강좌
클라우드/리눅스에 관한 강좌입니다.
기타 분류

SCB2 메뉴얼

작성자 정보

  • 웹관리자 작성
  • 작성일

컨텐츠 정보

본문

Intel?? Server Board SCB2
Product Guide
A Guide for Technically Qualified Assemblers of Intel?? Identified
Subassemblies/Products
Order Number: A55880-003
Disclaimer
Information in this document is provided in connection with Intel products. No license, express or implied, by estoppel or
otherwise, to any intellectual property rights is granted by this document. Except as provided in Intel’s Terms and Conditions
of Sale for such products, Intel assumes no liability whatsoever, and Intel disclaims any express or implied warranty, relating
to sale and/or use of Intel products including liability or warranties relating to fitness for a particular purpose, merchantability,
or infringement of any patent, copyright or other intellectual property right. Intel products are not designed, intended or
authorized for use in any medical, life saving, or life sustaining applications or for any other application in which the failure of
the Intel?? product could create a situation where personal injury or death may occur. Intel may make changes to
specifications and product descriptions at any time, without notice.
Intel and Pentium are registered trademarks of Intel Corporation or its subsidiaries in the United States and other countries.
† Other names and brands may be claimed as the property of others.
Copyright © 2001, Intel Corporation. All Rights Reserved.
iii
Contents
1 Description
Server Board Features ......................................................................................................... 7
Server Board Connector and Component Locations .................................................... 8
Back Panel Connectors ............................................................................................... 9
Processor ...................................................................................................................10
Memory ......................................................................................................................10
PCI Riser Slots....................................................................................................................10
Video..................................................................................................................................11
SCSI Controller ...................................................................................................................11
ATA-100 Controller..............................................................................................................11
IDE RAID....................................................................................................................11
Network Controller...............................................................................................................12
Network Teaming Features.........................................................................................12
Keyboard and Mouse ..........................................................................................................14
RJ-45 Serial Port .................................................................................................................14
ACPI...................................................................................................................................16
Security ...............................................................................................................................17
Intrusion Switch Monitoring.........................................................................................17
Software Locks ...........................................................................................................17
2 Installation Procedures
Install the I/O Shield ............................................................................................................21
Rearrange the Standoffs .....................................................................................................22
Server Board Bumpers........................................................................................................23
Install the Server Board.......................................................................................................24
Installing Processors ...........................................................................................................25
Install the Processor Terminator..........................................................................................28
Memory ...............................................................................................................................29
Connect Cables...................................................................................................................30
3 Upgrading
Tools and Supplies Needed.................................................................................................31
Cautions.............................................................................................................................31
Memory ...............................................................................................................................32
Processors ..........................................................................................................................33
Adding or Replacing a Processor................................................................................34
Removing a Processor................................................................................................37
Installing and Removing a Terminator.........................................................................38
Replacing the Back up Battery ............................................................................................39
4 Configuration Software and Utilities
Service Partition (Optional)..................................................................................................41
Configuration Utilities...........................................................................................................41
System Software Update Sequence ...........................................................................41
Hot Keys.............................................................................................................................42
iv Intel Server Board SCB2 Product Guide
Power-On Self-Test (POST) ................................................................................................43
Using BIOS Setup ...............................................................................................................43
Record BIOS Setup Settings ......................................................................................44
If BIOS Setup Is Inaccessible......................................................................................44
BIOS Setup Menus..............................................................................................................44
Main Menu..................................................................................................................45
Advanced Menu..........................................................................................................46
Security Menu.............................................................................................................49
Server Menu...............................................................................................................50
Boot Menu ..................................................................................................................52
Exit Menu ...................................................................................................................53
Temporarily Changing the Boot Device Priority ...................................................................53
Permanently Changing the Boot Device Priority ..................................................................54
Running the Adaptec SCSISelect Utility ..............................................................................54
When to Run the Adaptec SCSISelect Utility ..............................................................54
Running the SCSISelect Utility....................................................................................54
Configuring the Adaptec AIC-7899 SCSI Adapter .......................................................55
Running the Promise FastBuild Utility..................................................................................55
When to Run the Promise FastBuild Utility..................................................................56
Running the Promise FastBuild Utility .........................................................................56
Direct Platform Control (DPC) Console ...............................................................................56
DPC Console Modes of Operation..............................................................................57
Running the DPC Console..........................................................................................57
Using the System Setup Utility ............................................................................................57
What You Need to Do.................................................................................................58
Running the SSU........................................................................................................58
Customizing the SSU..................................................................................................59
Launching a Task .......................................................................................................60
MultiBoot Options Add-in ............................................................................................60
Password Add-in.........................................................................................................60
SEL Manager Add-in ..................................................................................................62
FRU Manager Add-in..................................................................................................63
SDR Manager Add-in..................................................................................................64
System Update Add-In................................................................................................64
Configuration Save/Restore Add-In ............................................................................65
Platform Event Manager Add-in..................................................................................66
Exiting the SSU ..........................................................................................................74
Platform Event Paging.........................................................................................................74
Using Platform Event Paging ......................................................................................74
Software Updates................................................................................................................75
Creating a Bootable Diskette ......................................................................................75
Software Update Package...................................................................................................75
Preparation.................................................................................................................75
Extraction ...................................................................................................................76
Updating .....................................................................................................................76
Individual Updates...............................................................................................................77
BIOS Upgrade Description..........................................................................................77
Firmware Update Utility Description............................................................................79
FRU/SDR Load Utility Description ..............................................................................79
Contents v
5 Solving Problems
Resetting the System ..........................................................................................................83
Initial System Startup...........................................................................................................83
Checklist .....................................................................................................................83
Running New Application Software......................................................................................84
Checklist .....................................................................................................................84
After the System Has Been Running Correctly ....................................................................84
Checklist .....................................................................................................................84
More Problem Solving Procedures ......................................................................................85
Preparing the System for Diagnostic Testing ..............................................................85
Monitoring POST ........................................................................................................85
Verifying Proper Operation of Key System Lights .......................................................85
Confirming Loading of the Operating System..............................................................85
Specific Problems and Corrective Actions ...........................................................................86
Power Light Does Not Light ........................................................................................86
No Characters Appear on Screen...............................................................................86
Characters Are Distorted or Incorrect..........................................................................87
System Cooling Fans Do Not Rotate Properly ............................................................87
Diskette Drive Activity Light Does Not Light ................................................................88
CD-ROM Drive Activity Light Does Not Light ..............................................................88
Cannot Connect to a Server .......................................................................................88
Problems with Network ...............................................................................................89
Problems with Application Software.....................................................................................90
Bootable CD-ROM Is Not Detected .....................................................................................90
6 Technical Reference
Server Board Jumpers.........................................................................................................91
Diagnostic LEDs..................................................................................................................92
7 Regulatory and Integration Information
Product Regulatory Compliance ..........................................................................................97
Product Safety Compliance ........................................................................................97
Product EMC Compliance...........................................................................................97
Product Regulatory Compliance Markings ..................................................................97
Electromagnetic Compatibility Notices.................................................................................98
Europe (CE Declaration of Conformity).......................................................................98
Australian Communications Authority (ACA) (C-Tick Declaration of Conformity).........98
Ministry of Economic Development (New Zealand) Declaration of Conformity ............98
BSMI (Taiwan)............................................................................................................98
8 Equipment Log and Power Consumption Worksheets
Equipment Log ....................................................................................................................99
Current Usage ..........................................................................................................101
Calculating Power Consumption...............................................................................101
Index....................................................................................................................................105
vi Intel Server Board SCB2 Product Guide
Figures
1. Server Board Connector and Component Locations....................................................... 8
2. Back Panel Connectors .................................................................................................. 9
3. J6A2 Jumper Block for DCD Signal ...............................................................................15
4. J6A2 Jumper Block for DSR Signal ...............................................................................15
5. Installing the I/O Shield..................................................................................................21
6. Rearrange the Standoffs................................................................................................22
7. Installing Server Board Bumpers ...................................................................................23
8. Installing the Server Board.............................................................................................24
9. Raising the Locking Bar.................................................................................................25
10. Installing Processors......................................................................................................25
11. Installing the Heat Sink ..................................................................................................26
12. Closing the Locking Lever..............................................................................................27
13. Connecting the Heat Sink Fan .......................................................................................27
14. Installing the Processor Terminator ...............................................................................28
15. Installing Memory ..........................................................................................................29
16. Connecting Cables ........................................................................................................30
17. Installing DIMMs............................................................................................................32
18. Insert the Processor and Lower the Locking Bar ...........................................................34
19. Installing the Heat Sink..................................................................................................35
20. Attach the Heat Sink......................................................................................................36
21. Connect the Heat Sink Fan............................................................................................36
22. Installing a Terminator ...................................................................................................38
23. Replacing the Back up Battery.......................................................................................40
24. System Setup Utility Main Window ................................................................................59
25. Platform Event Manager Main Window..........................................................................66
26. Platform Event Paging Dialog........................................................................................67
27. BMC LAN-Configuration Dialog .....................................................................................68
28. Platform Event Action Dialogs .......................................................................................71
29. Emergency Management Port Dialog ............................................................................72
30. Jumper Locations ..........................................................................................................91
Tables
1. Server Board Versions.................................................................................................... 7
2. Server Board Features ................................................................................................... 7
3. Rear COM2 Port Adapter Pin-out ..................................................................................15
4. Software Security Features............................................................................................18
5. Configuration Utilities.....................................................................................................42
6. Hot Keys .....................................................................................................................42
7. BIOS Setup Menu Navigation........................................................................................44
8. BIOS Setup Menu Display .............................................................................................45
9. Command Line Format ..................................................................................................80
10. Configuration Jumper ....................................................................................................91
11. Post Codes....................................................................................................................92
12. Power Usage Worksheet 1 ..........................................................................................102
13. Power Usage Worksheet 2 ..........................................................................................103
7
1 Description
Server Board Features
The SCB2 is available in either SCSI or ATA hard drive interface versions as described in Table 1.
The features listed in Table 2 are common to both server board versions.
Table 1. Server Board Versions
Feature Description
SCSI Dual channel Ultra160 LVD SCSI accessible at rear panel I/O and internally
ATA Dual channel ATA 100 RAID
✏ NOTE
The feature set listed in Table 2 only reflects usage with either the
1U Intel?? SR1200 or the 2U Intel?? SR2200 server chassis. Third-party or
OEM chassis may not provide all of the features listed below.
Table 2. Server Board Features
Feature Description
Processors Dual processor slots supporting Intel?? Pentium?? III processors in a Socket370 Flip
Chip Pin Grid Array (FC-PGA) package.
Memory Six dual inline memory module (DIMM) slots support:
• SDRAM DIMMs: 133 MHz, ECC, registered, PC/133 compliant, 72-bit, 168-pin,
gold contact, 3.3V. A 1U chassis requires low-profile (LP) 1.2-inch DIMMs.
• Up to 6 GB of memory in a 2U chassis.
Graphics Integrated onboard ATI RAGE† XL PCI 64 bit SVGA controller.
Video Memory 8 MB SDRAM of video memory
PCI bus Two PCI riser slots capable of supporting either of the following configurations:
• 1U configuration—one full-length, full-height 64-bit/66-MHz PCI riser slot and one
Low Profile (LP) 64-bit/66-MHz PCI riser slot.
• 2U configuration—three full-length, full-height 64-bit/66-MHz PCI riser slots and
three LP 64-bit/66-MHz PCI riser slots.
Network Dual on-board 10/100 Network Interface Controllers (NIC)
System I/O
(See Table 1)
• One PS/2† keyboard/mouse port (6 pin DIN)
• One VGA video port (15 pin)
• Two external USB ports, internal header providing two additional USB
• One external serial port (RJ-45), one internal COM 1 header
• One external SCSI port (SCSI server board only), one internal
• Two NIC ports (RJ-45)
Form Factor Server ATX form factor
8 Intel Server Board SCB2 Product Guide
Server Board Connector and Component Locations
The SCB2 comes in both SCSI and ATA versions. Figure 1 is a composite view of both versions.
OM11707
G I F H
K
L
O W M
N P
Q
R
S U
T V
BB
AA
X
A C D E
FF
DD
CC
EE
B
Y
Z
J
GG
A. Speaker
B. ID LED
C. Battery
D. Diagnostic LEDs (POST code)
E. 66 MHz/64-bit PCI riser slot (full height)
F. DIMM slots
G. I/O ports
H. ICMB connector
I. COM 1 serial header
J. Chassis intrusion connector
K. 66 MHz/64-bit PCI riser slot (low profile)
L. USB 3 & 4 header
M. Sys fan 3 connector
N. CPU 2 fan connector
O. Secondary processor socket
P. Primary processor socket
Q. Sys fan 2 connector
R. CPU 1 fan connector
S. Sys fan 1 connector
T. Aux fan connector
U. Floppy drive connector
V. Fan module connector
W. Main power connector
X. Auxiliary signal connector
Y. Floppy/FP/IDE connector
Z. Alternate front panel connector
AA. ATA/IDE connector
BB. IPMB connector
CC. SSI front panel connector
DD. Configuration jumper block
EE. ATA-100 connectors (ATA version only)
FF. SCSI connector (SCSI version only)
GG. Hard Disk Drive LED header
Figure 1. Server Board Connector and Component Locations
Description 9
Back Panel Connectors
OM11713
B C L J K A
G
D
E
H
F
I
A. USB 1 connector
B. Video connector
C. SCSI connector (SCSI server board only)
D. NIC 2 RJ-45 connector
E. Green Status LED
F. Yellow Status LED
G. NIC 1 RJ-45 connector
H. Green Status LED
I. Yellow Status LED
J. PS/2 keyboard/mouse connector
K. RJ-45 serial port
L. USB 2 connector
Figure 2. Back Panel Connectors
10 Intel Server Board SCB2 Product Guide
Processor
The SCB2 accommodates one or two Intel Pentium III processors with 512k cache in the FC-PGA2
package. This processor uses the .13 micron technology and offers advanced performance. The
processor external interface operates at a maximum of 133 MHz. For a complete list of supported
processors see:
http://support.intel.com/support/motherboards/server/scb2
Memory
The system board contains six 168-pin DIMM slots each supporting 72-bit ECC (64-bit main
memory plus ECC) registered SDRAM DIMMs (PC-133 compatible). Memory is two-way
interleaved and partitioned in three banks. You may install a minimum of 128 MB (64MB x 2) and
as much as 6 GB.
The controller automatically detects, sizes, and initializes the memory array, depending on the type,
size, and speed of the installed DIMMs, and reports memory size and allocation to the server via
configuration registers.
✏ NOTE
Use DIMMs that have been tested for compatibility with the server board.
Contact your sales representative or dealer for a current list of approved
memory modules. Check the Intel Customer Support website for the latest
tested memory list:
http://support.intel.com/support/motherboards/server/scb2
PCI Riser Slots
The server board has two PCI riser slots, each capable of supporting 64-bit/66-MHz PCI riser cards.
PCI features:
• Bus speed up to 66 MHz
• 32 bit memory addressing
• 5 V/3.3 V signaling environment
• Burst transfers of up to 512 Mbps
• 8, 16, 32, or 64-bit data transfers
• Plug and Play ready
• Parity enabled
Description 11
Video
The SCB2 uses an ATI RAGE XL PCI graphics accelerator with 8 MB of video SDRAM that
supports all standard IBM† VGA modes. The embedded SVGA video subsystem supports:
• Pixel resolutions up to 1600 x 1200 under 2D and 1024 x 768 under 3D
• CRT and LCD monitors up to 100 Hz vertical refresh rate
The server board supports disabling of the onboard video through the BIOS setup menu or when a
plug in video card is installed in any of the PCI slots.
SCSI Controller
The SCSI version of the server board includes an embedded Adaptec† AIC-7899W controller
providing dual Ultra160 Low Voltage Differential (LVD) SCSI channels.
The SCSI bus is terminated on the server board with active terminators that cannot be disabled.
The onboard device must always be at one end of the bus. The device at the other end of the cable
must also be terminated. LVD devices generally do not have termination built-in and need to have
a termination source provided. Non-LVDs devices generally are terminated through a jumper or
resistor pack on the device itself.
ATA-100 Controller
The ATA version of the server board provides an embedded dual channel ATA-100 bus through the
use of the Promise Technology† PDC20267 ATA-100 controller. The controller contains two
independent ATA-100 channels that share a single 32-bit, 33-MHz PCI bus master interface as a
multifunction device. The controller supports:
• DMA and PIO IDE drives and ATAPI devices
• ATA and ATAPI proposal PIO Mode 0, 1, 2, 3, 4; DMA Mode 0, 1, 2; and
Ultra DMA Mode 0, 1, 2, 3, 4, 5
• IDE transfer rates up to 100 MB/sec per channel
• Buffering for PCI/IDE burst transfers
• Master/slave IDE mode
• Host interface complies with PCI Local Bus Specification Revision 2.2
IDE RAID
The ATA-100 controller supports IDE RAID through both ATA-100 channels. In a RAID
configuration, multiple IDE hard drives are placed into one or more arrays of disks. Each array is
seen as an independent disk, though the array may include one, two, three, or four drives. The IDE
RAID can be configured as follows:
• RAID 0: Striping one to four drives
• RAID 1: Mirroring two drives
• RAID 1 +: Spare drive (three drives)
• RAID 0 +: One to four drives are required
12 Intel Server Board SCB2 Product Guide
RAID 0 configurations are used for high performance applications, as it doubles the sustained
transfer rate of its drives. RAID 1 configurations are primarily used for data protection. It creates an
identical drive backup to a secondary drive. Whenever a disk write is performed, the controller
sends data simultaneously to a second drive located on a different data channel. With 4 drives
attached to dual ATA-100 channels, two striped drive pairs can mirror each other (RAID 0+1) for
storage capacity and data redundancy.
Network Controller
✏ NOTE
To ensure EMC product regulation compliance, the system must be used
with a shielded LAN cable.
The server board uses two Intel?? 82550PM Fast Ethernet† Controllers and supports two
10Base-T/100Base-TX network subsystems.
The 82550 PM controller supports the following features:
• 32-bit PCI, CardBus master interface
• Integrated IEEE 802.3 10Base-T and 100Base-TX compatible PHY†
• IEEE 820.3u auto-negotiation support
• Chained memory structure similar to the 82559, 82558, 82557 and 82596
• Full duplex support at both 10 Mbps and 100 Mbps operation
• Low power +3.3 V device
• IP checksum off-loading
On the SCB2, NIC 1 can be used as both a network interface and server management interface.
NIC Connector and Status LEDs
The 82550 controller drives LEDs on the network interface connector that indicate link/activity on
the LAN and 10- or 100-Mbps operation. The green LED indicates network connection when on
and TX/RX activity when blinking. The yellow LED indicates 100-Mbps operation when lit.
Network Teaming Features
✏ NOTE
Using both on-board NICs in a team does not allow the use of NIC 1 for
server management access. To support both network teaming features and
server management features, a third NIC must be added and teamed to NIC 2.
Description 13
The network controller provides several options for increasing throughput and fault tolerance when
running Windows NT† 4.0, Windows† 2000 , NetWare† 4.1x or newer, or Linux†:
• Adapter Fault Tolerance (AFT) - provides automatic redundancy for your adapter. If the
primary adapter fails, the secondary takes over. AFT works with any hub or switch.
• Adaptive Load Balancing (ALB) - creates a team of 2 - 8 adapters to increase transmission
throughput. Also includes AFT. Works with any 10Base-TX or 100Base-TX switch.
• Fast EtherChannel† (FEC) or Intel?? Link Aggregation - creates a team of up to 8 adapters to
increase transmission and reception throughput. Also includes AFT. Requires a FEC-enabled
switch.
To set up an option, read the instructions in the Windows NT 4.0 or NetWare 4.1x readme files.
General Configuration Notes
1. Windows NT versions prior to 4.0 do not support Adapter Teaming options.
2. Adapter Teaming options require NT 4.0 with Service Pack 4.0 or Service Pack 3.0 and the
Windows Hot Fix†.
3. In Windows NT, teaming options cannot be implemented on adapters that have been
configured for VLANs. NetWare can support teaming options and VLANs on the same
adapters.
Adapter Fault Tolerance
Adapter Fault Tolerance (AFT) is a simple, effective, and fail-safe approach to increase the
reliability of server connections. AFT gives you the ability to set up link recovery to the server
adapter in case of a cable, port, or network interface card failure. By assigning two server adapters
as a team, AFT enables you to maintain uninterrupted network performance.
AFT is implemented with two server adapters: a primary adapter and a backup, or secondary,
adapter. During normal operation, the backup will have transmit disabled. If the link to the
primary adapter fails, the link to the backup adapter automatically takes over.
Preferred Primary Adapter
With multiple adapters installed, you can specify one as the Preferred Primary adapter. For
example if you have a server with a PRO/1000 server adapter as the primary adapter and a
PRO/100+ adapter as the secondary, you could configure the PRO/1000 server adapter to be the
preferred primary. In this scenario, if the PRO/1000 server adapter fails, the PRO/100+ will take
over. Then when the PRO/1000 server adapter is replaced, it will automatically revert to being the
primary adapter in the team.
If a Preferred Primary is not selected, PROSet will attempt to select the best adapter, based on
adapter model and speed.
Mixed Adapter Teaming
AFT supports up to eight server adapters per team, in any mix.
14 Intel Server Board SCB2 Product Guide
Adaptive Load Balancing
Adaptive Load Balancing (ALB) is a simple and efficient way to increase your server’s transmit
throughput. With ALB you group server adapters in teams to provide an increased transmit rate
(up to 8 Gbps) using a maximum of eight adapters. The ALB software continuously analyzes
transmit loading on each adapter and balances the rate across the adapters as needed. Adapter
teams configured for ALB also provide the benefits of AFT. Receive rates remain at 100 Mbps or
1 Gbps depending on the primary adapter’s capability.
To use ALB, you must have 2-8 server adapters installed in your server or workstation and linked
to the same network switch.
Cisco† Fast EtherChannel
Fast EtherChannel (FEC) is a performance technology developed by Cisco to increase your server’s
throughput. Unlike ALB, FEC can be configured to increase both transmission and reception
channels between your server and switch. FEC works only with FEC-enabled switches, such as the
Catalyst 5000 series. With FEC, as you add adapters to your server, you can group them in teams
to provide up to 18 Gbps at full duplex, with a maximum of 8 server adapters. The FEC software
continuously analyzes loading on each adapter and balances network traffic across the adapters as
needed. Adapter teams configured for FEC also provide the benefits of AFT.
To use FEC, you must have 2, 4, or 8 server adapters installed in your server and linked to the same
FEC-enabled Cisco switch.
Keyboard and Mouse
The keyboard/mouse controller is PS/2-compatible. If specified through the System Setup Utility
(SSU), the server may be locked automatically if there is no keyboard or mouse activity for a
predefined length of time. Once the inactivity (lockout) timer has expired, the keyboard and mouse
do not respond until the previously stored password is entered. A Y-cable can be used if both a
PS/2 mouse and keyboard are required at the same time.
RJ-45 Serial Port
The rear RJ-45 serial port is a fully functional COM port that supports any standard serial device
and provides support for serial concentrators, which typically support RJ45 serial connectors. For
server applications that use a serial concentrator to access the server management features of the
baseboard, a standard 8-pin CAT-5 cable from the serial concentrator is plugged directly into the
rear RJ45 serial port. The 8 pins of the RJ45 connector can be configured to match either of two
pin-out standards used by serial port concentrators. To accommodate either standard, the
J6A2 jumper block located directly behind the rear RJ45 serial port must be jumpered appropriately
according to which standard is desired.
Description 15
DSR to Pin#7
DCD to Pin#7
DSR to Pin#7
DCD to Pin#7
✏ NOTE
By default, as configured in the factory, the SCB2 baseboard will have the
rear RJ45 serial port configured to support a DSR signal.
For serial concentrators that require a DCD signal, the J6A2 jumper block must be configured as
follows: The DCD jumper in position 2 and 3 and the DSR jumper in position 2 and 3. Pin 1 on the
jumper is denoted by an arrow directly next to the jumper block. See Figure 3 on page 15 for the
jumper block pin-out of this configuration.
Figure 3. J6A2 Jumper Block for DCD Signal
For serial concentrators that require a DSR signal, the J6A2 jumper block must be configured as
follows: The DSR jumper in position 1 and 2 and the DCD jumper in position 1 and 2. Pin 1 on the
jumper is denoted by an arrow directly next to the jumper block. See Figure 4.
Figure 4. J6A2 Jumper Block for DSR Signal
For those server applications that require a DB9 type of serial connector, an 8-pin RJ45-to-DB9
adapter must be used. The following table defines the pin-out required for the adapter to provide
RS232 support.
Table 3. Rear COM2 Port Adapter Pin-out
RJ45 Signal Abbreviation DB9
1 Request to Send RTS 7
2 Data Terminal Ready DTR 4
3 Transmitted Data TD 3
4 Signal Ground SGND 5
5 Ring Indicator RI 9
6 Received Data RD 2
7 DCD or DSR DCD/DSR 1 or 6
8 Clear To Send CTS 8
16 Intel Server Board SCB2 Product Guide
✏ NOTE
The RJ45-to-DB9 adapter should match the configuration of the serial device
used. One of two pin-out configurations are used depending on whether the
serial device requires a DSR or DCD signal. The final adapter configuration
should also match the desired pin-out of the RJ45 connector, as it can also be
configured to support either DSR or DCD.
For systems configured with both a front and rear RJ45 serial connectors, the
adapters used for the rear port cannot be used with the front port, as the pinout
for both RJ45 ports are different. For example, modem applications
typically use DCD. In this case the user would use a DCD-configured adapter
and set the jumper block as shown in Figure 3.
ACPI
The SCB2 supports the Advanced Configuration and Power Interface (ACPI) as defined by the
ACPI 1.0 and PC97 specifications. An ACPI aware operating system can put the system into a
state where the hard drives spin down, the system fans stop, and all processing is halted. However,
the power supply will still be on and the processors will still be dissipating some power, so the
power supply fans will still run.
The SCB2 supports sleep states s0, s1, s4, and s5:
• s0: Normal running state.
• s1: Processor sleep state. No context will be lost in this state and the processor caches will
maintain coherency.
• s4: Hibernate or Save to Disk: The memory and machine state are saved to disk. Pressing the
power button or other wakeup event will restore the system state from the disk and resume
normal operation. This assumes that no hardware changes have been made to the system while
it was off.
• s5: Soft off: Only the RTC section of the CSB and the BMC are running in this state. No
context is saved by the OS or hardware.
CAUTION
The system is off only when the AC power cord is disconnected.
Description 17
Security
Intrusion Switch Monitoring
To help prevent unauthorized entry or use of the server, Intel?? Server Control server management
software monitors the chassis intrusion switch if one is installed. Opening an access cover will
transmit an alarm signal to the server board, where BMC firmware and server management
software process the signal. The system can be configured through ISC to respond to an intrusion a
number of ways, including powering down or locking the keyboard.
Software Locks
The BIOS Setup and the System Setup Utility (SSU) provide a number of security features to
prevent unauthorized or accidental access to the system. Once the security measures are enabled,
you can access the system only after you enter the correct password(s). For example:
• Enable the keyboard lockout timer so that the server requires a password to reactivate the
keyboard and mouse after a specified time out period1 to 120 minutes.
• Set and enable a supervisor password.
• Set and enable a user password.
• Set secure mode to prevent keyboard or mouse input and to prevent use of the front panel reset
and power switches.
• Activate a hot key combination to enter secure mode quickly.
• Disable writing to the diskette drive when secure mode is set.
• Disable access to the boot sector of the operating system hard disk drive.
Using Passwords
You can set either the user password, the supervisor password, or both passwords. If only the user
password is set, you:
• Must enter the user password to enter BIOS Setup or the SSU.
• Must enter the user password to boot the server if Password on Boot is enabled in either the
BIOS Setup or SSU.
• Must enter the user password to exit secure mode.
If only the supervisor password is set, you:
• Must enter the supervisor password to enter BIOS Setup or the SSU.
• Must enter the supervisor password to boot the server if Password on Boot is enabled in either
the BIOS Setup or SSU.
• Must enter the supervisor password to exit secure mode.
If both passwords are set, you:
• May enter the user password to enter BIOS Setup or the SSU. However, you will not be able to
change many of the options.
18 Intel Server Board SCB2 Product Guide
• Must enter the supervisor password if you want to enter BIOS Setup or the SSU and have
access to all of the options.
• May enter either password to boot the server if Password on Boot is enabled in either the BIOS
Setup or SSU.
• May enter either password to exit secure mode.
Secure Mode
Configure and enable the secure boot mode by using the SSU. When secure mode is in effect:
• You can boot the server and the operating system will run, but you must enter the user
password to use the keyboard or mouse.
• You cannot turn off system power or reset the server from the front panel switches.
Secure mode has no effect on functions enabled via remote server management or power control
via the watchdog timer.
Taking the server out of secure mode does not change the state of system power. That is, if you
press and release the power switch while secure mode is in effect, the system will not be powered
off when secure mode is later removed. However, if the front panel power switch remains
depressed when secure mode is removed, the server will be powered off.
Summary of Software Security Features
The table below lists the software security features and describes what protection each offers. In
general, to enable or set the features listed here, you must run the SSU and go to the Security
Subsystem Group, menu. The table also refers to other SSU menus and to the Setup utility.
Table 4. Software Security Features
Feature Description
Secure mode How to enter secure mode:
• Setting and enabling passwords automatically places the system in secure
mode.
• If you set a hot-key combination (through Setup), you can secure the system
simply by pressing the key combination. This means you do not have to wait for
the inactivity time-out period.
When the system is in secure mode:
The server can boot and run the operating system, but mouse and keyboard input
is not accepted until the user password is entered.
At boot time, if a CD is detected in the CD-ROM drive or a diskette in drive A, the
system prompts for a password. When the password is entered, the server boots
from CD or diskette and disables the secure mode.
If there is no CD in the CD-ROM drive or diskette in drive A, the server boots from
drive C and automatically goes into secure mode. All enabled secure mode
features go into effect at boot time.
To leave secure mode: Enter the correct password(s).
Disable writing to
diskette
In secure mode, the server will not boot from or write to a diskette unless a
password is entered.
To write protect access to diskette whether the server is in secure mode or not, use
the Setup main menu, Floppy Options, and specify Floppy Access as read only.
continued
Description 19
Table 4. Software Security Features (continued)
Feature Description
Set a time out period
so that keyboard and
mouse input are not
accepted
Also, screen can be
blanked, and writes to
diskette can be
inhibited
Specify and enable an inactivity time out period of from 1 to 120 minutes.
If no keyboard or mouse action occurs for the specified period, attempted keyboard
and mouse input will not be accepted.
The monitor display will go blank, and the diskette drive will be write protected
(if these security features are enabled through Setup).
To resume activity: Enter the correct password(s).
Control access to
using the SSU: set
supervisor password
To control access to setting or changing the system configuration, set a supervisor
password and enable it through Setup.
If both the supervisor and user passwords are enabled, either can be used to boot
the server or enable the keyboard and/or mouse, but only the supervisor password
will allow Setup to be changed.
To disable a password, change it to a blank entry or press CTRL-D in the Change
Password menu of the Supervisor Password Option menu found in the Security
Subsystem Group.
To clear the password if you cannot access Setup, change the Clear Password
jumper (see Chapter 5).
Control access to the
system other than
SSU: set user
password
To control access to using the system, set a user password and enable it through
Setup.
To disable a password, change it to a blank entry or press CTRL-D in the Change
Password menu of the User Password Option menu found in the Security
Subsystem Group.
To clear the password if you cannot access Setup, change the Clear Password
jumper (see Chapter 5).
Boot without
keyboard
The system can boot with or without a keyboard. During POST, before the system
completes the boot sequence, the BIOS automatically detects and tests the
keyboard if it is present and displays a message.
Specify the boot
sequence
The sequence that you specify in setup will determine the boot order. If secure
mode is enabled (a user password is set), then you will be prompted for a
password before the server fully boots. If secure mode is enabled and the “Secure
Boot Mode” option is also enabled, the server will fully boot but will require a
password before accepting any keyboard or mouse input.
20 Intel Server Board SCB2 Product Guide
21
2 Installation Procedures
Install the I/O Shield
✏ NOTE
An ATX 2.03-compliant I/O shield is provided with the server board. The
shield is required by Electromagnetic Interference (EMI) regulations to
minimize EMI. If the shield does not fit the chassis, obtain a properly sized
shield from the chassis supplier. The I/O shield does not support the use of
the USB 2 connector.
The shield fits the rectangular opening in the back of a chassis. The shield has cutouts that match
the I/O ports.
1. Install the shield from inside the chassis. Orient the shield so that the cutouts align with the
corresponding I/O connectors on the server board. Make sure the metal fingers are on the
inside of the chassis.
2. Position one edge (A) so that the dotted groove is outside the chassis wall, and the lip of the
shield rests on the inner chassis wall.
3. Hold the shield in place, and push it into the opening (B) until it is seated. Make sure the
I/O shield snaps into place all the way around.
OM12162
B
A
Figure 5. Installing the I/O Shield
22 Intel Server Board SCB2 Product Guide
Rearrange the Standoffs
If your chassis does not have board mount standoffs placed as shown, you must rearrange them so
they match the holes in the server board. Failure to properly rearrange the metal standoffs may
cause the server board to malfunction and may permanently damage it. Your chassis may be
different from the illustration.
OM11716B
=
Figure 6. Rearrange the Standoffs
Installation Procedures 23
Server Board Bumpers
If you are installing your server board in a non-Intel chassis, you must provide and install rubber
bumpers at the locations shown below. They must be the same height as the existing board mount
standoffs.
CAUTION
You must install rubber bumpers in all non Intel?? chassis that do not already
support the board at the locations shown in the illustration.
The rubber bumpers you provide and install must be the same height as the
existing board mount standoffs to properly support your new board.
Failure to install bumpers, or installing bumpers that are too tall or too short,
may damage your board.
DO NOT INSTALL server board bumpers in the Intel SR1200 and
SR2200 server chassis.
OM12372
11.0 inches
[280.0]
3.8 inches
[97.0]
3.6 inches
[85.0]
2.7 inches
[70.0]
5.9 inches
[150.0]
Figure 7. Installing Server Board Bumpers
24 Intel Server Board SCB2 Product Guide
Install the Server Board
To ensure proper grounding and support, it is recommended that you install screws in all the
required mounting holes for your chassis. You may need to move cables out of the way to properly
install your server board.
1. While placing the board on the chassis standoffs, carefully position the board I/O connectors
into the rear chassis I/O openings.
2. Adjust board position to align mounting holes with standoffs.
3. Using the screws that came with your chassis, mount the board to the chassis.
OM11716A
Figure 8. Installing the Server Board
Installation Procedures 25
Installing Processors
1. Observe the safety and ESD precautions at the beginning of this document.
2. Raise the locking bar on the socket.
OM11711
Figure 9. Raising the Locking Bar
3. Aligning the pins of the processor with the socket, insert the processor into the socket.
4. Lower the locking bar completely.
OM11712
Figure 10. Installing Processors
26 Intel Server Board SCB2 Product Guide
5. Following the instructions packaged with the applicator, apply thermal grease to the processor.
6. Position the heat sink slot (2) above the socket/processor slot (3).
7. Aligning the raised metal surfaces, place the heat sink on top of the processor.
8. Install the heat sink clip with pin (1) inserted into slot (2).
OM11708A
C
A
B
2
3
1
Figure 11. Installing the Heat Sink
A. Heat sink retention clip
B. Heat sink
C. Socket and processor
Installation Procedures 27
CAUTION
Use care when closing the locking lever—do it slowly.
9. Slowly close the locking lever (A) until it contacts tab (B).
OM11709A
A
B
Figure 12. Closing the Locking Lever
✏ NOTE
When using the boxed Intel Pentium III processor, compatible with the
SCB2 server board, it will come with a fan for the processor heat sink. This
fan cannot be used in a 1U server chassis. If you are integrating a 2U
chassis, proceed to the next step.
10. Following the instructions provided with the processor, install the fan on the processor heat
sink.
11. Connect the fan to (A) if it is on the primary processor or to (B) if it is on the secondary
processor.
OM12163
B A
CPU 1 Fan CPU 2 Fan
Figure 13. Connecting the Heat Sink Fan
28 Intel Server Board SCB2 Product Guide
Install the Processor Terminator
If you are installing only one processor, you must install a terminator in the secondary processor
socket (A). If you are installing two processors, skip this section.
1. Raise the locking bar (B) on the socket.
2. Aligning the two corner marks on the terminator with the handle-side of the socket (C), insert
the terminator into the socket.
3. Lower the locking bar completely (D).
OM11710
A
B
D
C
Figure 14. Installing the Processor Terminator
Installation Procedures 29
Memory
Only PC133-compliant SDRAM is supported by the server board. Install from 128 MB to 6 GB of
registered, ECC memory, using up to six DIMMs. A 1U chassis requires low-profile (LP) 1.2-inch
DIMMs.
DIMMs must be installed in pairs and in the following order: 1a and 1b, 2a and 2b, 3a and 3b.
Installed DIMMs must be the same speed and must all be registered. For a list of supported
memory, call your service representative or visit the Intel Support website:
http://support.intel.com/support/motherboards/server
OM11715
3A
1B
2B
3B
1A
2A
Figure 15. Installing Memory
30 Intel Server Board SCB2 Product Guide
Connect Cables
Before connecting cables, consult the documentation supplied with your chassis.
OM11717
G
H
F
A
B
SCSI
ATA100
E
ATA66
USB
I
COM1
K
J
C
D
Figure 16. Connecting Cables
A. SCSI connector (SCSI server board only)
B. ATA-100 primary/secondary connectors (ATA server board only)
C. SSI front panel connector (see the server board diagram label for pin out)
D. Front panel connector (For use in a non Intel chassis only)
E. IDE connector (For use in a non Intel chassis only)
F. Main power connector
G. Fan module connector (7-pin)
H. Fan connectors (system and processor)
I. USB header
J. Floppy connector (For use in a non Intel chassis only)
K. COM 1 header
L. Combined Floppy/Front Panel/IDE connector (For use in an Intel chassis only)
31
3 Upgrading
Tools and Supplies Needed
• Jumper removal tool or needle nosed pliers
• Phillips† (cross head) screwdriver (#1 bit and #2 bit)
• Pen or pencil
• Antistatic wrist strap and conductive foam pad
(recommended)
OM11717A
Cautions
These warnings and cautions apply throughout this chapter. Only a technically qualified person
should configure the server board.
CAUTIONS
System power on/off: The power button DOES NOT completely turn off
the system AC power, 5V standby is still active whenever the system is
plugged in. To remove power from system, you must unplug the AC power
cord from the wall outlet. Make sure the AC power cord is unplugged before
you open the chassis, add, or remove any components.
Hazardous conditions, devices & cables: Hazardous electrical
conditions may be present on power, telephone, and communication cables.
Turn off the server and disconnect the power cord, telecommunications
systems, networks, and modems attached to the server before opening it.
Otherwise, personal injury or equipment damage can result.
Electrostatic discharge (ESD) & ESD protection: ESD can damage
disk drives, boards, and other parts. We recommend that you perform all
procedures in this chapter only at an ESD workstation. If one is not
available, provide some ESD protection by wearing an antistatic wrist strap
attached to chassis groundany unpainted metal surfaceon your server
when handling parts.
ESD and handling boards: Always handle boards carefully. They can
be extremely sensitive to ESD. Hold boards only by their edges. After
removing a board from its protective wrapper or from the server, place the
board component side up on a grounded, static free surface. Use a
conductive foam pad if available but not the board wrapper. Do not slide
board over any surface.
32 Intel Server Board SCB2 Product Guide
Installing or removing jumpers: A jumper is a small plastic encased
conductor that slips over two jumper pins. Some jumpers have a small tab on
top that you can grip with your fingertips or with a pair of fine needle nosed
pliers. If your jumpers do not have such a tab, take care when using needle
nosed pliers to remove or install a jumper; grip the narrow sides of the
jumper with the pliers, never the wide sides. Gripping the wide sides can
damage the contacts inside the jumper, causing intermittent problems with
the function controlled by that jumper. Take care to grip with, but not
squeeze, the pliers or other tool you use to remove a jumper, or you may
bend or break the stake pins on the board.
Memory
The server board supports from 128 MB up to 6 GB of registered memory in six DIMM slots.
✏ NOTE
• Only PC133-compliant SDRAM is supported by the server board.
• A 1U chassis requires low-profile (LP) 1.2-inch (30 mm) tall DIMMs.
• DIMMs must be populated in pairs and in the following order:
1a and 1b, then 2a and 2b, then 3a and 3b.
• Installed DIMMs must be the same speed and must all be registered.
For a list of supported memory, call your service representative or visit the Intel Customer Support
website:
http://support.intel.com/support/motherboards/server/scb2
OM11715
3A
1B
2B
3B
1A
2A
Figure 17. Installing DIMMs
Upgrading 33
Processors
WARNING
If the server has been running, any installed processor and heat sink on
the processor board(s) will be hot. To avoid the possibility of a burn, be
careful when removing or installing server board components that are
located near processors.
CAUTIONS
Processor must be appropriate: You may damage the server if you
install a processor that is inappropriate for your server. Make sure your
server can handle a newer, faster processor (thermal and power
considerations). For exact information about processor interchangeability,
contact your customer service representative or visit the Intel Customer
Support website:
http://support.intel.com/support/motherboards/server/scb2
ESD and handling processors: Reduce the risk of electrostatic
discharge (ESD) damage to the processor by doing the following: (1) Touch
the metal chassis before touching the processor or server board. Keep part of
your body in contact with the metal chassis to dissipate the static charge
while handling the processor. (2) Avoid moving around unnecessarily.
34 Intel Server Board SCB2 Product Guide
Adding or Replacing a Processor
If you are adding a second processor to your system, you must first remove the terminator from the
secondary processor socket (refer to Installing and Removing a Terminator on page 38). The
second processor must be compatible with the first processor (within one stepping, same voltage,
same speed, see the Intel Customer Support website for specifics).
1. Observe the safety and ESD precautions given at the beginning of this chapter.
2. Remove the chassis cover (see your system or chassis documentation for instructions).
3. Raise the locking bar on the socket.
4. Aligning the pins of the processor with the socket, insert the processor into the socket.
5. Lower the locking bar completely.
OM11712
Figure 18. Insert the Processor and Lower the Locking Bar
Upgrading 35
6. Follow the instructions packaged with your boxed processor for preparing the heat sink and
processor for installation.
7. Position the heat sink slot (2) above the socket/processor slot (3).
8. Aligning the raised metal surfaces, place the heat sink on top of the processor.
9. Install the heat sink clip with pin (1) inserted into slot (2).
OM11708A
C
A
B
2
3
1
A. Heat sink retention clip
B. Heat sink
C. Socket and processor
Figure 19. Installing the Heat Sink
CAUTION
Use care when closing the locking lever—do it slowly.
36 Intel Server Board SCB2 Product Guide
10. Slowly close the locking lever (A) until it contacts tab (B).
OM11709A
A
B
Figure 20. Attach the Heat Sink
✏ NOTE
When using the boxed Intel Pentium III processor, compatible with the
SCB2S server board, it will come with a fan for the processor heat sink.
This fan cannot be used in a 1U server chassis. If you are integrating a
2U chassis, proceed to the next step.
11. Following the instructions provided with the processor, install the fan on the processor
heat sink.
12. Connect the fan to (A) if it is on the primary processor or to (B) if it is on the secondary
processor.
OM12163
B A
CPU 1 Fan CPU 2 Fan
Figure 21. Connect the Heat Sink Fan
Upgrading 37
Removing a Processor
1. Observe the safety and ESD precautions at the beginning of this chapter and the additional
cautions given here.
2. If a heat sink fan is present, unplug it from the server board and remove it from the heat sink.
3. Disengage the retention clip from the processor socket by slowly opening the locking lever
until it is vertical.
4. Remove the processor from the socket.
5. If you removed the processor from the secondary socket and are not replacing it, you must
install a terminator in its place.
38 Intel Server Board SCB2 Product Guide
Installing and Removing a Terminator
If you are installing only one processor, you must install a terminator in the secondary processor
socket (A).
1. Observe the safety and ESD precautions at the beginning of this chapter and the additional
cautions given here.
2. Raise the locking bar on the socket.
3. To install a terminator, align the two corner marks on the terminator with the handle-side of the
socket (C) and then insert the terminator into the socket.
4. To remove a terminator, pull it out of the socket and then replace the it with another terminator
or install a processor.
5. Lower the locking bar (B) completely.
OM11710
A
B
D
C
Figure 22. Installing a Terminator
Upgrading 39
Replacing the Back up Battery
The lithium battery on the server board powers the real time clock (RTC) for up to 10 years in the
absence of power. When the battery starts to weaken, it loses voltage, and the server settings stored
in CMOS RAM in the RTC (for example, the date and time) may be wrong. Contact your customer
servic

관련자료

댓글 0
등록된 댓글이 없습니다.

공지사항


뉴스광장


  • 현재 회원수 :  60,015 명
  • 현재 강좌수 :  35,688 개
  • 현재 접속자 :  172 명