4.4 Advanced Menu.. 52 4.4.1 Chip Configuration... 55 4.4.2 I/O Device Configuration.. 58 4.4.3 PCI Configuration.. 60 4.4.4 Shadow Configuration... 62 4.5 Power Menu... 63 4.5.1 Power Up Control.. 65 4.5.2 Hardware Monitor.. 67 4.6 Boot Menu... 68 4.7 Exit Menu... 70 5. SOFTWARE SETUP... 73 5.1 Install Operating System... 73 5.2 Start Windows... 73 5.3 TUSI-M Motherboard Support CD.. 74 6. SOFTWARE REFERENCE... 75 6.1 ASUS PC Probe.. 75 6.2 CyberLink PowerPlayer SE.. 81 6.3 CyberLink VideoLive Mail.. 81 6.4 ASUS Live Update.. 83 6.5 3Deep Color Tuner... 84 6.6 ALi SiS Display Properties Menu.. 86 7. APPENDIX.... 91 7.1 Glossary... 91 INDEX.... 95

FCC & DOC COMPLIANCE

Federal Communications Commission Statement
This device complies with FCC Rules Part 15. Operation is subject to the following two conditions: This device may not cause harmful interference, and This device must accept any interference received, including interference that may cause undesired operation.
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with manufacturer's instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: Re-orient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment to an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help.
WARNING! Any changes or modifications to this product not expressly approved by the manufacturer could void any assurances of safety or performance and could result in violation of Part 15 of the FCC Rules.

See opposite page for locations.
Location Processor Support Socket 370 for Pentium III/Celeron Processors.. 2 Chipsets SiS 630ET 3C Integration Single Chip. 3 ITE 8705 Super I/O Chipset... 14 2Mbit Flash BIOS... 13
2. FEATURES MB Components
Main Memory Maximum 1GB support 2 DIMM Sockets... 4 PC100/133 SDRAM and VCM SDRAM support Expansion Slots 3 PCI Slots... AMR Slot.... 12 System I/O 2 IDE Connectors (UltraDMA/100 support).. Floppy Disk Drive Connector.. USB Headers (support 3 USB ports). Serial COM2 Header... USB Port Connectors.. (Bottom) Parallel Port Connector.. (Top) VGA Monitor Output Connector... Serial COM1 Port Connectors.. (Bottom) PS/2 Mouse Connector... (Top) PS/2 Keyboard Connector.. (Bottom) 23 Audio Cmedia 8738 PCI Audio Chipset (optional).. Game/MIDI Connector (on audio model only). (Top) Line Out Connector (on audio model only). (Bottom) Line In Connector (on audio model only). (Bottom) Microphone Connector (on audio model only). (Bottom) 17 Network Features SiS630ET Ethernet Controller 1 LAN (RJ45) Connector.. (Top) 22 Wake-On-LAN Connector.. 10 Wake-On-Ring Connector... 1 Other Features ASUS iPanel Connector... 9 ASUS iPanel Audio Connector... 18 Power ATX Power Supply Connector.. 5 Form Factor microATX
2.2.1 Component Locations
2. FEATURES Component Locations

3. HARDWARE SETUP

3.1 TUSI-M Motherboard Layout

T: Mouse B: Keyboard

CPU_FAN PWRTMP

PARALLEL PORT

USBPWR1
DIMM Socket 1 (64/72-bit, 168-pin module)
DIMM Socket 2 (64/72-bit, 168-pin module)

Socket 370

Bottom: Top: USB1 RJ-45

ATX Power Connector

Primary IDE

GAME_AUDIO

Line Out Line In Mic In

PWR_FAN

AUDIO_PANEL MODEM

Row 0 1

32-bit PCI Audio Chipset
CR2032 3V Lithium Cell CMOS Power

PCI Slot 1

ITE 8705 Super I/O

FLOPPY

BUZZER

PCI Slot 2

2Mbit Flash BIOS

USBPWR0 AFPANEL

PCI Slot 3

WOL_CON

Audio Modem Riser (AMR)

CH_FAN

IDELED
NOTE: Gray components are optional at the time of purchase.

Secondary IDE

AUX CD1
SiS630ET 3C Integration Single Chip

JP3 JP1 JP2 JP0

3. H/W SETUP Motherboard Layout

3.2 Layout Contents

Motherboard Settings 1) JEN 2) USBPWR0/USBPWR1 3) FS3, FS1, FS2, FS0 Expansion Slots 1) DIMM1, DIMM2 2) CPU Socket 370 3) PCI1, PCI2, PCI3 4) AMR Connectors 1) PS2KBMS 2) PS2KBMS 3) RJ-45 4) USB 5) PARALLEL 6) COM1/COM2 7) VGA1 8) GAME_AUDIO 9) GAME_AUDIO 10) PRIMARY/SECONDARY IDE 11) FLOPPY 12) PLED 13) PWR, CPU, CH_FAN 14) WOR 15) WOL_CON 16) USB1, USB2 17) CD1, AUX, MODEM 18) AFPANEL 19) AAPANEL 20) ATXPWR 21) PWRTMP 22) SPEAKER 23) KEYLOCK 24) PLED 25) MLED 26) SMI 27) PWR BUTTON 28) RESET p.17 JumperFree Mode Setting (Enable/Disable) p.17 USB Power Up Settings (Enable/Disable) p.18 CPU External Frequency Selection p.Pin DIMM Memory Support p.22 Central Processing Unit p.23 32-bit PCI Bus Expansion Slots p.25 Audio Modem Riser Slot p.26 PS/2 Mouse Connector (6 pin female) p.26 PS/2 Keyboard Connector (6 pin female) p.27 Fast-Ethernet Port Connector p.27 Universal Serial Bus Ports 0 & 1 (Two 4 pin female) p.27 Parallel Port Connector (25 pin female) p.28 Serial Port Connectors (9 pins, 10-1 pin) p.28 Monitor Port Connector (15 pin female) p.29 Game/MIDI Connector (15 pin female) (optional) p.29 Audio Port Connectors (Three 1/8 female) (optional) p.30 Primary/Secondary IDE Connectors (Two 40-1pin) p.30 Floppy Disk Drive Connector (34-1pin) p.31 IDE Activity LED (2 pin) p.31 Power, CPU, Chassis Fan Connectors (Three 3 pin) p.32 Wake-On-Ring Connector (2 pin) p.32 Wake-On-LAN Connector (3 pin) p.33 USB Connector Set (10-1 pins, 5-1 pin) p.33 Internal Audio Connectors (Two 4 pin) (optional) p.34 ASUS iPanel Connector (12-1 pin) p.34 ASUS Audio Panel Connector (12-1 pin) p.35 ATX Power Supply Connector (20 pin) p.35 Power Supply Thermal Sensor Connector (2 pin) p.36 System Warning Speaker Connector (4 pin) p.36 Keyboard Lock Switch Lead (2 pin) p.36 System Power LED Lead (3-1 pin) p.36 System MessageLED Lead (2 pin) p.36 System Management Interrupt Switch Lead (2 pin) p.36 ATX Power / Soft-Off Switch Lead (2 pin) p.36 Reset Switch Lead (2 pin)

3) CPU External Frequency Setting (JP3, JP1, JP2, JP0) This option tells the clock generator what frequency to send to the CPU, SDRAM, and the chipset. This allows the selection of the CPUs External frequency. The CPU External Frequency multiplied by the Frequency Multiple equals the CPUs Internal frequency (the advertised CPU speed). (NOTE: To make adjustments using these jumpers, the JumperFree mode must be disabled; (see the JumperFree JEN setting on the previous page).
100.0MHz 100.0MHz 33.3MHz
1 CPU 66.6MHz SDRAM 100.0MHz PCI 33.3MHz
1 CPU 133.3MHz SDRAM 100.0MHz PCI 33.3MHz

96.2MHz 96.2MHz 32.1MHz

133.3MHz 133.3MHz 33.3MHz
1 CPU 100.0MHz SDRAM 150.0MHz PCI 37.5MHz
TUSI-M CPU External Frequency Selection

1 CPU SDRAM PCI

97.0MHz 97.0MHz 32.3MHz

70.0MHz 105.0MHz 35.0MHz

1 CPU 95.0MHz SDRAM 126.7MHz PCI 31.7MHz
112.0MHz 112.0MHz 37.3MHz

97.0MHz 129.3MHz 32.2MHz

95.0MHz 95.0MHz 31.7MHz

66.8MHz 66.8MHz 33.4MHz

100.0MHz 133.3MHz 33.3MHz
150.0MHz 100.0MHz 37.5MHz
Manual CPU Settings Table Set the jumpers according to the internal speed of your processor as follows: CPU (MHz) 96 SDRAM (MHz) 96 Frequency Selection Switches JP3 JP1 JP2 JP0 [1-2] [1-2] [1-2] [1-2] [1-2] [1-2] [1-2] [2-3] [2-3] [2-3] [2-3] [2-3] [2-3] [2-3] [2-3] [1-2] [1-2] [2-3] [2-3] [1-2] [2-3] [2-3] [1-2] [1-2] [2-3] [2-3] [1-2] [1-2] [2-3] [2-3] [1-2] [1-2] [1-2] [1-2] [2-3] [2-3] [2-3] [1-2] [1-2] [1-2] [1-2] [2-3] [2-3] [2-3] [2-3] [1-2] [2-3] [1-2] [2-3] [2-3] [1-2] [2-3] [1-2] [2-3] [1-2] [2-3] [1-2] [2-3] [1-2] [2-3]
For updated processor settings, visit ASUSs web site: WWW.ASUS.COM WARNING! Premature wearing of the processor may result when overclocking. Be sure that the DIMM you use can handle the specified SDRAM MHz or else bootup will not be possible.

3.5 System Memory (DIMM)

NOTE: No hardware or BIOS setup is required after adding or removing memory. This motherboard uses only Dual Inline Memory Modules (DIMMs). Sockets are available for 3.3Volt (power level) unbuffered Synchronous Dynamic Random Access Memory (SDRAM) of 16, 32, 64, 128MB, 256 or 512MB. to form a memory size between 16MB and 1GB. One side (with memory chips) of the DIMM takes up one row on the motherboard. This motherboard also supports NECs Virtual Channel (VC) SDRAMs. To use the chipsets Error Checking and Correction (ECC) feature, you must use a DIMM with 9 chips per side (standard 8 chips/side + 1 ECC chip). Memory speed setup is recommended through Configure SDRAM Timing by SPD (see 4.4.2 Advanced Chipset Setup). Install memory in any combination as follows: IMPORTANT For optimum signal integrity, inserting the DIMMs in the following order is recommended: DIMM1, DIMM2 SDRAMs used must be compatible with the current PC133/PC100 SDRAM specification. DO NOT mix SDRAMs with VC SDRAMs.

Universal Serial Bus (USB)
5) Parallel Port Connector (Burgundy 25-pin PRINTER) You can enable the parallel port and choose the IRQ through Onboard Parallel Port (see 4.4.2 I/O Device Configuration). NOTE: Serial printers must be connected to the serial port.
Parallel (Printer) Port (25-pin female)

On Off Blinking

LED1 Power No power ---
LED2 Good connection Bad connection Data transfer
6) Serial Port Connectors (Teal/Turquoise 9-pin COM1) One serial port is ready for a mouse or other serial devices. A second serial port is available using a serial port bracket connected from the motherboard to an expansion slot opening. See Onboard Serial Port 1 in 4.2.2 I/O Device Configuration for settings.
COM 1 Serial Port (9-pin male)
TUSI-M Serial Port Header
7) Monitor Output Connector (Blue 15-pin VGA1) This connector is for output to a VGA-compatible device.
VGA Monitor (15-pin female)
8) Game/MIDI Connector (Gold 15-pin GAME_AUDIO) (optional) You may connect game joysticks or game pads to this connector for playing games. Connect MIDI devices for playing or editing professional audio.
Game/MIDI (15-pin female)
Line Out Line In Mic 1/8" Stereo Audio Connectors
3. H/W SETUP DMA Channels Connectors
9) Audio Port Connectors (Three 1/8 GAME_AUDIO) (optional) Line Out (lime) can be connected to headphones or preferably powered speakers. Line In (light blue) allows tape players or other audio sources to be recorded by your computer or played through the Line Out (lime). Mic (pink) allows microphones to be connected for inputting voice.
10) Primary (Blue) / Secondary IDE Connectors (Two 40-1pin IDE) These connectors support the provided UltraDMA/100 IDE hard disk ribbon cable. Connect the cables blue connector to the motherboards primary (recommended) or secondary IDE connector, and then connect the gray connector to your UltraDMA/100 slave device (hard disk drive) and the black connector to your UltraDMA/100 master device. It is recommended that non-UltraDMA/100 devices be connected to the secondary IDE connector. If you install two hard disks, you must configure the second drive to Slave mode by setting its jumper accordingly. Please refer to your hard disk documentation for the jumper settings. BIOS now supports specific device bootup (see the Advanced Menus). (Pin 20 is removed to prevent inserting in the wrong orientation when using ribbon cables with pin 20 plugged). TIP: You may configure two hard disks to be both Masters with two ribbon cables one for the primary IDE connector and another for the secondary IDE connector. You may install one operating system on an IDE drive and another on a SCSI drive and select the boot disk through the Advanced Menus. IMPORTANT: UltraDMA/100 IDE devices must use a 40-pin 80-conductor IDE cable for 100MBytes/s transfer rates.

Secondary IDE Connector

Primary IDE Connector
TUSI-M Floppy Disk Drive Connector
NOTE: Orient the red markings on the IDE ribbon cable to PIN 1

TUSI-M IDE Connectors

11) Floppy Disk Drive Connector (34-1pin FLOPPY) This connector supports the provided floppy drive ribbon cable. After connecting the single end to the board, connect the two plugs on the other end to the floppy drives. (Pin 5 is removed to prevent inserting in the wrong orientation when using ribbon cables with pin 5 plugged).
NOTE: Orient the red markings on the floppy ribbon cable to PIN 1.
12) IDE Activity LED (2-pin PLED) This connector supplies power to the cabinets IDE activity LED. Read and write activity by devices connected to the Primary or Secondary IDE connectors will cause the LED to light up.
TIP: If the case-mounted LED does not light, try reversing the 2-pin plug.

TUSI-M IDE Activity LED

13) Power Supply (PWR_FAN), CPU (CPU_FAN), Chassis (CH_FAN) Fan Connectors (3 pins) These connectors support cooling fans of 350mA (4.2 Watts) or less. Orientate the fans so that the heat sink fins allow airflow to go across the onboard heat sink(s) instead of the expansion slots. Depending on the fan manufacturer, the wiring and plug may be different. The red wire should be positive, while the black should be ground. Connect the fans plug to the board taking into consideration the polarity of the connector. NOTE: The Rotation signal is to be used only by a specially designed fan with rotation signal. The Rotations per Minute (RPM) can be monitored using ASUS PC Probe or Intel LDCM Utility. WARNING! The CPU and/or motherboard will overheat if there is no airflow across the CPU and onboard heatsinks. Damage may occur to the motherboard and/or the CPU fan if these pins are incorrectly used. These are not jumpers, do not place jumper caps over these pins.

GND +12V Rotation

CPU_FAN
CH_FAN TUSI-M 12-Volt Cooling Fan Power
14) Wake-On-Ring Connector (2-pin WOR) This connector connects to internal modem cards with a Wake-On-Ring output. The connector powers up the system when a ringup packet or signal is received through the internal modem card. NOTE: For external modems, Wake-On-Ring is detected through the COM port. IMPORTANT: This feature requires that Wake On LAN or PCI Modem is enabled (see 4.5.1 Power Up Control) and that your system has an ATX power supply with at least 720mA +5V standby power.

20) ATX Power Supply Connector (20-pin block ATXPWR) This connector connects to an ATX power supply. The plug from the power supply will only insert in one orientation because of the different hole sizes. Find the proper orientation and push down firmly making sure that the pins are aligned. IMPORTANT: Make sure that your ATX power supply can supply at least 10mA on the +5-volt standby lead (+5VSB). You may experience difficulty in powering ON your system if your power supply cannot support the load. For WakeOn-LAN support, your ATX power supply must supply at least 720mA +5VSB.
TUSI-M ATX Power Connector
21) Power Supply Thermal Connector (2-pin PWRTMP) This connector connects to an ATX power supply. The plug from the power supply will only insert in one orientation because of the different hole sizes. Find the proper orientation and push down firmly making sure that the pins are aligned.

PWRTMP

Power Supply Thermal Sensor
TUSI-M Thermal Sensor Connector
+12.0 Volts +5V Standby Power Good Ground +5.0 Volts Ground +5.0 Volts Ground +3.3 Volts +3.3 Volts
+5.0 Volts +5.0 Volts NC Ground Ground Ground Power Supply On Ground -12.0 Volts +3.3 Volts
The following is for items 2228

Keyboard Lock Power LED

PLED Keylock Ground +5 V

Speaker Connector

+5V Ground Ground Speaker
+5 V MLED ExtSMI# Ground PWR Ground

Message LED

Reset SW ATX Power Switch*

SMI Lead

* Requires an ATX power supply.
TUSI-M System Panel Connectors
22) System Warning Speaker Connector (4-pin SPEAKER) This 4-pin connector connects to the case-mounted speaker. Two sources (LINE_OUT and SPEAKER) will allow you to hear system beeps and warnings. Only SPEAKER will allow you to hear system beeps before the integrated audio has been properly initialized. 23) Keyboard Lock Switch Lead (2-pin KEYLOCK) This 2-pin connector connects to the case-mounted key switch to allow keyboard locking. 24) System Power LED Lead (3-1 pin PLED) This 3-1 pin connector connects the system power LED, which lights when the system is powered on and blinks when it is in sleep mode. 25) System Message LED Lead (2-pin MLED) This indicates whether a message has been received from a fax/modem. The LED will remain lit when there is no signal and blink when there is data received. This function requires an ACPI OS and driver support. 26) System Management Interrupt Lead (2-pin SMI) This allows the user to manually place the system into a suspend mode or Green mode, where system activity is decreased to save electricity and expand the life of certain components when the system is not in use. This 2-pin connector connects to the case-mounted suspend switch. 27) ATX Power Switch Lead (2-pin PWR BUTTON) The system power is controlled by a momentary switch connected to this lead. Pressing the button once will switch the system between ON and SOFT OFF. Pushing the switch while in the ON mode for more than 4 seconds will turn the system off. The system power LED shows the status of the systems power. 28) Reset Switch Lead (2-pin RESET) This 2-pin connector connects to the case-mounted reset switch for rebooting your computer without having to turn off your power switch. This is a preferred method of rebooting to prolong the life of the systems power supply.

Reset Ground

3.9 Starting Up the First Time
1. After all connections are made, close the system case cover. 2. Be sure that all switches are off (in some systems, marked with ), and the power input voltage is set to comply with the standard used in your country (220V-240V or 110-120V). 3. Connect the power supply cord into the power supply located on the back of your system case according to your system users manual. 4. Connect the power cord into a power outlet that is equipped with a surge protector. 5. You may then turn on your devices in the following order: a. Your monitor b. External SCSI devices (starting with the last device on the chain) c. Your system power. For ATX power supplies, you need to switch on the power supply as well as press the ATX power switch on the front of the case. 6. The power LED on the front panel of the system case will light. For ATX power supplies, the system LED will light when the ATX power switch is pressed. The LED on the monitor may light up or switch between orange and green after the systems if it complies with green standards or if it has a power standby feature. The system will then run power-on tests. While the tests are running, the BIOS will alarm beeps or additional messages will appear on the screen. If you do not see anything within 30 seconds from the time you turn on the power, the system may have failed a power-on test. Recheck your jumper settings and connections or call your retailer for assistance.

Award BIOS Beep Codes

Beep One short beep when displaying logo Long beeps in an endless loop One long beep followed by three short beeps High frequency beeps when system is working Meaning No error during POST No DRAM installed or detected Video card not found or video card memory bad CPU overheated System running at a lower frequency

3. H/W SETUP Powering Up

7. During power-on, hold down <Delete> to enter BIOS setup. Follow the instructions in 4. BIOS SETUP. * Powering Off your computer: You must first exit or shut down your operating system before switching off the power switch. For ATX power supplies, you can press the ATX power switch after exiting or shutting down your operating system. If you use Windows 9X, click the Start button, click Shut Down, and then click Shut down the computer? The power supply should turn off after Windows shuts down. NOTE: The message You can now safely turn off your computer will not appear when shutting down with ATX power supplies.

Other options for Type: are: [CD-ROM] - for IDE CD-ROM drives [LS-120] - for LS-120 compatible floppy disk drives [ZIP-100] - for ZIP-100 compatible disk drives [MO] - for IDE magneto optical disk drives [Other ATAPI Device] - for IDE devices not listed here After using the legend keys to make your selections on this sub-menu, press the <Esc> key to exit back to the Main menu. When the Main menu appears, you will notice that the drive size appear in the field for the hard disk drive that you just configured.

4.3.2 Keyboard Features

Boot Up NumLock Status [On] This field enables users to activate the Number Lock function upon system boot. Configuration options: [Off] [On] Keyboard Auto-Repeat Rate [12/Sec] This controls the speed at which the system registers repeated keystrokes. Options range from 6 to 30 characters per second. Configuration options: [6/Sec] [8/Sec] [10/Sec] [12/Sec] [15/Sec] [20/Sec] [24/Sec] [30/Sec] Keyboard Auto-Repeat Delay [1/4 Sec] This field sets the time interval for displaying the first and second characters. Configuration options: [1/4 Sec] [1/2 Sec] [3/4 Sec] [1 Sec] 50 ASUS TUSI-M Users Manual
Language [English] This allows selection of the BIOS displayed language. Currently only English is available. Supervisor Password [Disabled] / User Password [Disabled] These fields allow you to set the passwords. To set the password, highlight the appropriate field and press <Enter>. Type in a password and press <Enter>. You can type up to eight alphanumeric characters. Symbols and other keys are ignored. To confirm the password, type the password again and press the <Enter>. The password is now set to [Enabled]. This password allows full access to the BIOS Setup menus. To clear the password, highlight this field and press <Enter>. The same dialog box as above will appear. Press <Enter> and the password will be set to [Disabled]. A Note about Passwords
The BIOS Setup program allows you to specify passwords in the Main menu. The passwords control access to the BIOS during system startup. The passwords are not case sensitive. In other words, it makes no difference whether you enter a password using upper or lowercase letters. The BIOS Setup program allows you to specify two separate passwords: a Supervisor password and a User password. When disabled, anyone may access all BIOS Setup program functions. When enabled, the Supervisor password is required for entering the BIOS Setup program and having full access to all configuration fields.
Forgot the Password? If you forgot the password, you can clear the password by erasing the CMOS Real Time Clock (RTC) RAM. The RAM data containing the password information is powered by the onboard button cell battery. To erase the RTC RAM: (1) Unplug your computer, (2) Short the solder points, (3) Turn ON your computer, (4) Hold down <Delete> during bootup and enter BIOS setup to re-enter user preferences.

Notes for JumperFree Mode
CPU Upgrade/Reinstallation To ensure that your system can enter BIOS setup after the processor has been changed or reinstalled, your system will start up running at a bus speed of 66MHz and a fail-safe CPU internal frequency (4x100MHz for the Intel Coppermine processor or 2x100MHz for non-Coppermine processors). It will then automatically take you to the Advanced menu with a popup menu of all the officially possible CPU internal frequencies.
4. BIOS SETUP JumperFree Notes
System Hangup If your system crashes or hangs due to improper frequency settings, power OFF your system and restart. The system will start up in safe mode running at a bus speed of 66MHz and enter BIOS setup.

4.4.1 Chip Configuration

SDRAM CAS Latency This controls the latency between the SDRAM read command and the time that the data actually becomes available. NOTE: This field will only be adjustable when SDRAM Configuration is set to [User Define]. SDRAM RAS to CAS Delay This controls the latency between the SDRAM active command and the read/write command. NOTE: This field will only be adjustable when SDRAM Configuration is set to [User Define]. SDRAM RAS Precharge Time This controls the idle clocks after issuing a precharge command to the SDRAM. NOTE: This field will only be adjustable when SDRAM Configuration is set to [User Define].
4. BIOS SETUP Chip Configuration
(Scroll down to see more items as shown.) SDRAM Timing [By SPD] This sets the optimal timings for items 2-4, depending on the memory modules that you are using. The default setting [By SPD] configures items 2-4 by reading the contents in the SPD (Serial Presence Detect) device. The EEPROM on the memory module stores critical parameter information about the module, such as memory type, size, speed, voltage interface, and module banks. Configuration options: [User Define] [By SPD]
Refresh RAS Assertion [5T] Configuration options: [6T] [7T] [5T] [4T] Refresh Queue Depth [12] Configuration options: [0] [4] [8] [12] SDRAM Refresh Mode [Staggered 1T] Configuration options: [Simultaneous] [Staggered 1T] Memory Post Write Control [Enabled] Configuration options: [Enabled] [Disabled] Memory Hole At Address [None] This field allows you to reserve an address space for ISA devices that require it. Configuration options: [None] [15M-16M] [14M-16M] [12M-16M] CPU To VGA Memory Post Write [Disabled] Configuration options: [Enabled] [Disabled] Video Memory Cache Mode [USWC] USWC (uncacheable, speculative write combining) is a cache technology for the video memory of the processor. It can greatly improve the display speed by caching the display data. You must set this to UC (uncacheable) if your display card cannot support this feature; otherwise your system may not boot. Configuration options: [UC] [USWC] Graphics Aperture Size [64MB] This feature allows you to select the size of mapped memory for AGP graphic data. Configuration options: [4MB] [8MB] [16MB] [32MB] [64MB] [128MB] [256MB] VGA Shared Memory [16MB] This feature allows you to select the size of system memory to allocate for video memory. Configuration options: [2MB] [4MB] [8MB] [16MB] [32MB] [64MB] PCI 2.1 Support [Enabled] This function allows you to enable or disable PCI 2.1 features including passive release and delayed transaction. Configuration options: [Disabled] [Enabled] ISA Bus Clock [PCICLK/4] This function allows you to set the ISA bus clock frequency. [PCICLK/4] sets your ISA bus at a quarter speed of the PCI bus. Configuration options: [PCICLK/4] [7.159MHz]

Memory Shows the PCs memory load, memory usage, and paging file usage.
Device Summary Shows a summary of devices in your PC.
DMI Explorer Shows information pertinent to the PC, such as CPU type, CPU speed, and internal/external frequencies, and memory size.

Utility

Lets you run programs outside of the ASUS Probe modules. To run a program, click Execute Program. NOTE: This feature is currently unavailable.
6.1.3 ASUS PC Probe Task Bar Icon
Right clicking the PC Probe icon will bring up a menu to open or exit ASUS PC Probe and pause or resume all system monitoring.
When the ASUS PC Probe senses a problem with your PC, portions of the ASUS PC Probe icon changes to red, the PC speaker beeps, and the ASUS PC Probe monitor is displayed.
6.2 CyberLink PowerPlayer SE
CyberLink PowerPlayer SE is an intelligent software player that can automatically detect and playback all kinds of video/audio files, CD and MP3 files as well. This is the only software you need for all types of video and audio files. No need to waste time identifying your file types.
6. S/W REFERENCE PowerPlayer
6.2.1 Starting CyberLink PowerPlayer SE
To start CyberLink Power Player, click the Windows Start button, point to Programs, and then CyberLink PowerPlayer SE, and then click PowerPlayer.
6.2.2 CyberLink PowerPlayer Control Panel
Minimize Zoom About Eject Help Power Off
Stop Backward Scan Backstep Frame Previous Stop Forward Scan Step Frame Next Play
Configuration i-Power! CD Mode Shuffle
Increase Volume Mute Decrease Volume

Karaoke

Next angle

Next audio stream

Next subtitle

Add bookmark

Capture frame

Repeat

Go to bookmark
CyberLinks VideoLive Mail Plus Ver 3.0 (a.k.a. VLM 3) is a convenient and excellent way to create professional quality video mails from PC video/audio input devices and to send the mails to any recipients via VLM 3s built-in e-mail system through the Internet. VLM 3s mails comprise video, sound, or snapshot information; and thus may convey the most profound information to target audiences. It is very convenient for mail recipients who do not need to install additional software component in order to view VLM 3 mails. VLM 3 works as a very applicant sales tool. It efficiently delivers profound and live product information to your target customers without costing a fortune. VLM 3 also helps corporate managers easily give vivid speeches and broadcast through corporate E-mail system. For personal or home users, VLM 3 easily records live video clips allowing users to send them to friends or family members across the Internet. VLM 3 loads video messages from PC cameras, digital camcorders, analog camcorder via video capture cards, or from an existing AVI video clips, and captures audio messages from PC microphones. Video and audio messages are encoded at a very high compressed rate in a real-time mode. From data input, data conversion, to sending video mails via Internet, or saving data to disks, the whole procedure is done in an easy and continuous process. VLM 3s video clip compression rate is up to 1:900, and its playback rate is up to 30 frame per second. VLM 3 provides CIF (352 x 288 pixel) display resolution, and support true color configuration. A one-minute video mail with QCIF (176 x 144) resolution takes up less than 500KB of memory, making it easy to transmit and save mail. Users may always adjust resolution and recording parameters for different purpose. VLM 3 supports all the hardware devices that are compliant with Video for Windows standard. Video for Windows is a well-accepted and well-tested standard. Thus, users do not have to worry about compatibility issues.

A type of RAM that requires refresh cycles to prevent the loss of the data stored in it.
There are several different types of DRAM such as, EDO DRAM (Extended Data Output DRAM), SDRAM (Synchronous DRAM), and RDRAM (Rambus DRAM) and DDR DRAM, (Double-Data Rate DRAM). Flash ROM non-volatile memory device that retains its data even when power is removed. This device is similar to EPROM, but unlike EPROM which can be erased only using an ultra-violet light, flash ROM can be electrically erased. Flash ROM is normally used for system BIOS, which initiates hardware devices and sets up necessary parameters for the OS. Since the flash ROM contents can be modified, users can easily update the BIOS.
IDE (Integrated Drive Electronics) IDE devices integrate the drive control circuitry directly on the drive itself, eliminating the need for a separate adapter card (in the case for SCSI devices). UltraDMA/33 IDE devices can achieve up to 33MB/Sec transfer. I/O (Input/Output) The data transfers from the input devices like a keyboard, mouse, or scanner, to the output devices like a printer or the monitor screen. I/O Address The specific memory location for a particular device. Two devices cannot share the same I/O address space. IrDA (Infrared Data Association) An internaltional organization that creates and promotes inter-operable, low cost, infrared data interconnection standards that support a walk-up, point-to-point model. The IrDA protocol is designed to support transmission of data between two devices over short-range pointto-point infrared at speeds between 9.6Kbps and 4Mbps. ISP (Internet Service Provider) A company that provides customer access to the Internet and the World Wide Web for a fee. The ISP also provides Internet utilities and services like e-mail, newsgroup, weather reports, and a host of others. The user can connect to the ISP using a modem installed in the computer and connected to a phone line. LPT Port (Line Printer Port) Logical device name reserved by DOS for the computer parallel ports. Each LPT port is configured to use a different IRQ and address assignment. MMX A set of 57 new instructions designed to accelerate multimedia and communications applications, such as 3D video, 3D sound, video conference. Modem A device that allows a computer to talk to another computer through the phone system. Network An interconnected computer system linked by telephone wires, or other means. OnNow The OnNow design initiative is a comprehensive, system-wide approach to system and device power control. OnNow is a term for PC that is always ON but appears OFF and responds immediately to user or other requests. The OnNow design initiative involves changes that will occur in the Microsoft Windows operating system, device drivers, hardware, and applications, and also relies on the changes defined in the Advanced Configuration and Power Interface (ACPI) specification. PC100/133 This is an industry-standard designation for memory capacity as a measure of the speed of the memory bus. New platform requirements ensure that memory does not become a bottleneck to system performance. PCI Bus (Peripheral Component Interconnect Local Bus) PCI bus is a standard specification that defines a 32-bit data bus interface. PCI Bus Master The PCI Bus Master can perform data transfer without local CPU help and the CPU can be treated as one of the Bus Masters. PCI 2.1 supports concurrent PCI operation to allow the local CPU and bus master to work simultaneously. POST (Power On Self Test) Powering on the computer initiates the POST, a series of software-controlled diagnostic tests. The POST checks system memory, the motherboard circuitry, the display, the keyboard, the diskette drive, and other I/O devices

PS/2 Port PS/2 ports are based on IBM Micro Channel Architecture. This type of architecture transfers data through a 16-bit or 32-bit bus. A PS/2 mouse and/or keyboard may be used on ATX motherboards. RDRAM (Rambus DRAM) Developed by Rambus, Inc., this type of memory can deliver up to 1.6GB of data per second. RDRAM is the first interface standard that can be directly implemented on high performance VLSI components such as, CMOS DRAMs, memory controllers, and graphics/video ICs. RAM (Random Access Memory). The computers primary storage area used to write, store, and retrieve information and program instructions which are passed to the CPU for processing. The information in RAM can be repeatedly re-written with new data. Compared to other storage media like magnetic tape, floppy disk, and hard disk, RAM has an extraordinarily fast access rate. RAM, however, is volatile, which means that the data stored in it are lost when the system power is turned off, or if power glitches occur. See also DRAM and SDRAM. ROM (Read Only Memory) ROM is nonvolatile memory used to store permanent programs (called firmware) used in certain computer components. Flash ROM (or EEPROM) can be reprogrammed with new programs (or BIOS). SCSI (Small Computer System Interface) High speed multi-threaded I/O interface defined by the X3T9.2 committee of the American National Standards Institute (ANSI) for connecting many peripheral devices. The standard started from 10MBytes/sec to 160MBytes/sec available today. SDRAM (Synchronous DRAM) A type of DRAM with access signals that are synchronized with the CPU clock, eliminating the delay associated with data transfers between the CPU and memory. SDRAM takes memory access away from the CPU control; internal registers in the memory accept the request, and lets the CPU do something else while the data requested is assembled for the next time the CPU talks to the memory. SPD for SDRAM module Serial Presence Detect (SPD) is most like an ID detect for SDRAM module, it using a EEPROM component on DIMM module for storing module configuration information inside. The Serial Presence Detect function is implemented using a 2048 bit EEPROM component. This nonvolatile storage device contains data programmed by the DIMM manufacturer that identifies the module type and various SDRAM organization and timing parameters. System Disk A system disk contains the core file of an operating system that boots up the operating system. TCP/IP (Transmission Control Protocol/Internet Protocol). The communications protocol used by the UNIX system and the Internet. TCP checks for lost packets, puts the data from multiple packets into the correct order, and requests that missing or damaged packets be resent. USB (Universal Serial Bus) A 4-pin serial cable bus that allows up to 127 plug and play computer peripherals such as keyboard, mouse, joystick, scanner, printer, modem, and monitor to share a bandwidth through a host scheduled token based protocol. This allows attaching or detaching while the host and other peripherals are in operation. Supports synchronous and asynchronous transfer types over the same set of wires up to 12Mbit/sec. USB 2.0 provides twice the transfer rate compared to USB 1.0 and competes with the 1394 standard. Wake-On-LAN Computer will automatically wake-up upon receiving a wake-up packet through a Network interface when it is under power soft-off, suspend or sleep mode.

JANKINS COMPUTERS

JPC INTEL BASED SYSTEM CONFIGURATION
SYSTEM ENCLOSURE MOTHERBOARD SLOTS CPU & FAN MEMORY FLOPPY KEYBOARD

Updated April 7th, 2002

OTHERS
JPC Pentium P4T-E Series (5 PCI, Intel 850, AGP Pro / AGP 4X)
CS-JP4-2200P4TE CS-JP4-2000P4TE CS-JP4-1900P4TE CS-JP4-1800P4TE CS-JP4-1700P4TE CS-JP4-1600P4TE ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER ASUS P4T-E MB ASUS P4T-E MB ASUS P4T-E MB ASUS P4T-E MB ASUS P4T-E MB ASUS P4T-E MB 5 PCI 5 PCI 5 PCI 5 PCI 5 PCI 5 PCI SLOTS SLOTS SLOTS SLOTS SLOTS SLOTS P4-2.2 GHz PGA 478 CPU P4-2.0 GHz PGA 478 CPU P4-1.9 GHz PGA 478 CPU P4-1.8 GHz PGA 478 CPU P4-1.7 GHz PGA 478 CPU P4-1.6 GHz PGA 478 CPU 128M PC800 RAMBUS 128M PC800 RAMBUS 128M PC800 RAMBUS 128M PC800 RAMBUS 128M PC800 RAMBUS 128M PC800 RAMBUS PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB
JPC Pentium P4B 266 Series (6 PCI, Intel 845D, AGP Pro / AGP 4X)
CS-JP4-2200P4B2 CS-JP4-2000P4B2 CS-JP4-1900P4B2 CS-JP4-1800P4B2 CS-JP4-1700P4B2 CS-JP4-1600P4B2 ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER ASUS P4B266 MB ASUS P4B266 MB ASUS P4B266 MB ASUS P4B266 MB ASUS P4B266 MB ASUS P4B266 MB 6 PCI 6 PCI 6 PCI 6 PCI 6 PCI 6 PCI SLOTS SLOTS SLOTS SLOTS SLOTS SLOTS P4-2.2 GHz PGA 478 CPU P4-2.0 GHz PGA 478 CPU P4-1.9 GHz PGA 478 CPU P4-1.8 GHz PGA 478 CPU P4-1.7 GHz PGA 478 CPU P4-1.6 GHz PGA 478 CPU 128M PC2100 DDR 128M PC2100 DDR 128M PC2100 DDR 128M PC2100 DDR 128M PC2100 DDR 128M PC2100 DDR PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB
JPC Pentium P4S 333 Series (6 PCI, SIS 645, AGP Pro / AGP 4X)
CS-JP4-2200P4B3 CS-JP4-2000P4B3 CS-JP4-1900P4B3 CS-JP4-1800P4B3 CS-JP4-1700P4B3 CS-JP4-1600P4B3 ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER ASUS P4S333 MB ASUS P4S333 MB ASUS P4S333 MB ASUS P4S333 MB ASUS P4S333 MB ASUS P4S333 MB 6 PCI 6 PCI 6 PCI 6 PCI 6 PCI 6 PCI SLOTS SLOTS SLOTS SLOTS SLOTS SLOTS P4-2.2 GHz PGA 478 CPU P4-2.0 GHz PGA 478 CPU P4-1.9 GHz PGA 478 CPU P4-1.8 GHz PGA 478 CPU P4-1.7 GHz PGA 478 CPU P4-1.6 GHz PGA 478 CPU 128M PC2700 DDR 128M PC2700 DDR 128M PC2700 DDR 128M PC2700 DDR 128M PC2700 DDR 128M PC2700 DDR PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB
JPC Pentium P4B Series (6 PCI, Intel 845, AGP Pro / AGP 4X)
CS-JP4-2200P4B CS-JP4-2000P4B CS-JP4-1900P4B CS-JP4-1800P4B CS-JP4-1700P4B CS-JP4-1600P4B ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER ACER HX45P4 MID TOWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER 300W ATX12V POWER ASUS P4B MB ASUS P4B MB ASUS P4B MB ASUS P4B MB ASUS P4B MB ASUS P4B MB 6 PCI 6 PCI 6 PCI 6 PCI 6 PCI 6 PCI SLOTS SLOTS SLOTS SLOTS SLOTS SLOTS P4-2.2 GHz PGA 478 CPU P4-2.0 GHz PGA 478 CPU P4-1.9 GHz PGA 478 CPU P4-1.8 GHz PGA 478 CPU P4-1.7 GHz PGA 478 CPU P4-1.6 GHz PGA 478 CPU 64M PC133 RAM 64M PC133 RAM 64M PC133 RAM 64M PC133 RAM 64M PC133 RAM 64M PC133 RAM PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 PANASONIC 1.44 KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB KEYTRONICS 6101US KB