Untitled
Preface
Copyright
This publication, including all photographs, illustrations and software, is protected under
international copyright laws, with all rights reserved. Neither this manual, nor any of the
material contained herein, may be reproduced without written consent of the author.
Version 1.0
Disclaimer
The information in this document is subject to change without notice. The manufacturer
makes no representations or warranties with respect to the contents hereof and specifically
disclaims any implied warranties of merchantability or fitness for any particular purpose.
The manufacturer reserves the right to revise this publication and to make changes from
time to time in the content hereof without obligation of the manufacturer to notify any
person of such revision or changes.
Trademark Recognition
Microsoft, MS-DOS and Windows are registered trademarks of Microsoft Corp.
MMX, Pentium, Pentium-II, Pentium-III, Celeron are registered trademarks of Intel Corporation.
Other product names used in this manual are the properties of their respective owners and
are acknowledged.
Federal Communications Commission (FCC)
This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment
generates, uses, and can radiate radio frequency energy and, if not installed and used in
accordance with the instructions, may cause harmful interference to radio communications.
However, there is no guarantee that interference will not occur in a particular installation.
If this equipment does cause harmful interference to radio or television reception, which
can be determined by turning the equipment off and on, the user is encouraged to try to
correct the interference by one or more of the following measures:
•
•
•
•
Reorient or relocate the receiving antenna
Increase the separation between the equipment and the receiver
Connect the equipment onto an outlet on a circuit different from that to which
the receiver is connected
Consult the dealer or an experienced radio/TV technician for help
Shielded interconnect cables and a shielded AC power cable must be employed with this
equipment to ensure compliance with the pertinent RF emission limits governing this
device. Changes or modifications not expressly approved by the system’s manufacturer
could void the user’s authority to operate the equipment.
Preface
ii
Declaration of Conformity
This device complies with part 15 of the FCC rules. Operation is subject to the following
conditions:
•
•
This device may not cause harmful interference, and
This device must accept any interference received, including interference
that may cause undesired operation
Canadian Department of Communications
This class B digital apparatus meets all requirements of the Canadian Interference-causing
Equipment Regulations.
Cet appareil numérique de la classe B respecte toutes les exigences du Réglement sur le
matériel brouilieur du Canada.
About the Manual
The manual consists of the following:
Chapter 1
Describes features of the motherboard.
Introducing the Motherboard
Go to
H
page 1
Describes installation of motherboard
components.
Chapter 2
Installing the Motherboard
Go to
H
page 7
Provides information on using the BIOS
Setup Utility.
Chapter 3
Using BIOS
Go to
H
page 27
Chapter 4
Describes the motherboard software
Using the Motherboard Software
Go to
Preface
H
page 49
iii
TABLE OF CONTENTS
Preface
i
Chapter 1
1
Introducing the Motherboard
1
Introduction.................................................................................................1
Feature..........................................................................................................2
Motherboard Components........................................................................4
Chapter 2
7
Installing the Motherboard
7
Safety Precautions......................................................................................7
Choosing a Computer Case.......................................................................7
Installing the Motherboard in a Case......................................................7
Checking Jumper Settings.........................................................................8
Setting Jumpers..............................................................................8
Checking Jumper Settings..............................................................9
Jumper Settings..............................................................................9
Connecting Case Components...............................................................10
Front Panel Header.....................................................................12
Installing Hardware...................................................................................13
Installing the Processor...............................................................13
Installing Memory Modules.........................................................15
Installing a Hard Disk Drive/CD-ROM/SATA Hard Drive........17
Installing a Floppy Diskette Drive...............................................19
Installing Add-on Cards..............................................................20
Connecting Optional Devices......................................................22
Connecting I/O Devices..........................................................................26
Chapter 3
27
Using BIOS
27
About the Setup Utility............................................................................27
The Standard Configuration........................................................27
Entering the Setup Utility..............................................................27
Updating the BIOS.......................................................................29
Using BIOS................................................................................................29
Standard CMOS Features...........................................................30
Advanced BIOS Features.............................................................32
iv
Advanced Chipset Features.........................................................35
Integrated Peripherals.................................................................37
Power Management Setup...........................................................41
PNP/PCI Configurations............................................................43
PC Health Status..........................................................................44
Frequency Control.......................................................................45
Load Fail-Safe Defaults...............................................................46
Load Optimal Defaults................................................................46
Set Supervisor/User Password...................................................46
Save Changes and Exit................................................................47
Exit Without Saving......................................................................47
Chapter 4
49
Using the Motherboard Software
49
About the Software CD-ROM................................................................49
Auto-installing under Windows 98/ME/2000/XP................................49
Running Setup..............................................................................50
Manual Installation..................................................................................52
Utility Software Reference.......................................................................52
Multi-Language Translation
1
Chapter 1
Introducing the Motherboard
Introduction
Thank you for choosing the 915G-M5 motherboard. This motherboard is a high performance, enhanced function motherboard that supports LGA775 Socket for latest Intel
Pentium 4/Celeron processors for high-end business or personal desktop markets.
The motherboard may support 915G Northbridge (NB) and ICH6 Southbridge (SB) chipsets.
The 915G Northbridge on this motherboard supports a Front Side Bus (FSB) frequency of
800/533 MHz using a scalable FSB Vcc_CPU. The memory controller supports DDR
memory DIMM frequencies of 333MHz and 400 MHz. It supports four DDR Sockets with
up to maximum memory of 4 GB. DDR Maximum memory bandwidth of 3.2 GB/s in singlechannel mode and 6.4 GB/s in dual-channel mode is supported. One 16-lane PCI Express
port, intended for Graphics Interface, is fully compliant to the PCI Express Base Specification revision 1.0a.
The ICH6 Southbridge on this motherboard supports three PCI slots which are PCI 2.3
compliant. It implements an EHCI compliant interface that provides 480Mb/s bandwidth
for eight USB 2.0 ports, AC’97 CODEC that features a 6-channel audio speaker out, One
onboard IDE connector supports 2 IDE devices in ATA-100/66 mode. The Southbridge
integrates a Serial ATA host controller that is SATA v1.0 compliant, supporting four SATA
ports with maximum transfer rate up to 150 MB/s each.
The 915G-M5 motherboard is equipped with advanced full set of I/O ports in the rear panel,
including PS/2 mouse and keyboard connectors, COM1, LPT, four USB ports, one VGA
port, one optional LAN port, and audio jacks for microphone, line-in, and 8-channel lineout.
Introducing the Motherboard
2
Feature
Processor
The 915G-M5 uses a LGA775 type of Pentium 4 that carries the following features:
•
Accommodates Intel P4/Celeron processors
•
Supports a system bus (FSB) of 800/533MHz
•
Supports “Hyper-Threading” technology CPU
“Hyper-Threading” technology enables the operating system into thinking it’s hooked
up to two processors, allowing two threads to be run in parallel, both on separate
“logical” processors within the same physical processor.
Chipset
The 915G Northbridge (NB) and ICH6 Southbridge (SB) chipset are based on an innovative and scalable architecture with proven reliability and performance.
915G (NB)
ICH6 (SB)
•
Supports 32-bit host bus addressing, allowing the CPU to
access the entire 4 GB of the memory address space.
•
Has a 12-deep In-Order Queue to support up to twelve
outstanding piplined address requests on the host bus.
•
Supports 256-Mb, 512-Mb and 1-Gb DDR/DDR2 technologies for x8 and x16 devices
•
Provides an integrated graphics device delivering cost competitive 3D, 2D and video capabilities.
915G chipset can only support 256-Mb, 512-Mb and 1-Gb DDR technologies for x8 and x16 device, NOT support 128-Mb DDR technology.
That is, 256 MB Double Side Memory Module & 128 MB Single Side
Memory Module are NOT support.
•
•
•
•
Memory
•
•
•
•
Enhanced DMA Controller, interrupt controller, and timer functions
Compliant with PCI 2.3 specificaiton
Compliant with Serial ATA 1.0a specification
Integrated USB 2.0 Host Controller supporting up to eight
USB 2.0 ports
Integrated LAN controller
Integrated IDE controller supports Ultra ATA100/66/33
Accommodates four unbuffered DIMMs
Up to 1 GB per DIMM with maximum memory size up to 4 GB
Graphics
•
•
•
•
Supports core frequency of 333 MHz
Supports 3D Setup, Render Engine, and 3D Graphics Enhancements
Supports High Quality Texture Engine
Video DVD/PC-VCR
Onboard LAN (Optional)
This motherboard may support either of the following LAN chipset:
•
•
•
•
•
•
Supports 100/10 Mb/s N-Way Auto negotiation operation
Half/Full duplex capability
Supports Wake-On-LAN(WOL) function and remote wake-up
Integrate 10/100/1000 transceiver
Supports PCI v2.3, 32-bit, 33/66MHz
Supports fully with IEEE802.3, IEEE802.3u and IEEE802.3ab
Introducing the Motherboard
3
Audio
This motherboard may support either of the following Audio chipset.
•
Compliant with the AC’97 v2.3 CODEC
•
Supports 6-channel audio CODEC designed for PC multimedia systems
•
Provides three analog line-level stereo inputs with 5-bit volume control:
Line-in, CD, AUX
•
Supports S/PDIF output and input function
•
Compliant with Azalia specification, supporting 8 channel DACs with
SNR>95dB
•
Capabilities: 192/96/48/44.1 KHz with 24/20/16 bits
•
8 Smart Jack I/O port support
•
Extensive jack detection via RNM (resistors network method) that can
be used to monitor the plugging status of each jack
•
Digital S/PDIF OUT & IN support
Expansion Options
The motherboard comes with the following expansion options:
•
•
•
•
•
One PIC Express x16 slot (optional)
Three 32-bit PCI v2.3 compliant slots
One 40-pin IDE low profile header that support two IDE devices
One floppy disk drive interface
Four 7-pin SATA connectors that support four SATA devices
The 915G-M5 motherboard supports UltraDMA bus mastering with transfer rates of
100/66 MB/s.
Integrated I/O
The
•
•
•
•
•
motherboard has a full set of I/O ports and connectors:
Two PS/2 ports for mouse and keyboard
One serial port and one parallel port
Four USB ports
One VGA port, one 1394 port (optional) and one LAN port (optional)
Audio jacks for microphone in, line-in and line-out (Audio jack for microphone
in, line-in and 8-ch High Definition Audio out if supports Azalia Audio CODEC.)
BIOS Firmware
This motherboard uses AWARD BIOS that enables users to configure many system
features including the following:
•
Power management
•
Wake-up alarms
•
CPU parameters
•
CPU and memory timing
The firmware can also be used to set parameters for different processor clock speeds.
Some hardware specifications and software items are subject to change
with out prior notice.
Introducing the Motherboard
4
Motherboard Components
Introducing the Motherboard
5
Table of Motherboard Components
LABEL
1 CPU Socket
2 SYS_FAN
3 CPU_FAN
4 DIMM1~4
5 CHS1
6 FDD
7 ATX1
8 IDE1
9 CLR_CMOS
10 SPK1
11 PWR_FAN
12 IRDA
13 SATA1~4
14 F_PANEL
15 COM2
16 F_USB1~F_USB2
17 BIOS_WP
COMPONENT
LGA775 socket for Pentium 4 CPUs
System fan connector
CPU cooling fan connector
Four 184-pin DDR SDRAM slots
Chasis intrusion detection header
Floppy diskette drive connector
Standard 24-pin ATX power connector
Primary IDE channel
Clear CMOS jumper
Speaker header
Power fan connector
Infrared header
Four serial ATA connectors
Front Panel switch/LED header
Onboard serial port header
Front Panel USB headers
BIOS flash protect jumper
18 PCI1~3
19 CDIN1
20 F_AUDIO1
21 SPDIF-O1
22 SPDIF-I1
23 PCIEX16
24 ATX12V
Three 32-bit add-on card slots
Primary CD-in connector
Front panel audio header
SPDIF out header
SPDIF out header
PCI Express X16 Graphics card slot
ATX12V power connector
This concludes Chapter 1. The next chapter explains how to install the motherboard.
Introducing the Motherboard
6
Memo
Introducing the Motherboard
7
Chapter 2
Installing the Motherboard
Safety Precautions
•
•
•
•
•
Follow these safety precautions when installing the motherboard
Wear a grounding strap attached to a grounded device to avoid damage from
static electricity
Discharge static electricity by touching the metal case of a safely grounded
object before working on the motherboard
Leave components in the static-proof bags they came in
Hold all circuit boards by the edges. Do not bend circuit boards
Choosing a Computer Case
There are many types of computer cases on the market. The motherboard complies with
the specifications for the Micro ATX system case. First, some features on the motherboard
are implemented by cabling connectors on the motherboard to indicators and switches on
the system case. Make sure that your case supports all the features required. Secondly,
915G-M5 supports one or two floppy diskette drives and two enhanced IDE drives. Make
sure that your case has sufficient power and space for all drives that you intend to install.
Most cases have a choice of I/O templates in the rear panel. Make sure that the I/O
template in the case matches the I/O ports installed on the rear edge of the motherboard.
This motherboard carries a Micro ATX form factor of 244 x 244 mm. Choose a case that
accommodates this form factor.
Installing the Motherboard in a Case
Refer to the following illustration and instructions for installing the motherboard in a case.
Most system cases have mounting brackets installed in the case, which correspond the holes
in the motherboard. Place the motherboard over the mounting brackets and secure the
motherboard onto the mounting brackets with screws.
Ensure that your case has an I/O template that supports the I/O ports and expansion slots
on your motherboard.
Installing the Motherboard
8
Do not over-tighten the screws as this can stress the motherboard.
Checking Jumper Settings
This section explains how to set jumpers for correct configuration of the motherboard.
Setting Jumpers
Use the motherboard jumpers to set system configuration options. Jumpers with more than
one pin are numbered. When setting the jumpers, ensure that the jumper caps are placed on
the correct pins.
The illustrations show a 2-pin jumper. When
the jumper cap is placed on both pins, the
jumper is SHORT. If you remove the jumper
cap, or place the jumper cap on just one pin,
the jumper is OPEN.
SHORT
This illustration shows a 3-pin jumper. Pins
1 and 2 are SHORT
Installing the Motherboard
OPEN
9
Checking Jumper Settings
The following illustration shows the location of the motherboard jumpers. Pin 1 is labeled.
Jumper Settings
Jumper
CLR_CMOS
Type
3-pin
Description
Setting (default)
Clear CMOS
1-2: CLEAR CMOS
2-3: NORMAL
Before clearing the
CMOS, make sure to
turn off the system.
BIOS_WP
2-pin
BIOS_WP
1
CLR_CMOS
OPEN: FLASH WRITE
UNPROTECTED
SHORT: FLASH WRITE
PROTECTED
Installing the Motherboard
BIOS_WP
10
Connecting Case Components
After you have installed the motherboard into a case, you can begin connecting the motherboard components. Refer to the following:
1
2
3
3
4
6
7
Connect the CPU cooling fan cable to CPU_FAN.
Connect the case cooling fan connector to SYS_FAN.
Connect the auxiliary power supply cooling fan connector to PWR_FAN.
Connect the case speaker cable to SPK1.
Connect the case switches and indicator LEDs to the F_PANEL.
Connect the standard power supply connector to ATX1.
Connect the auxiliary case power supply connector to ATX12V.
Connecting 20/24-pin power cable
Users please note that the 20-pin and 24-pin power cables can both be connected
to the ATX1 connector. With the 20-pin power cable, just align the 20-pin power
cable with the pin 1 of the ATX1 connector. However, using 20-pin power cable
may cause the system to become unbootable or unstable because of insufficient
electricity. A minimum power of 300W is recommended for a fully-configured
system
Users please note that when installing 20pin power cable, the latche of power cable
clings to the left side of the ATX1 connector latch, just as the picture shows.
20-pin power cable
Users please note that when installing 24pin power cable, the latches of power cable
clings to right side of the ATX1 connector.
24-pin power cable
Installing the Motherboard
11
CPU_FAN: FAN Power Connector
Pin
1
2
3
4
Signal Name
GND
Function
System Ground
Power +12V
Sensor
FAN Speed control
+12V
Sense
Control
Users please note that the fan connector supports the CPU cooling fan of
1.1A~2.2A (26.4W max) at +12V.
PWR_FAN/SYS_FAN: FAN Power Connectors
Pin
1
2
3
Signal Name
Function
System Ground
Power +12V
Sensor
GND
+12V
Sense
SPK1: Internal speaker
Pin
1
2
3
4
Signal Name
VCC
Key
NO
Signal
ATX1: ATX 24-pin Power Connector
Pin
Signal Name
1
2
3
4
5
6
7
8
9
+3.3V
10
11
12
+12V
+3.3V
Ground
+5V
Ground
+5V
Ground
PWRGD
+5VSB
+12V
+3.3V
Pin
13
14
15
16
17
18
19
20
21
22
23
24
Signal Name
+3.3V
-12V
COM
PS_ON
COM
COM
COM
-5V
+5V
+5V
+5V
COM
Installing the Motherboard
12
ATX12V: ATX 12V Power Connector
Pin
1
2
3
4
Signal Name
+12V
+12V
Ground
Ground
Front Panel Header
The front panel header (F_PANEL) provides a standard set of switch and LED headers
commonly found on ATX or micro-ATX cases. Refer to the table below for information:
Pin
1
Signal
Function
Pin
Signal
Function
HD_LED_P Hard disk LED+
2
FP PWR/SLP *MSG LED+
3
HD_LED_N Hard disk LED-
4
FP PWR/SLP *MSG LED-
5
RST_SW_N Reset Switch
6
PWR_SW_P Power Switch
7
RST_SW_P
Reset Switch
8
PWR_SW_N Power Switch
9
RSVD
Reserved
10 Key
No pin
* MSG LED (dual color or single color)
Hard Drive Activity LED
Connecting pins 1 and 3 to a front panel mounted LED provides visual indication that data
is being read from or written to the hard drive. For the LED to function properly, an IDE
drive should be connected to the onboard IDE interface. The LED will also show activity
for devices connected to the SCSI (hard drive activity LED) connector.
Power/Sleep/Message waiting LED
Connecting pins 2 and 4 to a single or dual-color, front panel mounted LED provides power
on/off, sleep, and message waiting indication.
Reset Switch
Supporting the reset function requires connecting pin 5 and 7 to a momentary-contact
switch that is normally open. When the switch is closed, the board resets and runs POST.
Power Switch
Supporting the power on/off function requires connecting pins 6 and 8 to a momentarycontact switch that is normally open. The switch should maintain contact for at least 50 ms
to signal the power supply to switch on or off. The time requirement is due to internal debounce circuitry. After receiving a power on/off signal, at least two seconds elapses before
the power supply recognizes another on/off signal.
Installing the Motherboard
13
Installing Hardware
Installing the Processor
Caution: When installing a CPU heatsink and cooling fan make sure that
you DO NOT scratch the motherboard or any of the surface-mount
resistors with the clip of the cooling fan. If the clip of the cooling fan
scrapes across the motherboard, you may cause serious damage to the
motherboard or its components.
On most motherboards, there are small surface-mount resistors near the
processor socket, which may be damaged if the cooling fan is carelessly
installed.
Avoid using cooling fans with sharp edges on the fan casing and the clips.
Also, install the cooling fan in a well-lit work area so that you can clearly
see the motherboard and processor socket.
Before installing the Processor
This motherboard automatically determines the CPU clock frequency and system bus
frequency for the processor. You may be able to change these settings by making changes
to jumpers on the motherboard, or changing the settings in the system Setup Utility. We
strongly recommend that you do not over-clock processors or other components to run
faster than their rated speed.
Warning: Over-clocking components can adversely affect the reliability
of the system and introduce errors into your system. Over-clocking can
permanently damage the motherboard by generating excess heat in
components that are run beyond the rated limits.
This motherboard has a LGA775 socket. When choosing a processor, consider the performance requirements of the system. Performance is based on the processor design, the clock
speed and system bus frequency of the processor, and the quantity of internal cache memory
and external cache memory.
Installing the Motherboard
14
CPU Installation Procedure
The following illustration shows CPU installation components.
A. Unload the cap
· Use thumb & forefinger to hold the
lifting tab of the cap.
· Lift the cap up and remove the cap
completely from the socket.
B. Open the load plate
· Use thumb & forefinger to hold the
hook of the lever, pushing down and pulling
aside unlock it.
· Lift up the lever.
· Use thumb to open the load plate. Be
careful not to touch the contacts.
C. Install the CPU on the socket
· Orientate CPU package to the socket.
Make sure you match triangle marker
to pin 1 location.
D. Close the load plate
· Slightly push down the load plate onto the
tongue side, and hook the lever.
· CPU is locked completely.
E. Apply thermal grease on top of the CPU.
F.
Fasten the cooling fan supporting base onto
the CPU socket on the motherboard.
G. Make sure the CPU fan is plugged to the
CPU fan connector. Please refer to the CPU
cooling fan user’s manual for more detail
installation procedure.
To achieve better airflow rates and heat dissipation, we suggest that you use
a high quality fan with 3800 rpm at least. CPU fan and heatsink installation procedures may vary with the type of CPU fan/heatsink supplied. The
form and size of fan/heatsink may also vary.
Installing the Motherboard
15
Installing Memory Modules
This motherboard accommodates four 184-pin 2.5V unbuffered DIMM and supports DDR
333/400. You must install at least one module in any of the four slots. Each module can be
installed with 256MB to 1GB of memory; the total memory capacity is 4GB.
DDR SDRAM memory module table
Memory module
DDR 333
DDR 400
Memory Bus
166MHz
200MHz
Do not remove any memory module from its antistatic packaging until you
are ready to install it on the motherboard. Handle the modules only by
their edges. Do not touch the components or metal parts. Always wear a
grounding strap when you handle the modules.
Installation Procedure
Refer to the following to install the memory modules.
1
2
3
4
5
6
This motherboard supports unbuffered DDR and DDR2 SDRAM .
Push the latches on each side of the DIMM slot down.
Align the memory module with the slot. The DIMM slots are keyed with
notches and the DIMMs are keyed with cutouts so that they can only be
installed correctly.
Check that the cutouts on the DIMM module edge connector match the notches
in the DIMM slot.
Install the DIMM module into the slot and press it firmly down until it seats
correctly. The slot latches are levered upwards and latch on to the edges of
the DIMM.
Install any remaining DIMM modules.
Installing the Motherboard
16
Table A: DDR (memory module) QVL (Qualified Vendor List)
The following DDR400 memory modules have been tested and qualified for use with this
motherboard.
Size
256MB
Vendor
GEIL
Samsung
Kingston
HYNIX
Apacer
Samsung
CORSAIR
Kingston
GEIL
GEIL
Samsung
Kingston
HYNIX
Apacer
GEIL
Ramaxel
Samsung
CORSAIR
Kingston
GEIL
Kingston
Samsung
GEIL
512 MB
Kingston
Samsung
GEIL
Model Name
GE08L3264D1WL5NKT3H71
K4H560838D-TCCC
D3208DL2T-5 0323PT01
HY5DU5656822BT-D43
AM3A568ACT-5A
K4H560838E-TCCC
CMX256 3200C2PT
K4H560838D-TCC4
G216L6464D2TG5NKT2L
GE08L3264D1WL5NKT3H71
K4H560838D-TCCC
D3208DL2T-5 0323PT01
HY5DU5656822BT-D43
AM3A568ACT-5A
G208L364D1TG5NKT3C
MT-46V32M8 TG-5BC
K4H560838E-TCCC
CMX256 3200C2PT
K4H560838D-TCC4
G216L6464D2TG5NKT2L
SAMSUNG K4H560838D-TCC4
K4H560838E-TCCC
GE16L6464D2
WL5NKT3H66
SAMSUNG K4H560838D-TCC4
K4H560838E-TCCC
GE16L6464D2
WL5NKT3H66
Installing the Motherboard
17
Installing a Hard Dish Drive/CD-ROM/SATA Hard Drive
This section describes how to install IDE devices such as a hard disk drive and a CD-ROM
drive.
About IDE Devices
Your motherboard has one IDE channel interface. An IDE ribbon cable supporting two IDE
devices is bundled with the motherboard.
You must orient the cable connector so that the pin1 (color) edge of the
cable correspoinds to the pin 1 of the I/O port connector.
IDE1: IDE Connector
This motherboard supports four high data transfer SATA ports with each runs up to 150
MB/s. To get better system performance, we recommend users connect the CD-ROM to
the IDE channel, and set up the hard dives on the SATA ports.
IDE devices enclose jumpers or switches used to set the IDE device as MASTER or SLAVE.
Refer to the IDE device user’s manual. Installing two IDE devices on one cable, ensure that
one device is set to MASTER and the other device is set to SLAVE. The documentation of
your IDE device explains how to do this.
Installing the Motherboard
18
About SATA Connectors
Your motherboard features four SATA connectors supporting a total of four drives. SATA ,
or Serial ATA (Advanced Technology Attachment) is the standard interface for the IDE
hard drives which are currently used in most PCs. These connectors are well designed and
will only fit in one orientation. Locate the SATA connectors on the motherboard and follow
the illustration below to install the SATA hard drives.
Installing Serial ATA Hard Drives
To install the Serial ATA (SATA) hard drives, use the SATA cable that supports the Serial
ATA protocol. This SATA cable comes with an SATA power cable. You can connect either
end of the SATA cable to the SATA hard drive or the connector on the motherboard.
SATA cable
Refer to
1
2
3
(optional)
SATA power cable
(optional)
the illustration below for proper installation:
Attach either cable end to the connector on the motherboard.
Attach the other cable end to the SATA hard drive.
Attach the SATA power cable to the SATA hard drive and connect the other
end to the power supply.
This motherboard does not support the “Hot-Plug” function.
Installing the Motherboard
19
Installing a Floppy Diskette Drive
The motherboard has a floppy diskette drive (FDD) interface and ships with a diskette drive
ribbon cable that supports one or two floppy diskette drives. You can install a 5.25-inch
drive and a 3.5-inch drive with various capacities. The floppy diskette drive cable has one
type of connector for a 5.25-inch drive and another type of connector for a 3.5-inch drive.
You must orient the cable connector so that the pin 1 (color) edge of the
cable corresponds to the pin 1 of the I/O port connector.
FDC1: Floppy Disk Connector
This connector supports the provided floppy drive ribbon cable. After connecting the single
end to the onboard floppy connector, connect the remaining plugs on the other end to the
floppy drives correspondingly.
Installing the Motherboard
20
Installing Add-on Cards
The slots on this motherboard are designed to hold expansion cards and connect them to the
system bus. Expansion slots are a means of adding or enhancing the motherboard’s features
and capabilities. With these efficient facilities, you can increase the motherboard’s capabilities by adding hardware that performs tasks that are not part of the basic system.
PCIEX16
Slot
There is one PCI Express x16 slot onboard. The PCI Express x16 slot is used
to install an external PCI Express graphics card that is fully compliant to the
PCI Express Base Specification revision 1.0a
PCI 1/2/3
Slots
This motherboard is equipped with three standard PCI slots. PCI stands for
Peripheral Component Interconnect and is a bus standard for expansion
cards, which for the most part, is a supplement of the older ISA bus standard.
The PCI slots on this board are PCI v2.3 compliant.
Before installing an add-on card, check the documentation for the card
carefully. If the card is not Plug and Play, you may have to manually
configure the card before installation.
Installing the Motherboard
21
Follow these instructions to install an add-on card:
1
2
3
Remove a blanking plate from the system case corresponding to the slot you
are going to use.
Install the edge connector of the add-on card into the expansion slot. Ensure
that the edge connector is correctly seated in the slot.
Secure the metal bracket of the card to the system case with a screw.
For some add-on cards, for example graphics adapters and network adapters, you have to install drivers and software before you can begin using the
add-on card.
Installing the Motherboard
22
Connecting Optional Devices
Refer to the following for information on connecting the motherboard’s optional devices:
F_USB1/F_USB2: Front Panel USB headers
The motherboard has four USB ports installed on the rear edge I/O port array. Additionally,
some computer cases have USB ports at the front of the case. If you have this kind of case,
use auxiliary USB connector to connect the front-mounted ports to the motherboard.
Pin
1
2
3
4
5
6
7
8
9
10
Signal Name
Function
USBPWR
Front Panel USB Power
USBPWR
Front Panel USB Power
USB_FP_P0-
USB Port 0 Negative Signal
USB_FP_P1-
USB Port 1 Negative Signal
USB_FP_P0+
USB Port 0 Positive Signal
USB_FP_P1+
USB Port 1 Positive Signal
GND
Ground
GND
Ground
Key
No pin
USB_FP_OC0
Overcurrent signal
Please make sure that the USB cable has the same pin assignment as
indicated above. A different pin assignment may cause damage or system
hand-up.
Installing the Motherboard
23
F_AUDIO1: Front Panel Audio header
This header allows the user to install auxiliary front-oriented microphone and line-out ports
for easier access.
Pin
Signal Name
Function
1
2
3
4
5
6
7
AUD_MIC
Front Panel Microphone input signal
AUD_GND
Ground used by Analog Audio Circuits
8
9
10
Key
No Pin
AUD_F_L
Left Channel Audio signal to Front Panel
AUD_RET_L
Left Channel Audio signal to Return from Front Panel
AUD_MIC_BIAS Microphone Power
AUD_VCC
Filtered +5V used by Analog Audio Circuits
AUD_FPOUT_R Right Channel audio signal to Front Panel
AUD_RET_R
RightChannelAudiosignaltoReturnfromFrontPanel
HP_ON
Reserved for future use to control Headphone Amplifier
F_AUDIO2: Front Panel Audio header for Azalia (optional)
This header allows the user to install auxiliary front-oriented microphone and line-out ports
for easier access.
Pin
Signal Name
1
2
3
4
5
6
7
PORT-FL
8
9
10
Key
GND
PORT-FR
ACZ-DET
PORT-ER
AGND
SENSE B
PORT-EL
GND
If your front panel cable is seperated, please connect it to pin1 and pin3 or
pin5 and pin7 to activate the MIC function.
Installing the Motherboard
24
AUXIN1: Auxiliary-in connector
This connector is an additional line-in audio connector. It allows you to
attach a line-in cable when your rear line-in jack is set as line out port for 4channel function.
Pin
Signal Name
1
2
3
4
Function
AUX In left channel
Ground
Ground
AUX In right channel
AUXIN_L
AGND
AGND
AUXIN_R
CDIN1: Primary CD-in connector
Pin
Signal Name
1
2
3
4
CD _L
GND
GND
CD _R
SATA1/2/3/4: Serial ATA connectors
These connectors are use to support the new Serial ATA devices for the highest date transfer
rates (150 MB/s), simpler disk drive cabling and easier PC assembly. It eliminates limitations
of the current Parallel ATA interface. But maintains register compatibility and software
compatibility with Parallel ATA.
Pin
Pin
Signal Name
Signal Name
Ground
1
3
5
7
Pin
2
4
6
-
TXRXGround
Signal Name
Function
TX+
Ground
RX+
-
COM2: Onboard serial port header
Connect a serial port extension bracket to this header to add a second serial port to your
system.
Pin
Signal Name
1
2
3
4
5
6
7
NDCDB
8
9
10
Function
Data carry detect
NSINB
Serial Data In
NSOUTB
Serial Date Out
NDTRB
Data terminal ready
GND
Ground
NDSRB
Date set ready
NRTSB
Request to send
NCTSB
Clear to send
NRIB
Ring Indicator
Key
No pin
Installing the Motherboard
25
SPDIF1: SPDIF in header
This is an optional header that provides an S/PDIF (Sony/Philips Digital Interface) input to
digital multimedia device through optical fiber or coxial connector.
Pin
Pin
1
2
3
Signal Name
Signal Name
Function
Function
VCC3
GND
SPDIF
Power
Ground
SPDIF digital input
SPDIFO1: SPDIF out header
This is an optional header that provides an S/PDIF (Sony/Philips Digital Interface) output
to digital multimedia device through optical fiber or coxial connector.
Pin
Pin
1
2
3
4
Signal Name
Signal Name
SPDIF
+5VA
Key
GND
Function
Function
SPDIF digital output
5V analog power
No pin
Ground
CHS1: Chasis intrusion detection header
Pin 1~2
Function
Short
Open
Case Open
Case Close
Installing the Motherboard
26
Connecting I/O Devices
The backplane of the motherboard has the following I/O ports:
PS2 Mouse
Use the upper PS/2 port to connect a PS/2 pointing device.
PS2 Keyboard
Use the lower PS/2 port to connect a PS/2 keyboard.
Parallel Port (LPT1) Use LPT1 to connect printers or other parallel communications
devices.
Serial Port
(COM1)
Use the COM port to connect serial devices such as mice or
fax/modems. COM1 is identified by the system as COM1/3.
VGA Port
Connect your monitor to the VGA port.
LAN Port
(optional)
Connect an RJ-45 jack to the LAN port to connect your computer
to the Network.
USB Ports
Use the USB ports to connect USB devices.
Audio Ports
Use the audio jacks to connect audio devices. The D port is for
stereo line-in signal, while the F port is for microphone in signal.
This motherboard supports 8-channel audio devices that correspond to the A, B, C, and E port respectively. In addition, all of the
3 ports, B, C, and E provide users with both right & left channels
individually. Users please refer to the following note for specific
port function definition.
A: Center & Woofer
B: Back Surround
C: Side Surround
D: Line-in
E: Front Out
F: Mic_in Rear
The above port definition can be changed to audio input or
audio output by changing the driver utility setting.
This concludes Chapter 2. The next chapter covers the BIOS.
Installing the Motherboard
27
Chapter 3
Using BIOS
About the Setup Utility
The computer uses the latest Award BIOS with support for Windows Plug and Play. The
CMOS chip on the motherboard contains the ROM setup instructions for configuring the
motherboard BIOS.
The BIOS (Basic Input and Output System) Setup Utility displays the system’s configuration status and provides you with options to set system parameters. The parameters are
stored in battery-backed-up CMOS RAM that saves this information when the power is
turned off. When the system is turned back on, the system is configured with the values you
stored in CMOS.
The BIOS Setup Utility enables you to configure:
•
Hard drives, diskette drives and peripherals
•
Video display type and display options
•
Password protection from unauthorized use
•
Power Management features
The settings made in the Setup Utility affect how the computer performs. Before using the
Setup Utility, ensure that you understand the Setup Utility options.
This chapter provides explanations for Setup Utility options.
The Standard Configuration
A standard configuration has already been set in the Setup Utility. However, we recommend
that you read this chapter in case you need to make any changes in the future.
This Setup Utility should be used:
•
when changing the system configuration
•
when a configuration error is detected and you are prompted to make changes
to the Setup Utility
•
when trying to resolve IRQ conflicts
•
when making changes to the Power Management configuration
•
when changing the password or making other changes to the Security Setup
Entering the Setup Utility
When you power on the system, BIOS enters the Power-On Self Test (POST) routines.
POST is a series of built-in diagnostics performed by the BIOS. After the POST routines are
completed, the following message appears:
Using BIOS
28
Press DEL to enter SETUP
Pressing the delete key accesses the BIOS Setup Utility:
Phoenix-AwardBIOS CMOS Setup Utility:
f Standard CMOS Features
f Advanced BIOS Features
f Advanced Chipset Features
f Integrated Peripherals
fPower Management Setup
f PnP/PCI Configurations
f PC Health Status
fFrequency/Voltage Control
Load Fail-Safe Defaults
Load Optimized Defaults
Set Supervisor Password
Set User Password
Save & Exit Setup
Exit Without Saving
mnlk
Esc: Quit
F10: Save & Exit Setup
: Select Item
Time, Date, Hard Disk Type...
BIOS Navigation Keys
The BIOS navigation keys are listed below:
KEY
ESC
FUNCTION
Exits the current menu
oqrt
Scrolls through the items on a menu
+/-/PU/PD
Modifies the selected field’s values
F10
Saves the current configuration and exits setup
F1
Displays a screen that describes all key functions
F5
Loads previously saved values to CMOS
F6
Loads a minimum configuration for troubleshooting
F7
Loads an optimum set of values for peak performance
Using BIOS
29
Updating the BIOS
You can download and install updated BIOS for this motherboard from the manufacturer’s
Web site. New BIOS provides support for new peripherals, improvements in performance,
or fixes for known bugs. Install new BIOS as follows:
1
If your motherboard has a BIOS protection jumper, change the setting to allow
BIOS flashing.
2
If your motherboard has an item called Firmware Write Protect in Advanced
BIOS features, disable it. (Firmware Write Protect prevents BIOS from being
overwritten.
3
Create a bootable system disk. (Refer to Windows online help for information
on creating a bootable system disk.)
4
Download the Flash Utility and new BIOS file from the manufacturer’s Web
site. Copy these files to the system diskette you created in Step 3.
5
Turn off your computer and insert the system diskette in your computer’s
diskette drive. (You might need to run the Setup Utility and change the boot
priority items on the Advanced BIOS Features Setup page, to force your
computer to boot from the floppy diskette drive first.)
6
At the A:\ prompt, type the Flash Utility program name and press <Enter>.
7
Type the filename of the new BIOS in the “File Name to Program” text box.
Follow the onscreen directions to update the motherboard BIOS.
8
When the installation is complete, remove the floppy diskette from the diskette
drive and restart your computer. If your motherboard has a Flash BIOS jumper,
reset the jumper to protect the newly installed BIOS from being overwritten.
Using BIOS
When you start the Setup Utility, the main menu appears. The main menu of the Setup
Utility displays a list of the options that are available. A highlight indicates which option is
currently selected. Use the cursor arrow keys to move the highlight to other options. When
an option is highlighted, execute the option by pressing <Enter>.
Some options lead to pop-up dialog boxes that prompt you to verify that you wish to
execute that option. Other options lead to dialog boxes that prompt you for information.
Some options (marked with a triangle f ) lead to submenus that enable you to change the
values for the option. Use the cursor arrow keys to scroll through the items in the submenu.
In this manual, default values are enclosed in parenthesis. Submenu items are denoted by a
triangle f .
Using BIOS
30
Standard CMOS Features
This option displays basic information about your system.
Phoenix-AwardBIOS CMOS Setup Utility
Standard CMOS Features
f
f
f
f
Date (mm:dd:yy)
Time (hh:mm:ss)
IDE Channel 0 Master
IDE Channel 0 Slave
IDE Channel 1 Master
IDE Channel 1 Slave
Mon, Nov 17 2004
13 : 4 : 54
Item Help
Menu Level
Drive A
Floppy 3 Mode Support
[1.44M, 3.5 in.]
[Disabled]
Video
Halt On
[EGA/VGA]
[All Errors]
Base Memory
Extended Memory
Total Memory
640K
65535K
1024K
: Move
Enter: Select +/-/PU/PD:Value
mnlkF5:Previous
Values
F6:Fail-Safe Defaults
f
Change the day, month,
year and century.
F10:Save ESC:Exit F1: General Help
F7:Optimized Defaults
Date and Time
The Date and Time items show the current date and time on the computer. If
you are running a Windows OS, these items are automatically updated whenever you make
changes to the Windows Date and Time Properties utility.
fIDE Devices (None)
Your computer has two IDE channels (Primary and Secondary) and each channel can be
installed with one or two devices (Master and Slave). In addition, this motherboard supports
two SATA channels (Primary and Secondary) and each channel allows one SATA device to
be installed. Use these items to configure each device on the IDE channel.
Press <Enter> to display the IDE submenu:
Phoenix-AwardBIOS CMOS Setup Utility
IDE Primary Master
IDE HDD Auto-Detection
IDE Channel 1 Master
Access Mode
Capacity
Cylinder
Head
Precomp
Landing Zone
Sector
[ Press Enter]
[Auto]
[Auto]
0 MB
0
0
0
0
0
Item Help
Menu Level
ff
To auto-detect the HDD’s
size, head...on this channel
mnlk: Move
Enter: Select +/-/PU/PD:Value F10:Save ESC:Exit F1: General Help
F5:Previous Values
F6:Fail-Safe Defaults
F7:Optimized Defaults
IDE HDD Auto-Detection
Press <Enter> while this item is highlighted to prompt the Setup Utility to automatically
detect and configure an IDE device on the IDE channel.
If you are setting up a new hard disk drive that supports LBA mode, more
than one line will appear in the parameter box. Choose the line that lists
LBA for an LBA drive.
Using BIOS
31
IDE Channel 0/1 Master/Slave (Auto)
Leave this item at Auto to enable the system to automatically detect and configure
IDE devices on the channel. If it fails to find a device, change the value to Manual and
then manually configure the drive by entering the characteristics of the drive in the
items described below.
Refer to your drive’s documentation or look on the drive casing if you need to obtain
this information. If no device is installed, change the value to None.
Before attempting to configure a hard disk drive, ensure that you have the
configuration information supplied by the manufacturer of your hard drive.
Incorrect settings can result in your system not recognizing the installed
hard disk.
Access Mode (Auto)
This item defines ways that can be used to access IDE hard disks such as LBA (Large
Block Addressing). Leave this value at Auto and the system will automatically decide
the fastest way to access the hard disk drive.
Press <Esc> to return to the Standard CMOS Features page.
Drive A (1.44M, 3.5 in./None)
These items define the characteristics of any diskette drive attached to the system.
You can connect one or two diskette drives.
Floppy 3 Mode Support (Disabled)
Floppy 3 mode refers to a 3.5-inch diskette with a capacity of 1.2 MB. Floppy 3 mode is
sometimes used in Japan.
Video (EGA/VGA)
This item defines the video mode of the system. This motherboard has a built-in VGA
graphics system; you must leave this item at the default value.
Halt On (All Errors)
This item defines the operation of the system POST (Power On Self Test) routine. You
can use this item to select which types of errors in the POST are sufficient to halt the
system.
Base Memory, Extended Memory, and Total Memory
These items are automatically detected by the system at start up time. These are
display-only fields. You cannot make changes to these fields.
Using BIOS
32
Advanced BIOS Features
This option defines advanced information about your system.
f CPU Feature
Hard Disk Boot Priority
f CPU
L3 Cache
Item Help
Menu Level
f
123
123
123
123
f
Hyper-Threading Technology
Quick Power On Self Test
First Boot Device
Second Boot Device
Third Boot Device
Boot Other Device
Boot Up Floppy Seek
Boot Up NumLock Status
Gate A20 Option
Typematic Rate Setting
X Typematic Rate (Chars/Sec )
X Typematic Delay (Msec)
Security Option
APIC Mode
OS Select For DRAM > 64MB
HDD S.M.A.R.T. Capability
[Press Enter]
[Press Enter]
[Enabled]
[Enabled]
[Enabled]
[Floppy]
[Hard Disk]
[CDROM]
[Enabled]
[Disabled]
[On]
[Fast]
[Disabled]
6
250
[Setup]
[Enabled]
[Non-OS2]
[Disabled]
f
Phoenix-AwardBIOS CMOS Setup Utility
Advanced BIOS Features
mnlk : Move
Enter: Select +/-/PU/PD:Value F10:Save ESC:Exit F1: General Help
F5:Previous Values F6:Fail-Safe Defaults
F7:Optimized Defaults
f CPU Feature (Press Enter)
Users please note that this function is only available for Prescott CPUs. Scroll to this
item and press <Enter> to view the following screen:
Phoenix-AwardBIOS CMOS Setup Utility
CPU Feature
Delay Prior to thermal
Thermal Management
TM2 Bus Ratio
TM2 Bus VID
Limit CPUID MaxVal
[16 Min]
[Thermal Monitor 1]
[0 X]
[0.8375V]
[Disabled]
Item Help
Menu Level
ff
Thermal Monitor 1 (On die
throtting)
Thermal Monitor 2 Ratio
& VID transition
mnlk : Move
Enter: Select +/-/PU/PD:Value F10:Save ESC:Exit F1: General Help
F5:Previous Values
F6”Fail-Safe Defaults
F7:Optimized
Delay Prior to Thermal (Thermal Monitor 1)
This item enables you to set the delay time before the CPU enters auto
thermal mode.
Thermal Management (Thermal Monitor 1)
This item displays CPU’s temperature and enables you to set a safe
temperature to Prescott CPU.
Using BIOS
33
TM2 Bus Ratio (0X)
This item helps you to set the frequency (bus ratio) of the throttled
performance that will be initiated when the on-die sensor goes from not
hot to hot. You may set the bus ratio number from 0-255. This feature is
available when CPU supports Thermal Monitor 2.
TM2 Bus VID (0.8375V)
This item helps you to set the voltage of the throttled performance that
will be initiated when the on-die sensor goes from not hot to hot. This
feature is available when CPU supports Thermal Monitor 2.
Limit CPUID MaxVal (Disabled)
This item can support Prescott CPUs for old OS. Users please note that under NT 4.0,
it must be set “Enabled”, while under WinXP, it must be set “Disabled”.
Press <Esc> to return to the Advanced BIOS Features screen.
f Hard Disk Boot Priority (Press Enter)
Scroll to this item and press <Enter> to view the following screen:
Phoenix-AwardBIOS CMOS Setup Utility
Hard Disk Boot Priority
1. Pri. Master:
2. Pri. Slave:
3. Sec. Master:
4. Sec. Slave:
5. USBHDD0:
6. USBHDD1:
7. USBHDD2:
8. Bootable Add-in Cards
mn
: Move
Item Help
Menu Level
ff
m
n
Use < > or < > to select
a device, then press <+> to
move it up, or <-> to move it
down the list. Press <ESC>
to exit this menu.
PU/PD/+/-/: Change Priority
F10:Save
ESC:Exit
CPU L3 Cache (Enabled)
All Prescott processors that can be installed in this mainboard use Level 3 (L3) cache
memory to improve performance. Leave this item at the default value for better performance. This item is only available when you use L3 cache supported CPU.
Hyper-Threading Technology (Enabled)
This item is only available when the chipset supports Hyper-Threading and you are
using a Hyper-Threading CPU.
Quick Power On Self Test (Enabled)
Enable this item to shorten the power on testing (POST) and have your system start
up faster. You might like to enable this item after you are confident that your system
hardware is operating smoothly.
First/Second/Third Boot Device (Floppy/Hard Disk/CDROM)
Use these three items to select the priority and order of the devices that your system
searches for an operating system at start-up time.
Using BIOS
34
Boot Other Device (Enabled)
When enabled, the system searches all other possible locations for an operating system if
it fails to find one in the devices specified under the First, Second, and Third boot devices.
Boot Up Floppy Seek (Disabled)
If this item is enabled, it checks the size of the floppy disk drives at start-up time. You
don’t need to enable this item unless you have a legacy diskette drive with 360K capacity.
Boot Up NumLock Status (On)
This item defines if the keyboard Num Lock key is active when your system is started.
Gate A20 Option (Fast)
This item defines how the system handles legacy software that was written for an earlier
generation of processors. Leave this item at the default value.
Typematic Rate Setting (Disabled)
If this item is enabled, you can use the following two items to set the typematic rate and the
typematic delay settings for your keyboard.
•
Typematic Rate (Chars/Sec): Use this item to define how many characters per second are generated by a held-down key.
•
Typematic Delay (Msec): Use this item to define how many milliseconds
must elapse before a held-down key begins generating repeat characters.
Security Option (Setup)
If you have installed password protection, this item defines if the password is required at
system start up, or if it is only required when a user tries to enter the Setup Utility.
APIC Mode (Enabled)
This item allows you to enable or disable the APIC (Advanced Programmable Interrupt
Controller) mode. APIC provides symmetric multi-processing (SMP) for systems, allowing
support for up to 60 processors.
OS Select For DRAM > 64 MB (Non-OS2)
This item is only required if you have installed more than 64 MB of memory and you are
running the OS/2 operating system. Otherwise, leave this item at the default.
HDD S.M.A.R.T Capability (Disabled)
The S.M.A.R.T. (Self-Monitoring, Analysis, and Reporting Technology) system is a
diagnostics technology that monitors and predicts device performance. S.M.A.R.T.
software resides on both the disk drive and the host computer.
Report No FDD For WIN 95 (Yes)
This item determines whether the BIOS will report no FDD for Windows 95 OS.
Full Screen LOGO Show (Enabled)
When enabled, this will show a full screen company logo on the boot up screen. Select
disabled when you want to show POST messages during boot up.
Small Logo (EPA) Show (Disabled)
Enables or disables the display of the EPA logo during boot.
Using BIOS
35
Advanced Chipset Features
These items define critical timing parameters of the motherboard. You should leave the
items on this page at their default values unless you are very familiar with the technical
specifications of your system hardware. If you change the values incorrectly, you may
introduce fatal errors or recurring instability into your system.
DRAM Timing Selectable
CAS Latency Time
DRAM RAS# to CAS# Delay
DRAM RAS# Precharge
Precharge delay (sRAS)
System Memory Frequency
System BIOS Cacheable
Video BIOS Cacheable
f PCI Express Root Port Func
***VGA Setting***
On-Chip Video memory size
X On-Chip Frame Buffer Size
X Fixed Memory Size
X DVMT Memory Size
Boot Display
[By SPD]
[Auto]
[Auto]
[Auto]
[Auto]
[Auto]
[Disabled]
[Disabled]
[Press Enter]
X
X
X
X
X
f
Phoenix-AwardBIOS CMOS Setup Utility
Advanced Chipset Features
Item Help
Menu Level
f
[Press Enter]
[8M]
[8M]
[128M]
[Auto]
12
12
12
f
mnlk : Move
Enter: Select +/-/PU/PD:Value F10:Save ESC:Exit F1: General Help
F5:Previous Values
F6:Fail-Safe Defaults
F7:Optimized Defaults
DRAM Timing Selectable (By SPD)
Enables you to select the CAS latency time in HCLKs of 2, 2.5, or 3. The value is set at the
factory depending on the DRAM installed. Do not change the values in this field unless you
change specifications of the installed DRAM or the installed CPU.
•
CAS Latency Time (Auto): This item controls the timing delay (in clock
cycles) before the DRAM starts a read command after receiving it.
•
DRAM RAS# to CAS# Delay (Auto): This field lets you insert a timing delay
between the CAS and RAS strobe signals, used when DRAM is written to,
read from, or refreshed. Disabled gives faster performance; and Enabled
gives more stable performance.
•
DRAM RAS# Precharge (Auto): Select the number of CPU clocks allocated
forthe Row Address Strobe (RAS#) signal to accumulate its charge before
the DRAM is refreshed. If insufficient time is allowed, refresh may be incom
plete and data lost.
•
Precharge delay (tRAS): The precharge time is the number of cycles it
takes for DRAM to accummulate charge before refresh.
•
System Memory Frequency (Auto): This item sets the main memory fre
quency. When you use an external graphics card, you can adjust this to
enable the best performance for your system.
Using BIOS
36
System BIOS Cacheable (Disabled)
When this item is enabled, the System BIOS will be cached for faster execution.
Video BIOS Cacheable (Disabled)
When this is enabled, the Video RAM will be cached resulting to better performance.
However, if any program was written to this memory area, this may result to system error.
fPCI Express Root Port Func (Press Enter)
Scroll to this item and press <Enter> to view the following screen:
Phoenix-AwardBIOS CMOS Setup Utility
PCI Express Root Port Func
PCI Express Port
[Auto]
Item Help
Menu Level
f
mnlk : Move
Enter: Select +/-/PU/PD:Value F10:Save ESC:Exit F1: General Help
F5:Previous Values
F6:Fail-Safe Defaults F7:Optimized Defaults
PCI Express Port 1 (Auto)
This item enables PCI transmission to a higher level.
Press <Esc> to return to the Advanced Chipset Features screen.
O-chip Video memory size (Press Enter)
This item combines the following 3 items, which are On-Chip Frame Buffer Size, Fixed
memory size, and DVMT memory size.
•
On-chip Frame Buffer Size (8M): This item allows you to set the VGA
frame buffer size.
•
Fixed memory size (8M): This item allows you to select a static amount
of page-locked graphics memory that is allocated during driver initialization.
The item provides the total amount of graphics memory available to the
system.
•
DVMT Momory size (128M): DVMT is Dynamic Video Memory Technology; this item allows you to select a maximum size of dynamic amount
usage of video memory. The system would configure the video memory
depending on your application.
Boot Display (Auto)
This item is for Intel define ADD card only.
Using BIOS
37
Integrated Peripherals
These options display items that define the operation of peripheral components on the
system’s input/output ports.
Phoenix-AwardBIOS CMOS Setup Utility
Integrated Peripherals
f OnChip IDE Device
f Onboard Device
f SuperIO Device
Item Help
[Press Enter]
[Press Enter]
[Press Enter]
Menu Level
f
mnlk : Move
Enter: Select +/-/PU/PD:Value F10:Save ESC:Exit F1: General Help
F5:Previous Values
F6:Fail-Safe Defaults F7:Optimized Defaults
fOnChip IDE Device
Scroll to this item and press <Enter> to view the following screen:
Phoenix-AwardBIOS CMOS Setup Utility
OnChip IDE Device
IDE HDD Block Mode
ATA 66/100 Cable Msg
IDE DMA transfer access
On-chip Primary PCI IDE
IDE Primary Master PIO
IDE Primary Slave PIO
IDE Primary Master UDMA
IDE Primary Slave UDMA
On-chip Secondary PCI IDE
IDE Secondary Master PIO
IDE Secondary Slave PIO
IDE Secondary Master UDMA
IDE Secondary Slave UDMA
[Enabled]
[Enabled]
[Enabled]
[Enabled]
[Auto]
[Auto]
[Auto]
[Auto]
[Enabled]
[Auto]
[Auto]
[Auto]
[Auto]
*** On-Chip Serial ATA Setting***
On-chip Serial ATA
PATA IDE Mode
SATA Port
[Disabled]
[Primary]
P1,P3 is Secondary
Item Help
Menu Level
ff
mnlk : Move
Enter: Select +/-/PU/PD:Value F10:Save ESC:Exit F1: General Help
F5:Previous Values
F6:Fail-Safe Defaults F7:Optimized Defaults
IDE HDD Block Mode (Enabled)
Block mode is also called block transfer, multiple commands, or multiple sector read/write.
If your IDE hard drive supports block mode (most new drives do), select Enabled for
automatic detection of the optimal number of block read/write per sector the drive can
support.
ATA 66/100 Cable Msg (Enabled)
This item enalbes or disabled the display of the ATA 66/100 Cable Msg. If you install a
device that supports UDMA, change the appropriate item on this list to Auto. You may
have to install the UDMA driver supplied with this motherboard in order to use an UDMA
device.
Using BIOS
38
IDE DMA transfer access (Enabled)
This item allows you to enable the transfer access of the IDE DMA.
On-Chip Primary/Secondary PCI IDE (Enabled)
This integrated peripheral controller contains an IDE interface with support for two IDE
channels. Select Enabled to activate each channel seperately.
IDE Primary/Secondary Master/Slave PIO (Auto)
Each IDE channel supports a master device and a slave device. These four items let you
assign the kind of PIO (Programmed Input/Output) was used by the IDE devices. Choose
Auto to let the system auto detect which PIO mode is best, or select a PIO mode from 0-4.
IDE Primary/Secondary Master/Slave UDMA (Auto)
Each IDE channel supports a master device and a slave device. This mainboard supports
UltraDMA technology, which provides faster access to IDE devices. If you install a device
that supports UltraDMA, change the appropriate item on this list to Auto. You may have
to install the UltraDMA driver supplied with this mainboard in order to use an UltraDMA
device.
On-Chip Serial ATA (Disabled)
When set to disabled, then the SATA controller is disabled; when set to Auto, then it will be
automatically arranged by BIOS; when set to combined mode, then PATA and SATA are
combined. Maximum of 2 IDE drives in each channel. When set to enhanced mode, then
bothe SATA and PATA will be enabled. Maximum of 6 IDE drives are supported. When set
to SATA only, then SATA is operating in legacy mode.
PATA IDE Mode (Primary)
This item is used to set the PATA IDE mode. When set to Primary, P1 and P3 are
Secondary; on the other hand, when set to Secondary, P0 and P2 are Primary.
Press <Esc> to return to the Integrated Peripherals screen.
fOnboard Device
Scroll to this item and press <Enter> to view the following screen:
Phoenix-AwardBIOS CMOS Setup Utility
Onboard Device
USB Controller
USB 2.0 Controller
USB Keyboard Support
USB Mouse Support
Azalia/AC97 AUDIO Select
Onboard LAN Device
Onboard LAN Boot ROM
[Enabled]
[Enabled]
[Enabled]
[Enabled]
[Auto]
[Enabled]
[Disabled]
Item Help
Menu Level
ff
mnlk : Move
Enter: Select +/-/PU/PD:Value F10:Save ESC:Exit F1: General Help
F5:Previous Values
F6:Fail-Safe Defaults
F7:Optimized Defaults
USB Controller (Enabled)
This item enables the USB controller. Leave this at the default “Enabled” if you want to
connect USB devices to your computer.
Using BIOS
39
USB 2.0 Controller (Enabled)
Enable this item if want to use the USB 2.0.
USB Keyboard Support (Enabled)
This item allows the BIOS to interact with a USB keyboard or mouse to work with MS-DOS
based utilities and non-Windows modes.
USB Mouse Support (Enabled)
Enable this item if you plan to use a mouse connected through the USB port in a legacy
operating system (such as DOS) that does not support Plug and Play.
Azalia/AC97 AUDIO Select (Enabled)
This option allows you to enable or disable the onboard audio. Disable this item if you are
going to install a PCI audio add-on card.
Onboard LAN Device (Enabled)
This option allows you to enable or disable the onboard LAN.
Onboard LAN Boot ROM (Disabled)
Use this item to enable and disable the booting from the onboard LAN or a network add-in
card with a remote boot ROM installed.
Press <Esc> to return to the Integrated Peripherals screen.
fSuperIO Device
Scroll to this item and press <Enter> to view the following screen:
Phoenix-AwardBIOS CMOS Setup Utility
SuperIO Device
POWER ON Function
KB Power ON Password(S3)
Hot key Power ON(S3)
Onboard FDC Controller
Onboard Serial Port1
UART 2 Mode Controller
UART 2 Select
RxD , TxD Active
IR Transmission Delay
UR2 Duplex Mode
Use IR Pins
Onboard Parallel Port
Parallel Port Mode
ECP Mode Use DMA
[Hot Key]
[Enter]
[Ctrl-F12]
[Enabled]
[3F8/IRQ4]
[Disabled]
[Normal]
[Hi, Lo]
[Enabled]
[Half]
[IR-Rx2Tx2]
[378/IRQ7]
[ECP]
[3]
Item Help
Menu Level
ff
mnlk : Move
Enter: Select +/-/PU/PD:Value F10:Save ESC:Exit F1: General Help
F5:Previous Values
F6:Fail-Safe Defaults
F7:Optimized Defaults
POWER ON Function (Hot Key)
This feature allows you to set the method by which your system can be turned on.
KB Power ON Password(S3) (Enter)
When the POWER ON Function is set to Password, use this item to set the passowrd.
Hot Key Power On(S3) (Ctrl-F12)
When the POWER ON Function is set to Hot Key, use this item to set the hot key
combination that turns on the system.
Using BIOS
40
Onboard FDC Controller (Enabled)
Select Enabled if your system has a floppy disk controller (FDC) installed on the system
board and you wish to use it. If you install an add-in FDC or the system has no floppy drive,
select Disabled in this field.
Onboard Serial Port1 (3F8/IRQ4)
This option is used to assign the I/O address and interrupt request (IRQ) for onboard serial
port1 (COM1).
UART 2 Mode Control (Disabled)
This item allows users to enable or disable the onboard UART2 mode control.
UART 2 Select (Normal)
This field is available if the “Onboard Serial Port 2” is set to any option but Disabled. UART
Mode Select enables you to select the infrared communication protocol-Normal (default),
IrDA, or ASKIR. IrDA is an infrared communication protocol with a maximum baud rate up
to 115.2K bps. ASKIR is Sharp’s infrared communication protocol with a maximum baud
rate up to 57.6K bps.
RxD , TxD Active (Hi, Lo)
This feature enables you to set the IR reception/transmission polarity as High or Low
IR Transmission Delay (Enabled)
This field enables you to set the whether the IR transmission rate will be delayed while
converting to receiving mode.
UR2 Duplex Mode (Half)
This field is available when UART 2 Mode is set to either ASKIR or IrDA. This item enables
you to determine the infrared function of the onboard infrared chip. The options are Full
and Half (default). Full-duplex means you can transmit and receive data simultaneously.
Half-duplex is the transmission of data in either transmitting or receiving, only one direction at a time.
Use IR Pins (IR-Rx2Tx2)
Please consult your IR peripheral documentation to select the correct setting of the
TxD and RxD signals.
Onboard Parallel Port (378/IRQ7)
This option is used to assign the I/O address and interrupt request (IRQ) for the onboard
parallel port.
Parallel Port Mode (ECP)
Enables you to set the data transfer protocol for your parallel port. There are four options:
SPP (Standard Parallel Port), EPP (Enhanced Parallel Port), ECP (Extended Capabilities
Port), and ECP+EPP.
SPP allows data output only. Extended Capabilities Port (ECP) and Enhanced Parallel Port
(EPP) are bi-directional modes, allowing both data input and output. ECP and EPP modes
are only supported with EPP- and ECP-aware peripherals.
ECP Mode Use DMA (3)
When the onboard parallel port is set tp ECP mode, the parallel port can use DMA3 or
DMA1.
Press <Esc> to return to the Integrated Peripherals screen.
Using BIOS
41
Power Management Setup
This option lets you control system power management. The system has various powersaving modes including powering down the hard disk, turning off the video, suspending to
RAM, and software power down that allows the system to be automatically resumed by
certain events.
The power-saving modes can be controlled by timeouts. If the system is inactive for a time,
the timeouts begin counting. If the inactivity continues so that the timeout period elapses,
the system enters a power-saving mode. If any item in the list of Reload Global Timer
Events is Enabled, then any activity on that item will reset the timeout counters to zero.
If the system is suspended or has been powered down by software, it can be resumed by a
wake up call that is generated by incoming traffic to a modem, a LAN card, a PCI card,
or a fixed alarm on the system realtime clock
Phoenix-AwardBIOS CMOS Setup Utility
Power Management Setup
x
x
ACPI Suspend Type
Run VGABIOS if S3 Resume
Video Off Method
Video Off In Suspend
Suspend Type
Modem Use IRQ
Suspend Mode
HDD Power Down
Soft-Off by PWR-BTTN
CPU-THRM-Throttling
Resume by PCI PME
Resume by Ring
Resume by USB (S3)
Resume by Alarm
Date (of Month) Alarm
Time (hh:mm:ss) Alarm
[S3 (STR)]
[Auto]
[DPMS]
[Yes]
[Stop Grant]
[3]
[Disabled]
[Disabled]
[Instant-Off]
[50.0%]
[Enabled]
[Disabled]
[Disabled]
[Disabled]
0
0 0 0
** Reload Global Timer Evernts **
Primary IDE 0
Primary IDE 1
[Disabled]
[Disabled]
Item Help
Menu Level
f
12
12
12
12
Enter: Select +/-/PU/PD:Value F10:Save ESC:Exit F1: General Help
mnlk : Move
F5:Previous Values
F6:Fail-Safe Defaults
F7:Optimized Defaults
ACPI Suspend Type (S3(STR))
Use this item to define how your system suspends. In the default, S1 (POS), the suspend
mode is equivalent to a software power down. If you select S3 (STR), the suspend mode is
suspend to RAM, i.e., the system shuts down with the exception of a refresh current to the
system memory.
Run VGABIOS if S3 Resume (Auto)
Use this item to initialize the VGA BIOS from S3 (Suspend to RAM) sleep state.
Video Off Method (DPMS)
This item defines how the video is powered down to save power. This item is set to DPMS
(Display Power Management Software) by default.
Video Off In Suspend (Yes)
This option defines if the video is powered down when the system is put into suspend mode.
Using BIOS
42
Suspend Type (Stop Grant)
If this item is set to the default Stop Grant, the CPU will go into Idle Mode during power
saving mode.
MODEM Use IRQ (AUTO)
If you want an incoming call on a modem to automatically resume the system from a
power-saving mode, use this item to specify the interrupt request line (IRQ) that is used by
the modem. You might have to connect the fax/modem to the motherboard Wake On
Modem connector for this feature to work.
Suspend Mode (Disabled)
The CPU clock will be stopped and the video signal will be suspended if no Power Management events occur for a specified length of time. Full power function will return when a
Power Management event is detected. Options are from 1 Min to 1 Hour and Disabled.
HDD Power Down (Disabled)
The IDE hard drive will spin down if it is not accessed within a specified length of time.
Options are from 1 Min to 15 Min and Disable.
Soft-Off by PWR-BTTN (Instant-Off)
Under ACPI (Advanced Configuration and Power management Interface) you can create a
software power down. In a software power down, the system can be resumed by Wake Up
Alarms. This item lets you install a software power down that is controlled by the power
button on your system. If the item is set to Instant-Off, then the power button causes a
software power down. If the item is set to Delay 4 Sec. then you have to hold the power
button down for four seconds to cause a software power down.
CPU-THRM-Throttling (50.0%)
Use this item to specify the CPU speed (at percentage) to slow down the CPU when it
reaches the predetermined overheat temperature.
Resume by PCI PME (Enabled)
This item specifies whether the system will be awakened from power saving modes when
activity or input signal of the specified hardware peripheral or component is detected.
Resume by Ring (Disabled)
An input signal on the serial Ring indicator (RI) line (in other words, and incoming call on
the modem) awakens the system from a soft off state.
Resume by USB (S3)
This option allows the activity of the USB devices (keyboard and mouse) to wake-up the
system from S3 sleep state.
Resume by Alarm (Disabled)
When set to Enabled, additional fields become available and you can set the date (day of the
month), hour, minute and second to turn on your system. When set to 0 (zero) for the day
of the month, the alarm will power on your system every day at the specified time.
** Reload Global Timer Events **
This field indicates which events waken the system from power saving mode.
Primary/Secondary IDE (Disabled)
When this item is enabled, the system power will resume the system from a power saving
mode if there is any activity on primary or secondary IDE channel 0 or 1.
Using BIOS
43
PNP/PCI Configurations
This section describes configuring the PCI bus system. PCI (Peripheral Component Interconnect) is a system, which allows I/O devices to operate at speeds nearing CPU’s when they
communicate with own special components. All the options describes in this section are
important and technical and it is strongly recommended that only experienced users should
make any changes to the default settings.
Phoenix-AwardBIOS CMOS Setup Utility
PnP/PCI Configurations
Init Display First
Reset Configuration Data
Resources Controlled By
x IRQ Resources
[PCI Slot]
[Disabled]
[Auto(ESCD)]
Press Enter
PCI/VGA Palette Snoop
Assign IRQ For USB
INT Pin 1 Assignment
INT Pin 2 Assignment
INT Pin 3 Assignment
INT Pin 4 Assignment
INT Pin 5 Assignment
INT Pin 6 Assignment
INT Pin 7 Assignment
INT Pin 8 Assignment
[Disabled]
[Enabled]
[Auto]
[Auto]
[Auto]
[Auto]
[Auto]
[Auto]
[Auto]
[Auto]
mnlk : Move
Enter: Select +/-/PU/PD:Value
F5:Previous Values
F6:Fail-Safe Defaults
Item Help
Menu Level
ff
Default is Disabled. Select
Enabled to reset Extended
System Configuration Data
(ESCD) when you exit Setup
if you have installed a new
add-on and the system
reconfiguration has caused
such a serious conflict that
the OS cannot boot
F10:Save ESC:Exit F1: General Help
F7:Optimized Defaults
Init Display First (PCI Slot)
Use this item to specify the initial display to be the PCI slot or the graphics chip integrated
on the motherboard.
Reset Configuration Data (Disabled)
When you enable this item and restart the system, any Plug and Play configuration data
stored in the BIOS Setup is cleared from memory.
Resources Controlled By (Auto(ECSD))
You should leave this item at the default Auto(ESCD). Under this setting, the system
dynamically allocates resources to Plug and Play devices as they are required. If you cannot
get a legacy ISA (Industry Standard Architecture) expansion card to work properly, you
might be able to solve the problem by changing this item to Manual, and then opening up
the IRQ Resources submenu.
•
In the IRQ Resources submenu, if you assign an IRQ to Legacy ISA, then that
Interrupt Request Line is reserved for a legacy ISA expansion card. Press
<Esc> to close the IRQ Resources submenu.
PCI/VGA Palette Snoop (Disabled)
This item is designed to overcome problems that can be caused by some non-standard VGA
cards. This board includes a built-in VGA system that does not require palette snooping so
you must leave this item disabled.
Assign IRQ For USB (Enabled)
“Enable” or “Disable” this item when users are to assign IRQ for the USB interface onboard.
Using BIOS
44
INT Pin1~8 Assignment (Enabled)
Identifies the interrupt request (IRQ) line assigned to a device connected to the PCI interface of your system.
PC Health Status
On motherboards that support hardware monitoring, this item lets you monitor the parameters for critical voltages, critical temperatures, and fan speeds.
Phoenix-AwardBIOS CMOS Setup Utility
PC Health Status
Case Open Warning
Case has been
Shutdown Temperature
Current System Temperature
Current CPU1 Temperature
NBFAN1
CPU FAN
CAS FAN
CPU Vcore
1.50 V
3.30 V
Smart CPUFan Function
X CPUFan Tolerance Value
[Disabled]
CLOSING
[Disabled]
Item Help
Menu Level
f
[Disabled]
5
mnlk
: Move
Enter: Select +/-/PU/PD:Value
F5:Previous Values
F6:Fail-Safe Defaults
F10:Save ESC:Exit F1: General Help
F7:Optimized Defaults
Case Open Warning (Disabled)
This item enables or disabled the warning if the case is opened up, and the item below
indicates the current status of the case.
Shutdown Temperature (Disabled)
Enables you to set the maximum temperature the system can reach before powering down.
System Component Characteristics
These items allow end users and technicians to monitor data provided by the BIOS on this
motherboard. You cannot make changes to these fields.
•
Current CPU/System Temperature
•
NB FAN Speed
•
CPU Fan Speed
•
CAS FAN Speed
•
CPU Vcore
•
1.5V
•
3.3V
Smart CPUFan Function (Disabled)
This item enables users to set to which Celsius degree when the Smart Fan2 start functioning. The default value is 40 to 104 Celsius degree.
CPUFan Tolerance Value (5)
This item helps you to adjust the frequency of Smart Fan.
Using BIOS
45
Frequency Control
This item enables you to set the clock speed and system bus for your system. The clock
speed and system bus are determined by the kind of processor you have installed in your
system.
Phoenix-AwardBIOS CMOS Setup Utility
Frequency Control
CPU Clock Ratio
Auto Detect PCI Clk
Spread Spectrum
CPU Clock
[8X]
[Enabled]
[Enabled]
[200MHz]
mnlk : Move
Enter: Select +/-/PU/PD:Value
F5:Previous Values
F6:Fail-Safe Defaults
Item Help
Menu Level
f
F10:Save ESC:Exit F1: General Help
F7:Optimized Defaults
CPU Clock Ratio (8X)
Enables you to set the CPU clock. The CPU clock ratio times the CPU Host/PCI Clock
should equal the core speed of the installed processor. (For unlock Ratio CPU only.)
Example:
CPU Clock Ratio
CPU Frequency
Installed CPU Clock Speed
8
X200
1600 MHz
Auto Detect DIMM/PCI Clk (Enabled)
When this item is enabled, BIOS will disable the clock signal of free DIMM and PCI slots.
Spread Spectrum (Enabled)
If you enable spread spectrum, it can significantly reduce the EMI (Electro-Magnetic
Interference) generated by the system.
CPU Clock (200MHz)
Use the CPU Host Clock to set the frontside bus frequency for the installed processor. You
can key in the number within the range to make a precise and ideal adjustment.
Using BIOS
46
Load Fail-Safe Defaults Option
This option opens a dialog box that lets you install fail-safe defaults for all appropriate
items in the Setup Utility:
Press <Y> and then <Enter> to install the defaults. Press <N> and then <Enter> to not
install the defaults. The fail-safe defaults place no great demands on the system and are
generally stable. If your system is not functioning correctly, try installing the fail-safe
defaults as a first step in getting your system working properly again. If you only want to
install fail-safe defaults for a specific option, select and display that option, and then press
<F6>.
Load Optimized Defaults Option
This option opens a dialog box that lets you install optimized defaults for all appropriate
items in the Setup Utility. Press <Y> and then <Enter> to install the defaults. Press <N> and
then <Enter> to not install the defaults. The optimized defaults place demands on the
system that may be greater than the performance level of the components, such as the CPU
and the memory. You can cause fatal errors or instability if you install the optimized defaults
when your hardware does not support them. If you only want to install setup defaults for a
specific option, select and display that option, and then press <F7>.
Set Supervisor/User Password
When this function is selected, the following message appears at the center of the screen to
assist you in creating a password.
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.
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 BIOS Setup freely.
PASSWORD DISABLED
If you have selected “System” in “Security Option” of “BIOS Features Setup” menu, you
will be prompted for the password every time the system reboots or any time you try to
enter BIOS Setup.
If you have selected “Setup” at “Security Option” from “BIOS Features Setup” menu, you
will be prompted for the password only when you enter BIOS Setup.
Supervisor Password has higher priority than User Password. You can use Supervisor Password when booting the system or entering BIOS Setup to modify all settings. Also you can
use User Password when booting the system or entering BIOS Setup but can not modify any
setting if Supervisor Password is enabled.
Using BIOS
47
Save & Exit Setup Option
Highlight this item and press <Enter> to save the changes that you have made in the Setup
Utility and exit the Setup Utility. When the Save and Exit dialog box appears, press <Y> to
save and exit, or press <N> to return to the main menu:
Exit Without Saving
Highlight this item and press <Enter> to discard any changes that you have made in the
Setup Utility and exit the Setup Utility. When the Exit Without Saving dialog box appears,
press <Y> to discard changes and exit, or press <N> to return to the main menu.
If you have made settings that you do not want to save, use the “Exit Without
Saving” item and press <Y> to discard any changes you have made.
This concludes Chapter 3. Refer to the next chapter for information on the software
supplied with the motherboard.
Using BIOS
48
Memo
Using BIOS
49
Chapter 4
Using the Motherboard Software
About the Software CD-ROM
The support software CD-ROM that is included in the motherboard package contains all the
drivers and utility programs needed to properly run the bundled products. Below you can find
a brief description of each software program, and the location for your motherboard
version. More information on some programs is available in a README file, located in the
same directory as the software.
Never try to install all software from folfer that is not specified for use with your
motherboard.
Before installing any software, always inspect the folder for files named README.TXT,
INSTALL.TXT, or something similar. These files may contain important information that
is not included in this manual.
Auto-installing under Windows 98/ME/2000/XP
The Auto-install CD-ROM makes it easy for you to install the drivers and software for your
motherboard.
If the Auto-install CD-ROM does not work on your system, you can still install
drivers through the file manager for your OS (for example, Windows Explorer). Refer to the Utility Folder Installation Notes later in this chapter.
The support software CD-ROM disc loads automatically under Windows 98/ME/2000/XP.
When you insert the CD-ROM disc in the CD-ROM drive, the autorun feature will automatically bring up the install screen. The screen has three buttons on it, Setup, Browse CD and
Exit.
If the opening screen does not appear; double-click the file “setup.exe” in
the root directory.
Using the Motherboard Software
50
Setup Tab
Setup
Click the Setup button to run the software installation program. Select
from the menu which software you want to install.
Browse CD The Browse CD button is the standard Windows command that allows
you to open Windows Explorer and show the contents of the support
CD.
Before installing the software from Windows Explorer, look for a file
named README.TXT, INSTALL.TXT or something similar. This file
may contain important information to help you install the software
correctly.
Some software is installed in separate folders for different operating
systems, such as DOS, WIN NT, or WIN98/95. Always go to the correct
folder for the kind of OS you are using.
In install the software, execute a file named SETUP.EXE or INSTALL.EXE
by double-clicking the file and then following the instructions on the
screen.
Exit
The EXIT button closes the Auto Setup window.
Application Tab
Lists the software utilities that are available on the CD.
Read Me Tab
Displays the path for all software and drivers available on the CD.
Running Setup
Follow these instructions to install device drivers and software for the motherboard:
1.
Click Setup. The installation program begins:
The following screens are examples only. The screens and driver lists will be
different according to the motherboard you are installing.
The motherboard identification is located in the upper left-hand corner.
Using the Motherboard Software
51
2.
Click Next. The following screen appears:
3.
Check the box next to the items you want to install. The default options are recommended.
4.
Click Next run the Installation Wizard. An item installation screen appears:
5.
Follow the instructions on the screen to install the items.
Drivers and software are automatically installed in sequence. Follow the onscreen instructions, confirm commands and allow the computer to restart a few times to complete the
installation.
Using the Motherboard Software
52
Manual Installation
Insert the CD in the CD-ROM drive and locate the PATH.DOC file in the root directory.
This file contains the information needed to locate the drivers for your motherboard.
Look for the chipset and motherboard model; then browse to the directory and path to
begin installing the drivers. Most drivers have a setup program (SETUP.EXE) that automatically detects your operating system before installation. Other drivers have the setup
program located in the operating system subfolder.
If the driver you want to install does not have a setup program, browse to the operating
system subfolder and locate the readme text file (README.TXT or README.DOC) for
information on installing the driver or software for your operating system.
Utility Software Reference
All the utility software available from this page is Windows compliant. They are provided
only for the convenience of the customer. The following software is furnished under license
and may only be used or copied in accordance with the terms of the license.
These software(s) are subject to change at anytime without prior notice.
Please refer to the support CD for available software.
AMI/AWARD Flash Utility
This utility lets you erase the system BIOS stored on a Flash Memory chip on the motherboard,
and lets you copy an updated version of the BIOS to the chip. Proceed with caution when
using this program. If you erase the current BIOS and fail to write a new BIOS, or write a
new BIOS that is incorrect, your system will malfunction. Refer to Chapter 3, Using BIOS for
more information.
WinFlash Utility
The Award WinFlash utility is a Windows version of the DOS Award BIOS flash writer utility.
The utility enables you to flash the system BIOS stored on a Flash Memory chip on the
motherboard while in a Windows environment. This utility is currently available for
WINXP\ME\2000\98SE. To install the WinFlash utility, run WINFLASH.EXE from the
following directory: \UTILITY\WINFLASH 1.51
This concludes Chapter 4.
Using the Motherboard Software
La 915G-M5 utilise un type LGA775 de Pentium 4 présentant les fonctionnalités suivantes:
•
Reçoit des processeurs Intel P4/ Celeron
•
Support un bus système (FSB) de 800/533 MHz
•
Supporte le CPU de technologie “Hyper-Threading”
La technologie “Hyper-Threading” permet au système d’exploitation de penser qu’il est connecté
à deux processeurs, permettant d’exécuter deux threads en parallèle, à la fois sur des processeurs
‘logiques’ dans le même processeur physique.
Chipset
Le chipset 915G Northbridge (NB) Chipset et ICH6 Southbridge (SB) se base sur une architecture
innovante et évolutive avec des performances et une fiabilité éprouvées.
915G(NB)
•
Prend en charge l’adressage de bus hôte 32 bits, permettant au CPU
•
•
•
d’accéder à l’espace de 4 Go complet d’adresse mémoire.
Possède une “12-deep In-Order Queue” pour prendre en charge
jusqu’à douze requêtes d’adresse en pipeline exceptionnelles sur
le bus hôte.
Prend en charge les technologies DDR/DDR2 256-Mb, 512-Mb et
1-Gb pour x8 et x16 périphériques
Procure un périphérique graphique intégré offrant des capacités
3d, 2D et vidéo d’un coût compétitif.
Le chipset 915G peut seulement prendre en charge les technologies DDR 256-Mb, 512Mb et 1-Gb pour x8 et x16 périphériques, NE prend PAS en charge la technologie DDR
128-Mb. C’est à dire que le Module Mémoire Double Face de 256 Mo & le Module
Mémoire Simple Face de 128 Mo NE sont PAS pris en charge.
•
ICH6 (SB)
•
•
•
Mémoire
•
•
Fonctions de Contrôleur DMA Amélioré, de contrôleur d’interruption,
et de minuterie
Conforme aux spécifications PCI 2.3.
Conforme aux spécifications ATA 1.0a Série
Contrôleur d’Hôte USB 2.0 intégré prenant en charge jusqu’à huit
ports USB 2.0
Contrôleur LAN intégré
Contrôleur IDE intégré prenant en charge Ultra ATA100/66/33
•
•
Reçoit quatre DIMM sans tampon
Jusqu’à 1 Go par DIMM avec une taille de mémoire maximum de 4 Go
•
•
Prend en charge la fréquence du noyau de 333 MHz
Prend en charge la Configuration 3D, Moteur de Rendu, et Améliorations
Graphiques 3D
Prend en charge un moteur de texture de haute qualité
DVD/PC-VCR Vidéo
Graphiques
•
•
LAN sur carte (Optionnel)
Cette carte mère prend en charge les chipsets LAN suivants :
•
•
•
Supporte le fonctionnement en Auto-négociation N-way en 100/10 Mb/s
•
•
•
Emetteur-récepteur 10/100/1000 intégré
Prend en charge PCI v2.3, 32 bits, 33/66-MHz
Prise en charge totale avec IEEE 802.3, IEEE 802.3u et IEEE 802.3ab
Prend en charge la capacite half/full duplex
Supporte la fonction Wake-On-LAN (WOL) -réveil par appel réseau et le réveil à
distance
Multi-Language Translation
Français
Caractéristiques
Processeur
Français
Audio
Cette carte mère prend en charge les chipsets Audio suivants:
•
•
•
•
•
•
•
•
•
Conforme au CODEC AC’97 V2.3
Prend en charge le CODEC audio 6 canaux destiné aux systèmes
multimédia PC
Offre trois entrées stéréo de niveau de ligne analogique avec contrôle de
volume 5 bits: Ligne d’entrée, CD, AUX
Prend en charge la fonction de sortie S/PDIF
Conforme à la spécification Azalia, prenant en charge 8 canaux DAC avec
SNR > 95dB
Compatibilités: 192/96/48/44.1 KHz avec 24/20/16 bits
Support de port d’E/S à 8 prises intelligentes
Détection de prise étendue via RNM (resistors network method) pouvant être
utilisée pour surveiller l’état de branchement de chaque prise
Support de SORTIE & ENTRÉE S/PDIF numérique
Options d’extension
La carte mère comporte les options d’extension suivantes :
•
Un logement PIC Express x16 (optionnel)
•
Trois emplacements PCI v2.3 32bits
•
Un en-têtes demi-hauteur IDE de 40 broches supportant deux canaux IDE
•
Une interface lecteur de disquettes
•
Quatre connecteurs SATA à 7 broches prenant en charge quatre périphériques
SATA
La 915G-M5 carte mère prenant en charge la maîtrise de bus UltraDMA avec vitesses de transfert
de 100/66 Mo/s.
E/S intégrées
La carte mère comporte un ensemble complet de connecteurs et de ports E/S :
•
Deux ports PS/2 pour souris et clavier
•
Un port série et un port parallèle
•
Quatre ports USB
•
Un port VGA, un port 1394 (optionnel) et un port LAN (optionnel)
•
Prises audio pour entrée microphone, ligne d’entrée et ligne de sortie (Prise audio
pour entrée microphone, ligne d’entrée et sortie audio haute définition à 8 canaux
si le CODEC Audio Azalia est pris en charge.)
Microprogramme BIOS
La carte mère utilise AWARD BIOS qui permet à l’utilisateur de configurer bon nombre de fonctions du système, dont :
•
Gestion d’alimentation
•
Alertes de réveil
•
Paramètres de CPU
•
Synchronisation de CPU et de mémoire
Le micro-programme peut également être utilisé pour définir les paramètres pour différentes
vitesses d’horloge de processeur.
Certaines spécifications matérielles et certains éléments logiciels sont susceptibles
de modification sans préavis.
Multi-Language Translation
Der 915G-M5 benutzt einen Pentium 4 des Typs LGA775 und besitzt folgende Eigenschaften:
•
Aufnahme eines Intel P4/Celeron-Prozessors.
•
Unterstützt einen Systembus (FSB) mit 800/533 MHz.
•
Unterstützt CPU mit “Hyper-Threading”-Technologie.
“Hyper-Threading”-Technologie läßt das Betriebssystem glauben, es sei an zwei Prozessoren angeschlossen, was zwei parallele Threads auf separaten ‘logischen’ Prozessoren im selben physischen
Prozessor erlaubt.
Chipsatz
Der 915G Northbridge (NB)- sowie ICH6 Southbridge (SB)-Chipsatz basiert sich auf eine innovative
und skalierbare Architektur mit bewiesenr Zuverlässigkeit und Leistung.
•
Unterstützung einer 32-Bit Host-Bus-Adressierung, welche
915G (NB)
der CPU einen Zugriff zum kompletten Speicherplatz von 4 GB
erlaubt.
•
Zur Unterstützung von bis zu 12 aufeinanderfolgenden
offenstehenden Befehlen im Host Bus, hat er eine 12fach
verstärkte Reihenfolgewarteschlange.
•
Unterstützung von 256-Mb, 512-Mb und 1-Gb DDR/DDR2
-Technologien für x8 und x16 Zubehör.
•
Stellt eine integrierte Grafikvorrichtung zur Verfügung, die
kosteneffektives 3D, 2D und Video liefert.
Das 915G Chipset kann nur 256-Mb, 512-Mb und 1-Gb DDR-Technologien für x8 und
x16 Zubehör unterstützen; KEINE Unterstützung für die 128-Mb DDR-Technologie.
Das bedeutet, daß das 256 MB Double Side Memory Modul & 128 MB Single Side
Memory Modul nicht unterstützt wird.
•
Verbesserter DMA-Kontroller, Unterbrechungskontroller und
ICH6 (SB)
Zeitfunktionen.
•
Gemäß Spezifikationen von PCI 2.3.
•
Gemäß Serial ATA 1.0a Spezifikationen.
•
Integrierter USB 2.0 Host-Kontroller, welcher bis zu acht USB
2.0 Steckvorrichtungen unterstützt.
•
Integrierter LAN-Kontroller.
•
Integrierter IDE-Kontroller, welcher Ultra ATA100/66/33
unterstützt.
Arbeitsspeicher
•
•
Es können vier ungepufferte DIMMs aufgenommen werden.
Bis zu 1 GB pro DIMM mit maximaler Speicherkapazität von bis zu 4 GB.
•
•
•
•
Unterstützt Kernfrequenzen von 333 MHz
Unterstützt 3D Setup, Wiedergabe Engine, und 3D Grafikerweiterungen
Unterstützt hochqualitative Struktur Engine
Video DVD/PC-VCR
Graphik
Onboard LAN (Optional)
Dieses Mainboard kann einen der folgenden LAN-Chipsätze unterstützen:
•
•
•
Unterstützt 100/10 Mb/Sek N-way Auto-negotiation Betrieb
Unterstützt Halb-/Vollduplex
Unterstützt Wake-On-LAN (WOL) Funktion und Remote Wake-up
•
•
•
Enthält 10/100/1000 Transceiver
Unterstützung von PCI v2.3, 32-Bit, 33/66-MHz
Volle Unterstützung mit IEEE 802.3, IEEE 802.3u und IEEE 802.3ab
Multi-Language Translation
Deutsche
Leistungsmerkmale
Prozessor
Audio
Dieses Mainboard kann einen der folgenden Audio-Chipsätze unterstützen:
Deutsche
•
•
•
•
•
•
•
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Entspricht AC' 97 V2.3 CODEC
Unterstützt 6-Kanal Audio CODEC, entwickelt für Multimedia PC-Systeme
Stellt drei analoge Line-Level Stereoeingänge mit 5-bit Lautstärkeregelung
zur Verfügung: Line-in, CD, AUX
Unterstützt S/PDIF Ausgangsfunktion
Gemäß Azalia-Spezifikationen, mit Unterstützung von 8-Kanal-DACs mit SNR
> 95dB
Kompatibilität: 192/96/48/44.1 KHz mit 24/20/16 bits
Unterstützung von 8 Smart-I/O-Steckvorrichtungen
Erweiterte Steckerauffindungsanzeige via RNM (Resistors Network Method),
welche zur Überwachung des Einsteckstatus der einzelnen Stecker benutzt
werden kann
Digitale S/PDIF OUT & IN Unterstützung
Erweiterungsmöglichkeiten
Das Motherboard ist mit den folgenden Erweiterungsmöglichkeiten ausgestattet:
•
Ein PIC Express x16 Steckplatz (optional)
•
Drei 32-bit PCI v2.3-Steckplätze
•
Einen 40-Pin IDE low profile-Stecker, die zwei IDE-Kanäle unterstützen
•
Ein Diskettenlaufwerkanschluss
•
Vier 7-Pin SATA-Stecker, die vier SATA-Geräte unterstützen
Die 915G-M5 Mainboard kann einen der folgenden Audio-Chipsätze unterstützen: -Motherboard
unterstützt UltraDMA Bus Mastering mit einer Übertragungsrate von 100/66 MB/Sek.
Integrierte I/O
Das Motherboard hat einen vollständigen Satz von I/O-Schnittstellen bzw. -Anschlüssen:
•
Zwei PS/2-Anschlüsse für Maus und Tastatur
•
Eine serielle Schnittstelle und eine parallele Schnittstelle
•
Vier USB-Anschlusse
•
Ein VGA- Steckplatz, ein 1394- Steckplatz (optional) und ein LAN- Steckplatz
(optional)
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Audiobuchsen für Mikrofon-in, Line-in und Line-out (Audiobuchsen für Mikrofonin, Line-in und 8-Ch High Definition Audio-out, falls der Azalia Audio CODEC
unterstützt wird)
BIOS-Firmware
Das Motherboard verwendet AWARD BIOS, das es Benutzern gestattet, viele Systemfunktionen
inkl. der Folgenden zu konfigurieren:
•
Energieverwaltung
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Aufweckfunktionen
•
CPU-Parameter
•
CPU- und Arbeitsspeicherfrequenz
Die Firmware kann auch zur Einstellung von Parametern für verschiedene Prozessortaktgeschwindigkeiten verwendet werden.
Manche Hardwarespezifikationen und Softwareelemente können ohne Ankündigung
geändert werden.
Multi-Language Translation
Il 915G-M5 sfrutta un Pentium 4 di tipo LGA775 che dispone delle seguenti caratteristiche:
•
Alloggia processori Intel P4/Celeron
•
Supporta un bus di sistema (FSB) fino a 800/533 MHz
•
Supporta CPU con tecnologia “Hyper-Threading”
La tecnologia “Hyper-Threading” induce il sistema operativo a pensare di essere collegato
a due processori, questo permette di eseguire due thread in parallelo, ambedue su processori
“logicamente” separati all’interno dello stesso processore.
Chipset
I chipset Intel 915G Northbridge (NB) e ICH6 Southbridge (SB) sono basati su una
architettura innovativa e scalabile dalle prestazioni e affidabilità garantite.
•
Supporta un indirizzamento host bus da 32 bit, consentendo alla
915G (NB)
CPU di accedere a tutti i 4 GB della memoria di sistema.
Dispone di una coda in ordine per supportare sino a dodici
richieste di indirizzo pipelined in sospeso sull’host bus.
•
Supporta tecnologie DDR/DDR2 da 256-Mb, 512-Mb e 1-Gb
per dispositivi x8 e x16
•
Periferica grafica integrata in grado di offrire funzionalità 3D,
2D e video a un costo concorrenziale
Il chipset 915G può supportare solo tecnologie DDR da 256-Mb, 512-Mb e 1-Gb per
dispositivi da x8 e x16, NON supporta tecnologie DDR da 128-Mb. Cioè, non sono
supportati moduli di memoria Double Side da 256-MB e moduli di memoria Single
Side da 128-MB.
•
Controller DMA migliorato, controller interrupt e funzioni di
ICH6 (SB)
timer
•
Conforme alle specifiche PCI 2.3.
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Conforme alle specifiche Serial ATA 1.0a
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Host Controller USB 2.0 integratoin grado di supporare sino a
8 porte USB 2.0
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Controller LAN integrato
•
Integrato con controller IDE supporta Ultra ATA100/66/33
•
Memoria
•
•
Alloggia quattro DIMM unbuffered
Dimensione massima della DIMM pari ad 1 GB per un ammontare massimo
di 4 GB di memoria
Grafica
•
•
Supporto di frequenza del core di 333 MHz
Supporto di setup 3D, motore di rendering e ottimizzazione della grafica
3D
Supporto di motore di trama ad alta qualità
Video DVD/PC-VCR
•
•
LAN Onboard (Opzionale)
La scheda madre offre supporto per uno dei seguenti chipset LAN:
•
•
•
Supporta operazioni di auto-negoziazione N-way a 100/10 Mb/s
Supporto di funzionalità half/full duplex
Supporto funzione WOL (Wake-On-LAN) e wake up remoto
•
•
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Transceiver 10/100/1000 integrato
Supporta PCI v2.3, 32-bit, 33/66-MHz
Completamente conforme con l’IEEE 802.3, IEEE 802.3u e IEEE
802.3ab
Multi-Language Translation
Italiano
Caratteristiche
Processore
Audio
La scheda madre offre supporto per uno dei seguenti chipset audio.
•
•
•
•
Italiano
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•
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Conforme alla specifica AC’97 v2.3 CODEC
Supporto di CODEC audio a 6 canali per sistemi PC multimediali
Tre ingressi analogici stereo lineari con controllo volume a 5 bit: Line-In, CD,
AUX
Supporto di funzionalità S/PDIF in uscita
Compatibile con le Specifiche di Azalia, in grado di supportare 8 canali DAC
con SNR > 95dB
Compatibili: 192/96/48/44.1 KHz a 24/20/16 bits
Supporta 8 porte I/O Smart Jack
Completo rilevamento jack via RNM (resistors network method) che può
essere utilizzato per monitorare lo stato di connessione di ciascun jack
Supporta digital S/PDIF OUT & IN
Opzioni di espansione
La scheda madre è dotata delle seguenti opzioni di espansione:
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•
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Uno slot PIC Express x16 (opzionale)
Tre slot PCI v2.3 a 32 bit
Una connettori IDE a 40 pin che supportano due canali IDE
Una interfaccia floppy disk
Quattro connettori SATA a 7 pin con supporto di quattro dispositivi SATA
La scheda madre 915G-M5 supporta bus master UltraDMA con tasso di trasferimento di
100/66 MB/s.
I/O integrato
La scheda madre è dotata di un set completo di connettori e porte I/O:
•
•
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Due porte PS/2 per mouse e tastiera
Una porta seriale e una porta parallela
Quattro porte USB
Una porta VGA, una porta 1394 (opzionale) e una porta LAN (opzionale)
Jack di ingresso audio per microfono, ingresso e uscita lineari (jack di ingresso
audio per microfono, ingresso lineare e uscita audio ad alta definizione a 8
canali se dotata di supporto di Audio CODEC Azalia)
Firmware BIOS
Questa scheda madre adotto un BIOS AWARD che permette agli utenti di configurare le
caratteristiche principali del sistema, inclusi:
•
•
•
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Gestione energia
Allarmi wake up
Parametri CPU
Temporizzazione CPU e memoria
Il firmware può anche essere usato per impostare i parametri per diverse velocità di clock.
Alcune specifiche hardware e software potrebbero essere soggette a
cambiamenti senza preavviso.
Multi-Language Translation
Características
Procesador
Chipset
Los chipsets Northbridge 915G (NB) y Southbridge ICH6 (SB) están basados en una arquitectura
innovadora y escalable con fiabilidad y rendimiento comprobados.
915G (NB)
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•
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Soporta la dirección de bus anfitrión 32-bit, que permite la CPU acceder a todos los 4 GB del espacio de dirección de memoria.
Tiene 12-deep In-Order Queue (Fila En Orden de Profunidad 12)
para soportar hasta 12 pedidos de dirección sobresalientes en el
bus anfitrión.
Soporta las tecnologías 256-Mb, 512-Mb y 1-Gb DDR/DDR2 para
los dispositivos x8 y x16.
Provee un dispositivo de gráficas integrado que entrega las
capacidades de vídeo y 3D y 2D a costo competitivo.
El chipset 915G solamente puede soportar las technologías 256-Mb, 512-Mb y 1-Gb
DDR para los dispositivos x8 y x16, NO soporta la tecnología 128-Mb DDR. Es decir,
NO soporta el Módulo de Memoria de Doble Lado 256 MB & Módulo de Memoria de
Lado Singular 128 MB.
ICH6 (SB)
•
•
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•
•
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Controlador DMA reforzado, controlador de interrupción y funciones
de cornometraje.
Conforme con la espec. PCI 2.3.
Conforme con la espec. Serial ATA 1.0a
Controlador Anfitrión USB 2.0 Integrado soporta hasta ocho
puertos USB 2.0.
Controlador LAN integrado .
Controlador IDE integrado soporta Ultra ATA100/66/33.
Memoria
•
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Acomoda cuatro DIMMS sin buffer
Hasta 1 GB por DIMM con el tamaño de memoria máximo hasta 4 GB
•
•
Soporta frecuencia central de 333 MHz
Soporta 3D Setup, Motor de Rendimiento (Render Engine), y Mejoramientos
de Gráficas 3D
Soporta Motor de Textura de Alta Calidad (High Quality Texture Engine)
Vídeo DVD/PC-VCR
Gráficas
•
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LAN en placa (Optativo)
Esta placa principal puede soportar uno de los sigtes. chipset LAN:
•
•
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Soporta la operación de auto-negociación de 100/10 Mb/s N-way
Soporta capacidad duplex medio/completo
Soporta la función Wake-On-LAN (WOL) y despertar remoto
•
Transceptor 10/100/1000 integrado
•
•
Soporta PCI v2.3, 32-bit, 33/66-MHz
Soporte completo con el IEEE 802.3, IEEE 802.3u y IEEE 802.3ab
Multi-Language Translation
Español
La 915G-M5 usa un tipo LGA775 de Pentium 4 que lleva las sigtes. características::
•
Acomoda los procesadores Intel P4/Celeron
•
Soporta un sistema de bus (FSB) de 800/533 MHz
•
Soporta CPU de tecnología “Hyper-Threading”
La tecnología “Hyper-Threading” habilita el sistema operativo para que piense como si
estuviera conectado a dos procesadores, que permite dos hilos a correr en paralelo, ambos en
procesadores “lógicos” dentro del mismo procesador físico.
Audio
Esta placa principal puede soportar uno de los sigtes. chipset Audio.
•
•
•
•
•
Español
•
•
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Conforme con el CODEC AC’97 v2.3
Soporta CODEC de audio de 6 canales diseñaods para los sistemas
multimedia
Provee tres entradas en estéreo a nivel de línea análogicas con control
de volumen de 5-bit: LIne-in, CD, AUX
Soporta la función de salida S/PDIF
Conforme con la especificación Azalia, que soporta 8 DACs de canal con
SNR > 95dB
Compatibilidades: 192/96/48/44.1 KHz con 24/20/16 bits
8 soportes de puerto I/O Smart Jack
Detección de clavija extensiva vía RNM (resistors network method/
método de red de resisitores) que se puede usar para monitorear el
estado de conexión de cada clavija
Soporte de S/PDIF OUT & IN Digital
Opciones de expansión
La placa base viene con las opciones siguientes de expansión:
•
Una ranura PIC Expressx16 (optativo)
•
Tres ranuras conforme con 32-bit PCI v2.3
•
Una cabezal de perfil bajo 40-pin IDE dos soporta cuatro canales IDE
•
Una interfaz para unidad de disquete
•
Cuatro conectores SATA de 7-pin que soporta cuatro dispositivos SATA
La placa principal 915G-M5 soporta el mastering de bus UltraDMA con índices de
transferencia de 100/66 MB/s.
I/O integrado
La placa base tiene un conjunto completo de puertos I/O y conectores:
•
•
•
•
•
Dos puertos PS/2 para ratón y de teclado
Un puerto serie y un puerto paralelo
Cuatro puertos USB
Un puerto VGA, un puerto 1394 (optativo) y un puerto LAN (optativo)
Clavijas de Audio para la entrada de micrófono, entrada de línea y salida
de línea (la clavija Audio para micrófono, entrada de línea y Salida de
Audio de Alta Definición de 8-canales si soporta el CODEC Azalia Audio.)
Firmware de BIOS
La placa base utiliza AWARD BIOS que permite a los usuarios configurar muchas funciones
de sistema, incluyendo las siguientes:
•
•
•
•
Administración de energía
Alarmas de encendido
Parámetros CPU
Temporización de memoria y CPU
El firmware también puede utilizarse para ajustar los parámetros para diversas velocidades del
reloj del procesador.
Algunas especificaciones de hardware y elementos de software están sujetos a
cambios sin previo aviso.
Multi-Language Translation
Características
Processador
O 915G-M5 usa um tipo LGA775 de Pentium 4 que possui as seguintes características:
•
Acomoda processadores Intel P4/Celeron
•
Suporta um bus sistema (FSB) de 800/533 MHz
•
Suporta CPU de tecnologia “Hyper-Threading”
A tecnologia “Hyper-Threading” permite que o sistema operativo “pense” que está ligado a
dois processadores, permitindo que sejam executados dois threads em paralelo, ambos em
processadores “lógicos” separados dentro do mesmo processador físico.
Os chipsets da 915G Northbridge (NB) e ICH6 Southbridge (SB) são baseados em uma
arquitetura inovativa e escalável com performance e confiabilidade comprovada.
915G (NB)
•
•
•
•
ICH6 (SB)
Suporta um endereçamento no host bus de 32-bit, permitindo que o
CPU aceda completamente aos 4 GB de espaço de endereçamento
da memória.
Possui uma Fila de Espera Em-Ordem com capacidade para 12
para suportar até doze pedidos de endereçamento estruturados e
pendentes no host bus.
Suporta 256-Mb, 512-Mb e tecnologias 1-Gb DDR/DDR2 para
aparelhos x8 e x16
Fornece um dispositivo de gráficos integrado permitindo 3D com
competitividade de custos, 2D e com capacidade para vídeo.
Chipset 915G só consegue suportar tecnologias 256-Mb, 512-Mb e 1-Gb DDR
para aparelhos x8 e x16 , NÃO suporta tecnologia 128-Mb DDR. Ou seja, NÃO
suporta Módulo de Memória Bidireccional 256 MB & Módulo de Memória
Unidireccional 128 MB.
•
•
•
•
Memória
•
•
Controlador DMA Melhorado, controlador de interruptor, e funções
de temporizador
Em conformidade com a especificação PCI 2.3
Compatível com Série ATA 1.0a
Controlador Host USB 2.0 integrado suportando até oito portas
USB 2.0
Controlador LAN integrado
Controlador IDE integrado suporta Ultra ATA100/66/33
•
•
Acomoda quatro DIMMs sem buffers
Até 1 GB por DIMM com tamanho de memória máxima de até 4 GB
•
•
Suporta frequência central de 333 MHz
Suporta Instalação 3D, Dispositivo de Distribuição, e Melhoramentos de
Gráficos 3D
Suporta Dispositivo de Textura de Alta Qualidade
Vídeo DVD/PC-VCR
Gráficos
•
•
LAN integrada (Opcional)
Esta motherboard poderá suportar qualquer um dos seguintes conjuntos de chips LAN:
•
•
•
•
•
•
Suporta o funcionamento de negociação automática de 100/10 Mb/s Ndirecções
Suporta capacidade de duplex pela metade/ou na totalidade
Suporta a função Wake-On-LAN(WOL) e despertar remoto
Transreceptor integrado 10/100/1000
Suporta PCI v2.3, 32-bit, 33/66-MHz
Suporta inteiramente com IEEE 802.3, IEEE 802.3u e IEEE 802.3ab
Multi-Language Translation
Português
Chipset
Áudio
Esta motherboard poderá suportar qualquer dos seguintes conjuntos de chips Áudio.
•
•
•
•
•
•
•
•
Português
•
Cumpre com o AC’97 v2.3 CODEC
Suporta CODEC áudio com 6 canais concebido para sistemas
multimédia para PC
Fornece três entradas estéreo nível de linha analógicas com controlo
de volume de 5 bits: LIne-in, CD, AUX
Suporta uma função de saída S/PDIF
Cumpre com a especificação Azalia , suportando 8 canais DAC com SNR
> 95dB
Compatibilidades: 192/96/48/44.1 KHz com 24/20/16 bits
Suporte de porta 8 Smart Jack I/O
Detecção de ficha extensiva via RNM (método em rede de resistências)
que pode ser usado para monitorizar o estado de ligação de cada ficha
S/PDIF OUT digital & suporte IN
Opções de expansão
A motherboard possui as seguintes opções de expansão:
•
Uma ranhura PIC Expressx16 (opcional)
•
Três ranhuras compatíveis com PCI v2.3 de 32 bits
•
Uma cabeçalhos de baixo perfil IDE 40 pinos, que suportam dois dispositivos
IDE
•
Uma interface para unidade de disquete
•
Quatro conectores SATA de 7 pinos que suportam quatro aparelhos SATA
A motherboard 915G-M5 suporta um domínio bus UltraDMA bus com taxas de Transferência
de 100/66 MB/s.
E/S integradas
A motherboard conta com um conjunto completo de portas e conectores E/S:
•
Duas portas PS/2 para o rato e o teclado
•
Uma porta de série e uma porta paralela
•
Quatro portas USB
•
Uma porta VGA, uma porta 1394 (opcional) e uma porta LAN (opcional)
•
Tomadas áudio para entrada de microfone, entrada de linha e saída de
linha (Tomada áudio para entrada de microfone, entrada de linha e saída
de Áudio de Definição Elevada 8-ch se suportar CODEC Áudio Azalia.)
Firmware do BIOS
A motherboard usa o AWARD BIOS que permite aos usuários configurar vários recusos do
sistema, como:
•
Gerenciamento de energia
•
Alarmes de reativação
•
Parâmetros da CPU
•
Sincronização da CPU e memória
O firmware também pode ser usado para definir os parâmetros de diferentes velocidades de
clock do processador.
Alguns itens de software e especificação de hardware estão sujeitos a alterações
sem prévio aviso.
Multi-Language Translation
機能
プロセッサ
915G-M5はLGA775タイプのPentium 4に対応したもので、その特徴は次の通りです:
•
Intel P4 /Celeron プロセッサ取付け可能。
•
800/533MHzのシステムバス(FSB)をサポート。
•
“ハイパースレッド(Hyper-Threading)"技術対応のCPUを取り付け可能。
ハイパースレッド 技術というのは、オペレーションシステムに2つのプロセッサが存在すると認識させ
ることで、実際には2つのスレッドを1つのプロセッサで同時に執行させ、平行利用を可能とする技術
です。
チップセット
•
•
•
メモリアドレス空間すべてをアクセス可能。
12組ジャブ扱い可能の中順(In-Order)キュー採用、これでホス
トバスでの12つの未完成パイプライン・アドレス要求を対応。
8倍速または16倍速のデバイスの256-Mbや512-Mb、1-Gb の
DDR/DDR2 技術に対応。
グラフィックデバイスを統合することで、コストパフォーマンスが
高い3D、2D、およびビデオ機能の提供を可能に。
915Gチップセットは 8倍速または16倍速のデバイスの256-Mbや512-Mb、
1-Gb のDDR技術のみに対応で、128-Mb DDR 技術に対応しません。具体
的に、256 MBの二面メモリモジュールや128 MB の片面メモリモジュール
が対応されませんので、ご注意。
•
強化型DMAコントローラと、割り込みコントローラ、タイマー
ICH6 (SB)
機能を提供。
•
PCI 2.3仕様に準拠。
•
シリアルATA 1.0a仕様に準拠。
•
統合型USB 2.0ホストコントローラで、最大8つまでのUSB
2.0 ポートを対応可能。
•
統合型LANコントローラ。
•
統合型IDEコントローラで、Ultra ATA100/66/33サポート
可能。
メモリ
•
•
4つの非バッファーDIMMを搭載。
各DIMMスロットに1 GBまで装着可能で、合計4GBまでをサポート。
グラフィック
•
•
•
•
333MHzのコア周波数をサポート
3Dセットアップ、レンダーエンジン、および3Dグラフィック強化機能に対応
高品質なテクスチャエンジンをサポート
ビデオDVD/PC-VCR
オンボードLAN (オプション)
当マザーボードは次のLANチップセットのいずれかを搭載しております:
•
•
•
100/10 Mb/秒のNウェイ自動認識機能動作をサポート。
半/全二重動作可能。
Wake-On-LAN (WOL) 機能とリモートwake-up機能。
•
•
•
10/100/1000 トランシーバーを搭載済み。
PCI v2.3, 32-bit, 33/66-MHzへの対応。
IEEE 802.3、IEEE802.3u およびIEEE802.3abに完全対応。
Multi-Language Translation
日本語
915G Northbridge (NB)とICH6 Southbridge (SB)チップセットは、実証された信頼性
と性能を持つ革新的で拡張性のあるアーキテクチャに基づいたものです。
•
32ビットホストバスアドレシング機能対応、これでCPUが4 GBの
915G(NB)
オーディオ
当マザーボードは次のオーディオチップセットのいずれかをサポートします:
•
•
•
AC’97 v2.3仕様に適合。
PCマルチメディアシステムの6チャネルオーディオCODECをサポート。
5ビット音声コントロール可能のアナログラインレベルのステレオ入力が3つ:ライ
ンイン、CD、およびAUX。
S/PDIF出入力をサポート。
•
•
•
•
•
Azalia規格に準拠で、SNR > 95dBでの8チャネルのオーディオ出力可能。
互換性: 24/20/16 ビットでの192/96/48/44.1 KHz 。
8つのSmart Jack I/O ポートを対応。
RNM (resistors network method)での外部ジャック検知機能、これで各ジャ
ックの接続状態を監視可能。
デジタルS/PDIF出入力を対応。
•
拡張オプション
本マザーボードでは、次の拡張機能が利用できます。
日本語
•
•
•
•
•
PIC Express x16スロット (オプション) が1つ。
32ビットPCI v2.3 互換性スロットが3つ。
40ピンIDEロープロフィルヘッダー(2つのIDEチャネルをサポート)が1つ。
フロッピーディスク ドライブ インターフェイス が1つ 。
7ピン SATAコネクタが4つで、4つのSATA装置の接続を可能に。
このマザーボードは、100/66 MB/秒の転送速度でのUltra DMAバスマスタリングをサ
ポートします。
統合I/O
マザーボードには、次のI/Oポートやコネクタを揃えています。
•
•
•
•
•
マウスとキーボード用のPS/2ポートが2つ。
シリアルポートが1つ と パラレルポート が1つ。
USBポート が4つ。
VGAポートが1つ、1394 ポートが1つ(オプション)、LAN ポート(オプション)が 1つ
マイクロホン入力、ライン入力、およびライン出力用のオーディオジャック(Azalia
Audio CODECサポートのモデルの場合、マイクロホン入力、ライン入力、および
8チャンネル高解析度オーディオ出力用のオーディオジャック)。
BIOSファームウェア
本マザーボードはAWARD BIOSを採用し、次の機能を含めた多様なシステム構成を行
えます。
•
•
•
•
電源管理
ウェークアップアラーム
CPUパラメータ
CPUおよびメモリのタイミング
さらに、所定のパラメータを設定することによって、プロセッサのクロック速度を変更す
ることもできます。
一部のハードウェア仕様とソフトウェアアイテムは、予告なしに変更することが
あります。
Multi-Language Translation
특징
프로세서
915G-M5 는 다음과 같은 특징을 지닌 팬티엄 4 의 LGA775 타입을 사용한다:
•
인텔 팬티엄 4 /Celeron 프로세서 사용
•
800/533 MHz시스템 버스(FSB) 지원
•
”Hyper-Threading”기술 CPU 지원
”Hyper-Threading”기술은 운영체제를 두 개의 프로세서에 연결한 것처럼 두개의
트래드를 패러럴로 실행하여 같은 물리적 프로세서 안에서 각기 다른 논리적 프로세
서를 실행할 수 있게 한다.
칩셋
915G Northbridge (NB) 와 ICH6 Southbridge (SB) 칩셋은혁 신적이고 범위성을 지
닌 아키텍쳐를 바탕으로 인정된 신뢰성과 성능을 지닌다.
•
32 비트 호스트 버스 어드레싱 지원으로, CPU 가 총 4 GB 메
모리 어드레스 공간에 액세스할 수 있다.
•
12-deep In-Order Queue 가 호스트 버스에서 최대 12 개의
파이프라인 어드레스 요청을 지원한다.
•
x8 및 x16 장치를 위해 256-Mb, 512-Mb, 1-Gb DDR/DDR2
기술 지원.
•
가격 경쟁적인 3D, 2D, 비디오 기능을 제공하는 통합 그래
픽 장치 제공.
915G 칩셋은 x8 및 x16 장치를 위해 256-Mb, 512-Mb, 1-Gb DDR 기술만을
지원하고, 128-Mb DDR 기술은 지원하지 않는다. 즉, 256 MB 양면 메모리
모듈 및 128 MB 단면 메모리 모듈을 지원하지 않는다.
ICH6 (SB)
메모리
•
•
•
•
•
•
•
•
보강 DMA 컨트롤러, 인터럽트 컨트롤러, 및 타이머 기능
PCI 2.3 사양 호환.
시리얼 ATA 1.0a 사양 호환
최대 8 개의 USB 2.0 포트를 지원하는 통합 USB 2.0 호스트
컨트롤러
통합 LAN 컨트롤러
통합 IDE 컨트롤러로 Ultra ATA100/66/33 지원
4 개의 unbuffered DIMM 사용
DIMM 당 최대 1 GB, 최대 메모리 4 GB
그래픽
•
•
•
•
코어 주파수 333 MHz 지원
3D 셋업, 랜더 엔진, 3D 그래픽 강화 지원
고품질 텍스처 엔진 지원
비디오 DVD/PC-VCR
보드 내장 LAN (선택 사항)
본 마더보드는 다음과 같은 LAN 칩셋을 지원합니다:
•
•
•
100/10 Mb/s 자동 조정 오퍼레이션 지원
Half/Full 듀플렉스 지원
Wake-On-LAN (WOL) 기능 및 원격 wake-up 지원
•
•
•
통합 10/100/1000 트랜시버
PCI v2.3, 32-bit, 33/66-MHz 지원
IEEE 802.3, IEEE802.3u 및 IEEE802.3ab 지원
Multi-Language Translation
한국인
915G(NB)
오디오
본 마더보드는 다음과 같은 오디오 칩셋을 지원합니다.
•
•
•
•
•
•
•
•
•
AC’ 97 v2.3 코덱 부합
PC 멀티미디어 시스템을 위해 디자인 된 6 채널 오디오 코덱 지원
5 비트 볼륨 컨트롤의 아날로그 라인 레벨 스테레오 입력 3개 : Line-in,
CD, AUX
S/PDIF 출력 기능 지원
Azalia 사양 부합, SNR > 95dB 의 8 채널 DAC 지원
호환성: 24/20/16 비트의 192/96/48/44.1 KHz
8 스마트 잭 I/O 포트 지원
각 잭의 상태를 모니터하는데 사용될 수 있는 RNM (resistors network
method)을 통한 포괄적 잭 감지
디지털 S/PDIF OUT & IN 지원
확장 옵션
한국인
이 메인보드는 다음과 같은 확장 옵션이 있다
•
PIC Express x16 슬롯 1 개 (선택 사항)
•
32 비트 PCI v2.3 호환 슬롯 3 개
•
2 개의 IDE 채널을 지원하는 40 핀 IDE 로우 프로파일 해더 1 개
•
플로피 디스크 드라이브 인터페이스 1 개
•
4 개의 SATA 장치를 지원하는 7 핀 SATA 커넥터 4 개
915G-M5 마더보드는 전송 속도 100/66 MB/s의 UltraDMA 버스 마스터링을 지원한
다.
통합 I/O
이 메인보드에는 풀 세트의 I/O 포트와 커넥터가 있다
•
•
•
•
•
마우스와 키보드용 PS/2 포트 2 개
시리얼 포트1개 및 패러럴 포트 1 개
USB 포트 4 개
VGA 포트 1 개, 1394 포트 (선택사항) 1 개 및 LAN 포트 (선택사항) 1 개 지
원
마이크 입력 용 오디오 잭, 라인 입력 및 라인 출력 (마이크 입력 용 오디오
잭, 라인 입력, Azalia Audio CODEC을 지원할 경우 8 채널 고 재생음 오디
오 출력)
BIOS 펌웨어
본 메인보드는 AWARD BIOS 를 사용하여 사용자는 다음과 같은 시스템 기능을 구
성할 수 있다
•
전원 관리
•
Wake-up 알람
•
CPU 파라미터
•
CPU 및 메모리 타이밍
펌웨어는 다른 프로세서의 클럭 속도를 설정하는 데도 사용될 수 있다
하드웨어 사양 및 소프트웨어 아이템은 사전 통보없이 변경될 수 있
습니다
Multi-Language Translation
功能
處理器
915G-M5 採用LGA775型的Pentium 4,具㈲如㆘㈵徵:
‧ 支援Intel P4/Celeron 處理器;
‧ 支援高達800/533MHz之系統匯流排(FSB);
‧ 支援使用超執行緒(Hyper-Threading)技術之CPU。
利用“超執行緒(HT)”技術,可使作業系統在相當於裝㆖了兩具處理器的狀態㆘運作
:利用㆒個”實體”處理器模擬出兩個獨立的”邏輯”處理器,同時執行兩個工作緒
。
晶片組
915G北橋(NB)及ICH6南橋(SB)晶片組在研發設計㆖採用了創新且具擴充性之架構,具備
㊝的可靠性及性能。
‧
支援32位元主事匯流排定址,藉此CPU 存取整個4 GB的記憶
位址空間;
‧ 具㈲㆒個可容納12組㈾料之跳序(In-order)佇列,可支援最多
12個在主控匯流排㆖發生的未完成管線位址要求;
‧ 支援8倍速及16倍速之256-Mb、512-Mb、及1-Gb DDR/
DDR2技術;
‧ 配備㈲㆒個整合型的繪圖裝置,提供物超所值的3D、2D、
及視訊繪圖功能。
915G 晶片組僅能支援8倍速及16倍速之256-Mb、 512-Mb、及1-Gb DDR技術
,惟,並不支援 128-Mb DDR 技術。具體而言,不支援256 MB雙面記憶體模
組及128 MB單面記憶體模組。.
‧ 增強型DMA控制器、㆗斷控制器、及計時功能;
ICH6 (SB)
‧ 符合PCI 2.3規格;
‧ 符合序列ATA 1.0a規格;
‧ 內建式USB 2.0主控,可支援8個USB 2.0埠;
‧ 內建式區域網路控制器;
‧ 整合式IDE控制器,支援Ultra ATA100/66/33。
記憶體
‧
‧
可安裝4個非緩衝式DIMM;
各DIMM可安裝1GB記憶體,共可支援高達4GB的記憶體容量。
繪圖卡
‧
‧
‧
‧
支援333MHz的核心速率
支援3D設圖(Setup)、算圖(Render)引擎、及3D繪圖強化功能
支援品質紋理(Texture)引擎
視訊DVD/PC-VCR
機載區域網路 (選購)
本主機板搭載㈲如㆘其㆗㆒種LAN晶片組:
•
•
•
支援 100/10 Mb/秒N向㉂動辨識連線功能
支援半及全雙工
支援Wake-On-LAN (WOL)功能及遠端wake-up功能
•
•
•
整合㈲10/100/1000 收發器;
支援PCI v2.3, 32位元, 33/66-MHz;
完全支援IEEE 802.3、 IEEE802.3u 及IEEE802.3ab。
Multi-Language Translation
繁體㆗文
915G (NB)
音效
本主機板支援以㆘其㆗㆒種音訊晶片組:
‧
‧
‧
‧
‧
‧
‧
‧
‧
相容於AC’97 2.3版CODEC規格;
支援為個㆟電腦多媒體系統設計的6聲道音訊CODEC功能;
提供具㈲5位元音量控制功能的3種類比線級立體音效輸入:Lin-in、CD、
及AUX;
支援S/PDIF輸出功能。
符合Azalia規格,支援8聲道DAC(SNR > 95dB);
相容性:24/20/16位元㆘之192/96/48/44.1 KHz;
支援8個Smart Jack I/O埠;
利用RNM(resistors network method)之㉂動插頭檢測;RNM可檢測各插頭的
插入狀態;
支援數位S/PDIF輸出入。
擴充選㊠
本主機板包括㆘列擴充選㊠:
‧ 1個 PIC Expressx16 槽 (選購);
‧ 3個32位元PCIv2.3插槽;
‧ 1個40針IDE低通接頭(支援2個IDE通路);
‧ 1 個軟碟機介面4個;
‧ 4組 7針型SATA連接器,可連接4個 SATA設備。
本主機板支援傳輸率100/66 MB/秒㆘的Ultra DMA 匯流排主控功能。
繁體㆗文
整合輸出入埠
主機板具㈲㆒組齊全的輸出入埠及連接器:
‧
‧
‧
‧
‧
2 個 PS/2 埠,供滑鼠與鍵盤使用;
1 個串列埠及1 個平行埠
4 個USB埠;
1個VGA埠,1個1394埠(選購)、及1個LAN埠(選購);
麥克風用、線級輸入、線級輸出的音訊插孔(如為支援Azalia 音訊編解碼時,
則為麥克風用、線級輸入、及8聲道高解析音訊輸出的音訊插孔。)。
BIOS 韌體
本主機板使用AWARD BIOS,使用者可以組態設定許多系統功能,包括如㆘:
‧ 電源管理;
‧ 喚醒警鈴;
‧ CPU參數;
‧ CPU及記憶體的時脈定時。
此外,也可藉由參數的設定,調整處理器的時脈速度。
部份硬體規格和軟體內容可能會在未經通知的情況㆘更動,敬請見諒。
Multi-Language Translation
功能
处理器
915G-M5 使用 LGA775 型 Pentium 4 CPU,具备以下特点:
•
支持 Intel P4/Celeron 处理器
•
支持 800/533 MHz 系统总线 (FSB)
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支持“多线程(Hyper-Threading)”技术 CPU
“多线程”技术可以让操作系统认为自己连接了两个处理器,允许两个线程并行运行,
每个线程位于同一处理器中的单独“逻辑”处理器中。
芯片组
915G 北桥 (NB) 和 ICH6 南桥 (SB) 芯片组是基于一种新型的、可扩展的架构,能提
供已经证明的可靠性和高性能。
915G (NB)
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ICH6 (SB)
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增强 DMA 控制器、中断控制器和定时器功能
符合 PCI 2.3 规格
符合串行 ATA 1.0a 规格
集成 USB 2.0 主控器,最多支持 8 个 USB 2.0 端口
集成 LAN 控制器
集成 IDE 控制器,支持 Ultra ATA100/66/33
内存
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支持 4 个非缓冲 DIMM
每个插槽支持 1 GB,总共最大可支持 4 GB
图形
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支持 333 MHz 核心频率
支持 3D 设置,着色引擎和 3D 图形增强
支持高质量纹理引擎
视频 DVD/PC-VCR
Onboard LAN (可选)
此主板支持以下任何一种 LAN 芯片组:
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支持 100/10 Mb/s N 路自协商工作
支持半双工和全双工工作
支持 LAN 唤醒 (WOL) 功能和远程唤醒功能
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集成 10/100/1000 收发器
支持 PCI v2.3,32-位,33/66-MHz
完全支持 IEEE 802.3,IEEE 802.3u和IEEE 802.3ab
Multi-Language Translation
简体中文
支持 32 位主机总线寻址,允许 CPU 访问 4 GB 的完整内
存地址空间。
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带 12-deep In-Order Queue,主机总线上最多支持 12 个
Piplined 地址请求。
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支持用于 x8 和 x16 设备的 256-Mb、512-Mb 和 1-Gb
DDR/DDR2 技术
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提供带有 3D、2D 和视频功能的集成图形设备,更具价格
竞争力
915G 芯片组仅支持用于 x8 和 x16 设备的 256-Mb、512-Mb 和 1-Gb
DDR 技术,不支持 128-Mb DDR 技术。也就是说该芯片组不支持 256 MB
双面内存模块和 128 MB 单面内存模块。
音频
此主板支持以下任何一种音频芯片组:
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符合AC’97 v2.3 编解码器规格
支持为PC多媒体系统设计的 6 声道音频编解码器
提供 3 路带 5 位音量控制的模拟线路电平立体声输入:线入、CD 和
AUX
支持 S/PDIF 输出入功能
符合 Azalia 规格,支持 SNR > 95dB 的 8 通道 DAC
兼容性:192/96/48/44.1 KHz,24/20/16 位
支持 8 个智能插孔 I/O 端口
通过 RNM(电阻网络方法)的全面插孔检测,用于监视每个插孔的插入
状态
支持数字量 S/PDIF OUT & IN
扩展选项
此主板提供如下扩展选项:
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1 个 PIC Express x16 插槽(可选)
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3 个 32 位 PCI v2.3 扩展插槽
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1 个 40-pin IDE 紧凑型接口,支持 2 个 IDE 通道
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1 个软驱接口
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4 个 7 针 SATA 接口,支持 4 个 SATA 设备
主板915G-M5支持 Ultra DMA 总线控制,传输速率可达 100/66 MB/sec。
简体中文
集成 I/O
此主板具有完整的 I/O 端口和插孔:
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2 个用于连接鼠标和键盘的 PS/2 端口
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1 个串口和 1 个并口
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4 个 USB 端口
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1 个 VGA 端口,1 个 1394 端口(可选)和 1 个 LAN 端口(可选)
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麦克风、线入和线出声音插孔(如果支持 Azalia 音频编解码器,则提供麦
克风、线入和 8 声道高分辨率音频输出插孔)
BIOS
此主板使用 AWARD BIOS,可以让用户自己配置以下系统功能:
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电源管理
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唤醒报警
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CPU 参数
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CPU 和记忆的定时
还可用于设置不同处理器时钟速度的参数。
某些硬件规格和软件项目若有更改恕不另行通知。
Multi-Language Translation
Характеристики
Процессор
Плата 915G-M5 построена на базе процессора Pentium 4 LGA775 и обладает
следующими характеристиками:
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Размещает процессоры Intel P4/Celeron
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Поддерживает системные шины (FSB) с частотой 800/533MHz
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Поддерживает технологию CPU “Hyper-Threading”
Технология “Hyper-Threading” «убеждает» операционную систему в том, что в машине
имеется два процессора; это позволяет параллельно обслуживать два процесса, причем
каждый из процессов обслуживается отдельным «логическим» процессором в пределах
одного физического процессора.
Чипсет
Чипсеты 915G «Северный мост» (Northbridge, NB) и ICH6 «Южный мост»
(Southbridge, SB) построены с использованием инновационной масштабируемой
архитектуры, обеспечивающей высокую надежность и производительность.
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Поддерживает 32-битную адресацию хоста,
обеспечивая для CPU адресацию памяти объемом
4ГБ.
Поддерживает технологию 12-deep In-Order Queue,
обеспечивающую обслуживание до двенадцати
заданий, ожидающих на шине хоста.
Поддерживает технологии 256-Мб, 512-Мб и 1-Гб DDR/
DDR2 для устройств x8 и x16.
Интегрированное графическое устройство
обеспечивает высококачественную 3D и 2D
видеографику
Чипсет 915G поддерживает только технологии 256-Мб, 512-Мб and 1-Гб
DDR для устройств x8 / x16 и НЕ ПОДДЕРЖИВАЕТ технологии 128-Мб
DDR. Таким образом, поддержка модулей памяти 256 МБ Double Side и 128
МБ Single Side ОТСУТСТВУЕТ.
ICH6 (SB)
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Расширенные функции контроллера DMA,
контроллера прерываний, внутреннего таймера
Совместимость с PCI 2.3
Совместимость с Serial ATA 1.0a
Встроенный контроллер хоста USB 2.0 с поддержкой
до восьми портов USB 2.0
Встроенный контроллер LAN
Встроенный контроллер IDE с поддержкой Ultra
ATA100/66/33
Память
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Обслуживает 4 модуля небуферизованной памяти DIMM
Обслуживает до 1 ГБ на модуль DIMM (максимально до 4 ГБ памяти)
Графика
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Поддерживает основную частоту 333 MГц
Поддерживает 3D настройку, рендеринг и расширение трехмерной
графики
Поддерживает технологию высококачесвтенных текстур High Quality
Texture Engine
Видео DVD/PC-VCR
Multi-Language Translation
Русский
915G (NB)
Встроенный сетевой адаптер LAN (опционально)
Встроенный сетевой адаптер LAN обладает следующими характеристиками:
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Поддерживает автоматическое определение скорости и режима
соединения 100/10Mb/s
Поддерживает режимы Half/Full duplex
Поддерживает функции Wake-On-LAN и remote wake-up
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Интегрированный трансивер 10/100/1000
Поддеркжа PCI v2.3, 32-бит, 33/66-MГц
Поддерживает технологии IEEE802.3, IEEE802.3u и IEEE802.3ab
Аудио
Данная плата может поддерживать любой из нижеследующих чипсетов аудио.
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Совместимо с AC’97 v2.3 CODEC
Поддерживает 6-канальный аудио CODEC для мультимедиальных
компьютерных систем
Обеспечивает три аналоговых стереовхода с 5-битной регуляцией
громкости: Line-in, CD, AUX
Поддерживает функцию входа/выхода S/PDIF
Совместимость с технологией Azalia, поддержка 8 каналов DAC при
SNR >95dB
Совместимость с 192/96/48/44.1 KГц для 24/20/16 бит
Поддержка 8 портов входа/выхода типа «Smart Jack»
Точное детектирование занятости разъемов методом RNM
(резисторной сети)
Поддержка цифровой технологии S/PDIF OUT & IN
Русский
Возможности расширения
Существуют следуюшие опции расширения данной материнской платы:
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Oдин слот PCI Express x16 (опционально)
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Три 32-битных слота PCI v2.3
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Один низкопрофильный 40-штырьковый слот IDE, обеспечивающий
поддержку двух устройств IDE
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Один разъем для накопителя на гибких дисках
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Четыре 7-штырьковых коннектора SATA с поддержкой четырех
устройств SATA
Плата 915G-M5 поддерживает технологию захвата управления шиной UltraDMA bus
mastering со скоростью передачи данных 100/66 МБ/сек.
Интегрированный вход/выход
Плата снабжена полным набором портов входа/выхода и разъемов:
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Два порта PS/2 для подключения мыши и клавиатуры
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Один серийный порт и oдин параллельный порт
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Четыре порта USB
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Один порт VGA, один порт 1394 (опционально) и один порт LAN
(опционально)
Multi-Language Translation
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Гнезда для подключения микрофона, гнезда аудио-входа и выхода
(Гнезда для подключения микрофона, гнезда аудио-входа и 8канального выхода High Definition при поддержке технологии Azalia
Audio CODEC.)
BIOS
Плата работает под AWARD BIOS, который позволяет пользователю конфигурировать
различные характеристики системы:
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Управление питанием
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Сигналы пробуждения системы
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Параметры CPU
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Время доступа для CPU и памяти
BIOS допускает также установку параметров для различных частот процессора.
Русский
Некоторые параметры платы и характеристики ее программного
обеспечения могут быть изменены без предварительного уведомления.
Multi-Language Translation
Cechy
Procesor
Płyta główna 915G-M5 zaopatrzona jest w procesor Pentium 4 typu LGA775 i charakteryzuje
się następującymi cechami:
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Obsługuje procesory Intel P4/Celeron
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Obsługuje szynę systemowa (FSB) 800/533MHz
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Zabezpiecza technologię CPU “Hyper-Threading”
Technologia “Hyper-Threading” powoduje, że system "myśli”, że posiada dwa procesory i
wykonuje równolegle dwa procesy; za wykonanie każdego procesu odpowiedzialny jest jeden
z dwuch "logicznych" procesorów w ramach jednego fizycznego procesora
Chipset
Mostek północny (NB) 915G i mostek południowy (SB) ICH6 chipsetu oparty jest na
nowatorskiej i skalowalnej architekturze o sprawdzonej niezawodności i funkcjonalnoœci.
915G (NB)
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Obsługuje 32-bitowe adresowanie hosta pozwalając
procesorowi zaadresować 4 GB pamięci
Posiada technologię 12-deep In-Order Queue i przetwarza
do dwunastu żądań oczekujących na szynie hosta.
Obsługuje pamięci 256-Mb, 512-Mb i 1-Gb w technologii
DDR/DDR2 w urządzeniach x8 i x16
Posiada zintergowaną grafikę zapewniającą szerokie
możliwości 3D, 2D oraz video
Chipset 915G obsługuje tylko pamięci 256-Mb, 512-Mb i 1-Gb w technologii DDR dla
urządzeń x8 i x16 I NIE OBSŁUGUJE pamięci 128-Mb w technologii DDR. To oznacza,
że pamięci 256 MB Double Side i 128 MB Single Side NIE SĄ OSŁUGIWANE.
ICH6 (SB)
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Polski
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Rozszerzony kontroler DMA, kontroler przerywań i funkcje
zegara
Zgodny z PCI w wersji 2.3
Zgodny ze standardem Serial ATA 1.0a
Wbudowany kontroler hosta USB 2.0 obsługuje do ośmiu
portów USB 2.0
Wbudowany kontroler LAN
Wbudowany kontroler IDE obsługujący Ultra ATA100/66/
33
Pamięć
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Zaopatrzony w cztery gniazda niebuforowanej pamięci typu DIMM
Obsługuje pamięć DIMM do pojemności 1 GB każda; maksymalna
możliwa pojemność pamięci do 4 GB
Grafika
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Obsługuje podstawową częstotliwość 333 MHz
Obsługuje konfigurację, rendering oraz rozszerzenia grafiki 3D.
Obsługuje technologię wysokiej jakości tekstur
Obsługuje video DVD/PC-VCR
Multi-Language Translation
Zintegrowana obsługa sieci LAN (opcjonalnie)
Zintegrowana obsługa sieci LAN posiada następujące właściwości:
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Obsluguje N-drożne automatycznie ustalane operacje z szybkościami
100/10 Mb/s
Zdolność Half/Full duplex
Obsługuje funkcję Wake-On-LAN i zdalnie sterowane wake-up
(uruchamianie komputera)
Zintegrowany terminal nadawczo-odbiórczy 10/100/1000
Obsluguje 32 bitowe PCI w wersji 2.3 o częstotliwościach 33/66-MHz
Obsługuje wpełni IEEE802.3, IEEE802.3u oraz IEEE802.3ab
Audio
Ta płyta głwna obsługuje wszystkie z niżej wymienionych chipsetów audio.
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Zgodne z audio CODEC AC’97 w wersji 2.3
Obsługuje 6 kanałów audio CODEC dla komputerowych systemów
multimedialnych
Zapewnia trzy wejściowe, analogowe linie stereo z 5 bitową regulacją
głośności: Line-in, CD, AUX
Obsługuje funkcje wejścia i wyjścia S/PDIF
Zgodne z technologią Azalia, obsługuje 8-kanałowy DAC z SNR >95dB
Zgodność: 192/96/48/44.1 KHz z 24/20/16 bitami
Obsługuje 8 gniazd We/Wy typu “Smart Jack”
Szczegółowa detekcja zajętości gniazd typu Jack za pomocą RNM
(metodą sieci rezystorów)
Obsługuje w technologii cyfrowej S/PDIF wejście i wyjście
Płyta głwna wyposażona jest w następujące gniazda:
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Jedno gniazdo PIC Express x16 (opcjonalnie)
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Trzy 32-bitowych gniazda zgodnych z PCI w wersji 2.3
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Jedno 40-nóżkowe złącze niskoprofilowe obsługujące dwa urządzenia
IDE
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Jedno złącze obsługujące stacje dyskietek
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Cztery 7-nóżkowe złącza SATA obsługujące cztery urządzenia SATA
Płyta główna 915G-M5 obsługuje szynę UltraDMA z szybkością transferu 100/66 MB/s.
Zintegrowane We/Wy
Płyta głwna wyposażona jest w pełny zestaw gniazd i złączy We/Wy:
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Dwa gniazda PS/2 dla myszy i klawiatury
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Jedno gniazdo szeregowe i jedno gniazdo równoległe
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Cztery gniazda USB
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Jedno gniazdo VGA, jedno gniazdo typu 1394 (opcjonalnie), oraz jedno
gniazdo LAN (opcjonalnie)
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Gniazdo mikrofonowe, wejście i wyjście audio (Gniazdo mikrofonowe,
wejście i 8 kanałowe wyjście audio High Definition obsługujące Azalia
Audio CODEC.)
Multi-Language Translation
Polski
Możliwości rozbudowy
Firmowy BIOS
Płyta głwna wyposażona jest w BIOS firmy AWARD, który pozwala użytkownikowi
konfigurować wiele cech systemu włączając w to następujące właściwości:
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Zarządzanie poborem mocy
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Alarmy typu Wake-up
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Parametry pracy procesora
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Ustalenia szybkoœci pracy procesora i pamiêci
BIOS może być używany do ustalania parametrów wpływających na szybkości pracy zegara
procesora.
Niektóre parametry dotyczące płyty i jej oprogramowania mogą ulec zmianie
bez uprzedniego powiadomienia.
Polski
Multi-Language Translation
Vlastnosti
Procesor
Základní deska 915G-M5 je urèena pro procesory Pentium 4 LGA775 a mùže nabídnout
následující vlastnosti:
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Pro připojení procesorů Intel P4/Celeron
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Podporuje taktování systémové sběrnice (FSB) na frekvenci 800/533 MHz
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Podporuje technologii CPU „Hyper-Threading“
Technologie „Hyper-Threading“ umožňuje operačnímu systému pracovat tak, jako by byl
připojen ke dvěma procesorům, protože je možné pracovat se dvěma toky programového
kódu (vlákny) paralelně najednou, přičemž jsou k dispozici samostatné „logické“ procesory
umístěné v rámci jednoho fyzického procesoru.
Čipová sada
Čipy northbridge (NB) 915G a southbridge (SB) ICH6 jsou založeny na inovativní a škálovatelné
architektuře s ověřenou spolehlivostí a výkonností.
915G (NB)
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Podporuje 32bitové adresování, umožòující CPU pøistupovat
k celému adresovému prostoru pamìti 4 GB.
Má 12stupòovou frontu pro podporu až 12 požadavkù na
adresování v pipeline na hostitelské sbìrnici.
Podpora 256-Mb, 512-Mb a 1-Gb DDR/DDR2 technologií
pro zaøízení x8 a x16
Nabízí integrovaný grafický čip s nákladově efektivními
schopnostmi přehrávání 3D, 2D grafiky a video.
ICH6 (SB)
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Vylepšený řadič DMA, řadič přerušení a funkcí časovače
Splňuje požadavky standardu PCI 2.3
Splňuje požadavky standardu Serial ATA 1.0a
Integrované hostitelské řadiče USB 2.0 podporující až
osm portů
Integrovaný řadič LAN
Integrovaný řadič IDE podporující Ultra ATA100/66/33
Paměť
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Instalovat je možné až ètyøi DIMM moduly bez vyrovnávací pamìti
Až 1 GB pamìti na jeden modul DIMM s maximální velikostí pamìti do 4
GB
Grafika
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Podporuje frekvenci jádra 333 MHz
Podporuje 3D nastavení, renderovací jádro a 3D grafické vylepšení
Podporuje jádro tvorby vysoce kvalitních textur
Video DVD/PC-VCR
Multi-Language Translation
Česky
Čipová sada 915G je schopná podporovat pouze technologie 256-Mb, 512-Mb a 1
Gb DDR pro zařízení x8 a x16, NIKOLIV technologie 128-Mb DDR. To znamená,
že NEJSOU podporovány paměťové moduly 256 MB DIMM & 128 MB SIMM.
Vestavění síťové rozhraní LAN (volitelně)
Vestavěné síťové rozhraní LAN nabízí následující možnosti:
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Podpora 100/10 Mb/s N–cestného automatického přepínání provozu
Možnost polovičního a plného duplexu
Podpora funkce Wake–On–LAN a aktivace na dálku
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Integrovaný transceiver 10/100/1000
Podpora rozhraní PCI v2.3, 32bitové, 33/66 MHz
Podporuje plně IEEE802.3, IEEE802.3u a IEEE802.3ab
Zvuk
Tato základní deska může podporovat libovolnou zvukovou čipovou sadu.
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Splòuje požadavky standardu AC’97 v2.3
Podporuje 6kanálový zvukový kodek navržený pro PC multimediální
systémy
Nabízí tøí analogové linkové stereo vstupy s 5bitovým øízením
hlasitosti: Line_IN, CD, AUX.
Podporuje vstupní a výstupní funkce S/PDIF
Zvuková sada splòuje specifikace standardu Azalia, který podporuje 8
kanálový pøevodník DAC s odstupem signál/šum > 95 dB
Kompatibilita: 192/96/48/44,1 kHz s 24/20/16bitovým vzorkováním
Podpora 8 I/O portù Smart Jack
Rozsáhlá detekce konektorù prostøednictvím RNM (metoda odporové
sítì), kterou lze využít pro monitorování stav pøipojených konektorù
v každé zdíøce
Podpora digitálního vstupního/výstupního rozhraní S/PDIF
Možnosti rozšíření
Základní deska je dodávána s následujícími možnostmi rozšíření
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Česky
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Jeden slot PCI Express x16 (volitelně)
Tři 32bitové patice PCI v2.3
Jeden nízkoprofilový 40kolíkový konektor IDE podporující připojení dvou
zařízení standardu IDE
Jedno rozhraní pro disketovou mechaniku
Čtyři 7kolíkové konektory SATA podporující až čtyři zařízení SATA
Základní deska 915G-M5 podporuje sběrnici Ultra DMA s přenosovými rychlostmi 100/66
MB/s.
Integrovaný vstup/výstup
Základní deska je vybavena kompletní sadou vstupních portů a konektorů I/O:
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Dva porty PS/2 pro myš a klávesnici
Jeden sériový port a jeden paralelní port
Čtyři porty USB
Jeden port VGA, jeden port 1394 (volitelně) a jeden port LAN (volitelně)
Zvukové konektory pro připojení mikrofonu, linkového vstupu a linkového
výstupu (zvukové konektory pro připojení mikrofonu, linkového vstupu a
8kanálového výstupu podporují zvukový kodek Azalia.)
Multi-Language Translation
Firmware BIOS
Základní deska využívá BIOS formy AWARD, který uživateli umožňuje nakonfigurovat
mnoho systémových parametrů, včetně následujících:
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Řízení spotřeby
Alarmy při spouštění systému
Parametry CPU
Časování CPU a paměti
Firmware může být rovněž použit k nastavení parametrů pro různé taktovací frekvence
procesoru.
Česky
Některé technické parametry hardware a software se mohou měnit bez
předchozího upozornění.
Multi-Language Translation
Caracteristici
Procesorul
915G-M5 utilizează Pentium 4 de tipul LGA775, având următoarele caracteristici:
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Funcţionează cu procesoare Intel P4/ Celeron
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Funcţionează cu bus sistem (FSB) de 800/533 MHz
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Este compatibilă cu unităţi centrale dotate cu tehnologia „HyperThreading”
Tehnologia „Hyper-Threading” permite sistemului de operare să funcţioneze ca şi cum ar
exista două procesoare, putând fi rulate în paralel două fire, fiecare pe câte un procesor „logic”
separat, aflate pe acelaşi procesor fizic.
Setul de chipuri
Seturile de chipuri 915G Northbridge (NB) şi ICH6 Southbridge (SB) se bazează pe o
arhitectură inovatoare şi scalabilă, care s-a impus deja prin fiabilitate şi performanţă.
915G (NB)
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Sprijină adresarea host bus (bus gazdă) de 32 biţi, permiţând
unităţii centrale să acceseze întreaga cantitate de memorie
de 4 GB.
Dispune de o coadă de aşteptare cu adâncimea 12 pentru
a sprijini maxim douăsprezece cereri de adresare paralele
pe busul gazdei.
Este compatibil cu tehnologiile de 256-Mb, 512-Mb şi 1Gb DDR/DDR2, pentru unităţi de viteza 8x sau 16x
Include o unitate grafică prin care asigură posibilităţi
economicoase 3D, 2D şi video.
Setul de chipuri 915G funcţionează doar cu tehnologiile DDR de 256-Mb, 512Mb şi 1-Gb pentru unităţi de viteza 8x sau 16x. NU suportă tehnologia DDR de
128-Mb. Adică, NU suportă modulele de memorie cu faţă dublă de 256 MB şi
cele cu faţă simplă de 128 MB.
ICH6 (SB)
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Controler DMA îmbunătăţit, controler de întreruperi şi funcţii
de temporizare
Compatibil cu specificaţia PCI 2.3
Compatibil cu specificaţie Serial ATA 1.0a
Controler gazdă USB 2.0 integrat, care suportă cel mult
opt porturi USB 2.0
Controler LAN integrat
Controler IDE integrat, suportând Ultra ATA100/66/33
Română
Memoria
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Poate funcţiona cu patru module DIMM fără zonă tampon
Poate funcţiona cu module DIMM de cel mult 1 GB, iar cantitatea maximă de
memorie este de 4 GB
Grafică
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Suportă o frecvenţă centrală de 333 MHz
Suportă dispunere 3D, motor de randare şi dezvoltări grafice 3D
Suportă motor de textutare de înaltă calitate
Video DVD/PV-VCR
Multi-Language Translation
Onboard LAN (opţional)
Onboard LAN are următoarele caracteristici:
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Suportă operaţii de autonegociere N-way de 100/10 Mb/s
Posibilitate de semi-duplex sau duplex total
Suportă funcţia Wake-On-LAN şi trezirea de la distanţă
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Unitate de emisie/recepţie 10/100/1000 integrat
Suportă PCI, versiunea 2.3, de 32 biţi, la 33/66 MHz
Pe deplin compatibil cu standardele IEEE802.3, IEEE802.3u şi
IEEE802.3ab
Audio
Această placă de bază suportă toate seturile de chipuri de mai jos.
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Compatibil cu CODEC-ul AC’97, versiunea 2.3
Suportă CODEC cu şase canale audio destinate sistemelor multimedia
ale calculatoarelor
Oferă trei intrări audio analoge stereo, cu un control al volumului sonor
de 5 biţi: Intrare audio, CD, AUX
Suportă funcţia S/PDIF de ieşire şi intrare
Compatibil cu specificaţia Azalia, suportând DAC-uri cu 8 canale, a căror
SNR (raport sunet-zgomot) este sub 95 dB
Compatibil cu: 192/96/48/44,1 kHz, la 24/20/16 biţi
Suportă 8 porturi I/O Smart Jack
Detectare extinsă mufe prin RNM (metoda reţelei de rezistenţe), care
poate fi utilizată pentru monitorizarea stării conexiunii fiecărei mufe
Suportă S/PDIF OUT şi IN digital
Opţiuni de extindere
Placa de bază este dotată următoarele posibilităţi de extindere:
Un slot PIC Express x16 (opţional)
Trei sloturi de 32 biţi compatibile PCI, versiunea 2.3
O interfaţă IDE 40 cu profil plat care poate deservi două unităţi IDE
O interfaţă pentru unitate floppy
Patru conectoare SATA cu 7 ace, care suportă patru unităţi SATA
Placa de bază 915G-M5 suportă bus mastering UltraDMA cu viteze de transfer de 100/
66 MB/s
I/O integrată
Placa de bază este dotată cu un set complet de porturi şi conectoare I/O:
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Două porturi PS/2, pentru mouse şi tastatură
Un port serial şi un port paralel
Patru porturi USB
Un port VGA, un port 1394 (opţional) şi un port LAN (opţional)
Conectoare pentru microfon, intrare şi ieşire audio (Conectoare pentru
microfon, intrare şi ieşire audio cu 8 canale de înaltă fidelitate , dacă
suportă codecul Azalia Audio CODEC.)
Multi-Language Translation
Română
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Firmware BIOS
Placa de bază utilizează AWARD BIOS, care permite utilizatorului să configureze mai mulţi
parametri ai sistemului, cum ar fi:
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Gestionarea energiei
Alarme de trezire
Parametri CPU
Temporizare CPU şi memorie
Acest firmware poate fi utilizat şi pentru a seta parametrii diferitelor frecvenţe de comandă ale
procesorului.
Anumite specificaţii hardware şi elemente de software pot fi modificate fără
înştiinţare prealabilă.
Română
Multi-Language Translation
Спецификация
Процесор
Дънната платка 915G-M5 поддържа Pentium 4 тип LGA775 със следните спецификации:
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Поддръжка на процесори Intel P4/Celeron
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поддръжка на системна шина със скорост 800/533MHz
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поддръжка на процесори с технология “Hyper-Threading"
Технологията “Hyper-Threading" позволява да се “излъже” операционната система, че
работи на два процесора, което дава възможност за паралелното изпълнение на две
задачи на два отделни “логически” процесора в един и същ физически процесор.
Чипсет
Чипсетът със северен мост 915G (NB) и южен мост ICH6 (SB) е изграден на базата
на оригинална архитектура с възможност за надстройка с доказана надеждност и
производителност.
915G (NB)
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32-bit адресация на шината, което позволява на
процесора достъп към пълното адресно пространство
на паметта 4GB.
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12-deep In-Order Queue (12-стъпков конвейерен буфер)
с поддръжка на до дванадесет операции за четене на
данни от паметта.
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поддръжка на технологии 256-Mb, 512-Mb и 1-Gb DDR/
DDR2 за x8 и x16 устройства
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Интегрирано графично ядро с 3D, 2D и видео
възможности.
Чипсетът 915G поддържа само технологиите 256-Mb, 512-Mb and 1-Gb
DDR за x8 и x16 устройства, и НЕ поддържа технологията 128-Mb DDR.
Това означава, че НЕ могат да се подключат модули 256 MB Double Side
Memory Module и 128 MB Single Side Memory Module.
ICH6 (SB)
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подобрен DMA Контролер, контролер на прекъсванията
и часовник
поддръжка на шината PCI 2.3
съвместимост със спецификацията Serial ATA 1.0a
интегриран контролер USB 2.0 с поддръжка на до осем
порта USB 2.0
интегриран мрежов контролер
интегриран контролер IDE с поддръжка на Ultra
ATA100/66/33
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поддръжка на до четири небуферирани DIMM слота
до 1 GB памет на 1 DIMM канал с максимален капацитет 4 GB
Графичен чип
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Поддръжка на основна честота 333 MHz
Поддръжка на 3D Setup, Render Engine и 3D Graphics
Поддръжка на висококачествено текстурно ярдо (Texture Engine)
Video DVD/PC-VCR
Multi-Language Translation
Български
Памет
Интегриран мрежов контролер (опция)
Спецификация на интегрирания мрежов контролер:
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поддръжка на 100/10 Mb/s, N-Way Auto-negotiation operation
Half/Full duplex
поддръжка на функция за “събуждане” Wake-On-LAN и дистанционен
wake-up
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Интегриран 10/100/1000 контролер
поддръжка на PCI v2.3, 32-bit, 33/66-MHz
Пълна съвместимост с IEEE802.3, IEEE802.3u IEEE802.3ab
Аудио
Тази дънна платка може да поддържа някои от следните спецификации.
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Аудио Кодек съвместим със спецификацията AC’97 2.3
Поддържа 6-канален аудио Кодек специално за мултимедийни
приложения
Включва три аналогови линейни стерео входа с 5-битово
управление на мощността: Line-IN, CD, AUX
Поддържа функцията S/PDIF input/output
съвместимост със спецификацията Azalia с поддръжка на 8-канално
DAC аудио с SNR >95dB
съвместимост с: 192/96/48/44.1 KHz на 24/20/16 bits
поддръжка на порт 8 Smart Jack I/O
усъвършенствано разпознаване на жаковете (jack detection) чрез
RNM (resistors network method), което може да се използва за
наблюдение статуса на всеки жак.
поддръжка на цифров S/PDIF Вход/Изход
Възможности за разширяване
Дънната платка има следните разширителни възможности:
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Един слот PIC Express x16 (опция)
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три слота 32-bit PCI v2.3
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един нископрофилен 40-pin IDE колектор с поддръжка на две IDE
устройства
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един конектор за флопидисково устройство
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Четири конектора 7-pin SATA, които поддържат четири SATA устройства
Дънната платка 915G-M5 поддържа шина UltraDMA 100/66 MB/s
Български
Интегриран Вход/Изход контролер
Дънната платка има пълен набор от I/O портове и конектори:
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два PS/2 порта за мишка и клавиатура
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един сериен порт и един паралелен порт
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четири USB порта
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Един VGA порт, един 1394 порт (опция) и един LAN порт (опция)
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Аудио порт с линеен вход/линеен изход/вход за микрофон (Аудио порт с
вход за микрофон, линеен вход и 8-канален High Definition Audio изход,
ако дънната платка поддържа Azalia Audio CODEC.)
Multi-Language Translation
BIOS Firmware
Дънната платка използва AWARD BIOS с възможност за различни системни настройки,
включително
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управление на захранването
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Wake-up аларми
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параметри на процесора
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синхронизиране на процесора и паметта
настройка на скоростта на часовника на процесора
Български
Хардуерните и софтуерни спецификации и параметри могат да бъдат
изменени без предупреждение.
Multi-Language Translation
Jellemző
Processzor
A 915G-M5 LGA775 típusú Pentium 4 számára készült, és a következő jellemzőkkel bír:
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Intel P4/Celeron processzorokkal működik
800/533 MHz sebességű rendszerbuszt (FSB) támogat
Támogatja a „Hyper-Threading” technológiát használó központi
egységeket
A „Hyper-Threading” technológia által az operációs rendszer úgy működik, mintha két
processzorral rendelkezne, ami két szál párhuzamos futását teszi lehetővé két független,
ugyanazon fizikai processzoron található „logikai” processzoron.
Lapkakészlet
A 915G Northbridge (NB) és ICH6 Southbridge (SB) lapkakészletek egy új és méretezhető,
nagy megbízhatóságú és teljesítőképességű architektúrára épülnek.
915G (NB)
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32 bites host bus addressing-et (gazdabusz címzést) tesz
lehetővé, ami által a központi egység a teljes 4 GB-os
címzési tárhelyhez hozzáfér.
12-es mélységű sorbanállással rendelkezik, amellyel
akár 12 megoldatlan csővezetékes címzési kérést képes
kezelni a gazdabuszon.
256 Mb-os, 512 Mb-os és 1 Gb-os DDR/DDR2
technológiát támogat 8- és 16-szoros eszközök esetében
Integrált grafikus egységgel rendelkezik, amely
költséghatékony 3D, 2D és video lehetőségeket biztosít.
A 915G lapkakészlet csak a 256 Mb-os, 512 Mb-os és 1 Gb-os DDR technológiákat
támogatja 8- és 16-szoros eszközök esetében, azaz a 128 Mb-os technológiával NEM
kompatibilis. Azaz NEM működik 256 MB-os kétoldalú, illetve 128 MB-os egyoldalú
memóriaegységekkel.
ICH6 (SB)
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Fejlett DMA vezérlő, megszakításvezérlő és időzítő
funkciók
Kompatibilis a PCI 2.3-as specifikációjával
Kompatibilis a soros ATA 1.0a specifikációval
Beépített USB 2.0 gazda vezérlő, legtöbb nyolc USB 2.0
portot támogat
Beépített LAN vezérlő
Beépített IDE vezérlő, amely az Ultra ATA100/66/33
technológiát támogatja
Memória
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Négy puffermentes DIMM egységgel működik
Maximum 1 GB-os DIMM egységeket támogat, maximális memória 4 GB
Magyar
Grafika
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333 MHz-as magfrekvenciát támogat
3D beállítást, megjelenítő motort és 3D grafikus fejlesztéseket támogat
Csúcsminőségű teturáló motort támogat
Video DVD/PV-VCR
Multi-Language Translation
Alaplapon levő LAN (választható)
Az alaplapon levő LAN jellemzői:
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100/10 Mb/s N-Way automatikus beállítással
Teljes/fél duplex lehetőség
Támogatja a Wake-On-LAN funkciót és a távoli ébresztést
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Integrált 10/100/1000 adó-vevő
Támogatja a 32 bites, 33/66 MHz-es PCI 2.3-as változatát
Teljesen kompatibilis az IEEE802.3, IEEE802.3u és IEEE802.3ab
szbványoknak
Audio
Ez az alaplap a következő Audio lapkakészletek bármelyikét támogatja.
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Kompatibilis az AC’97 2.3-as CODEC változatával
A számítógép multimédiás rendszereinek szánt hat csatornás audio
CODEC-et támogat
Három analóg sztereo bemenetet biztosít 5 bites hangerő vezérléssel:
bemenet, CD, AUX
Támogatja az S/PDIF bemeneti és kimeneti funkciót
Kompatibilis az Azalia specifikációval, 8 csatornás, 95 dB-nél nagyobb
SNR (jel-zaj viszony) értékű DAC támogatása
Kompatibilitás: 192/96/48/44,1 KHz, 24/20/16 biten
8 Smart Jack I/O port támogatása
Átfogó dugaszérzékelés RNM (ellenállás-hálózat módszer)
segítségével, amely a dugaszok csatlakozási állapotának követésére
használható
Digitális S/PDIF BE és KI támogatása
Bővítési lehetőségek
Az alaplap a következő bővítési lehetőségekkel rendelkezik:
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Egy 16-szoros PIC Express foglalat (opcionális)
Három 32 bites, a PCI 2.3-as változatával kompatibilis foglalat
Egy 40 tűs lapos IDE foglalat, amely két IDE eszközt képes kiszolgálni
Egy hajlékonylemez meghajtó interfész
Négy 7 tűs SATA csatlakozó, amelyek négy SATA egységet támogatnak
A 915G-M5 alaplap támogatja az UltraDMA bus mastering megoldást, 100/66 MB/s sebességen
Az alaplapot az I/O portok és csatlakozók teljes készletével szerelték fel:
•
Két PS/2 port az egér és a billentyűzet számára
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Egy soros port és egy párhuzamos port
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Négy USB port
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Egy VGA port, egy 1394 port (opcionális) és egy LAN port (opcionális)
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Audio aljzatok mikrofonhoz, audio bemenethez és kimenethez (Mikrofon,
bemenet és 8 csatornás nagy hűségű audio kimenet, ha támogatja az Azalia
Audio CODEC-et.)
Multi-Language Translation
Magyar
Beépített I/O
BIOS Firmware
Az alaplapon levő AWARD BIOS segítségével a felhasználó a rendszer sok paraméterét
állíthatja be, például:
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Energiagazdálkodás
Ébresztési riasztások
CPU paraméterek
CPU és memória időzítés
A firmware segítségével a processzor órajel-frekvenciáinak paramétereit is beállíthatják.
Bizonyos hardverjellemzők és szoftverelemek előzetes bejelentés nélkül
módosulhatnak.
Magyar
Multi-Language Translation
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