EPOX kl-133m, kl-133ml10 User Manual

TRADEMARK

All products and company names are trademarks or registered
trademarks of their respective holders.

These specifications are subject to change without notice.

Manual Revision 1.0

March 16, 2001

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60002ML10

Table of Contents

Section 1 Introduction

Components Checklist ......................................... 1-1

Overview

AMD DuronTM & AthlonTM Processors .............. 1-2

Accelerated Graphics Port ................................... 1-3

Hardware Monitoring ........................................... 1-3

Mainboard Form-Factor ....................................... 1-4

I/O Shield Connector ............................................1-5

Power-On/Off (Remote) ........................................ 1-5

System Block Diagram .......................................... 1-6

Section 2 Features

Mainboard Features ............................................. 2-1

Section 3 Installation

Mainboard Detailed Layout ................................. 3-2

Easy Installation Procedure

CPU Insertion ....................................................... 3-3

Jumper Settings ....................................................3-5

System Memory Configuration ............................ 3-7

Device Connectors ............................................... 3-9

Keyboard Power ON Function (KBPO)................ 3-12

STR (Suspend To RAM) Function....................... 3-13

Section 4 Award BIOS Setup

Main Menu........................................................... 4-1

Standard CMOS Setup ......................................... 4-2

Advanced BIOS Features..................................... 4-3

Page

Advanced Chipset Features ................................ 4-8

Integrated Peripherals .......................................... 4-12

Power Management Setup ................................... 4-16

PNP/PCI Configuration......................................... 4-19

PC Health Status .................................................. 4-21

Frequency/Voltage Control .................................. 4-22

Defaults Menu ..................................................... 4-23

Supervisor/User Password Setting ...................... 4-24

Exit Selecting ........................................................ 4-25

Section 5 Driver Installation

Easy Driver Installation ................................................... 5-1

Appendix

Appendix A

Load Setup Defaults ............................................. A-1

Appendix B

GHOST 5.1/6.03 Quick Users Guide .................... B-1

Introduction

Page 1-1

Section 1

INTRODUCTION

Components Checklist

99

99

9 A. (1) Mainboard

99

99

9 B. (1) Users manual

99

99

9 C. (1) Floppy ribbon cable

99

99

9 D. (1) ATA-66/100 Hard drive ribbon cable

E. (1) USB Cable (Optional)

99

99

9 F. (1) Driver and utility

A

B

USERS

MANUAL

D

C

E

F

or

Introduction

Page 1-2

Overview

AMD DuronTM & AthlonTM Processors

The AMD AthlonTM is a seventh-generation micro architecture with an integrated
L2 cache, which is powerful enough to support the bandwidth requirements of a
large range of applications, hardware, graphics, and memory technologies. These
processors implement advanced design techniques such as:

Socket A (PGA 462)

200/266MHz system interface based on the Alpha EV6 bus protocol.

Three out-of-order, superscalar, pipelined Multimedia Units.

Three out-of-order, superscaler, pipelined Integer Units.

Fixed-sized internal instruction formats (MacroOPs).

72-entry Instruction Control Units.

AMD enhanced 3DNow! technology

L1 and L2 caches.

Dynamic branch prediction.

Socket A is the name for AMDs new socketed interface designed to support both
AMD DuronTM and AMD AthlonTM processors. This innovation is made possible
by integrating the L2 cache memory on chip with the processor. Socket A will
help enable smaller enclosures, and ultimately result in a wider variety of solu­tions in the market.

The AMD DuronTM & AthlonTM processors in the Socket A format continue to
deliver the ultimate performance for cutting-edge applications. Both bring to
desktop systems running industry-standard x86 software superscalar RISC
performance. Being provided in the Socket A format they are the worlds most
powerful x86 processors. They easily deliver the highest integer, floating-point,
and 3D multimedia performance for applications running on x86 platforms
around.

Introduction

Page 1-3

The AMD DuronTM processor is derived from the AMD AthlonTM processor core.
It features full-speed, on-chip cache memory, a 200MHz front side system bus,
and enhanced 3DNow! technology. Although both processors are related, there
are key differences. The AMD AthlonTM processor is targeted at the performance
segment, and as such will have more cache memory and higher clock speeds.

Hardware Monitoring

Hardware monitoring allows you to monitor various aspects of your systems
operations and status. The features include CPU temperature, voltage and RPM of
fan.

Introduction

Page 1-4

Mainboard Form-Factor

The board is designed with Micro ATX form factor - the new industry standard of
chassis. Micro ATX form factor is essentially a Baby-AT baseboard rotated 90
degrees within the chassis enclosure and a new mounting configuration for the
power supply. With these changes the processor is relocated away from the
expansion slots, allowing them all to hold full length add-in cards. Micro ATX
defines a double height aperture to the rear of the chassis which can be used to
host a wide range of onboard I/O. Only the size and position of this aperture is
defined, allowing PC manufacturers to add new I/O features (e.g.; TV input, TV
output, joystick, modem, LAN, etc.) to systems. This will help systems integrators
differentiate their products in the marketplace, and better meet your needs.

 Smaller size promotes a smaller system size.

 I/O shield does not need to be retooled in an Micro ATX 2.01 or later. The

mainboard should be used in an Micro ATX 2.01 (or later) compliant case.

 A smaller power supply can be used. High integration on mainboard reduces

the system costs.

Expandable I/O

5 1/4"

Bay

3 1/2"

Bay

Figure 2: Summary of ATX chassis features

CPU

Single chassis
fan for system

AT X
Power
Supply

ATX power connec­tor

Floppy / IDE
connectors

PCI Slots

Introduction

Page 1-5

Power-On/Off (Remote)

The board has a single 20-pin connector for ATX power supplies. For ATX power
supplies that support the Remote On/Off feature, this should be connected to the
systems front panel for system Power On/Off button. The systems power On/Off
button should be a momentary button that is normally open.

The board has been designed with Soft Off" functions. You can turn Off the
system from one of two sources: The first is the front panel Power On/Off
button, and the other is the "Soft Off" function (coming from the M/Bs onboard
circuit controller) that can be controlled by the operating system such as Win­dows® 95/98/SE/ME or Windows®2000.

Figure 4: Simple ATX Power ON/OFF Controller

J 3

ATX
POWER SUPPLY

Case (chassis) Power
ON/OFF button (J 3)

I/O Shield Connector

The board is equipped with an I/O back panel. Please use the appropriate I/O
shield (figure 3).

Figure 3: I/O back panel layout

parallel port

Joystick/Midi port

USB port

COM1

VGA1

Speaker

Line_in

PS/2 Mouse

PS/2

KEYBOARD

MIC

Introduction

Page 1-6

Figure 5: System Block Diagram

System Block Diagram

PAC

PCI Bridge

and memory

controller

VT8364

133/100MHz

AMD

Socket A

Processo rs

VT82C686A/

VT82C686B

I/O Bridge

)+

'%

USB 0,1 USB 2,3

(ATA66/100)

100MHz

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Page 2-1

Section 2

FEATURES

Mainboard Features:







PROCESSOR

- AMD Athlon TM, Duron

TM

Processors, Socket A, operating at 600MHz ~

1GHz







CHIPSET

- VIA KL133 AGPset (KL133 + 686A or KL133 + 686B)







DRAM MODULE

- 168pin DIMM x 2 for PC133/VC133 Memory

- DRAM Size: 32MB to 1GB







EXPANSION SLOT

- PCI x 3







ONBOARD I/O

- On-Chip I/O integrated with K/B, Mouse, FDD, Parallel and Serial, Fast IR
and Power-ON controllers







ONBOARD PCI / IDE

- PCI Bus IDE Port with PIO / Ultra DMA-100 x 2 (Up to 4 Devices),
if uses VT82C686A chipset, it supports Ultra DMA-66 only.







I/O CONNECTOR

- PS/2 Mouse and PS/2 style Keyboard







USB

- USB connector x 4 (2 for Optional)

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Page 2-2







BIOS

- Award Plug & Play BIOS







Built-in VGA with S3 Savage 4







Built-in AC97 Digital Audio (by VT82C686A or VT82C686B)

- Dual full-duplex Direct Sound channels

- H/W Sound Blaster Pro for DOS legacy compatibility

- FM synthesis for legacy compatibility

- Supports game and MIDI port







EXTENDED FUNCTION

- Supports exclusive USDM(Unified System Diagnostic Manager) and
Hardware Monitoring Function by VT82C686A or VT82C686B

- Supports exclusive KBPO (KeyBoard Power On)

- Supports Power Loss Recovery Function

- Supports STR (Suspend To RAM) power saving Function

- Supports CPU clock (1 or 2MHz increment) setting via Jumper & BIOS

- Supports Wake-On-LAN Function.







FORM FACTOR

- 243mm x 200mm Micro ATX Size

Installation

Page 3-1

Section 3

INSTALLATION

Installation

Page 3-2

Figure 1

Mainboard Detailed Layout

Installation

Page 3-3

Easy Installation Procedure

The following must be completed before powering on your new system:

3-1. CPU Insertion
3-2. Jumper Settings
3-3. System memory Configuration
3-4. Device Connectors
3-5. External Modem Ring-in Power ON and Keyboard Power ON

Functions (KBPO)

3-6. STR Function

Section 3-1
CPU Insertion

CPU Insertion: (use AMD AthlonTM as reference)

Step 1

Open the socket by raising the actuation
lever.

Figure 2

Step 2

Insert the processor.
Ensure proper pin 1 orientation by aligning

the FC-PGA corner marking with the
socket corner closest to the actuation arm
tip. The pin field is keyed to prevent mis­oriented insertion.
Dont force processor into socket. If it does
not go in easily, check for mis-orientation and
debris.
Make sure the processor is fully inserted
into the socket on all sides.

Figure 3

Installation

Page 3-4

Step 3

Close the socket by lowering and
locking the actuation lever.

Figure 4

Figure 5

Step 4

Thermal compound and qualified heatsink recommended by AMD are a must to
avoid CPU overheated and burned.

Installation

Page 3-5

Section 3-2
Jumper Settings

The mainboard was designed with very few jumpers to make your installation
faster and easier.



JP1

CMOS Clear
JP1 = 1-2 Normal (Default)

= 2-3 Clear CMOS

JP2



JP3

Power Loss Recovery
JP3 = 1-2 Disabled (Default)

= 2-3 Enabled



STR Function
JP2 = 1-2 Disabled (Default)

= 2-3 Enabled

Installation

Page 3-6

JP5





CPU Host Clock Select
JP5 = 1-2 100MHz (Default)

= 2-3 133MHz

Keyboard Power-ON Function
JP4 = 1-2 Disabled (Default)

= 2-3 Enabled

JP4

Installation

Page 3-7

Section 3-3
System Memory Configuration

Memory Layout

The board supports (2) PC133/VC133 168-pin DIMMs (Dual In-line Memory
Module). The DIMMs is for SDRAM (Synchronous DRAM) only.

 SDRAM may be 83MHz (12ns), 100MHz (10ns), 125MHz (8ns) or

133MHz (7.5ns) bus speed.

 If you use both 50ns and 60ns memory you must configure your

BIOS to read 60ns.

 When using Synchronous DRAM we recommend using the 4 clock

variety over the 2 clock.

Figure 6 and Table 1 show several possible memory configurations.

* SDRAM supports 32, 64, 128, 256MB, 512MB DIMM modules.
* We recommend to use PC100/VC100 Memory Module for bus speed

100MHz and PC133/VC133 Memory for bus speed over 100MHz.

* Using non-compliant memory with higher bus speed (over clocking) may

severely compromise the integrity of the system.

DIMM 1

DIMM 2

Bank 0/1

Synchronous
DRAM

Bank 2/3

yromeMlatoT

1MMID

)1/0knaB(

2MMID

)3/2knaB(

BM215=
mumixaM

*MARDS

,BM821,BM46,BM23

1XBM215,BM652

enoN

BG1=

mumixaM

*MARDS

,BM821,BM46,BM23

1XBM215,BM652

*MARDS

,BM821,BM46,BM23

1XBM215,BM652

Figure 6

Table 1

Installation

Page 3-8

DIMM Module Installation

Figure 7 displays the notch marks and what they should look like on your DIMM
memory module.

DIMMs have 168-pins and two notches that will match with the onboard DIMM
socket. DIMM modules are installed by placing the chip firmly into the socket at
a 90 degree angle and pressing straight down (figure 8) until it fits tightly into the
DIMM socket (figure 9).

Figure 7

Figure 9

DIMM Module clip after installation

To remove the DIMM module simply press down both of the white clips on either
side and the module will be released from the socket.

Figure 8

DIMM Module clip before installation

CENTER KEY ZONE
(3.3 V DRAM)

LEFT KEY ZONE

(UNBUFFERED)

Installation

Page 3-9

Section 3-4
Device Connectors

Figure 10

J2,J3: Chassis Panel Connector

 Power_LED, Speaker, Reset, Power ON/Off, Turbo LED, HDD LED,
IR Conn.,

J4: CPU Fan Power

 A plug-in for the CPU Fan Power

J5: Power Fan Power

 A plug-in for the Power Supply Fan Power

J6: Chassis Fan Power

 A plug-in for the chassis Fan Power

J7: WOL (Wake On Lan) Connector

COM2:RS232 COM2 Connector

IDE1: Ultra ATA-66/100 Primary IDE Connector (Blue color)

(uses VT82C686A chipset, support ATA-66 only, White color )

IDE2: Ultra ATA-66/100 Secondary IDE Connector (Blue color)

(uses VT82C686A chipset, support ATA-66 only, Black color)

FDD1: Floppy Controller Connector (Black Color)

PW1: ATX Power Connector

 20-pin power connector

CD1: CD Audio_IN Connector

 Pin1(CD_IN_Left), Pin2/Pin3(CD_Reference), Pin4(CD_IN_Right)

parallel port

Joystick/Midi port

USB port

COM1

VGA1

Speaker

Line_in

PS/2 Mouse

PS/2

KEYBOARD

MIC

Installation

Page 3-10

AUX1: Auxiliary Line_IN Connector

 Pin1(Left Line_IN), Pin2/Pin3(GND), Pin4(Right Line-IN)

MODEM1: Telephony Connector for Modem audio output

 Pin1(Audio_in), Pin2/Pin3(GND), Pin4(Mic-out to Modem)

CN1: Front Panel Audio Connector

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USB port header pin descriptions.



VCC

VCC

GND

GND

-Data

-Data

+Data

+Data

#

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

USB2: USB port header pins for adding two additional USB ports.

Note: Either Front Panel Audio or onboard rear audio could be used at one time.