ECC Check

This item allows you to Enabled/Disabled memory error checking and
correction (ECC). In order for ECC to function, 9-chip (8 memory chips
+ 1 ECC chip) SDRAM modules must be installed on the mainboard.

Ø The choice: Enabled, Disabled.

CPU Voltage Regulator

This item allows user to adjust CPU Vcore as below :
The user may fine tune CPU voltage. The voltage ranges vary with

processor installed which are PPGA & FC-PGA Celeron and Pentium III
processors.

We strongly recommend the user remain on "default" setting unless
you are familiar with CPU Vcore voltage.

Note: Improper Vcore voltage may damage your processor.

- 56 -

( Integrated Peripherals

OnChip IDE Channel0

This item is used to defined on chip Primary PCI IDE controller is
Enable or Disable setting.

Ø The choice: Enabled, Disabled.

OnChip IDE Channel1

This item is used to defined on chip Secondary PCI IDE controller is
Enable or Disable setting.

Ø The choice: Enabled, Disabled.

IDE Prefetch Mode

Enable prefetching for IDE drive interfaces that support its faster drive
accesses. If you are getting disk drive errors, change the setting to
omit the drive interface where the errors occur. Depending on the
configuration of your IDE subsystem, this field may not appear, and it
does not appear when the Internal PCI/IDE field, above is Disabled.

Ø The choice: Enabled, Disabled.

- 57 -

Primary Master / Slave PIO

In this items, there are five modes defined in manual mode and one
automatic mode. There are 0, 1, 2, 3, 4, and AUTO is the default
settings for on board Primary Master / Slave PIO timing.

Ø The choice: Auto, Mode 0, Mode 1, Mode 2, Mode 3, Mode 4.

Secondary Master / Slave PIO

In this items, there are five modes defined in manual mode and one
automatic mode. There are 0, 1, 2, 3, 4, and AUTO is the default
settings for on board Secondary Master / Slave PIO timing.

Ø The choice: Auto, Mode 0, Mode 1, Mode 2, Mode 3, Mode 4.

Primary Master / Slave UDMA

On this mainboard, AV18E PCIset improves IDE transfer rate using Bus
Master UltraDMA 33/66 IDE which can handle data transfer up to 33/
66MB/sec. Auto is the default settings for on board Primary Master /
Slave UltraDMA 33/66.

Note : Your hard drive must also support UDMA for this feature to
work.

Ø The choice: Auto, Disabled.

Secondary Master / Slave UDMA

On this mainboard, AV18E PCIset improves IDE transfer rate using Bus
Master UltraDMA 33/66 IDE which can handle data transfer up to 33/
66MB/sec. Auto is the default settings for on board Secondary Master /
Slave UltraDMA 33/66.

Note : Your hard drive must also support UDMA for this feature to
work.

Ø The choice: Auto, Disabled.

Init Display First

This item is used to determine initial device when system power on.
Ø The choice: AGP, PCI Slot.

IDE HDD Block Mode

This item is used to set IDE HDD Block Mode. If your IDE Hard Disk
supports block mode, then you can enabled this function to speed up
the HDD access time. If not, please disabled this function to avoid HDD
access error.

Ø The choice: Enabled, Disabled.

- 58 -

Onboard FDD Controller

This item specifies onboard floppy disk drive controller. This setting
allows you to connect your floppy disk drives to the onboard floppy
connector. Choose the "Disabled" settings if you have a separate
control card.

Ø The choice: Enabled, Disabled.

Onboard Serial Port 1

This item is used to define onboard serial port 1.
Ø The choice: 3F8/IRQ4, 2F8/IRQ3, 3E8/IRQ4, 2E8/IRQ3, Auto,

Disabled.

Onboard Serial Port 2

This item is used to define onboard serial port 2.
Ø The choice: 3F8/IRQ4, 2F8/IRQ3, 3E8/IRQ4, 2E8/IRQ3, Auto,

Disabled.

UART 2 Mode

This item allows you to select which mode for the Onboard Serial
Port 2.

Ø The choice: Standard, HPSIR, ASKIR

IR Function Duplex

This item allows you to select the IR half/full duplex function.
Ø The choice: Half, Full.

TX, RX inverting enable

This item allows you to enable the TX, RX inverting which depends on
different H/W requirement. This field is not recommended to change its
default setting for avoiding any error in your system.

Ø The choice: No, No/No, Yes(Default)/Yes, No/Yes, Yes.

Onboard Parallel Port

This item specifies onboard parallel port address to 378H, 278H, 3BCH
or Disabled.

Onboard Parallel Port Mode

This item specifies onboard parallel port mode. The options are SPP
(Standard Parallel Port), EPP(Enhanced Parallel Port), ECP (Extended
Capabilities Port), and EPP+ECP.

- 59 -

ECP Mode Use DMA

This item specifies DMA (Direct Memory Access) channel when ECP
device is in use. The options are DMA 1 and DMA 3. This item will not
show up when SPP and EPP printer mode is selected.

Ø The choice: 1, 3

Parallel Port EPP Typ e

This item allows you to select EPP port type 1.7 or 1.9.
Ø The choice: EPP 1.7, 1.9.

These items below which containing from Onboard Legacy Audio
to Game Port control the onboard legacy audio.

Onboard Legacy Audio

This item controls the onboard legacy audio.
Ø The choice: Enable, Disable.

Sound Blaster

This item allows to emulate the sound as Sound Blaster.
Ø The choice: Enable, Disable.

SB I/O Base Address

This item allows to select Sound Blaster I/O address.
Ø The choice: 220H, 240H, 260H, 280H.

SB IRQ Select

This item allows to select Sound Blaster IRQ. ØThe choice: 5,7,9,10.

SB DMA Select

This item allows to select Sound Blaster DMA. ØThe choice: 0,1,2,3.

MPU-401

This item allows to select MPU-401.
Ø The choice: Enable, Disable.

MPU-401 I/O Address

This item allows to select the I/O address for MPU-401.
Ø The choice: 300-303H, 310-313H, 320-323H, 330-333H.

Game Port (200-207H)

This item allows to Enable Game Port.
Ø The choice: Enable, Disable.

- 60 -

( Power Management Setup

The Power Management Setup allows you to configure you system to
most effectively save energy while operating in a manner consistent
with your own style of computer use.

ACPI Function

This item allows you to Enabled/Disabled the Advanced Configuration
and Power Management (ACPI)

Ø The choice: Enabled, Disabled.

Power Management

This item determines the options of the power management function.
Max Saving puts the system into power saving mode after a brief
period of system inactivity; Min Saving is the same as Max Saving
except the time of the system inactivity period is longer; Disabled
disables the power saving feature; User Defined allows you to set
power saving options according to your preference.

Ø The choice: User Define, Min Saving, Max Saving.

ACPI Suspend Type

This item allows you to select the ACPI suspend type. Select S3(STR)
for suspend to RAM or Select S1(POS) for power on suspend under
Windows 98 ACPI mode.

Ø The choice: S1(POS), S3(STR)

- 61 -

PM Control by APM

If this item set to No, system BIOS will be ignored and APM calls the
power to manage the system.
If this item setup to Yes, system BIOS will wait for APM's prompt before
it enter any PM mode e.g. DOZE, STANDBY or SUSPEND.

Ø The choice: Yes, No.

Video Of f Option

This item define when to activate the video off feature for monitor
power management.

Ø The choice: Suspend, Doze, N/A.

Video Of f Method

This determines the manner in which the monitor is blanked.

V/H SYNC + Blank This selection will cause the system to turn off
the vertical and horizontal synchronization ports and write blanks
to the video buffer.

Blank Screen This option only writes blanks to the video

buffer

DPMS Initial display power management signaling.

Ø The choice: V/H SYNC + Blank, Blank Screen, DPMS Support.

Modem Use IRQ

This item determines the IRQ in which the MODEM can use.
Ø The choice: 3, 4, 5, 7, 9, 10, 11, N/A

Soft-Off by PWRBTN

The setting of Instant-Off allows the ATX switch to function as a normal
system power off button when pressed for less than 4 seconds.The
setting fo Delay 4 Sec. Allows the button to have a dual function where
to press the button for less than 4 seconds will place the system in
suspend mode, and pressing the button for more than 4 seconds will
shut place the system off.

Ø The choice: Instant-Off, Delay 4 Sec.

State After Power Failure

This allows you to set whether you want your system to reboot after
power has been interrupted.

Ø The choice: Auto, On, Off.

- 62 -

*** Wake Up Events ***

Wake Up Events can prevent the system from entering a power saving
mode or can awaken the system from such a mode. In effect, the system
remains alert for anything which occurs to a device which is configured
as On or Enabled, even when the system is in a power down mode.

Wake Up Events

This item allows user to determine the wake up events.
Ø The choice: Press Enter key to the sub-menu.

VGA

Set the item ON, while you wake up the system by LAN, the VGA is
waken, too.

Ø The choice: ON, OFF.

LPT & COM

Set the item Enabled, users can awaken the system by any device
connected to LPT/COM ports.

Ø The choice: NON, LPT/COM, LPT, COM.

HDD & FDD

Set the item ON, users can awaken the system by Hard Disk / Floppy
disk.

Ø The choice: ON, OFF.

- 63 -

PCI Master

Set the item ON, users can awaken the system by any PCI Card (Master
mode).

Ø The choice: ON, OFF.

Power On by PCI Card

Set the item Enabled, users can awaken the system by PCI card.
Ø The choice: Enabled, Disabled.

Wake up On LAN/Ring

Set the item Enabled, users can awaken the system by Modem and Lan
Card.

Ø The choice: Enabled, Disabled.

RTC Alarm Resume

Set the item Enabled then select the alarm time in the next few items.
Ø The choice: Enabled, Disabled.

Date (of Month)

This is for specifying the alarm Date which the system will
awaken the system from Suspend mode.

Ø The choice: Key in a DEC number: Min=0, Max=31.

Resume Time (hh:mm:ss)

This is for specifying the alarm Hour/Minute/Second which the
system will awaken the system from Suspend mode.

Ø The choice: Key in a DEC number: Min=0, Max=23/59.

Primary INTR

Set the item Enabled, users can awaken the system by any device with
the IRQ designated by PCI Card.

Ø The choice: ON, OFF.

IRQs Activity Monitoring

Press enter key to the sub-menu. You may enable any device with listed
IRQ awaken the system.

Ø The choice: IRQ 3 ~ IRQ15.

- 64 -

( PnP/PCI Configurations

This section describes configuring the PCI bus system. PCI, or Per­sonal Computer Interconnect, is a system which allows I/O devices to
operate at speeds nearing the speed the CPU itself uses when commu­nicating with its own special components. This section covers some
very technical items and it is strongly recommended that only experi­enced users should make any changes to the default settings.

PNP OS Installed

When this item is set to Yes, it will allow the PnP OS (Windows 95)
control the system resources except PCI devices and PnP boot devices.
Default setting is No.

Ø The choice: Yes, No.

Reset Configuration Data

This item allows you to determine whether to reset the configuration
data or not.

Ø The choice: Enabled, Disabled.

Resources Controlled By

The Award Plug and Play BIOS has the capability to automatically
configure all of the boot and Plug and Play compatible devices. How­ever, this capability means absolutely nothing unless you are using a
Plug and Play operating system as Windows 95.

Ø The choice: Auto, Manual.

- 65 -

IRQ/DMA Resources

When resources are controlled manually, assign each system interrupt a
type. depending on the type of device using the interrupt.

IRQ3/4/5/7/9/10/11/12/14/15 assigned to

This item allows you to determine the IRQ assigned to the ISA bus and
is not available to any PCI slot. Legacy ISA for devices compliant with
the original PC AT bus specification, PCI/ISA PnP for devices compliant
with the Plug and Play standard whether designed for PCI or ISA bus
architecture.

Ø The choice: Reserved, PCI Device.

DMA 0/1/3/5/6/7 assigned to

These items allow you to determne the DMA assigned to the ISA bus
and is not available for PCI slot.

Ø The choice: Legacy ISA, PCI/ISA PnP.

PCI/VGA Pallete Snoop

It determines whether the MPEG ISA/VESA VGA Cards can work with
PCI/VGA or not. If you have MPEG ISA/VESA VGA Cards and PCI/VGA

Card worked, Enable this field. Otherwise, Please Disable it.
Ø The choice: Disabled, Enabled.

Assign IRQ for VGA

This item allows the user to set VGA IRQ Routing table Enabled or
Disabled.

Ø The choice: Enabled, Disabled.

Assign IRQ for USB

This item allows the user the option to assign an IRQ to on-board USB
controller. Since the on-board controller is always enabled, if no IRQ is
assigned to it, there will be a question mark report on the system device
under Windows 95/98.

Ø The choice: Enabled, Disabled.

- 66 -

( PC Health Status

Current CPU Temperature

Since the mainboard supports CPU temperature monitoring and over­heat alert. This item indicates the current Processor temperature.

Current System Tem p

Since the mainboard supports System Temperature monitoring and
overheat alert. This item indicate the current main board temperature.

Current CPUFAN1/2 Speed

The mainboard can detect two fans rotation speed for CPU cooler.

Vcore

This mainboard supports CPU and mainboard voltages monitoring. The
onboard hardware monitor is able to detect the CPU voltage (Vcore)
and the voltage output from power supply.

2.5V, 3.3V, 5V, 12V

The mainboard supports CPU and mainboard voltages monitoring. The
onboard hardware monitor is able to detect the voltages output of the
voltage regulators and power supply.

- 67 -

( Frequency/Voltage Control

Auto Detect DIMM/PCI Clk

This item allows you to enable/disable auto detect DIMM/PCIClock.
Ø The choice: Enabled, Disabled.

Spread Spectrum

This item allows you to enable/disable the spread spectrum modulation.
Ø The choice: Enabled, Disabled.

CPU Host / PCI Clock

This item allows you to select CPU host clock and PCI clock.
Before you over CPU Host Clock from BIOS setup program, inserting

jumpers properly on JP7 is necessary.
Ø The choice: Default,

(66 MHz based) 66/33MHz, 68/34MHz, 75/37MHz,

83/41MHz.

(100 MHz based) 95/31MHz, 100/33MHz, 103/34MHz,

112/37MHz.

(133 MHz based) 124/31MHz,133/33MHz, 138/34MHz,

140/35MHz, 150/37MHz, 160/40MHz,
166/41MHz.

- 68 -

@ Load Fail-Safe Defaults

While you press <Enter> on this item, you will get a confirmation
dialog box with a message similar to:

Load Fail-Safe Defaults (Y/N) ? N

Pressing 'Y' loads the BIOS default values for the most stable,
minimal-perfo rmance system operations.

@ Load Optimized Defaults

While you press <Enter> on this item, you will get a confirmation
dialog box with a message similar to:

Load Optimized Defaults (Y/N) ? N

Pressing 'Y' loads the default values that are factory settings for
optimal performance system operations.

- 69 -

@ User Password Setting

You can set either supervisor or user password or both of them. The
defferencecs between them are:

Supervisor Password and User Setting

The options on the Password screen menu make it possible to restrict
access to the Setup program by enabling you to set passwords for two
different access modes: Supervisor mode and User mode.

In general, Supervisor mode has full access to the Setup options,
whereas User mode has restricted access to the options. By setting
separate Supervisor and User password, a system supervisor can limit
who can change critical Setup values.

Enter Password

Type the password, up to eight characters, and press <Enter>. The
password typed now will clear any previously entered password from
CMOS memory. You will be asked to confirm the password. Type the
password again and press <Enter>. You may also press <Esc> to
abort the selection and not enter a password.

To disable password, just press <Enter> when you are prompted to
enter password. A message will confirm the password being disabled.
Once the password is disabled, the system will boot and you can enter
Setup freely.

- 70 -

Password Disable

If you select System at Security Option of BIOS Features Setup Menu,
you will be prompted for the password every time the system is
rebooted or any time you try to enter Setup. If you select Setup at
Security Option of BIOS Features Setup Menu, you will be prompted
only when you try to enter Setup.

Warning : Retain a record of your password in a safe place. If you

forget the password, the only way to access the system is
to clear CMOS memory, please refer to page 28
"Clear CMOS".

@ Save & Exit Setup

While you press <Enter> on this item ,a similar dialog box shows up to
ask you the following confirmation :

Save to CMOS and EXIT (Y/N)? Y

Pressing "Y" stores the selections made in the menus in CMOS - a special
section of memory that stays on after you turn your system off. The next
time you boot your computer, the BIOS configures your system according
to the Setup selections stored in CMOS. After saving the values the system
restarts again.

@ Exit Without Saving

While you press <Enter> on this item ,a similar dialog box shows up to
ask you the following confirmation :

Quit without saving (Y/N)? Y

This allows you to exit Setup without storing in CMOS any change. The
previous selections remain in effect. This exits the Setup utility and restarts
your computer.

- 71 -