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U s e r ' s G u i d e
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U s e r ' s G u i d e
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Proprietary Notice and Liability Disclaimer
The information disclosed in this document, including all designs and related materials, is
the valuable property of NEC Computer Systems Division, Packard Bell NEC, Inc.
(hereinafter “NEC CSD”) and/or its licensors. NEC CSD and/or its licensors, as
appropriate, reserve all patent, copyright and other proprietary rights to this document,
including all design, manufacturing, reproduction, use, and sales rights thereto, except to
the extent said rights are expressly granted to others.
The NEC CSD product(s) discussed in this document are warranted in accordance with the
terms of the Warranty Statement accompanying each product. However, actual
performance of each such product is dependent upon factors such as system configuration,
customer data, and operator control. Since implementation by customers of each product
may vary, the suitability of specific product configurations and applications must be
determined by the customer and is not warranted by NEC CSD.
To allow for design and specification improvements, the information in this document is
subject to change at any time, without notice. Reproduction of this document or portions
thereof without prior written approval of NEC CSD is prohibited.
Trademarks
INTEL is a registered trademark of Intel Corporation.
MS-DOS is a registered trademark of Microsoft Corporation.
Pentium is a registered trademark of Intel Corporation.
All other product, brand, or trade names used in this publication are the trademarks or
registered trademarks of their respective trademark owners.
PN: 456-00005-000nnnnnnnnnnnnnnnnnn12/98
Copyright 1998
NEC Computer Systems Division
Packard Bell NEC, Inc.
1 Packard Bell Way
Sacramento, CA 95828-0903
All Rights Reserved
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Contents
Propriet ary Not ice an d Liabilit y Disclaim er
Regu lat ory In form at ion
Usin g Th is Gu ide ................................................... vii
Text Conventions ............................................................................ viii
Related Documents.............................................................................ix
Safety Notices .....................................................................................x
Safety Notices for Users Outside of the U.S.A. and Canada ...........xi
Care and Handling.............................................................................xii
Syst em Overview.................................................. 1 -1
Overview......................................................................................... 1-2
System Feature Summary ........................................................... 1-3
Expanding the Server as Needs Grow ......................................... 1-4
Configuration Constraints........................................................... 1-4
Chassis............................................................................................ 1-5
Status LED Indicator Descriptions.............................................. 1-6
Opening the Front Doors ............................................................ 1-7
Chassis Features and Controls..................................................... 1-9
System Board Features .................................................................. 1-11
Processor.................................................................................. 1-16
Memory.................................................................................... 1-16
Bus Master I/O Expansion Slots ............................................... 1-16
Real-Time Clock/Calendar ....................................................... 1-16
BIOS........................................................................................ 1-16
Video ....................................................................................... 1-17
SCSI Controller........................................................................ 1-17
Peripheral Controller ................................................................ 1-17
External Device Connectors...................................................... 1-17
Keyboard and Mouse................................................................ 1-17
Fans ......................................................................................... 1-18
Peripheral Devices......................................................................... 1-18
Ultra2 Wide SCSI-2 Hard Drive Bays....................................... 1-18
Removable Media Drive Bays .................................................. 1-19
System Power................................................................................ 1-20
Software Locks via the BIOS Setup............................................... 1-20
Set t in g Up You r Syst em ....................................... 2 -1
Selecting a Site................................................................................ 2-2
Unpacking the System..................................................................... 2-3
Moving the System to the Site ......................................................... 2-3
Getting Familiar With the System.................................................... 2-4
Making Connections........................................................................ 2-4
Connecting the Power Cords............................................................ 2-6
Powering On Your System .............................................................. 2-7
Contents iii
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Con figu rin g You r Syst em ......................................3 -1
Configuring Your System................................................................ 3-2
Resource Configuration Utility (RCU)............................................. 3-2
Using the RCU........................................................................... 3-3
RCU Command Line Parameters................................................ 3-5
RCU Configuration Settings ....................................................... 3-5
ISA Board Configuration............................................................ 3-6
BIOS Setup Utility .......................................................................... 3-8
Using the BIOS Setup Utility...................................................... 3-8
BIOS Setup Configuration Settings............................................. 3-9
Exiting BIOS Setup .................................................................... 3-9
SCSISelect Utility ......................................................................... 3-14
Using the SCSISelect Utility..................................................... 3-14
SCSISelect Configuration Settings............................................ 3-15
Exiting SCSISelect ................................................................... 3-15
Configuring the RAID Controller .................................................. 3-17
Configuring System Jumpers and Switches.................................... 3-18
Before You Begin..................................................................... 3-18
Configuring I/O Riser Board Function Select Switches ............. 3-18
Configuring CPU Base Board Function Select Switches ........... 3-20
Configuring Memory Board Function Jumpers ......................... 3-21
Configuring System I/O Board Switches and Jumpers............... 3-21
Setting Switches and Jumpers................................................... 3-24
BIOS........................................................................................ 3-25
Updating the BIOS .............................................................. 3-25
Changing the BIOS Setup Language.................................... 3-26
Resetting the CMOS NVRAM.................................................. 3-27
Clearing and Changing the Password........................................ 3-28
Upgradin g You r Syst em ........................................4 -1
Precautions...................................................................................... 4-4
Preparing Your System for Upgrade ................................................ 4-6
Equipment Log........................................................................... 4-6
Removing the Front Doors.......................................................... 4-7
Installing the Front Doors........................................................... 4-7
Removing the Top Cover and Side Panels................................... 4-8
Installing the Top Cover and Side Panels .................................. 4-10
Modifying the System I/O Board ................................................... 4-11
Installing Video Memory.......................................................... 4-11
Replacing the Non-Volatile Memory ........................................ 4-12
Replacing the Real-time Clock Battery ..................................... 4-13
DIMMs ......................................................................................... 4-15
Installing DIMMs..................................................................... 4-15
Removing DIMMs ................................................................... 4-17
Processors ..................................................................................... 4-18
Installing a Processor Cartridge ................................................ 4-19
Removing a Processor Cartridge or Termination Board............. 4-22
Option Boards ............................................................................... 4-23
Installation Considerations........................................................ 4-23
Controller/Adapter Hardware Configurations............................ 4-25
Installing an Option Board........................................................ 4-26
Removing an Option Board ...................................................... 4-28
Power Supply ................................................................................ 4-29
iv Contents
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Installing a Power Supply......................................................... 4-29
Removing a Power Supply........................................................ 4-30
Hot-Swapping a Power Supply ................................................. 4-30
Removable Media Devices ............................................................ 4-31
Installing a 5 1/4-Inch Device or 3 1/2-Inch Diskette Drive....... 4-33
Removing a 5 1/4-Inch Device or 3 1/2-Inch Diskette Drive ..... 4-37
Hard Disk Drives........................................................................... 4-38
Installing a Hard Drive ............................................................. 4-39
Removing a Hard Drive............................................................ 4-42
Hot-Swapping a Hard Drive...................................................... 4-43
Problem Solvin g ................................................... 5 -1
Resetting the System........................................................................ 5-2
Troubleshooting Checklists.............................................................. 5-2
Initial System Startup ................................................................. 5-2
Running New Application Software............................................ 5-3
After System Has Been Running Correctly ................................. 5-4
Additional Troubleshooting Procedures ........................................... 5-5
Error Checking........................................................................... 5-5
Troubleshooting Guide............................................................... 5-5
Preparing the System for Diagnostic Testing.......................... 5-5
Monitoring POST While Running.......................................... 5-6
Verifying Proper Operation of Key System Indicators............ 5-6
Confirming Loading of the Operating System........................ 5-7
Specific Problems and Corrective Actions ....................................... 5-7
Power LED Does Not Light........................................................ 5-7
System Cooling Fans Do Not Rotate........................................... 5-7
No Characters Appear On Screen................................................ 5-8
Characters are Distorted or Incorrect........................................... 5-9
Floppy Disk Drive Activity LED Does Not Light ....................... 5-9
Hard Disk Drive Activity LED Does Not Light........................... 5-9
Problems with Application Software......................................... 5-10
Error Messages.............................................................................. 5-10
Alarm Indication during POST ................................................. 5-10
Alarm Indication during Operation ........................................... 5-13
CPU Error Messages ........................................................... 5-14
Memory Error Messages...................................................... 5-14
Status LED.................................................................................... 5-15
Syst em Cablin g .................................................... A-1
Before You Begin............................................................................A-2
Static Precautions ............................................................................A-2
RAID Configuration........................................................................A-3
Mem ory Con figu rat ion s ........................................ B-1
Memory DIMM Configurations.......................................................B-2
Glossary
Equ ipm en t Log
Contents v
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vi Contents
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Contents vii
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Using This Guide
This User’s Guide provides a quick reference to information about your
system. Its goal is to familiarize you with your system and the tasks
necessary for system configuring and upgrading.
This guide contains the following information:
Chapter 1, “System Overview” provides an overview of your
system and describes your system’s major system components.
See this chapter to familiarize yourself with your system.
Chapter 2, “Setting Up Your System” tells you how to select a
site, unpack the system, make cable connections, and power on
your system.
Chapter 3, “Configuring Your System” tells you how to configure
the system and provides instructions for running the Resource
Configuration Utility, BIOS Setup Utility, and SCSISelect Utility.
It also provides information on system board jumper settings.
Chapter 4, “Upgrading Your System” provides you with
instructions for upgrading your system with additional processors,
optional memory, option cards, and peripheral devices.
Chapter 5, “Problem Solving” contains helpful information for
solving problems that might occur with your system.
Appendix A, “System Cabling” includes cabling information for
the onboard SCSI controller.
Appendix B, “Memory Configurations” defines the allowable
memory configurations for your system.
“Glossary” defines the standard acronyms and technical terms
used in this manual.
“Equipment Log” provides you with a sample equipment log for
documenting the system configuration and future updates you
may make to your system.
Using This Guide vii
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Text Conventions
This guide uses the following text conventions.
Warnings, cautions, and notes have the following meanings:
!
WARNING
Warnings alert you to situations that could result in
serious personal injury or loss of life.
!
CAUTION
Cautions indicate situations that can damage the
system hardware or software.
Note: Notes give important information about the
material being described.
Names of keyboard keys are printed as they appear on the
keyboard. For example, Ctrl, Alt, or Enter.
Text or keystrokes that you enter appear as boldface type. For
example, type abc123 and press ENTER.
File names are printed in uppercase letters. For example,
AUTOEXEC.BAT.
viii Using This Guide
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Related Documents
In addition to this guide, the following system documentation is included
with your server either as electronic files on EXPRESSBUILDER or as
paper copy shipped with your server.
System Release Notes
Release Notes provide you with the latest information about your
system. This information was not available at the time your user’s
guide was developed.
Getting Started Sheet
The Getting Started Sheet provides several easy-to-follow steps to
become familiar with your server documentation and to complete
your installation successfully.
Network Operating System Configuration Guide
This guide contains supplemental instructions needed to install
and configure your server Windows NT v4.0, Novell NetWare
v4.11, Santa Cruz Operation (SCO) OpenServer Release 5.04, and
SCO UNIXWARE 7.0 Network Operating Systems. This
document is intended to complement the more detailed procedural
documents available from the vendor of the network operating
system.
Using This Guide ix
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Safety Notices
!
Caution: To reduce the risk of electric shock which could cause
personal injury, follow all safety notices. The symbols shown are
used in your documentation and on your equipment to indicate
safety hazards.
Warning: Lithium batteries can be dangerous. Improper handling
of lithium batteries may result in an explosion. Dispose of lithium
batteries as required by local ordinance or as normal waste if no
local ordinance exists.
Warning: The detachable power supply cord is intended to serve
as the disconnect device.
Warning: This equipment has two 3-wire, grounded power cords.
To prevent electrical hazards, do not remove or defeat the ground
prong on the power cord. Replace the power cord if it gets
damaged. Contact your dealer for an exact replacement.
Warning: The DC push-button on/off switch on the front panel
does not turn off the system AC power. Also, +5vdc is present on
the system board whenever the AC power cord is connected
between the system and an AC outlet. Before doing the
procedures in this manual, make sure that your system is powered
off and unplug the AC power cord from the back of the chassis.
Failure to disconnect power before opening your system can result
in personal injury and equipment damage.
In the U.S.A. and Canada, each power cord must be a UL-listed
detachable power cord (in Canada, CSA-certified), type ST or SJT, 16
AWG, 3-conductor, provided with a molded-on NEMA type 5-15 P plug
cap at one end and a molded-on cord connector body at the other end.
The cord length must not exceed 9 feet (2.7 meters).
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Outside the U.S.A. and Canada, the plug must be rated for 250 Vac, 10
amp minimum, and must display an international agency approval
marking. The cord must be suitable for use in the end-user country.
Consult your dealer or the local electrical authorities if you are unsure of
the type of power cord to use in your country. The voltage change occurs
via a switch in the power supply.
Warning: Under no circumstances should the user attempt to
disassemble the power supply. The power supply has no user-
replaceable parts. Inside the power supply are hazardous voltages
that can cause serious personal injury. A defective power supply
must be returned to your dealer.
Safety Notices for Users Outside of the U.S.A. and Canada
PELV (Protected Extra-Low Voltage) Integrity: To ensure the
extra-low voltage integrity of the equipment, connect only
equipment with mains-protected electrically-compatible circuits to
the external ports.
Remote Earths: To prevent electrical shock, connect all local
(individual office) computers and computer support equipment to
the same electrical circuit of the building wiring. If you are
unsure, check the building wiring to avoid remote earth
conditions.
Earth Bonding: For safe operation, only connect the equipment
to a building supply that is in accordance with current wiring
regulations in your country. In the U.K., those regulations are the
IEE.
Using This Guide xi
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Care and Handling
Use the following guidelines to properly handle and care for your
system.
Protect the system from extremely low or high
temperatures. Let the system warm (or cool)
to room temperature before using it.
Keep the system away from magnetic forces.
Keep the system dry. Do not wash the
system with a wet cloth or pour fluid
into it.
Protect the system from being bumped or
dropped.
Check the system for condensation. If
condensation exists, allow it to evaporate
before powering on the system.
Keep the system away from dust, sand,
and dirt.
xii Using This Guide
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1
System Overview
Overview
Chassis
System Board Features
Peripheral Devices
System Power
Software Locks via the BIOS Setup
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Overview
The server is a modular, multiprocessing server based on the Intel Pentium®
II Xeon chip set. The chip set incorporates a modular scaleable architecture that
integrates a 64-bit bus interface with three Peripheral Component Interconnect
(PCI) buses and an Industry Standard Architecture (ISA) bus. The architecture
supports Symmetrical Multiprocessing (SMP) and a variety of operating
systems. The chassis and system boards are designed to meet the needs of the
server marketplace.
The combination of computing performance, memory capacity, and integrated
I/O provides a high performance environment for many applications including
network servers and multi-user systems. The server is designed for use in
applications where downtime must be minimized. To this end, the server
includes or has the option to include the following.
Power system redundancy; in a system configured with redundant power
supplies, the system will continue to operate with a single power supply
failure.
Self-contained power supply units that can be easily installed or removed
from the back of the chassis.
Hot-swap SCSI hard drive bays accessible from the front of the chassis; a
failed drive can be removed, and a new drive installed without system
power being turned off.
High degree of SCSI hard disk fault tolerance and advanced disk array
management features through the use of RAID (Redundant Array of
Independent Disks) technology.
Hardware monitors (temperature and voltage) and software monitors to
indicate failures.
Easy access to all parts for service.
1-2 System Overview
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System Feature Summary
A summary of the system features is included in Table 1-1.
Table 1-1. System Features
Feature
Description
Modular board set
System is intended for use with a modular board set based on Pentium II
Xeon processor technology; from one to four processors and up to 4 GB
of memory.
Add-in board support
Rail and back panel slots support up to 11 add-in boards (two ISA and
nine PCI).
3 1/2-inch diskette drive
3 1/2-inch diskette drive is externally accessible.
One location for a 3 1/2-inch One externally accessible 3 1/2-inch half-height bay is available for server
removable media device
expansion.
5 1/4-inch SCSI CD-ROM
5 1/4-inch CD-ROM drive is externally accessible.
Three locations for 5 1/4-
inch removable media
devices
Three externally accessible 5 1/4-inch half-height bays are available for
server expansion (diskette, CD-ROM, and/or tape drives).
12 locations for 3 1/2-inch
Ultra2 Wide SCSI-2 hard
drives
Three hard disk drive cages; each holding up to four 3 1/2-inch hot-
swappable Ultra2 wide SCSI-2 hard drives. Each cage is secured behind
a metal EMI door; drives can be swapped in or out of the system without
powering it down. The array of drives allows easy setup of RAID
applications.
Hot swap-capable
backplane
A hot swap-capable backplane is part of each drive cage assembly for
SCSI hard drives. The backplane is designed for Ultra2 wide SCSI-2
devices that use the industry standard 80-pin Single Connector Attach
(SCA) connector. The backplane consists of a row of four drive
connectors.
Power supply
From two to three 420 Watt autoranging power supplies are easily
removed/installed for service. In a three-supply system, the third supply is
redundant.
Software: utilities, setup
Security
BIOS Setup, Resource Configuration Utility, and SCSISelect Utility. The
XPRESS UILDER
CD-ROM contains the setup utilities and the ESMPRO
E
B
CD-ROM contains the server management software.
Mechanical: Key lock at the front door. One intrusion sensor for front door
to secure diskette, hard disk, removable media device, power on/off
switch, reset switch, top cover, and left/right panel access. Three power
inter-lock sensors one on each side of the chassis and one on top of the
chassis. BIOS: Password enable.
System Overview 1-3
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Expanding the Server as Needs Grow
A typical minimum system configuration may include the following:
board set consisting of system I/O board, CPU base board with a
Pentium II Xeon processor, and a memory board
diskette drive and SCSI CD-ROM drive
three SCSI hard drive cages with one hard drive and a RAID controller
installed
network add-in boards
two 420 watt power supplies (an optional third power supply provides
redundant power)
onboard 2 MB video memory
system I/O board has two ISA slots and nine PCI slots for add-in boards.
The system I/O board also has a riser board for external I/O (serial,
parallel, video) interfaces.
chassis can hold six removable media drives: four 5 1/4-inch half-height
bays with a CD-ROM drive installed in one bay; and two 3 1/2-inch half-
height bays with a diskette drive installed.
As server/client needs grow, you can expand system processor capacity,
memory, drives, option boards, and the number of power supplies.
CPU base board has four slots for CPUs, for a configurable range of one,
two, three, or four processors.
Memory board supports 16 DIMM devices for up to a maximum memory
size of 4 GB.
System I/O board has eleven option board slots (two ISA and nine PCI).
Chassis can hold six removable media drives.
Three SCSI hard drive cages support up to 12 hot-swap bays for 3 1/2-
inch ultra wide SCSI-2 hard drives.
Configuration Constraints
The system has four 5 1/4-inch half-height bays accessible from the front. These
bays are convenient for diskette, tape, and CD-ROM drives (removable media).
Because of the EMI generated by hard drives, the increased susceptibility to
ESD, and cooling requirements, hard drives should not be installed in the 5 1/4-
inch half-height bays.
1-4 System Overview
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Chassis
Figure 1-1 shows the server front chassis features and controls.
POWER
STATUS
DISK
A
E
B
C
D
3
F
G
H
I
A
Power LED
When green, power is present in system. When off, power is
turned off or power source is disrupted. See Table 1-1 for a
list and description of the system LEDs.
When green the system is OK. See Table 1-1 for a list and
description of the system LEDs.
B
C
Status LED
Disk LED
When green, internal disk drives are being accessed. See
Table 1-1 for a list and description of the system LEDs.
Secures both front external doors.
D
E
Key lock
Displays information about BIOS and system failures (error
and diagnostic information).
LCD panel
Each drive has three LEDs visible above the bay from the
front. See Table 1-2 for a list of SCSI disk drive status LED
indicators.
F
G
H
Drive present/power on
Drive active
Drive faulty.
I
Casters (4)
Used when moving the server. Fixed by the caster holders.
Figure 1-1. Front Chassis Features and Controls
System Overview 1-5
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Status LED Indicator Descriptions
Table 1-2 lists the system status LED indicators along with a description of each
LED indicator. Table 1-3 lists the disk drive status LED panel indicators along
with a description of each LED indicator. Table 1-4 lists system status abnormal
conditions.
Table 1-2. System Status LED Indicators
LED
Status Description
Response
Power
Off
Power OFF
Power ON
None required (normal)
Green
Amber
None required (normal)
System power supply
failure
Replace failed power supply module.
Status
Disk
Off
Power OFF
No alarms
None required (normal)
None required (normal)
Check condition
Green
Amber
Abnormal condition
(see Table 1-4)
Off
Not accessing disk drives None required (normal)
Amber
Green
Internal disk drive failure
Accessing disk drives
Check disk drive status LEDs
None required (normal)
Table 1-3. Disk Drive Status LED Panel Indicators
LED
Status Description
Response
Disk Drive
Present
Off
Disk drive not present
None required (normal)
Green
Off
Disk drive present
None required (normal)
None required (normal)
Disk Drive
Activity
Not accessing disk drive
On
Off
Accessing disk drive
No alarms
None required (normal)
None required (normal)
Disk Drive
Status
Amber
Disk drive failure
Replace disk drive.
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Table 1-4. System Status Abnormal Conditions
LED (Amber)
Conditions
System Status
Chassis intrusion (front cover)
Unit fan alarm
Memory multi-bit error (SERR)
P6 bus error (SERR)
Thermal sensor
Temperature
Voltage
CPU thermal trip
PCI PERR# (OPB/ESC detect)
PCI SERR#
CPU internal error
WDT
IOCHK
Opening the Front Doors
You must open the right front door to turn the server power on or off, reset the
server, mount or dismount a floppy disk, or mount or dismount a hard disk
drive. Open the left front door to mount or dismount 5 1/4-inch removable
media devices.
Open the front doors as follows.
1. To open the front doors, you need to use the security key provided with the
server. Insert the security key into the key slot and turn the key to the right
(see the following figure).
UNLOCK
LOCK
System Overview 1-7
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2. First open the right front door, then open the left door (see the following
figure).
1-8 System Overview
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Chassis Features and Controls
Figure 1-2 shows the server front chassis features and controls. Figure 1-3
shows the server rear chassis features and controls.
E
D
F
J
K
G
H
I
C
B
A
A
B
C
D
E
SCSI hard drive cages
Used to mount the hard disks. Each cage contains four disks with
their three status LEDs mounted above.
Ejector button, 3 1/2-inch
diskette drive
Press to eject diskette.
Activity light, 3 1/2-inch
diskette drive
When lit, drive is in use.
LCD panel
Displays information about BIOS and system failures (error and
diagnostic information).
Power LED
When green, power is present in system. When off, power is
turned off or power source is disrupted. See Table 1-2 for a list
and description of the system LED indicators.
F
Status LED
Disk LED
When green the system is OK. See Table 1-2 for a list and
description of the system LED indicators.
G
When green, internal disk drives are being accessed. See Table
1-2 for a list and description of the system LED indicators.
H
I
DC power switch
Reset switch
Press to turn system DC power on or off.
Press to cause a hard reset to the system; the power-on self test
(POST) will run.
J
Load/eject button, CD-ROM
drive
Press to load CD and eject CD.
K
Activity light, CD-ROM drive
When lit, drive is in use.
Figure 1-2. Front Chassis Features and Controls (front doors opened)
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O
N M
L
G
A
B
C
D
H
I
J
F
E
P
K
A
B
C
D
E
F
Keyboard
Printer
PS/2-compatible 6-pin mini-DIN connector.
LPT1 25-pin parallel port connector.
VGA monitor 15-pin connector.
VGA
External-SCSI
Dump button
Narrow-SCSI 50-pin connector
See Configuring Switch and Jumper Settings in Chapter 4 of this User’s Guide.
See Configuring Switch and Jumper Settings in Chapter 4 of this User’s Guide.
Function select
switches
G
H
I
Mouse
COM1
COM2
—
PS/2-compatible 6-pin mini-DIN connector.
COM1 serial port 9-pin connector.
COM2 serial port 9-pin connector.
Reserved.
J
K
Power status
LEDs
Both indicators are green during normal operation. Either or both indicators go off when
power supply fails. See Table 1-1 for status descriptions.
L
PCI slots
Knockout
ISA slots
PCI slots
Two PCI add-in board slot locations (PCI #11 and PCI #12).
Available to route SCSI signals to peripheral boxes.
Two ISA add-in board slot locations (ISA #1 and ISA #2).
M
N
O
Seven PCI add-in board slot locations (PCI #21, PCI #22, PCI #23, PCI #31, PCI #32, PCI
#33, and PCI #34).
P
Power supplies
(three shown)
Possible configurations, installed from bottom most bay:
2 supplies (nonredundant), 3 supplies (one redundant).
Each power supply has a separate AC input power connector.
Figure 1-3. Rear Chassis Features and Controls
1-10 System Overview
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System Board Features
The board set includes the system I/O board, CPU base board, and a memory
board. The system I/O board is mounted at the top of the system. Figure 1-4
shows the system with the top cover removed.
F
A
E
B
C
D
A
B
C
D
System I/O Board
Option board Fan
Diskette drive
Four 5 1/4-inch half-height bays with a CD-ROM
drive installed in bottom bay
E
F
I/O riser board
Expansion slot covers
Figure 1-4. System I/O Board Location
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The CPU base board plugs into the underside of the system I/O board and the
memory board plugs into the CPU base board. Figure 1-5 shows the system with
the left side cover removed.
A
B
C
H
F
D
E
G
A
B
C
D
E
CPU base board
Memory board
Rear CPU fan
Rear CPU fan
Voltage Regulator Module socket
(VRM1 - VRM6)
F
Front CPU fan (2)
G
H
Pentium II Xeon processors (1 - 4)
Voltage Module Socket (memory)
Figure 1-5. CPU Base Board and CPU Board Location
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Figures 1-6, 1-7, and 1-8 show the major components on the system I/O board,
CPU base board, and Memory board. Table 1-5 summarizes the features of the
board set.
Table 1-5. Features of the Board Set
Feature
Description
Multiple processor Four processor sockets on the CPU base board, for a total of four
slots
processors.
Upgradable
memory
Sixteen DIMM sockets on the memory board, supporting up to 4 GB
memory using 256 MB DIMMs.
Add-in board
support
Two dedicated ISA bus slots and nine dedicated 32-bit PCI slots on the
system I/O board.
SCSI controller
BIOS
Dual onboard SCSI-2 controller (PCI-based).
Flash memory-based BIOS (Basic Input/Output System ) and Setup
utilities.
Video
Integrated super VGA controller ships with either 1 MB or 2 MB of video
memory. Upgrade socket (1 MB) is available for 1 MB system to
increase total video memory size to 2 MB.
External device
connectors
Onboard connectors for two serial ports, parallel port, narrow SCSI port,
PS/2-compatible keyboard and mouse, and VGA monitor.
Clock
Real-time clock/calendar (RTC).
System hardware
monitoring
Detects chassis intrusion and contains sensors for temperature,
voltage, and fan failure.
Configuration
utilities
Resource Configuration Utility (RCU) and SCSISelect Utility.
System Overview 1-13
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I
H
J
T
K
G
F
L
M
E
D
N
C
B
O
P
Q
R
A
M
S
M
A
B
C
D
E
F
PCI expansion slots (#31, #32, #33, and #34)
PCI expansion slots (#21, #22, and #23)
ISA expansion slots (#1 and #2)
CPU base board connector (underside of board)
PCI expansion slots (#11 and #12)
Optional Video DRAM sockets
I/O riser board connector
SCSI channel B connector
SCSI channel A connector
SCSI status cable connector
Option board fan connector
Front panel connector
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
Configuration jumpers
Reserved
Reserved
Diskette connector
Real time clock battery
Flash board
Non-volatile memory
Power status cable connector
Figure 1-6. System I/O Board Connector and Component Locations
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A
I
F
B
G
C
D
E
H
A
B
C
D
E
F
CPU front fan connector
Memory board connector
Pentium II Xeon processor (1 - 4)
CPU front fan connector
Configuration switch
CPU rear fan connector
G
H
I
Voltage module socket (VRM1 - VRM6)
CPU rear fan connector
Voltage Module Socket (memory)
Figure 1-7. CPU Base Board Component Locations
A
B
C
A
B
C
DIMM sockets
Configuration jumper
DIMM sockets
Figure 1-8. Memory Board Component Locations
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Processor
Each Pentium II Xeon processor is packaged in a single edge contact (S.E.C.)
cartridge. The cartridge includes the processor core with an integrated 16 KB
primary (L1) cache; the secondary (L2) cache; a thermal plate; and a back cover.
The cartridge is secured by a retention module attached to the baseboard.
Depending on configuration, your system has one to four processors (see
Figure 1-7). Additional Pentium processors enhance performance and enable
symmetric multiprocessing (SMP). All processors access the same memory and
I/O space and tasks can run on either CPU if your operating system (OS)
supports SMP.
Memory
The Memory board contains sixteen 168-pin DIMM sockets (see Figure 1-8,
A and C). A minimum system configuration includes 128 MB (using four 32
MB DIMMs) of system memory. Sixteen DIMM sockets allow for system
memory expansion up to 4 GB (using sixteen 256 MB DIMMs). ECC
generation/checking is provided for detection and correction of memory errors.
Note: Only use DIMMs approved for use in this server
system. Call your customer service representative for
information.
Bus Master I/O Expansion Slots
The server's expansion capabilities meet the needs of high performance I/O
servers by providing a combination of PCI local bus and ISA connectors. The
system I/O board offers nine dedicated PCI slots and two dedicated ISA slots.
The system I/O board contains two ISA bus master I/O (input/output) expansion
slots (see Figure 1-6, C). The ISA architecture supports 32-bit memory
addressing and 16-bit data transfers for the CPU, DMA, and bus masters.
The system I/O board also contains nine PCI bus master I/O expansion slots
(Figure 1-6, A, B, and E).
Real-Time Clock/Calendar
The real-time clock provides system clock/calendar information stored in a non-
volatile memory (NVRAM). The real-time clock battery (see Figure 1-6, Q)
provides power backup for the real-time clock.
BIOS
A BIOS and Setup Utility are located in the Flash memory (see Figure 1-6, R)
on the system I/O board and include support for system setup and PCI/ISA
Plug-and-Play auto-configuration. A number of security, reliability, and
management features are also incorporated to meet vital server needs.
1-16 System Overview
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Video
The onboard super VGA controller (PCI) is a high-performance SVGA
subsystem that supports:
BIOS compatibility with VGA, EGA, CGA, Hercules Graphics, and
MDA
1 MB of Video Memory expandable to 2 MB (Figure 1-6, F)
16-bit bus for high-speed display memory access
hardware accelerated bit block transfers (BITBLT)
72Hz refresh, non-interlaced at: 640x480, 800x600, or 1280x1024
resolutions
up to 16M colors at 640x480 and 800x600 resolutions, 64K colors at
1024x768 resolutions and 256 colors at 1280x1024 resolutions with the
optional 2 MB video memory.
Note: SVGA drivers may be required to use the high-
performance video modes.
SCSI Controller
The system I/O board includes a dual Ultra2 wide SCSI-2 controller (Adaptec®
AIC-7895) integrated as a PCI bus master. This controller supports data paths of
8-bit (fast/narrow SCSI) at a data transfer rate of 10 MB/sec and 16-bit
(fast/wide or ultra /wide SCSI) at a data transfer rate of 20 MB/sec or 40
MB/sec. As a PCI bus master, this controller supports burst data transfer rates
up to the maximum of 133 MB/sec.
On this server, channel B is cabled to the four SCSI devices in the removable
media drive bays. Channel A is available for optional SCSI devices.
Peripheral Controller
The advanced integrated peripheral controller supports two serial ports and one
parallel port through the I/O riser board (see Figure 1-6, G). The advanced
integrated peripheral controller also supports the connection of two diskette
drives (see Figure 1-6, P).
External Device Connectors
The I/O panel provides connectors for a PS/2 compatible mouse and a keyboard,
connectors for VGA monitor, two serial port connectors, and a parallel port
connector. It also provides a narrow SCSI external connector.
Keyboard and Mouse
The keyboard/mouse controller is PS/2-compatible.
System Overview 1-17
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Fans
In addition to the power supply fans, the system has an option board fan (see
Figure 1-4, B) cabled to the I/O board (see Figure 1-6, K) and three CPU fans
(see Figure 1-5, C, D and F) cabled to the CPU base board (see Figure 1-7, A,
D, F and H). The three CPU fans (front and rear) are redundant in configuration.
If one fan fails, its associated fan changes its rotating speed to high.
Peripheral Devices
The following paragraphs describe the Ultra2 wide SCSI-2 hard drive bays and
5 1/4-inch removable media drive bays.
Ultra2 Wide SCSI-2 Hard Drive Bays
The right side of the system contains up to three Ultra2 wide SCSI hard drive
cages for 3 1/2-inch SCSI-2 hard drives (see Figure 1-9). Each hard drive cage
has a hot-swap backplane that supports four drives. The backplanes require an
80-pin single connector attachment (SCA) connector on the drives you install.
A drive carrier is required as part of the hot swap implementation. A 3 1/2-inch
peripheral between 1.0 and 1.6 inches high can be accommodated in each
carrier. A drive is mounted in the carrier with four fasteners, and the carrier is
retained in the chassis by a locking handle.
A fault light on the front panel board gives a general indication that there has
been a fault on a hot-swap drive. Each drive has a set of three lights to indicate
the fault or other status: power-on (green LED), activity (green LED), or fault
(yellow LED).
Three hard drive cages
(EMI panel and exterior door
shown open)
Figure 1-9. Ultra2 Wide SCSI-2 Hard Drive Bays
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The backplane has two main functions: SCSI drive control and system data
logging. Drive status is monitored to detect failing drives and to control LED
indicators. The backplane features include the following:
insertion and removal of hard drives while power is on (referred to as
“hot swap”)
simplified cable management
SCA connectors to simplify inserting and removing hard drives
SCSI management of fault LEDs.
Each backplane supports SCSI drives with SCA connectors.
Removable Media Drive Bays
On the upper left side of the system, four 5 1/4-inch half-height bays (see
Figure 1-10) are designed for peripherals with removable media (diskette, CD-
ROM, tape). Two available adjacent 5 1/4-inch bays can be converted to a
single full-height bay. The 5 1/4-inch drives can be removed directly from the
front of the chassis. Removal of the system top cover may be required to
install/remove the device cables. Cosmetic filler panel are installed over all
unused 5 1/4-inch bays.
Factory-installed CD-ROM reader plus
three bays for removable media
drives.
Factory-installed 3 1/2-inch diskette
drive plus second bay for removable
3 1/2-inch drive.
(Exterior doors shown open)
Figure 1-10. Removable Media Drive Bays
On the upper right side of the system, below the LCD panel, are two built-in
3 1/2-inch bays. One contains a 3 1/2-inch diskette drive that supports both 720
KB and 1.44 MB media (see Figure 1-10).
Note: The SCSI termination resistors must be installed in
the last SCSI drive of the daisy chain cabling (bottom media
bay). All other devices must have terminators removed.
System Overview 1-19
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System Power
The system may be configured with up to three 420 Watt power supplies. Each
supply automatically switches between these input voltage ranges:
100-120 VAC at 50/60 Hz; 7 A maximum current
200-240 VAC at 50/60 Hz; 3.5 A maximum current
Each power supply provides DC outputs of +5 V, +12 V, +3.3 V, -5 V, and
-12 V. All output grounds connect to the power supply chassis and to earth
ground through the AC line cord. Each supply has:
individual AC input line cord that plugs into the external side of the
power supply
isolating device on each DC output so that the failure of one supply does
not affect the operation of the others
cooling fan integral with each power supply enclosure. The fan circuit
implements fan failure detection.
In a system, power is drawn equally from all supplies installed. A system with
two power supplies can be fully loaded (all drive bays and add-in board slots
filled). The supplies use a forced current-sharing technique that ensures the
supplies share within 10 percent at full load. In a high-access system with three
power supplies, the third supply gives redundancy, because the load is
redistributed if one supply fails.
Software Locks via the BIOS Setup
The BIOS Setup has software features that let you control access to one or more
parts of the system:
set and enable an administrative password
set and enable a user password
enable password on boot
disable writing to the diskette drive when secure mode is set.
If only a supervisor password is set and enabled, enter this password to boot the
server and run the SCU.
If both the user and administrative passwords are set and enabled, enter either
one to boot the server. Enter the administrative password to access the SCU or
BIOS Setup to change the system configuration.
1-20 System Overview
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2
Setting Up Your System
Selecting a Site
Unpacking the System
Moving the System to the Site
Getting Familiar With the System
Making Connections
Connecting the Power Cords
Powering On Your System
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Selecting a Site
The system operates reliably in a typical office environment. Choose a site that
meets the following requirements.
Site the system near grounded, three-pronged power outlets.
Note: For the United States and Canada, this means
NEMA 5-15R outlets for 100-120 Vac or NEMA 6-15R
outlets for 200-240 Vac. For other international sites, this
means three-pronged power outlets applicable for the
electrical code of the region.
!
CAUTION
Be sure the power service connection is through a properly
grounded outlet.
Each power cord can be plugged into a separate phase of a main AC
supply, assuming the circuit is rated for that load.
Note: For Denmark, the system must be connected to an
AC power source rated at 16 amps.
Select a site that is clean, dust-free, and well ventilated. Keep front and
rear ventilating openings free of obstructions. Locate the system away
from sources of heat, vibration, or physical shock
Isolate the system from strong electromagnetic fields and electrical noise
produced by electrical devices (such as air conditioners, large fans, large
electric motors, radio and TV transmitters, and high-frequency security
devices)
The site should be spacious enough to provide at least five inches (13
centimeters) behind the system and three inches (eight centimeters) on
each side of the system for proper cooling, airflow, and cable clearance.
Allow at least 11 inches (27 centimeters) in front of the system for proper
front door clearance.
Position the system for easy access for system maintenance and
installation of system upgrades.
2-2 Setting Up Your System
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Unpacking the System
!
CAUTION
Your system weighs approximately 207 pounds (94 kg). To
avoid personal injury, make sure you have someone help
you lift or move the system.
When you receive your system, inspect the shipping containers prior to
unpacking. If the shipping boxes are damaged, note the damage, and if possible,
photograph it for reference. After removing the contents of the containers, keep
the cartons and the packing materials. If the contents appear damaged when you
unpack the boxes, file a damage claim with the carrier immediately. To unpack
your system, see the unpacking instructions on the shipping carton.
Moving the System to the Site
Once you have selected the system installation site, move it as follows.
1.
Casters are provided on the bottom of the server. Slowly push the server to
the selected installation location.
!
CAUTION
For safety reasons, be sure to attach the caster holders on
the casters when the system is at the selected site.
2.
To stabilize the system, attach the caster holders on the casters as shown
below.
Setting Up Your System 2-3
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Getting Familiar With the System
Before setting up your system, see Chapter 1, “System Overview,” to become
familiar with system features, such as the location of your system's security
keylocks and front and rear panel switches, indicators and connectors, etc.
Making Connections
Connect your keyboard, monitor, and mouse (see Figure 2-1). Connect any
external peripheral devices such as a printer or modem by following the
instructions included with these devices. To connect external SCSI cables, refer
to Cabling in Appendix A.
Note: Damage to the system may result if the keyboard
cable is inserted or removed when power is applied to the
system.
!
CAUTION
Inserting a telephone line connector into a LAN board RJ-45
port may result in personal injury and equipment damage.
2-4 Setting Up Your System
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I
K J I
E
F
G
H
A
B
C
D
A.
Keyboard, PS/2-compatible 6-pin connector
Printer, parallel port 25-pin connector
VGA monitor, 15-pin connector
B.
C.
D.
E.
F.
G.
H.
I.
External-narrow SCSI, 50-pin high density connector
Mouse, PS/2-compatible 6-pin connector
COM1, serial port 9-pin connector
COM2, serial port 9-pin connector
Reserved, 9-pin connector
PCI slots, nine PCI add-in board slots
Reserved, connector knockout
J.
K.
ISA slots, two ISA add-in board slots
Figure 2-1. Making Connections
Setting Up Your System 2-5
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Connecting the Power Cords
Plug the female end of each AC power cord into the input receptacles on the
rear of the power supplies (see Figure 2-2). Plug the male end of each power
cord into NEMA 5-15R outlet for 100-120 Vac or NEMA 6-15R outlet for 200-
240 Vac. If the power cords supplied with the system are not compatible with
the AC wall outlet in your region, obtain a suitable power cord that meets the
following criteria.
The power cord must be rated for the available AC voltage and have a
current rating that is at least 125% of the current rating of the system.
The power cord connector that plugs into the wall outlet must be
terminated in a grounding-type male plug designed for use in your region.
It must have certification marks showing certification by an agency
acceptable in your region.
The power cord connector that plugs into the system must be an IEC-
type CEE-22 female connector.
The power cord must be less than 1.8 meters (6.0 feet) long.
!
WARNING
Your system shipped with two AC power cords. Do not
attempt to modify or use the supplied AC power cords if it
not the exact type required.
Figure 2-2. Connecting the AC Power Cord
2-6 Setting Up Your System
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Powering On Your System
Power on your system as follows.
1. Make sure all external devices, such as a video display, keyboard, and
mouse (optional) have been connected, and the power cords are connected.
2. Power on the video display and any other external devices.
3. Open the right front door and press the power on/off switch on the front
panel (see Figure 2-3).
4. Verify that the Power LED is lit. If it is not lit, ensure the AC power cords
are connected to functional AC power sources.
After a few seconds your system begins the internal Power-On Self Tests
(POST). POST automatically checks the system, CPU module, memory,
keyboard, and most installed peripheral devices. If you have problems powering
on your system, refer to Problem Solving in Chapter 6.
After you have successfully powered on your system, verify that the system
boots to a DOS prompt. You can now run the EXPRESSBUILDER CD-ROM.
Power LED
Power On/Off Switch
Figure 2-3. Powering On Your System
Setting Up Your System 2-7
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3
Configuring Your System
Configuring Your System
Resource Configuration Utility (RCU)
BIOS Setup Utility
SCSISelect Utility
Viewing the Event Log
Configuring the RAID Controller
Configuring System Jumpers and Switches
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Configuring Your System
Configuration and setup utilities are used to change your system configuration.
You can configure your system, as well as any option boards you may add to
your system, using the Resource Configuration Utility (RCU) diskette. Also,
several unique system parameters are configured using BIOS Setup (stored in
the system FLASH memory). A diskette is not needed to run BIOS Setup.
The SCSISelect Utility, also stored in the system FLASH memory, is used if
you need to configure the SCSI controller in your system or to perform a SCSI
disk format or verify disk operation of these drives. A diskette is not needed to
run SCSISelect.
A Utilities diskette contains the Event Log Utility. The Event Log Utility is used
to read stored system event information.
If your system has been factory configured, the RCU, BIOS Setup, or
SCSISelect utilities do not need to be run unless you want to change the
password or security features, add option boards or devices, or upgrade the
boards in your system.
There are some system configuration parameters that are set by jumpers.
However, these parameters do not usually require change. Finally, the EZ-SCSI
utility is included with your system. This program performs MS-DOS driver
installation for SCSI devices in your system and also installs basic utilities that
format and manage SCSI hard disk drives. Refer to the documentation supplied
with the EZ-SCSI utility for more information.
The following provide procedures for running the RCU, BIOS Setup, and the
Utilities diskette. Also, a section describing the system jumper configurations is
presented. Several configuration tables are also provided to record changes you
make to the default system configuration.
You use the EXPRESSBUILDER CD-ROM to create the RCU and Utilities
diskettes.
Resource Configuration Utility (RCU)
The Resource Configuration Utility is used to configure your system. The RCU
can be used to configure the memory subsystem, peripheral device subsystems,
and interface adapters. RCU recognizes ISA Plug-and-Play boards and PCI
boards and displays their configuration. ISA (non-Plug and Play) adapter boards
must be added to the RCU configuration to reserve the resources required by the
ISA boards.
After you add options using the RCU, the system automatically configures and
initializes them during system initialization at boot up.
3-2 Configuring Your System
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The RCU stores the configuration information in the non-volatile memory on
your system. When you exit the RCU, the configuration information is written
to non-volatile memory. The RCU also maintains the Setup configuration,
which is stored in the battery-backed memory. This means that when you exit
the RCU, the Setup and RCU configuration agree with each other.
Using the RCU
If you are adding a non-Plug and Play ISA option board, run the RCU before
installing the board using procedures found in the Upgrades and Options
chapter of this guide. If you are upgrading system memory, do so before running
the RCU using procedures found in the Upgrades and Options chapter of this
guide. Use the RCU as follows.
Note: The system can fail following improper
configuration. Always save the current settings before
reconfiguring the system.
1. Power on the system.
2. If the diskette drive is disabled, enable it using the BIOS Setup utility,
explained later (see BIOS Setup Utility). Specify the correct type of diskette
drive.
3. Using the EXPRESSBUILDER CD-ROM, create the RCU diskette. Note that the
CD-ROM refers to the RCU as the SCU.
4. Start the RCU by rebooting the system, with the RCU diskette in Drive A.
When the RCU banner is displayed, press Enter and the Resource
Configuration Utility Main Menu shown in Table 3-1 displays.
5. Select Learn about configuring your computer from the RCU Main Menu
and press Enter if you need information on system configuration. Read
through the information and press the F10 key when you are done.
6. Using the up and down arrows, highlight Configure Computer and press
Enter. The Resource Configuration Utility Menu shown in Table 3-2
displays. The keys that are active while viewing a screen are displayed on
the bottom of the screen.
Note: Press the F1 key at any time for help and
additional information on each option. To return from help,
press ESC.
7. Select Step 1: Important System Configuration information and press Enter
to learn more about the Resource Configuration Utility.
Configuring Your System 3-3
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8. Select Step 2 to add an ISA board to your system (see “ISA Board
Configuration”).
9. Select Step 3 to view your systems configuration settings. The normal
(default) RCU settings are shown in table 3-3.
Table 3-1. Resource Configuration Utility Main Menu
Menu Options
Description
1. Learn about configuring your computer Provides basic instructions on system configuration and
using the Help program.
2. Configure computer
Lists automatically detected boards, and enables manually
adding, moving and removing boards. Plug-and-Play boards
don’t require configuration files. If the ISA board requires
configuration files, use “Add or remove boards” for a menu
to enter or change ISA board configurations. (See ISA
Board Configuration.)
INSERT adds a board not detected or has not been
installed.
DEL removes a selected board.
F7 moves a selected board to a different slot.
3. Set date
4. Set time
Enables viewing and changing the date that the computer
uses.
Enables viewing and changing the time that the computer
uses.
5. Maintain system configuration diskette Enables viewing and changing Configuration (.CFG) files
and System Configuration Information (SCI) files.
6. Exit from this utility
Exits from the RCU.
Table 3-2. Resource Configuration Utility Menu
Menu Options
Description
Step 1. Important System configuration
information.
Provides information on the Resource Configuration
program and how it differs from ISA board configuration.
Step 2. Add and remove boards
Lists automatically detected boards, and enables manually
adding, moving and removing boards. Plug-and-Play boards
don’t require configuration files. This list shows all the
boards and options that will be installed in your system.
Step 3. View and Edit Details
Enables viewing and changing your system configuration
settings including embedded features, functionality, IRQs,
and port selections. Perform Step 3 only if you need to
change the system default settings.
Step 4. Examine Switches or Print Report
Step 5. Save and Exit
Enables viewing the required switch and jumper settings
and allows printing of a configuration report.
Allows you to save your configuration and exits to the
operating system. You can also exit without saving.
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RCU Command Line Parameters
There are RCU options that can be enabled by starting the RCU from the
command line with the appropriate switch listed below. To enable an option,
insert the RCU diskette in drive A and type A:SD at the MS-DOS prompt,
followed by one of these command line parameters:
/HHigh resolution display. Sets the display mode to 43 lines for an EGA
add-in video controller board or to 50 lines for a VGA board. The default is
25 lines for all add-in video controller boards.
/M Monochrome display. The display screens are shown using
monochrome attributes, even on a color display. The default is to display
color, unless a monochrome video display is detected. Use this parameter
when you have redirected the console to one of the onboard serial ports.
RCU Configuration Settings
Table 3-3 shows the recommended RCU settings for a sample system and
provides a place for you to record any changes you make to the settings. To
display the configuration settings, select Step 3 under the Resource
Configuration Utility Menu. To edit any of the configuration parameters, use the
up and down arrows to highlight the desired configuration parameter and press
Enter. Pressing F6 at this point allows you to edit any of the parameters
resources (IRQs, DMAs, I/O ports or memory).
Table 3-3. RCU Configurations
Main Menu
Normal Setting
Your Configuration
System - Express 5800 HX4500 System Board
RS - 232 COM Port 1
RS - 232 COM Port 2
Parallel Port
PORT 3F8h - 3FFh IRQ 4
PORT 2F8h - 2FFh IRQ 3
PORT 378h - 37Fh IRQ 7
Enabled
Floppy Controller
Mouse Controller
Enabled
PCI-2 - PCI Ethernet Controller
PCI Function 1
Enabled
Enabled
Enabled
PCI-3 - PCI Ethernet Controller
PCI Function 1
Embedded - PCI PCI Bridge - Bus 2
PCI Function 1
Embedded - PCI SCSI Controller
PCI Function 1
Enabled
Enabled
PCI Function 2
Embedded - PCI VGA Controller
PCI Function 1
Enabled
Enabled
Standard VGA Resources
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ISA Board Configuration
If adding a non-Plug and Play ISA board to your system, use the following
procedures to define and add the option board. It’s necessary to define an ISA
board to prevent other boards in the system from using the same IRQ levels,
DMA channels, I/O port addresses, or memory addresses, that your ISA board
uses.
You must run the RCU and add the ISA board to the configuration before
installing the ISA board in the system. Otherwise, the resources on the ISA
board may conflict with a Plug-and-Plug board in the system.
BIOS automatically assigns ISA Plug-and-Plug boards to the next available slot.
If the slot displayed in Step 2: “Add or Remove Boards” is not the actual slot, it
can be moved by using the F7 function key.
Note: IRQ levels, DMA channels, I/O port addresses,
and memory addresses defined using this procedure should
reflect the same settings defined by supplied jumpers and/or
configuration documents.
1. Insert the RCU diskette into drive A: and power on the system. The system
boots-up using the RCU diskette.
2. The RCU Main Menu shown in Table 3-1 is displayed. At the Startup Menu,
enter choice 2, Configure Computer.
3. The Resource Configuration Utility Menu shown in Table 3-2 is displayed.
Select Step 2 Add or Remove Boards and press Enter.
4. The Step 2: Add or remove boards screen is displayed. At this screen select
Add by pressing Insert.
5. The Add screen is displayed telling you to locate the diskette that contains
the .cfg file for the board. Press Enter at this screen.
6. The Select a Configuration (CFG) file to add screen is displayed. At this
screen select Not Listed by pressing F5.
7. The Add a board without a .cfg file screen is displayed. Read through the
information and press Enter. The Add a board without a .cfg file screen
reappears. When the screen reappears select Create .cfg file and press Enter.
8. The Create A Board CFG File screen is displayed. At this screen enter the
board description and manufacturer and press Enter.
9. The New Board Setup screen is displayed. Using the scrollable list select the
resources used by the new ISA board. Table 3-4 provides a place for you to
record the configuration you assign to the board.
10.Press F10 when you are finished selecting the resources used by the new
ISA board.
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11.The View Current Settings screen is displayed. Press Enter to save the
current settings.
12.The Add confirmation screen is displayed. Review the manufacturer’s
comments and press Enter.
Table 3-4. ISA Board Configurations
ISA Board Definitions
Your Configuration
Board Description:
Manufacturer:
Interrupts (Select from scrollable list)
DMA Channels (Select from scrollable list)
Port address (Select from scrollable list)
Start
End
Memory address (Select from scrollable list)
Start
Length
Slot (Select from scrollable list)
13.The Add screen is displayed. Select the slot in which you want to install the
board and press Enter.
Note: If the board you add causes a conflict in the
configuration, a Caution message is displayed. Press
Enter
at the message. This leads you to screens that allow you to
resolve the conflict.
14.The Step 2: Add or remove boards screen is displayed. At this screen select
Done by pressing F10.
15.The Steps in configuring your computer screen is displayed. At this screen
select “Step 4: Examine switches or print report” and press Enter.
16.The Step 4: Examine switches or print report screen is displayed. The
boards marked with an arrow indicate that the boards in your system may
have jumpers and switches that you must physically verify or that a software
statement with additional information about the board is provided. Select
Done by pressing F10.
Note: If the ISA board you are adding to the
configuration does not have switches, jumpers, software
statements, or connection information, an Information
message appears on the screen. Press
and proceed
Enter
to the next step.
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17.The Steps in configuring your computer screen is displayed. At this screen
select “Step 5: Save and exit” and press Enter.
18.The Save and exit screen is displayed. At this screen select “Save the
configuration and restart the computer” and press Enter.
19.The Reboot screen is displayed. At this screen press Enter.
20.Now that you have reserved the system resources, you can install the ISA
board.
BIOS Setup Utility
The BIOS Setup Utility, like the RCU, is used to change system configuration
parameters. This utility has several unique parameters and many parameters that
are also configurable with the RCU. The utility is resident in the system FLASH
memory and does not require a diskette or an operating system present to run.
However, some parameters set with the BIOS Setup Utility that can also be set
with the RCU, are overwritten by the RCU the next time the RCU is run.
Using the BIOS Setup Utility
You access the BIOS Setup Utility when you turn on or reboot your system. To
run the BIOS Setup Utility, perform the following procedure.
1. Power on or reboot the system. BIOS displays the following:
Press <F2> to enter SETUP
2. Press F2. After BIOS POST completes, the BIOS Setup Utility starts and the
Main Menu is displayed. The menu bar at the top of the Main Menu lists the
following selections.
Menu
Use
Main
Use this menu for basic system configuration.
Advanced
Use this menu for setting the Advanced Features available on your
system.
Security
Use this menu to set User and Supervisor Passwords and the Backup
and Virus-Check reminders.
Server
Exit
Use this menu for configuring Server Features.
Exits the current menu.
Use the arrow keys to select a menu or an item on a displayed menu. Press
the value keys (listed in the table below) to cycle through the allowable
values for the selected field. Use the Exit menu’s “Save Values” selection to
save the current values on all the menus.
To display a submenu, position the cursor on a selection that has a submenu
and press Enter. Selections with submenus are preceded by an arrow.
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See the following table for information on the keys you use with Setup.
These keys are also listed at the bottom of the Setup menu.
Key
Function in Setup Menu
F1 or Alt-H
General Help window.
Exit the current menu.
Select a different menu.
ESC
← or → arrow keys
↑ or ↓ arrow keys
Move cursor up and down. The cursor moves only to the
settings that you can change.
TAB or SHIFT-TAB
Cycle cursor up and down.
HOME or END
Move cursor to top or bottom of window.
Move cursor to next or previous page.
Select the previous value for the field.
Select the next value for the field.
PAGE UP or PAGE DOWN
F5 or -
F6 or + or SPACE
F9
Load default configuration values for this menu.
Load previous configuration values for this menu.
F10
ENTER
ALT-R
Execute command or Select ➨ submenu.
Refresh the screen.
BIOS Setup Configuration Settings
Table 3-5 shows the normal settings for the BIOS Setup Utility and provides a
place for you to record any changes you make to these settings.
Exiting BIOS Setup
To exit Setup, select Exit from the menu bar to display the Exit Setup menu.
The following describes the options on this menu. Note that ESC does not exit
this menu. You must select one of the items from the menu or menu bar to exit
this menu.
Selection
Description
Save changes and Exit
Stores the selections displayed in the menus in CMOS and exits
the Setup program.
Exit without Saving
Changes
Exits the program without saving any changes you have made in
this session. Previous selections remain in effect.
Get Default Values
Load Previous Values
Save Changes
Displays default values for all Setup menus. Useful if BIOS
detects a problem with the values stored in CMOS.
Reverts to previously saved values if the new values have not
been saved to CMOS.
Stores the current selections without exiting the Setup program.
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Table 3-5. BIOS Setup Configurations, Main Menu
Menu Parameter Name
Normal Setting or
Display Only
Your Configuration
MAIN MENU
System Time
Current Time
Enter current time (hour, minutes, seconds on
24 hour clock).
System Date
Enter current date.
Current Date
*Diskette A:
1.44MB, 3 1/2”
Use +/- to change values; indicates the type of
diskette drive installed.
*Diskette B:
Not Installed
Use +/- to change values; indicates the type of
diskette drive installed (Not Installed in your
system).
Memory Cache
Press Enter for menu.
Memory Cache
Enabled
Cache System BIOS Area
Cache Video BIOS Area
Cache Base 0 - 512K
Cache Base 512K - 640K
Cache Extended Memory Area
*Cache Memory Regions
Cache C800-CBFF
Write Protected
Write Protected
Write Back
Write Back
Write Back
Uncached
Uncached
Uncached
Uncached
Uncached
Uncached
Cache CC00-CFFF
Cache D000-D3FF
Cache D400-D7FF
Cache D800-DBFF
Cache DC00-DFFF
Memory Shadow
Press Enter for menu.
System Shadow
Enabled
Enabled
Video Shadow
*Regions with Legacy Expansion ROMs
* This parameter is overwritten by the RCU setting.
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Table 3-5. BIOS Setup Configurations, Main and Advanced Menu
Menu Parameter Name
Normal Setting or
Display Only
Your Configuration
MAIN MENU
*Boot Sequence
Press Enter for menu.
POST Errors
Enabled
Boot Sequence
A: then C:
*Numlock
Press Enter for menu.
Numlock
ON
Key Click
Enabled
Key Board auto-repeat rate
Key Board auto-repeat delay
Base Memory:
10/sec
1 sec
640 KB Display only
127 MB Display only
Extended Memory:
ADVANCED MENU
*Integrated Peripherals
Press Enter for menu.
Serial Port 1
3F8, IRQ 4
2F8, IRQ 3
378, IRQ 7
Bi-directional
Enabled
Serial Port 2
Parallel Port
Parallel Mode
Diskette Controller
Memory Reconfiguration
Press Enter for menu.
Memory Reconfiguration
DIMM Group #1 Status
DIMM Group #2 Status
DIMM Group #3 Status
DIMM Group #4 Status
Enabled
Normal
none
none
none
* This parameter is overwritten by the RCU setting.
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Table 3-5. BIOS Setup Configurations, Advanced Menu
Menu Parameter Name
Normal Setting or
Display Only
Your Configuration
ADVANCED MENU
Clear DIMM Errors
DIMM Error Pause
Press Enter
Enabled
CPU Reconfiguration
Press Enter for menu.
CPU Reconfiguration
CPU #4 Status
Enabled
Normal
CPU #3 Status
Normal
CPU #2 Status
Normal
CPU #1 Status
Normal
Clear CPU Errors
CPU Error Pause
Press Enter
Enabled
PCI Devices
Press Enter for menu.
PCI Parity Error
PCI IRQ1
Enabled
Auto
PCI IRQ2
PCI IRQ3
PCI IRQ4
PCI IRQ5
PCI IRQ6
PCI IRQ7
PCI IRQ8
PCI IRQ9
PCI IRQ10
PCI IRQ11
PCI IRQ12
PCI IRQ13
Auto
Auto
Auto
Auto
Auto
Auto
Auto
Auto
Auto
Auto
Auto
Auto
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Table 3-5. BIOS Setup Configurations, Security and Hardware Menu
Menu Parameter Name
Normal Setting or
Display Only
Your Configuration
PCI IRQ14
PCI IRQ15
PCI IRQ16
Auto
Auto
Auto
Advanced
Press Enter for menu.
Reset Configuration Data
No
SECURITY MENU
Supervisor Password is
Disabled
User Password is
Disabled
*Set Supervisor Password
Set User Password
**Password on boot
**Diskette Write
Press Enter.
Press Enter.
Disabled
Normal
**Diskette access
Everyone
Disabled
System backup reminder
Virus check reminder
Power Switch Mask
SCSI Select Utility Mask
Disabled
Unmasked
Unmasked
SYSTEM HARDWARE MENU
Thermal Sensor
Press ENTER for menu.
Thermal Sensor
Upper Limit
Enabled
65
Lower Limit
5
ESM IRQ
IRQ 10
Disabled
Enabled
No
Console Redirection
SMI
Error Log Initialization
* Enabling supervisor password requires a password for entering SETUP.
** These parameters require prior setting of supervisor password.
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SCSISelect Utility
The system I/O board includes an integrated AIC7895 dual SCSI host controller
used to manage SCSI devices in your system. When used, Channel A of this
controller provides support for four internally mounted ultra/wide hard disk
drives. Channel B provides support for internally mounted tape and CD-ROM
devices as well as externally connected SCSI devices.
The integrated SCSI host controller is configured using the SCSISelect utility.
Use the SCSISelect utility to:
change the SCSI host adapters default values.
check and/or change SCSI device settings for a particular device.
perform low-level formatting on SCSI disk devices.
perform verify operations on SCSI disk devices.
When disabling access to the SCSISelect Utility, the SCSISelect utility should
be used in conjunction with the BIOS Setup Utility. Changing the BIOS Setup
Utility “SCSI Select Utility Mask” parameter to Masked prevents the use of the
SCSI Select utility via Ctrl-A, but the “Press <Ctrl-A> for SCSI Select” prompt
is still displayed. Changing the SCSISelect utility “Display <Ctrl-A> Message
During BIOS Initialization” parameter to Disabled prevents the prompt from
being displayed. In combination these parameters can be used to prevent access
to the SCSISelect utility during boot.
Using the SCSISelect Utility
To run the SCSISelect Utility, perform the following procedure.
1. Power-on the system. The system boots up.
2. During initialization, press Ctrl + A. The SCSISelect Utility starts. When
SCSISelect detects the AIC-7895 host adapter, it displays a selection menu
listing the bus and device number of each channel. When the selection menu
appears, select the channel you wish to configure as follows.
Bus : Device : Channel
Selected SCSI Channel
00 : 01 : A
00 : 01 : B
A
B
3. Once you select the channel, the following screen is displayed.
Screen
Description
Configure/View Host Adapter Settings
SCSI Disk Utilities
Configure host adapter and device settings.
The utility scans the SCSI bus for SCSI devices,
reports a description of each device. Run these
before
utilities
configuring SCSI devices.
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4. If you wish to format a disk, verify disk media, or display a list of devices
and their SCSI Ids, select “SCSI Disk Utilities”. If you wish to configure the
adapter or a device, select “Configure/View Host Adapter Settings”.
SCSISelect Configuration Settings
The following keys are active for all SCSISelect screens.
Key
Action
Arrows
Up and down arrows move from one parameter to another within a
screen.
ENTER
ESC
Displays options for a configurable parameter. Selects an option.
Moves back to previous screen or parameter or EXIT if at the Main
menu.
F5
F6
Switches between color and monochrome.
Resets to host adapter defaults.
Table 3-6 shows the normal settings for the SCSISelect Utility and provides a
place for you to record any changes you make to these settings.
Exiting SCSISelect
To exit SCSISelect, press Esc until a message prompts you to exit (if you
changed any settings, you are prompted to save the changes before you exit).
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Table 3-6. SCSISelect Setup Configurations
Recommended Setting or
Display Only
Your Configuration
Option
SCSI Bus Interface Definitions
Host Adapter SCSI ID
7
SCSI Parity Checking
Enabled
Enabled
Host Adapter SCSI Termination
Additional Options
Boot Device Options
Press Enter for menu
Boot Channel
A First
Boot SCSI ID
0 7
Boot LUN Number
0
SCSI Device Configuration
Initiate Sync Negotiation
Maximum Sync Transfer Rate
Enable Disconnection
Press Enter for menu
Yes
40.0 4
Yes
Initiate Wide Negotiation
Send Start Unit Command
BIOS Multiple LUN Support
Include in BIOS Scan
Yes 5
Yes 1 and 5
no 1
Yes 1
Advanced Configuration Options
Reset SCSI Bus at IC Initialization
Press Enter for menu.
Enabled
Enabled
Extended BIOS Translation for DOS Drives
>1 GByte
Host Adapter BIOS (Configuration Utility
Reserves BIOS Space)
Enabled.1
Support Removable Disks
Boot Only1
Enabled1
Under BIOS as Fixed Disks 1, 2
Display <Ctrl-A> Messages During BIOS
Initialization
BIOS Support for Bootable CD-ROM
BIOS Support for INT 13 Extensions
Disabled1 6
Enabled1
1 No effect if BIOS is disabled.
2 Do not remove media from a removable media drive if it is under BIOS control.
3 Set to Disable if NetWare 3.12 or 4.11 Network Operating System is installed.
4 Set to 40.0 for channel A or 10.0 for channel B.
5 Set to Yes for channel A or No for channel B.
6 Set to Enabled for channel B or Disabled for channel A.
7 Set to 0 for channel A or 5 for channel B.
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Configuring the RAID Controller
The system comes with a three channel SecuRAID 530 Redundant Array of
Inexpensive Devices (RAID) Controller board. The board gives your system the
added security of fault tolerance. The system is pre-configured at the factory.
Use Table 3-8 to determine how the RAID controller was configured at the
factory. If you want to change the RAID level or add additional hard disks to the
array, you must use the RAID Configuration Utility.
If you are adding the RAID controller to an existing system, the RAID
Configuration Utility allows you to configure your disk array before installing
your network operating system.
Table 3-8. RAID Configurations
Number of
Hard Drives Configured
RAID Level
Hard Drives in Description
Array
1
JBOD
1
JBOD (Mylex RAID 7) JBOD is an acronym for Just
a Bunch Of Disks. Each drive can operate
independently as with a common host bus adapter; or
multiple drives may be spanned and seen as a single
very large drive. No redundancy is provided.
2
1
5
5
2
3
Mirroring (RAID 1) Drives are paired and mirrored.
All data is 100% duplicated on an equivalent drive
(fully redundant).
3
Striping with Parity (RAID 5) Data is striped across
several physical drives. Parity protection is used for
data redundancy.
4 or more
4 (one standby Striping with Parity (RAID 5) with a standby drive
drive)
The array consists of three ON-LINE drives and one
STANDBY drive. The standby replacement drive, or
hot spare, is one of the most important features RAID
provides to achieve automatic, non-stop service with a
high degree of fault-tolerance.
The RAID Configuration Utility utility is included with the RAID controller.
The SecuRAID 530 controller supports various versions of RAID technology
(referred to as RAID levels). To use any RAID level, you must configure the
RAID controller using the RAID Configuration Utility configuration utility
prior to installing your Network Operating System. For an explanation of this
utility, refer to the RAID Configuration Utility Utilities Installation Guide and
User Manual that was shipped with the controller. Chapter 2 of the manual
(Configuration Strategies) describes RAID technology and provides tips on
making your array perform well in your specific application. Chapter 3
(Preparing the Array) covers array hardware preparation, configuration, and
initialization. After completing the steps in chapter 3, you can install your
Network Operating System.
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If you want to remotely configure the array (from a PC client); increase array
capacity online; or monitor statistics on disk and controller activity, you must
install the Global Array Manager (GAM) option provided with your RAID
subsystem. The GAM option includes diskettes and user documentation. Use of
GAM is documented in the Global Array Manager 2 Server Installation Guide.
Increasing array capacity is covered in the MORE User Guide. This user guide
covers enhancements to both the Global Array manager and RAID
Configuration Utility utilities software that implement online RAID expansion
(MORE) technology.
Configuring System Jumpers and Switches
This section describes the jumpers and switches used on the I/O riser board,
CPU base board, and system I/O board.
Before You Begin
Only a qualified technical person should perform the procedures in this section.
Note: Electrostatic discharge (ESD) can damage the
system boards. Modify the boards only at an ESD
workstation. Otherwise, wear an antistatic wrist strap
attached to chassis ground.
The system jumpers enable you to set specific operating parameters for your
system. A jumper is a small plastic-encased conductor (shorting plug) that slips
over two jumper pins.
Configuring I/O Riser Board Function Select Switches
The following describes how to configure and set the I/O riser board function
select switches for specific operating parameters. The function select DIP
switches configure the use of the front panel reset switch and the use of an
optional uninterruptible power supply (UPS) unit.
!
CAUTION
Before doing the procedures in this section, make sure that
your system is powered off. Unplug all AC power cords from
the back of the chassis. Failure to disconnect power before
setting switches and moving jumpers can result in personal
injury and equipment damage.
Figure 3-1 shows the DIP switches. The switches consist of a block of four
switches, accessible on the I/O panel located on the I/O riser board at the rear of
the chassis.
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Function Select Switches and Dump
Button
A
B
A Function select switches
B Reserved
ON
1
DIP
2 3 4
4
Figure 3-1. Function Select Switches
Note: The switches are set correctly at the factory for
your system configuration. If your system requires a switch
change, change only the switch setting for that condition.
Otherwise keep the switches at their factory settings.
Table 3-9 shows the switch configurations and functions. Set the switches per
Table 3-9 and the following steps. To change a switch setting, use the following
procedure.
Note: Power must be completely off before setting the
switches, otherwise the settings will not be recognized.
At the front of the server, press the Power switch off.
1.
2.
At the rear of the server, locate the Function Select DIP switch (see Figure
3-1) that you want to change.
Set the appropriate switch on or off, according to Table 3-9.
3.
Note: If you set SW3 to On for use with an optional
UPS unit, power the unit up before switching power on the
server.
Press the main Power switch on.
4.
If using an UPS unit, the server powers up as soon as the UPS unit is
turned on.
If not using the UPS unit, press the Power button on the front of the
server.
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Table 3-9. Function Select Switch Settings
Swit
ch
Description
Settings
Function
SW1 Reserved for
future use.
Off (factory setting)
On
SW2 Reset
pushbutton
control
Off
Front panel Reset pushbutton switch is disabled.
Front panel Reset pushbutton switch is enabled.
On (factory setting)
Off (factory setting)
SW3 AC power
source control
DC power can only be turned on from the front panel
switch. If AC goes off and then back on, system will not
power on until front panel switch is used.
DC power will turn on when AC power comes on. Use
this setting with an optional uninterruptible power
supply (UPS) that auto-cycles AC power or if no UPS
and auto-power on after power lose is desired.
On
SW4 Reserved for
future use.
Off (factory setting)
On
Configuring CPU Base Board Function Select Switches
This section describes how to configure the CPU base board function switch for
the speed of the CPUs. Figure 3-2 shows the location and settings of the CPU
base board switches.
CPU Speed
4
3
2
400 MHZ
1
OFF
4
450 MHZ
3
2
1
OFF
Figure 3-2. CPU Base Board Function Switch
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Configuring Memory Board Function Jumpers
This section describes how to configure the memory board jumper for 60ns.
Figure 3-3 shows the location and settings of the memory board jumper.
P02
P04
P03
P05
A
B
C
D
P14
P16
P15
P17
60 50
Figure 3-3. Memory Board Jumper
Configuring System I/O Board Switches and Jumpers
The system I/O board switches and jumpers enable you to set specific operating
parameters for your system. Figure 3-4 shows the location of the switches and
jumpers. Table 3-10 lists the system I/O board switches and jumpers and their
factory default settings.
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Reserved
P25
SCSI Channel A
Reserved
Reserved
P16
4J1
10K9
A
B
C
A
B
C
CMOS Clear
Password Clear
13A
Reserved
13A1
FLASH Code
Model Type
8A2
9A2
A
1
2
3
4
1
2
3
4
B
C
1
2
3
4
OFF
OFF
OFF
Figure 3-4. System I/O Board Switches and Jumpers
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Table 3-10. System I/O Board Switch and Jumper Configurations
Switch/
Jumper
Factory Your
Default Setting
Description
Option
Setting
SCSI Channel A
4J1
SCSI channel A
select
Narrow SCSI for channel
A
A-B
B-C
B-C
(down)
Wide SCSI for channel A
FLASH Code
9A2
FLASH
reprogramming
protection
BIOS write protected; no
update
BIOS not write protected;
update
A-B
B-C
B-C
(down)
Reserved
P16
All three jumpers
must be to the left.
Required on factory
default.
A-B
B-C
B-C
(left)
B-C
(left)
Reserved
P18
All nine jumpers
must be in.
Required on factory
default.
IN
IN
IN
Reserved
10K9
Required on factory
default.
B-C
OFF
OFF
OFF
OFF
B-C
(down)
B-C
(down)
Reserved
13A1 SW1
Required on factory
default.
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
Reserved
13A1 SW2
Required on factory
default.
Reserved
13A1 SW3
Required on factory
default.
Reserved
13A1 SW4
Required on factory
default.
CMOS Clear
13A SW1
Real-time clock
CMOS protection
RTC CMOS clear
RTC CMOS not cleared
ON
OFF
Password Clear
13A SW2
Password
protection
Password clear
Password protected
ON
OFF
Reserved
13A SW3
Required on factory
default.
OFF
OFF
ON
OFF
OFF
ON
Reserved
13A SW4
Required on factory
default.
Model Type
Used with switches Required on factory
8A2 SW1
8A2 SW2, 8A2
default.
SW3 and 8A2 SW4
to set server model
Model Type
Used with switches Required on factory
ON
ON
ON
8A2 SW2
8A2 SW1, 8A2
default.
SW3 and 8A2 SW4
to set server model
Model Type
8A2 SW3
Used with switches Required on factory
OFF
OFF
OFF
OFF
OFF
OFF
8A2 SW1, 8A2
default.
SW2 and 8A2 SW4
to set server model
Model Type
Used with switches Required on factory
8A2 SW4
8A2 SW1, 8A2
default.
SW2 and 8A2 SW3
to set server model
Configuring Your System 3-23
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Setting Switches and Jumpers
!
CAUTION
Before doing the procedures in this section, make sure that
your system is powered off. Unplug the AC power cords
from the back of the chassis. Failure to disconnect power
before moving the jumpers can result in personal injury and
equipment damage.
Note: Observe static precautions. Use an antistatic
wrist strap.
Change the setting of any of the configuration switches or jumpers on any of the
system boards as follows.
1.
Power off the system and remove the covers as described in Chapter 5,
“Problem Solving.”
2.
Check to ensure the system power cords are removed from the back of the
system.
3.
4.
Locate the switch or jumper you are changing (see Figure 3-4).
To change a switch setting, use a pen or your finger to move the switch to
the desired setting. To change a jumper setting, use a pair of needle-nose
pliers or your fingers to remove the jumper from its current location.
Position the jumper over the two pins for the desired setting and press it onto
the pins. Be careful not to bend the pins. See Table 3-10 for board switch or
jumper settings.
5.
6.
7.
Record changes to the board settings in Table 3-10.
Install the system covers and power up the system.
Run the Setup Utility to verify your reconfiguration of the board.
3-24 Configuring Your System
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BIOS
The following contains procedures for updating your BIOS and changing the
language used by the BIOS Setup Utility.
Updating the BIOS
You should use this procedure when you receive a BIOS FLASH diskette from
your service representative. Update the system BIOS as follows.
Note: This procedure clears the event log contents. If
you want to save the event log contents, run the Event Log
Reader Utility.
1. Insert a bootable DOS diskette into Drive A and power up the system.
2. Remove the MS-DOS diskette and insert the BIOS FLASH diskette into
Drive A.
3. Enter PHLASH and press Enter.
4. After the system reboots, load the default values by pressing F2 to enter
setup. At the Exit Menu, select GET DEFAULT VALUES.
5. Clear the event log by selecting CLEAR EVENT LOG at the Server Menu.
Press space bar to change NO to YES and press Esc. Select SAVE
CHANGES & EXIT and press Enter to continue. The system reboots.
If the procedure fails, perform the following steps and then retry the Update
BIOS procedure.
1. Turn off the system and remove the panels as described in Chapter 4,
“Upgrading Your System.”
2. Ensure the FLASH Code jumper 9A2 is set to pins B-C to enable updates to
the BIOS (see Figure 3-4).
3. Replace the panel and power up the system with the BIOS FLASH diskette
inserted in Drive A.
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Changing the BIOS Setup Language
The BIOS Setup Utility used by your system supports two languages: English
and one other. As shipped from the factory, the BIOS Setup Utility supports
English and French. If you want to use either German, Spanish, or Italian as the
second language, you must use the Multi-Language BIOS FLASH Diskettes to
change the supported languages. The diskettes include the following.
Multi-Language BIOS FLASH Diskette 1 of 2. This diskette contains the
English/French and English/German language files along with the
PhoenixPhlash Utility.
Multi-Language BIOS FLASH Diskette 2 of 2. This diskette contains the
English/Spanish and English/Italian language files along with the Crisis
Recovery Utility.
Language Change Instructions
Follow these steps to change the BIOS Setup language.
1. Using the EXPRESSBUILDER CD-ROM, create the Multi-Language BIOS
FLASH Diskettes.
2. Insert Multi-Language BIOS FLASH diskette 1 of 2 into floppy disk drive A
and power up the system.
3. Insert Multi-Language BIOS FLASH diskette 1 of 2 into floppy disk drive A
and power up the system. The BIOS FLASH Diskette Language Selector
menu displays. The selections are:
1.
2.
3.
4.
English/German
English/French
English/Spanish
English/Italian.
4. Enter the number corresponding with your language choice and press Enter.
If you choose either English/ Spanish or English/Italian, you are asked to
load diskette 2 of 2. If so, insert Multi-Language BIOS FLASH diskette 2 of
2 into floppy disk drive A.
5. An acknowledgment message displays:
You are about to Flash your system in English/xxx
Is this correct
Using the arrow keys, highlight YES and press Enter.
6. The PhoenixPhlash Status message displays. This screen displays the
progress of the PhoenixPhlash Utility. During the loading of the BIOS, the
system sounds a series of short beeps. When the utility is complete, it
displays a complete message along with the following:
PRESS ANY KEY TO RESTART THE SYSTEM
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7. Remove the Multi-Language BIOS FLASH diskette from floppy disk drive
A.
8. Press any key and the system restarts. You can verify the language change
by pressing the F2 key to enter the BIOS Setup Utility.
BIOS Recovery Instructions
If the BIOS language update procedure fails, leaving your BIOS in an unusable
and unrecoverable state, perform the following steps and then retry the BIOS
language update.
Because of the small amount of code available in the non-erasable boot block
area, video is not available to direct the recovery procedure. The procedure can
be monitored by listening to the speaker and looking at the diskette drive LED.
When the system gives a continuous series of short beeps and the diskette drive
LED is lit, the system is copying the recovery code into the FLASH. As soon as
the system gives a long beep, the recovery is complete (takes approximately 75
seconds).
1. If the BIOS language update procedure fails while using Multi-Language
BIOS FLASH diskette 1 of 2, insert Multi-Language BIOS FLASH diskette
2 of 2 into floppy disk drive A. Otherwise, keep diskette 2 of 2 in floppy
disk drive A.
2. Power off the system and turn the power back on.
3. When the system beeps and the diskette drive LED is lit, the system is
copying the recovery code into the FLASH. As soon as the system emits a
long beep, the recovery is complete.
4. Power off the system.
5. Remove the Multi-Language BIOS FLASH diskette 2 of 2 from floppy disk
drive A. Proceed to the previous procedure to change the BIOS Setup
language.
Resetting the CMOS NVRAM
Reset the CMOS NVRAM as follows.
1. Power off the system and remove the panels as described in chapter 5 of this
guide.
2. Move the CMOS Clear switch 13A SW1 to ON (see Figure 3-4).
3. Turn the system on and wait for the POST to complete. This automatically
reprograms the CMOS NVRAM to the default settings.
4. Power off the system.
5. Move the CMOS Clear switch back to OFF.
6. Replace the panels and power on the system.
7. Run the Setup Utility to configure your system.
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Clearing and Changing the Password
Clear and change the password as follows.
1. Power off the system and remove the panels as described in the Upgrades
and Options chapter.
2. Move the Password Clear switch 13A SW2 to ON (see Figure 3-4).
3. Power on the system and wait for POST to complete. This automatically
clears the old password.
4. Power off the system.
5. Move the Password Clear switch back to OFF.
6. Replace the panels and power on the system.
7. To specify a new password run the Setup Utility.
3-28 Configuring Your System
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4
Upgrading Your System
Precautions
Preparing Your System for Upgrade
Modifying the System I/O Board
DIMMs
Processors
Option Boards
Power Supply
Removable Media Devices
Hard Disk Drives
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This section contains step-by-step instructions for removal and installation of all the
major system components. When you disassemble the server, note the orientation and
placement of any cables or shielding that you remove.
!
WARNING
The DC push button on/off switch on the front panel does not turn off
system AC power. Also, +5vdc is present on the system board
whenever the AC power cord is connected between the system and
an AC outlet. Before performing any procedures, first power off the
DC push button switch located on the front panel. Make sure your
system is powered off and the AC power cord is unplugged from the
system. Failure to disconnect power before opening your system can
result in personal injury and equipment damage.
!
CAUTION
The server management logic on the system board monitors system
voltage changes. When powering down your system, you may
experience a 1- to 5-second delay from the time you press the push
button power on/off switch and your system powering down. This is
normal system operation and is required by the server management
logic.
!
CAUTION
Operating your system with the access cover removed can damage
system components. For proper cooling and airflow, always replace
the access cover before powering on.
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Precautions
The following warnings and cautions apply throughout this chapter. Only a technically
qualified person should integrate and configure the system.
The only procedure that can safely be done with the system power on is installing (or
hot-swapping) an SCA drive/carrier assembly in one of the SCSI hot-swap drive cages
or hot-swapping a failed power supply. For any other procedures inside the system, turn
off system power and disconnect the AC power cord s.
!
WARNING
Before doing the procedures in this chapter, make sure that your
system is powered off and unplug all AC power cords. Failure to
disconnect power before opening your system can result in personal
injury and equipment damage.
System power on/off. The DC push-button on/off switch (a convex
button) on the front panel DOES NOT turn off the system AC power.
To remove power from system, you must unplug the AC power cords
(from wall outlets or power supply).
Hazardous conditions, power supply. Hazardous voltage, current,
and energy levels are present inside the power supply. There are no
user serviceable parts inside it; servicing should be done by
technically qualified personnel.
Hazardous conditions, devices & cables. Hazardous electrical
conditions may be present on power, telephone, and communication
cables. Turn off the system and disconnect the power cords,
telecommunications systems, networks, and modems attached to
the system before opening it. Otherwise, personal injury or
equipment damage can result.
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!
CAUTION
Electrostatic discharge (ESD) and ESD protection. ESD can
damage disk drives, boards, and other parts. This system can
withstand normal levels of environmental ESD while you are hot-
swapping SCSI hard drives or hot-swapping a failed fan module or
power supply. However, we recommend that you do 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
system 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
system, place it 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.
Chassis covers, proper cooling and airflow. For proper cooling
and airflow, always install the chassis side and top covers before
turning on the system. Operating it without these covers in place can
damage system parts.
Contact your sales representative or dealer for a list of approved optional peripheral
devices.
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Preparing Your System for Upgrade
Have the following tools available:
Phillips screwdriver (#1 bit and #2 bit)
flat-head screwdriver
small needle nose pliers
pen or pencil
utility knife
ESD workstation or antistatic wrist strap (recommended)
IC removal tool.
Equipment Log
Use the equipment log form located at the end of this guide to record the model and
serial number of your system, all installed options, and any other pertinent information
specific to your system. You need this information when configuring your system.
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Removing the Front Doors
You must remove the front doors to remove the side panels on your system. To remove
the front doors.
1. Open the front doors and power off the system. Ensure the power cords are
unplugged from the AC wall outlet.
2. Lift one of the front doors and pull it towards you (see Figure 4-1). The mounting
pins of the front door are disengaged from their mounting holes on the front of the
system.
3. Remove the other front door in the same manner.
Figure 4-1. System Front Doors
Installing the Front Doors
Install the front doors as follows.
1. Orient one of the front doors so the mounting pins of the front door are aligned with
their mounting holes on the front of the system. Slide the lower mounting pin into
its mounting hole and then slide in the upper pin.
2. Install the other front door in the same manner.
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Removing the Top Cover and Side Panels
To install options in your system, you should do the following.
To modify the system I/O board, add an option board, or add a removable media
device, remove the top cover
To add memory or a processor, remove the left side panel
To install a hard disk cage, remove the top cover and right side panel.
!
CAUTION
For proper cooling and airflow, do not operate the system with the
top cover or side panels removed. Always replace them before
powering on the system.
Do not damage or bend the EMI fingers that are located along the
edges of the top cover and side panels, as you remove and install
them, or your system may not meet EMI requirements.
!
WARNING
If you are removing the top cover or side panels after the system is
set up, you must first power off the system and all external devices.
Unplug the system power cords.
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Remove the top cover or a side panel as follows.
1. Power off the system and ensure the power cords are unplugged from their AC wall
outlet.
2. Observe the safety and ESD precautions listed at the beginning of this chapter.
3. The top cover and side panels are secured from the front edge with two thumb lock
screws. Loosen the thumb screws (see Figure 4-2).
Top Cover Screws
s
ws
Right Panel Screws
Left Panel Screws
ws
Figure 4-2. Mounting Screws for Top Cover and Side Panels
4. Slide the top cover or side panel toward the front of the chassis about an inch until it
stops (see Figure 4-3).
5. Pull the top cover or side panel out and away from the chassis.
6. Set the cover or panel aside for reattaching later.
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Figure 4-3. Top Cover and Side Panels Removal
Installing the Top Cover and Side Panels
Install the top cover and side panels as follows.
1. Before replacing the top cover or side panel, make sure no tools or loose parts have
been left inside the system chassis.
2. Make sure all option boards are firmly seated in their respective slots and that all
interior cables are properly connected.
3. The top cover and side panels have tabs that align with the slots in the chassis (see
Figure 4-3). Align the tabs with the slots in the chassis and carefully push inward.
4. Slide the cover or panel toward the rear of the chassis so the tabs firmly engage in
the slots.
5. Attach the cover or panel to the chassis by firmly tightening the two thumb screws.
Note: If your system is already set up, plug the system back in,
reconnect the peripherals, and power on the peripherals and system.
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Modifying the System I/O Board
The following provides procedures for upgrading and configuring the system I/O board
in your system. Topics covered include:
installing video memory
replacing the non-volatile memory
replacing the real-time clock battery.
Note: Electrostatic discharge (ESD) can damage add-in boards
and other components; place them on an antistatic surface. Wear an
antistatic wrist strap attached to chassis ground.
Installing Video Memory
The base system includes two 512K video memory modules and two sockets on the
system I/O board. If you add two additional 512K video memory modules into the
sockets shown in Figure 4-4, the base video memory size is increased from 1 MB to 2
MB.
Figure 4-4. Video Memory Location
Install video memory as follows.
Note: Observe static precautions. Use an antistatic wrist strap.
1. If the system is on, power off the system and remove the top cover as described
earlier.
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2. Align the beveled edge of the video memory module with the notched corner of the
video memory socket. See Figure 4-4 for the video memory socket location.
3. Press the video memory module down firmly until it is fully seated in its socket.
4. Replace the top cover and power on the system.
Replacing the Non-Volatile Memory
You may need to replace the non-volatile memory because of its internal integral
lithium battery life span. Contact your sales representative or dealer for a list of
approved devices. The battery is located on your system I/O board (see Figure 4-5).
Notice the dot on the chip. Use the dot to correctly position the chip on the system
board.
!
CAUTION
Danger of explosion if the battery is incorrectly replaced. Replace
only with same or equivalent type recommended by manufacturer.
Dispose of lithium batteries as required by local ordinance or as
normal waste if no local ordinance exists. Do not expose the
component to excessive heat or fire. Keep all batteries away from
children.
Replace the non-volatile memory as follows.
Note: Observe static precautions. Use an antistatic wrist strap.
1. Power off the system and remove the top cover as described earlier.
2. If the non-volatile memory is secured by a tie-wrap, remove the tie-wrap. Using a
IC removal tool or a small pointed tool, gently pry up each end of the non-volatile
memory and pull it straight up out of its socket (see Figure 4-5).
3. Orient the new chip over its socket so the dot is properly oriented. Carefully insert
the chip into its socket connectors.
4. Press down on the chip until it is firmly seated in its socket.
5. Replace the side panel and turn on the system.
6. Run the BIOS Setup to restore proper configuration settings.
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Figure 4-5. Non-Volatile Memory Location
Replacing the Real-time Clock Battery
You may need to replace the real-time clock (RTC) battery because of its battery life
span. The battery powers the clock in the absence of power. When the battery starts to
weaken, it loses voltage, and the system settings stored in CMOS RAM (for example,
the date and time) may be wrong.
The battery (Vendor Part No. CR2450) is available through many vendors. It is located
on your system I/O board (see Figure 4-6). Notice the plus (+) sign on the battery. The
sign assists in correctly positioning the battery on the system board. Contact your sales
representative or dealer for a list of approved devices.
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+
Figure 4-6. Location of the Real-Time Clock Battery
!
CAUTION
Danger of explosion if the battery is incorrectly replaced. Replace
only with same or equivalent type recommended by manufacturer.
Dispose of lithium batteries as required by local ordinance or as
normal waste if no local ordinance exists. Do not expose the
component to excessive heat or fire. Keep all batteries away from
children.
Replace the battery as follows.
Note:
Observe static precautions. Use an antistatic wrist strap.
1.
2.
Power off the system and remove the top cover as described earlier.
If the battery has a protective plastic cover, remove the cover by lifting it away from
the battery. Use your finger nail or a small pointed tool to gently push up the bottom
edge of the battery. See Figure 4-6 for socket location.
3.
4.
Orient the new battery over its socket with the plus (+) sign on the battery facing up.
Carefully insert the top of the battery into the socket connectors and gently push the
battery into the socket until it is firmly seated in the socket.
5.
6.
Replace the top cover and turn on the system.
Run the BIOS Setup to restore configuration settings to the real-time-clock.
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DIMMs
The memory board contains sixteen DIMM sockets arranged in four banks (see Figure
1-8). Each 168-pin socket can hold a single 72-bit DIMM module with 32MB, 64MB,
128MB, or 256MB of memory. When all sixteen sockets are populated, the memory
board supports a maximum of 4GB of memory with 256MB DIMMs. DIMMs must be
identical within a bank.
The first bank of DIMMs should be installed in sockets P02, P03, P04 and P05 (see
Figure 4-7). When you install additional DIMMs, you must start with bank 2 and
continue to bank 4. When you remove DIMMs, you must start with the highest
populated bank of DIMMs.
The following provides procedures for configuring the memory in your system.
!
WARNING
If the system was running, any processor and heat sink installed is
hot. To avoid the possibility of a burn while configuring memory, let
the components cool for 10 minutes before continuing with the
procedures described here.
A
C
B
Bank
P17
P15
P16
P14
D
P13
P11
P12
P10
C
B
A
P09
P07
P08
P06
P04
P02
P05
P03
Figure 4-7. Inserting Memory DIMMs
Installing DIMMs
When properly installed, the DIMM module is oriented at an angle of 90 degrees
relative to the memory board.
1.
2.
Power off the system and remove the left side panel as described earlier.
Remove the metal panel supporting the memory board. The support panel is secured
to the chassis by two black fasteners. Release each fastener by slowly pulling it
towards you (listen for two clicks). Grasp the left side of the support panel and
swing it away from the chassis to remove it. Set the support panel aside for later
installation.
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Note: Observe static precautions. Use an antistatic wrist strap.
Hold DIMMs only by their edges.
3. Open the ejectors on both sides of the memory board (see Figure 4-8). Holding the
memory board by its edges, carefully pull it out until the edge connectors are free.
Place the memory board on an antistatic surface.
Figure 4-8. Memory Board Ejectors
4. Holding the DIMM module only by the edges, remove it from its antistatic package.
5. DIMMs are keyed so they can only be inserted one way. Position the DIMM over
the socket on the board (see Figure 4-7, A and B). The notches in the bottom edge
of the DIMM mate with the raised bumps in the DIMM socket.
6. Press down evenly on the DIMM until it seats correctly. The white levers on the
sockets are not "tools" to aid in the insertion, only to keep the DIMMs in place and
to aid in extraction. The levers should click in place once the DIMM is fully
inserted.
7. Repeat the above steps to install any remaining DIMMs.
8. Hold the memory board by its edges and start to insert it into the slot guides. On the
CPU baseboard, locate the memory board connector. Do not press in on the board
yet! Ease board into the slot guides until it is just touching the connector on the
CPU baseboard.
9. Be sure the ejector levers are extended so they can engage the chassis frame. Press
the board carefully but firmly into the CPU baseboard connector to seat the board.
Close the ejectors on both sides of the memory board. Be sure the ejector is firmly
hooked in the chassis frame before closing the ejector.
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10.Hook the right side of the support panel into the chassis frame and swing the
support panel into position so that the rear edge of the memory boards fits snug
against the panel. The support panel is secured to the chassis by two black fasteners.
Push in on the support panel fasteners until they click in the locked position.
11.Replace the left side panel and turn on the system.
12.Run the BIOS Setup to confirm the DIMMs are installed correctly.
Removing DIMMs
Remove DIMMs from their sockets as follows.
1. Power off the system and remove the left side panel as described earlier in this
chapter.
2. Remove the metal panel supporting the memory board. The support panel is secured
to the chassis by a pin. Release the support panel by pulling the two black fasteners
towards you (listen for two clicks). Grasp the left side of the support panel and
swing it away from the chassis to remove it. Set the support panel aside for later
installation.
3. Open the ejectors on both sides of the memory board (see Figure 4-8). Holding the
memory board by its edges, carefully pull it out until the edge connectors are free.
Place the memory board on an antistatic surface.
Note: Use extreme care when removing a DIMM. Hold DIMMs
only by their edges. Place them on an antistatic surface; do not slide
them across any surface. Applying too much pressure can break the
retaining clips or damage the socket slot. Apply only enough
pressure on the retaining clips to release the DIMM.
4. Remove the DIMM modules one at a time starting from the highest numbered
sockets.
5. To remove each DIMM, gently spread the retaining clips (see Figure 4-7, C) just
enough so that you can pull the top edge of the DIMM away from the clips.
6. Carefully lift the DIMM away from the socket and store it in an antistatic package.
7. Repeat the above steps to remove the remaining DIMMs.
8. Hold the memory board by its edges and start to insert it into the slot guides. On the
CPU baseboard, locate the memory board connector. Do not press in on the board
yet! Ease board into the slot guides until it is just touching the connector on the
CPU baseboard.
9. Be sure the ejector levers are extended so they can engage the chassis frame. Press
the board carefully but firmly into the CPU baseboard connector to seat the board.
Close the ejectors on both sides of the memory board. Be sure the ejector is firmly
hooked in the chassis frame before closing the ejector.
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10.Hook the right side of the support panel into the chassis frame and swing the
support panel into position so that the rear edge of the memory boards fits snug
against the panel. The support panel is secured to the chassis by two black fasteners.
Push in on the support panel fasteners until each clicks in the locked position.
11.Replace the left side panel and turn on the system.
Processors
The following paragraphs provide procedures for installing and removing the Pentium
II Xeon Processor Single Edge Contact (S.E.C.) cartridge. Use these procedures when
upgrading or replacing your processor(s). Each processor is packaged in a S.E.C.
cartridge. The cartridge includes the processor core with an integrated 16 KB primary
(L1) cache, secondary (L2) cache, heat sink, and a back cover. The processors are
supported by one or more voltage regulator modules (VRM) on the CPU baseboard,
depending on the number of installed processors.
Each S.E.C. cartridge installs in a Slot 2 connector on the CPU baseboard. Each slot
must contain either a processor cartridge or a termination board (if there are less than
four processors installed). The VRM modules are installed in a bank of VRM sockets
adjacent to the processors.
Note: Your system may have up to four processors. All installed
processors must be matched for speed. If replacing a processor, the
replacement processor must match the speed of all installed
processors. If upgrading a processor, all processors must be
upgraded to match.
!
CAUTION
Electrostatic discharge (ESD) can damage components; place them
on an antistatic surface. Update the CPU baseboard using an
antistatic wrist strap attached to chassis ground.
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!
WARNING
If the system was running, any processor and heat sink installed is
hot. To avoid the possibility of a burn, let the components cool for 10
minutes before continuing with these procedures.
Installing a Processor Cartridge
Use the following procedure to install a processor cartridge.
Note: All systems ship with a processor cartridge installed in the
bottom slot and termination boards in the remaining slots. Some
systems may have more processors, depending on configuration. All
processors must be matched in speed.
1.
2.
Power off the system and remove the left side panel as described earlier.
Remove the clear plastic air duct covering the processors. The air duct is secured to
the chassis by three pins (see Figure 4-9 A, B and C). Release the air duct pins by
pulling them towards you. Set the air duct aside for later installation.
VRM 6
VRM 5
VRM 4
PROC4
A
PROC3
PROC2
VRM 3
VRM 2
VRM 1
PROC1
C
B
Figure 4-9. Air Duct Attachment
Note: Observe static precautions. Use an antistatic wrist strap.
Hold processors only by their edges.
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3. Remove the termination card from the slot above the installed processor
cartridge(s).
Remove the retention arm locking the termination card in place by pressing in
on the right side of the bar to release the arm.
Pull the retention arm towards you to release the arm from the module (see
Figure 4-10, 1 and 2).
Retention
Arm
2
1
Figure 4-10. Removing the Retention Arm
Open the two card ejectors (one on each side) and pull the card out of the
system (see Figure 4-11).
Figure 4-11. Removing the Termination Card
4. Remove a new processor cartridge from its antistatic package and place it on a
grounded static-free surface or conductive foam pad.
If tabs are not attached to the cartridge, remove them from the termination card and
install on the cartridge.
Slightly spread open each tab so that the two pegs on the tab fit into two holes
at the corner of the cartridge. Use care in opening the tab to prevent breakage.
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5. Open the tabs on the cartridge and align the cartridge with the slot so that the heat
sink faces down.
If installing a termination card, align the card so that the embossed logo on the card
faces up.
6. Insert the cartridge into the guide rails of the retention module (see
Figure 4-12) and carefully push into the module until resistance is felt. Check that it
is firmly seated (tabs should be closed).
Figure 4-12. Installing the Processor
7. Reattach the retention arm as follows.
Align the end of the retention arm with a single alignment dot to the left and the
end with the two dots to the right. The dots should match corresponding dots on
the cartridge or terminator board.
Push the left end of the retention arm into its slot on the on the left side of the
retention module.
Turn the retention arm to the right and snap it into place on the right side of the
retention module.
8. Install the required VRM modules (single processor systems come with two VRM
modules installed in VRM sockets 1 and 2). As you add processors, you need to
install additional VRM modules.
For a second processor, install a VRM module in socket 3 (for a total of three
VRM modules for two processors).
For a third processor, install a VRM module in sockets 4 and 5 (for a total of
five VRM modules for three processors).
For a fourth processor, install a VRM module in socket 6 (for a total of six
VRM modules for four processors).
9. Install the clear plastic air duct covering the processors. The air duct is secured to
the chassis by three pins (see Figure 4-9).
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10.Replace the left side panel and turn on the system.
12.After you have installed a new processor, run the BIOS Setup Utility to configure
its speed.
Removing a Processor Cartridge or Termination Board
Use the following procedure to remove a processor cartridge or termination board.
1. Power off the system and remove the left side panel as described earlier.
2. Remove the clear plastic air duct covering the processors. The air duct is secured to
the chassis by three pins (see Figure 4-9). Release the air duct pins by pulling them
towards you. Set the air duct aside for later installation.
Note: Observe static precautions. Use an antistatic wrist strap.
Hold processors only by their edges.
3. On the processor or termination card being removed, push in the right end of the
retention arm to unlock the arm.
4. Pull the retention arm toward you and remove the arm (see Figure 4-10).
5. Pull the two tabs on the cartridge or termination board straight out to disengage the
cartridge or board from the CPU baseboard (see Figure 4-11).
6. Pull the cartridge or termination board straight out of the retention module. Place on
a grounded, static-free surface or conductive foam pad.
7. Put the old cartridge in conductive foam and store in an antistatic package.
8. Install a new processor cartridge or termination card (see “Installing a Processor
Cartridge or Termination Card”). If not installing a processor, install a termination
card the same way as a cartridge and remove the appropriate VRM module(s).
9. Install the clear plastic air duct covering the processors. The air duct is secured to
the chassis by three pins (see Figure 4-9).
10.Replace the left side panel and turn on the system.
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Option Boards
The following paragraphs describe how to install and remove ISA and PCI option
boards. The system I/O board has two dedicated ISA bus master expansion slots and
nine dedicated PCI bus expansion slots (see Figure 4-13).
The high-performance PCI local bus allows the adoption of newer networking
technology, such as 100 Mega-bit/second Ethernet NICs, with a minimum of effort and
without concern for I/O bottlenecks. The PCI local bus offers up to 133 Mega-
byte/second bandwidth.
P2 PCI #11
P3 PCI #12
P11 ISA #1
P12 ISA #2
P4 PCI #21
P5 PCI #22
P6 PCI #23
P7 PCI #31
P8 PCI #32
P9 PCI #33
P10 PCI #34
Figure 4-13. PCI and ISA Slot Locations
Installation Considerations
Newer adapters, designed for Plug-and-Play systems, are automatically configured by
the system without any user intervention. Older ISA adapters must be manually
configured as detailed below. Once the manual configuration is complete, the Plug-and-
Play adapters are configured around the manually configured adapters without causing
any resource conflicts.
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ISA adapters can be Plug-and-Play. ISA adapters that are not Plug-and-Play must be
manually configured following the instructions supplied with the board. The
configuration is defined to the system by creating the ISA configuration file when
running the RCU. If you are adding a non-Plug-and-Play ISA option board, run the
RCU before installing the board. For details on running the SCU, see Chapter 3,
“Configuring Your System”.
On system power-up and reboot, BIOS initiates a scan sequence looking for Plug-and-
Play option boards installed since the last power up or reboot. The Plug-and-Play scan
sequence is as follows.
First - BIOS scans for any Plug-and-Play ISA option board installed in slots P11
- P12, starting with slot P11.
Second - BIOS scans for any Plug-and-Play PCI option board installed in slots
P2 - P10, starting with slot P2.
Always install option boards in the first available slot in the scan sequence. For
example, if there are PCI option boards installed in slots P2 and P3 of your system and
slots P4 - P10 are vacant, install your Plug-and-Play option board into slot P4.
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Controller/Adapter Hardware Configurations
Table 4-1 lists the option boards you may add to your system and provides information
on slot location.
Table 4-1. Option Board Hardware Configurations
Memory
Address
Option Board
Irq2
I/O Address
SMC 9432TX (1st)3
SMC 9432TX (2nd)3
3COM 3c905B (1st) 3
3COM 3c905B (2nd) 3
Adaptec 3940UW1, 4
Mylex DAC9601, 4
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Set by BIOS
Onboard 7895 SCSI
1. For disk controllers plugged into slots and the onboard disk controllers, the sequence for BIOS scanning to
determine the primary (Boot) disk controller is:
ISA slots P11 and P12
PCI slot P2 and P3 (first PCI bus)
Onboard 7895 SCSI (first PCI bus)
PCI slot P4 through P6 (second PCI bus)
PCI slot P7 through P10 (third PCI bus).
It’s recommended that the BIOS be disabled on all SCSI controllers except for the controller with the boot disk drive
attached (see SCSISelect Utilities in Chapter 3, “ Configuring Your System”. This saves memory address resources
and provides control over the boot device independent of board slot locations.
2. Additional IRQs can be made available as follows:
Disabling Comm Port 1 = IRQ4 is available
Disabling Comm Port 2 = IRQ3 is available
Disabling Parallel Port = IRQ7 is available.
3. A maximum of five LAN channels consisting of any combination of single or dual channel. Install ISA LAN card in
the first available ISA slot from the top. Install PCI LAN card in the first available PCI slot from the top.
4. A maximum of four SCSI controllers may be installed. Install the first controller card in PCI slot P2 and the second
controller in PCI slot P3.
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Installing an Option Board
Install an option board as follows.
1. Power off the system and remove the top cover as described earlier in this chapter.
Note: Observe static precautions. Use an antistatic wrist strap.
2. Remove the option board from its protective wrapper, holding the board only by the
edges. Do not touch the board components or the gold connectors.
3. Record the option board serial number in the equipment log.
4. Set any board jumpers or switches as described in the documentation that comes
with the option board.
Note: Refer to the documentation accompanying the option
board for information on whether the board is to be installed in a PCI
or ISA expansion slot.
5. If the PCI board has a handle attached to one end, remove the handle
(see Figure 4-14).
Figure 4-14. Removing the Board Handle
6. See Table 4-1 to determine the recommended option board slot assignment and
configuration parameters. See Figure 4-13 to determine system board slot locations.
7. Determine the expansion slot cover that corresponds to the desired expansion slot.
Release the cover lock by pressing on the cover tab and remove the expansion slot
cover (see Figure 4-15).
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Figure 4-15. Removing the Expansion Slot Cover
8. Holding the board by its top edge or upper corners, firmly press the board into an
expansion slot on the system I/O board. The tapered foot of the option board
retaining bracket must fit into the mating slot in the expansion slot frame.
9. The retaining bracket fits into the space that was occupied by the expansion slot
cover. Secure the expansion board by pushing down on the cover tab (see Figure 4-
16).
10.If you have installed a SCSI host adapter board, go to Appendix A, “Cabling,” for
procedures on cabling these boards into the system. For all other boards, continue
with step 11.
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Figure 4-16. Installing an Option Board
11.Connect any external cables (if they are needed) to the installed option board.
12.Replace the top cover and power on the system.
Removing an Option Board
Note: Expansion slot covers must be installed on all vacant
slots to maintain the electromagnetic emissions characteristics of the
system and to assure proper cooling of the system components.
1. Power off the system and remove the top cover as described earlier.
2. Unplug any cables attached to the option board you are removing.
3. Determine the expansion slot retaining bracket that corresponds to desired
expansion slot and release the cover lock by pressing on the cover tab (see Figure 4-
15).
4. Hold the board at each end, and carefully rock it back and forth until the edge
connectors pull free. Make sure that you do not scrape the board against other
components.
5. Remove the board from the expansion slot and place it in an antistatic wrapper.
6. If you are replacing a board, go to "Installing an Option Board," otherwise continue.
7. Install an expansion slot cover over the vacant slot. Secure the cover by pushing
down on the cover tab (see Figure 4-16).
8. Replace the top cover and power on the system.
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9. If you removed an non-Plug-and-Play ISA option board, run the RCU to configure
the system.
Power Supply
The following paragraphs provide procedures for installing an additional power supply,
removing a power supply, or swapping out a faulty power supply.
Installing a Power Supply
Use this procedure to add an optional power supply to your system.
1. Power off the system.
2. Each empty power supply expansion bay has a blank cover. From the bay where
you want to install a power supply, remove the two screws securing the blank cover
(see Figure 4-17, B).
3. Slide the new power supply into the chassis and tighten the thumb screws (see
Figure 4-17, A) that secures the power supply.
4. Connect the power cord to the AC wall outlet and to the input receptacle on the rear
of the new power supply.
5. Power on the system.
B
A
Figure 4-17. Power Supply
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Removing a Power Supply
If the LED indicators on a power supply are lit, it’s recommended that power to the
system be turned off before removing the power supply. To remove a power supply,
perform the following steps.
1. Power off the system.
2. Unplug the power cord from the AC wall outlet and from the input receptacle on the
rear of the power supply you are removing.
3. Loosen the thumb lock screws (see Figure 4-17, A) that secure the power supply.
4. Hold the handle on the power supply and pull the power supply out of the system.
5. If you are replacing a power supply, go to “Installing a Power Supply,” otherwise
power on the system.
Hot-Swapping a Power Supply
If you are swapping out a faulty power supply, you can pinpoint which one to remove
by checking the status LED indicators on each supply. If either or both of the LED
indicators are off, the power supply can be hot-swapped.
If the LED indicators on a power supply are lit, it’s recommended that power to the
system be turned off before removing the power supply. To remove a power supply,
perform the following steps.
1. Unplug the power cord from the AC wall outlet and from the input receptacle on the
rear of the power supply.
2. Loosen the thumb lock screws (see Figure 4-17, A) that secure the power supply
you want to replace.
3. Hold the handle on the power supply and pull the power supply out of the system.
4. Slide the replacement power supply into the chassis and tighten the thumb screws
(see Figure 4-17, A) that secure the power supply.
5. Connect the power cord to the AC wall outlet and to the input receptacle on the rear
of the new power supply.
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Removable Media Devices
A CD-ROM drive is always mounted in bay D. Any SCSI removable media devices can
be installed in peripheral bays A, B, and C. The SCSI devices should be installed in the
first available bay from the bottom (bay D).
Figure 4-18 illustrates the recommended removable media configuration. The bays are
intended to hold tape, CD-ROM, or other removable media drives. Narrow SCSI drives
in the 5 1/4-inch bays receive control signals from channel B of the SCSI-2 controller
on the system I/O board.
Note: The SCSI termination resistors must be installed in the
last SCSI drive of the daisy chain cabling (bottom media bay D). All
other devices must have terminators removed.
Hard disk drives cannot be installed in a 5 1/4-inch external bay because the drive
generates EMI, is more susceptible to ESD, and does not have sufficient cooling.
A 1.44 MB diskette drive is always mounted in bay E. A second 3 1/2-inch device can
be installed in bay F.
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Removable Media Device Bays
A
B
A
B
C
D
E
F
5 1/4-inch expansion bay
5 1/4-inch expansion bay
5 1/4-inch expansion bay
CD-ROM drive
C
D
1.44 MB diskette
3 1/2-inch expansion bay
Bay A
SCSI QIC Tape.
SCSI DAT Tape.
Device must have the internal SCSI terminators removed.
BAY B
Second SCSI CD-ROM.
SCSI QIC Tape.
SCSI DAT Tape.
Device must have the internal SCSI terminators removed.
Bay C
SCSI QIC Tape.
SCSI DAT Tape.
Device must have the internal SCSI terminators removed.
Bay D
SCSI CD-ROM (always installed).
Device must have the internal SCSI terminators installed.
Bay E
1.44 MB diskette drive (always installed).
Bay F
Second 3 1/2-inch device.
Figure 4-18. Removable Media Device Bays
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Installing a 5 1/4-Inch Device or 3 1/2-Inch Diskette Drive
Install a 5 1/4-inch device or 3 1/2-inch diskette drive as follows.
!
CAUTION
CD-ROM devices contain a laser system and are classified as
CLASS 1 LASER PRODUCTS. In case of any trouble with a CD-
ROM, please contact your nearest service representative. To
prevent direct exposure to the laser beam, do not try to open the
enclosure.
Use of controls or adjustments or performance of procedures other
than those recommended by the manufacturer may result in
hazardous radiation exposure.
Note: If you are replacing a diskette drive in Bay E or installing a
diskette drive in bay F, use the internal diskette drive cables
provided with the system. If you are installing a SCSI device in bays
A, B, or C, you must use the internal SCSI cables. Contact your
sales representative or dealer for a list of approved optional
peripheral devices.
1.
2.
Power off the system. Remove the left front door and the top cover as described
earlier.
Each empty media or diskette drive bay has a blank panel tray. From the bay where
you want to install a drive, remove the two screws securing the blank panel tray to
the chassis (see Figure 4-19).
Note: When installing a full height 5 1/4-inch device, remove
two blank panels.
3.
4.
Grasp the blank panel tray and slide it out of the bay.
Remove the two screws securing each side rail to the blank panel tray (see Figure 4-
20).
5.
Save the blank panel tray and screws to reuse if you remove a drive from a bay later
and do not reinstall one.
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Figure 4-19. Removing Blank Panel Tray
Figure 4-20. Removing Side Rails
6. Remove the device from its protective wrapper and place it on an antistatic surface.
Record the drive model and serial number in the equipment log.
7. Set any device jumpers or switches on the device. Refer to the installation
procedures that come with the device.
Note: SCSI termination resistors for the 5 1/4-inch devices must
be installed in the last SCSI device of the daisy chain cabling
(bottom media bay D). All other 5 1/4-inch devices must have
terminators removed.
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8. Using the four screws supplied with the drive, reinstall the side rails just removed
from the blank panel tray (see Figure 4-21, A). The rails for each side of the device
are identical.
Note: Do not use the screws used to secure the blank panel
tray.
C
Attaching side rails to
removable media drive
A
A
B
A Side rails
B Four drive mounting
screws
B
C Drive
Figure 4-21. Attaching Side Rails to a Device
9. Engage the device side rails into the bay guide rails (see Figure 4-22). Ensure that
the device side rails (see Figure 4-23, A) are inside the bay guide rails exactly as
shown in Figure 4-23, B.
10.Push the drive into the bay until the screw holes of the side rails are directly in front
of the chassis screw holes and secure with the screws previously removed.
Figure 4-22 Installing Device
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A
B
Figure 4-23. Engaging the Device Side Rails to the Bay Guide Rails
11.Connect a power cable to the back of the drive (see Figure 4-24).
Note:
For 5 1/4-inch devices, power cables are provided in the
chassis for removable 5 1/4-inch media drives (including the CD-
ROM that is factory-installed). These power cables are
interchangeable for 5 1/4-inch devices only; you can connect any
one of them to any device you install in the 5 1/4-inch media bays.
The connectors are keyed and can be inserted in only one way.
For 3 1/2-inch diskette drives power cables are provided in the
chassis (including the diskette drive that is factory-installed). The
connectors are keyed and can be inserted in only one way.
12.Connect the data cable (see Figure 4-24) to the device; the connector is keyed and
can be inserted only one way.
Note:
For the 5 1/4-inch devices, be certain that you are using
the 50-pin SCSI data cable. This cable comes from the system I/O
board to the removable media bays and ends at the CD-ROM drive
in bay D. Do not confuse this cable with the 34-pin diskette drive
cable which begins on the system I/O board and ends at the diskette
drive in bay F.
13.Reinstall the top cover and the left front door. Power on the system.
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A System I/O board
B Signal cable
C Power cable
B
C
A
Figure 4-24. Installing Device Cables
Removing a 5 1/4-Inch Device or 3 1/2-Inch Diskette Drive
Remove a 5 1/4-inch device or a 3 1/2-inch diskette drive as follows.
1. Power off the system. Remove the left front door and the top cover as described
earlier in this chapter.
2. Disconnect the signal and power cables from the back of the drive (see Figure 4-
24).
3. Remove the two screws securing the device to the front of the chassis (see Figure 4-
22).
4. Slide the drive out the front of the bay, and place on an antistatic surface.
5. Remove and save the side rails and screws (see Figure 4-21).
6. Place the drive in an antistatic wrapper.
7. Cover an empty bay by installing a blank panel tray in the bay (see
Figure 4-19).
8. Reinstall the top cover and the left front door. Power on the system.
9. Remove the drive serial number from the equipment log.
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Hard Disk Drives
The following paragraphs provide procedures for installing an additional disk drive,
removing a disk drive, or swapping out a faulty disk drive from one of the three hot-
swap drive cages. The 3 1/2-inch SCSI drives must use the industry standard 80-pin
Single Connector Attachment (SCA) connector. Each drive must be installed in a
carrier.
Note: To order a carrier, contact your sales representative or
dealer.
If installing new drives, follow an installation scheme starting with the bottom
left drive. Fill the cages left to right.
If an individual SCSI drive fault LED (yellow light) is on steadily, this indicates
that the drive below it has been flagged as faulty. Follow the procedure described
in this section to remove the faulty drive and swap in a good one.
Note: Swap SCSI drives without turning off power. This is
one of the few system procedures that is safe to do with the system
power left on. This is true only if a Redundant Array of Independent
Disks (RAID) controller module is installed and only for the
drive/carrier assemblies in the hot-swap cages, not for drives in any
other bays.
Note: ESD can damage disk drives, boards, and other parts.
This system can withstand normal levels of environmental ESD while
you are hot-swapping SCSI hard drives. However, we recommend
that you do all procedures in this chapter only at an ESD workstation
or provide some ESD protection by wearing an antistatic wrist strap
attached to chassis ground (any unpainted metal surface) on your
system when handling parts.
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Installing a Hard Drive
Use this procedure to add an optional hard drive to your system.
1. Power off the system. If locked, unlock and open the right front door.
2. Determine which hard drive cage will contain the new hard drive. Open the EMI
metal panel in front of the hard drive cage by turning its two thumb lock screws
counter clockwise (see Figure 4-25).
3. The hard drive cage has four slots for mounting the hard drives. Confirm which slot
of the hard drive cage the hard drive will be mounted. The SCSI ID (0 through 4) is
determined by the slot number from left to right.
Three hard drive cages
(EMI panel and exterior door
shown open)
Figure 4-25. Hard Disk Drive Cages
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Note: Observe static precautions. Use an antistatic wrist strap.
4. The drive carrier is shipped with the add-on drive. Remove the new drive from its
protective wrapper and place it on an antistatic surface. Record the drive model and
serial numbers in the equipment log.
5. Position the drive so its SCA connector is near the top surface of the drive. Place the
drive on the antistatic surface again. Slide the drive into the carrier with its SCA
connector facing toward the front of the carrier (open end).
6. While holding the drive in the carrier with your left hand, align the drive’s screw
holes with the carrier’s screw holes and insert the four screws of appropriate size
and length (see Figure 4-26).
7. Pressing the lock button on the carrier handle, open the handle. Align the
drive/carrier assembly so it engages the guide rails in the hard drive cage (see
Figure 4-27).
Installing 3 1/2inch hard disk drive
in carrier for hot-swap bays
A Carrier
A
B Four screws
C Hard disk drive
D SCA connector
C
D
Figure 4-26. Installing Hard Disk in Carrier
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Figure 4-27. Installing Carrier in the System
8. Gently push the assembly into the bay until the drive docks with the backplane
connector. Be sure the hook on the bottom of the handle engages the chassis frame
and slowly lift the handle. You should hear a click when the handle locks in place.
9. Close the EMI metal panel, and secure with the two thumb screws.
10.Power on the system and close the front door.
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Removing a Hard Drive
Use this procedure to remove a hard drive from your system.
1. Power off the system. If locked, unlock and open the right front door.
2. Determine which hard drive cage contains the hard drive you want to remove. Open
the EMI metal panel in front of the hard drive cage by turning its two thumb lock
screws counter clockwise (see Figure 4-25).
3. The hard drive cage has four hard drive slots. Confirm which slot of the hard drive
cage contains the hard drive to be removed.
4. Grasp the handle of the hard disk’s carrier and press down on its thumb-release
button (see Figure 4-28).
5. Remove the hard disk and place it in an antistatic wrapper. Close the EMI metal
panel, and secure with the two thumb screws.
6. Power on the system and close the front door.
Figure 4-28. Removing the Hard Disk Carrier
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Hot-Swapping a Hard Drive
If you are swapping out a faulty hard drive, you can pinpoint which drive to remove by
checking the status LEDs that occur in sets of three above each of the four drive bays.
See “Status LED Indicator Descriptions” in Chapter 1.
Note: When the SCSI drive fault LED indicates a drive fault
(steady yellow light), you can remove the drive and swap in a
replacement at any time when the drive is not being accessed,
without needing to power down the system. However, drive
manufacturers caution against moving a drive that is still spinning
because of possible damage to the drive.
1. If locked, unlock and open the right front door.
2. Determine which hard drive cage contains the faulty hard drive. Open the EMI
metal panel in front of the hard drive cage by turning its two thumb lock screws
counter clockwise (see Figure 4-25).
3. The hard drive cage has four hard drive slots. Check all the drive LEDs to confirm
which drive to remove. See “Status LED Indicator Descriptions” in Chapter 1.
Note: Depending on the drive fault, the drive may be still
spinning when you remove it. Follow the next step exactly when
removing drives.
4. Grasp the handle of the hard disk’s carrier and press down on its thumb-release
button (see Figure 4-28). Pull the faulty drive out of the bay far enough to disengage
the drive connector from the backplane. Wait 30 seconds until the drive spins down,
then remove the drive from the drive bay.
Note: Observe static precautions. Use an antistatic wrist strap.
5. Place the removed hard drive on an antistatic surface.
6. Remove the replacement drive from its protective wrapper and place it on an
antistatic surface. If a drive carrier was not shipped with the replacement drive,
remove the carrier from the removed drive.
7. Place the removed hard drive in an antistatic wrapper.
8. Position the replacement drive so its SCA connector is near the top surface of the
drive. Place drive on the antistatic surface again. Slide the drive into the carrier with
its SCA connector facing toward the front of the carrier (open end).
9. While holding the drive in the carrier with your left hand, align the drive’s screw
holes with the carrier’s screw holes and insert the four screws of appropriate size
and length (see Figure 4-26).
10.Pressing the lock button on the carrier handle, open the handle. Align the
drive/carrier assembly so it engages the guide rails in the hard drive cage (see
Figure 4-27).
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11.Gently push the assembly into the bay until the drive docks with the backplane
connector. Be sure the hook on the bottom of the handle engages the chassis frame
and slowly lift the handle. You will hear a click when the handle locks in place.
12.Close the EMI metal panel, and secure with the two thumb screws.
13.Close the front door.
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5
Problem Solving
Resetting the System
Troubleshooting Checklists
Additional Troubleshooting Procedures
Specific Problems and Corrective Actions
Error Messages
Status LED
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This chapter helps you identify and solve problems that may occur during
system installation or while using your system. The first section of this chapter
tells you how to reset your system in the event of problems. The next few
sections provide troubleshooting checklists and procedural steps that help you
isolate specific system problems. The last sections include error message and
status LED user information.
!
WARNING
The DC push-button on/off switch on the front panel does
not turn off the system AC power. Before doing the following
procedures, make sure that your system is powered off and
unplug the AC power cords from the back of the chassis.
Failure to disconnect power before opening your system can
result in personal injury and equipment damage.
Resetting the System
There are two ways to reset the system.
Reset button
Pushing the reset button clears the system memory, restarts the POST, and
reloads the operating system.
Power off/on
Turning the power off and then on with the push-button switch on the front
panel has the same effect as pushing the reset button, except that power is
halted to all peripherals.
Troubleshooting Checklists
The following paragraphs provide troubleshooting checklists for problems that
occur at initial system startup, when you run new application software, and after
the system hardware and software were running correctly.
Initial System Startup
Problems that occur at initial system startup are usually caused by incorrect
installation or configuration. Hardware failure is a less frequent cause. If you
have problems during initial system startup, check the following.
Are the system power cords properly connected to the system and
plugged into NEMA 5-15R outlets (100-120 Vac) or NEMA 6-15R
outlets (200-240 Vac)?
Is AC available at the wall outlets?
Is the power on/off push-button switch on the front panel in the ON
position (power on LED should be lit)?
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Are all cables correctly connected and secured?
Are all the PCI/ISA option boards fully seated in their connector slots on
the system board?
Are all jumper settings on the system I/O board correct? For jumper
information, see Chapter 3, “Configuring Your System.”
Are all jumper and switch settings on option boards and peripheral
devices correct? If applicable, ensure that there are no conflicts; for
example, two option boards sharing the same interrupt.
Are the processor(s) and VRMs fully seated in their slots on the system
board? See Chapter 4, “Upgrading Your System,” for installation
procedures.
Are all DIMMs fully seated and installed correctly? See Chapter 4,
“Upgrading Your System,” for installation instructions.
Are all removable media drives and disk drives installed correctly? See
Chapter 5, “Upgrades and Options.”
If the system has a hard disk drive, is it properly formatted or defined?
Is the operating system properly loaded? Refer to the operating system
documentation.
Are all drivers properly installed? For information about installing
drivers, refer to your network operating system configuration guide.
Are the configuration settings in Setup and the Resource Configuration
Utility (RCU) correct? For information about running these utilities, see
Chapter 3, “Configuring Your System.”
If the above items are all correct, but the problem reoccurs, refer to Additional
Troubleshooting Procedures in this chapter.
Running New Application Software
Problems that occur when you run new application software are usually related
to the software. Faulty equipment is much less likely, especially if other
software runs correctly. If you have problems while running new application
software, check the following.
Does the system meet the minimum hardware requirements for the
software? Refer to the software documentation.
Is the software an authorized copy? Unauthorized copies often do not
work. Obtain an authorized copy of the software.
If you are running the software from a floppy disk, is it a good copy?
If you are running the software from a hard disk drive, is the software
correctly installed? Were all necessary procedures followed and files
installed?
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Are the correct device drivers installed?
Is the software correctly configured for the system?
Are you using the software correctly?
Try a different copy of the software to see if the problem is with the copy
you are using.
If other software runs correctly on the system, contact your vendor about
the failing software.
If the problems persist with the software, contact the software vendor's customer
service representative.
After System Has Been Running Correctly
Problems that occur after the system hardware and software have been running
correctly often indicate equipment failure. However, many situations that are
easy to correct can also cause such problems. If you have problems after the
system has been running correctly, check the following.
If you are running the software from a floppy disk, try a new copy of the
software.
If you are running the software from a hard disk drive, try running it from
a floppy. If the software runs correctly, there may be a problem with the
copy on the hard disk. Reinstall the software on the hard disk drive and
try running it again. Make sure all the necessary files are installed.
If the problem recurs, you may need to reformat the hard disk drive. The
drive, drive controller, or system boards may be defective.
If the problems are intermittent, there may be a loose cable, dirt in the
keyboard (if keyboard input is incorrect), a marginal power supply, or
other random component failures.
If you suspect that a transient voltage spike, power outage, or brownout
might have occurred, reload the software and try running it again.
Symptoms of voltage spikes include a flickering video display,
unexpected system reboots, and the system not responding to user
commands.
Note: Voltage spikes can corrupt or destroy data files
on the drive. If you are experiencing voltage spikes on the
power line, install a surge suppresser between the power
outlet and the system power cords.
If the problem recurs after you have checked and corrected all of the above
items, refer to Additional Troubleshooting Procedures in this chapter.
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Additional Troubleshooting Procedures
This section provides a more detailed approach to diagnostic testing and
identification of a problem and locating its source.
Error Checking
Each time you turn on the system, POST runs automatically and checks the
system boards, processors, memory, keyboard, and most installed peripheral
devices.
If POST finds an error, it displays an error message. Refer to the Error Message
section in this chapter for an explanation of each error message.
Troubleshooting Guide
Use the following troubleshooting procedures to help you identify a problem.
These general procedures lead you through the following:
preparing the system for diagnostic testing
monitoring POST while it is running
verifying proper operation of key system LEDs
confirming loading of the operating system.
Preparing the System for Diagnostic Testing
To prepare the system for diagnostic testing, perform the following:
Note: Before disconnecting any peripheral cables from
the system, turn off the system and any external peripheral
devices. Failure to do so can cause permanent damage to
the system and/or the peripheral devices.
1. Turn off the system and all external peripheral devices. Disconnect all
devices from the system except the keyboard and video monitor.
2. Make sure the system power cords are plugged into a properly grounded AC
outlet.
3. Make sure your video display monitor and keyboard are correctly connected
to the system. Turn on the video monitor. Set its brightness and contrast
controls to at least two-thirds of their maximum ranges (refer to the
documentation supplied with your video display monitor).
4. If the operating system normally loads from the hard disk drive, make sure
there is no diskette in drive A. Otherwise, place a diskette containing the
operating system files in drive A.
5. Turn on the system. If the power indicator LED does not light, refer to
Power Light Does Not Light found later in this chapter.
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Monitoring POST While Running
Each time you turn on the system, POST runs automatically and checks the
system board, CPU, memory, keyboard, and most installed peripheral devices.
During the memory test, POST displays the amount of memory that it is able to
access and test. Depending on the amount of memory, it may take several
minutes to complete the memory test. When the memory test completes, the
following is displayed:
Press <F2> to enter SETUP
Press <F2> if you want to run BIOS Setup. When the utility appears, follow the
instructions on your monitor to configure BIOS. See Chapter 4, “Configuring
Your System.” If you do not press <F2>, the above message remains for a few
seconds and the boot process continues.
When this message appears:
Press <Ctrl><A> for SCSISelect™ Utility!
Press <Ctrl+A> if you want to configure SCSI devices in your system. When the
utility appears, follow the instructions on your monitor to configure the SCSI
host adapter settings and run the SCSI disk utilities. See Chapter 4,
“Configuring Your System.” If you choose not to run the SCSISelect Utility, the
boot process continues.
If POST finds an error, it displays an error message. This information is useful
to your service representative. Refer to the Error Message section in this chapter
for an explanation of each error code.
The BIOS indicates errors by writing an error code to the PS/2-standard logging
area in the Extended BIOS Data Area, and by displaying a message on the
screen, which is sometimes preceded by the POST Error Code. The error code
will also be logged to the Event Logging area.
Verifying Proper Operation of Key System Indicators
As POST determines the system configuration, it tests for the presence of each
mass storage device installed in the system. As each device is checked, its
activity indicator should turn on briefly. Check for the following.
Does the diskette drive activity indicator turn on briefly. If not, refer to
Diskette Drive Activity Indicator Does Not Light in this chapter.
If a second diskette drive is installed, does its activity indicator turn on
briefly. If not, refer to Diskette Drive Activity Indicator Does Not Light in
this chapter.
If there is a hard disk drive or SCSI devices installed in the system, does
the hard disk drive activity indicator turn on briefly. If not, refer to Hard
Disk Drive Activity Indicator Does Not Light in this chapter.
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Confirming Loading of the Operating System
Once the system boots up, the operating system prompt appears on the screen.
The prompt varies according to the operating system. If the operating system
prompt does not appear, refer to Problems With Application Software found
later in this chapter.
Specific Problems and Corrective Actions
This section provides possible solutions for the following specific problems:
power LED does not light
system cooling fans do not rotate
no characters appear on screen
characters on the screen appear distorted or incorrect
floppy disk drive access LED does not light
hard disk drive access LED does not light
RCU does not boot
problems with application software.
Try the solutions in the order given. If you cannot correct the problem, contact
your service representative for assistance.
Power LED Does Not Light
Check the following.
Is the system operating normally? If so, the power LED is probably
defective.
Are there other problems with the system? If so, check the items listed
under System Cooling Fans Do Not Rotate.
System Cooling Fans Do Not Rotate
Note: In addition to the cooling fans that are an integral
part of each power supply, the system has an option board
fan and four CPU fans. The four CPU fans are redundant in
configuration. This means if one fan fails, its associated fan
changes its rotating speed to high. There are no serviceable
components inside the power supply. If the power supply is
opened, the manufacturer's warranty is voided.
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Check the following.
Is AC power available at the wall outlet?
Are the system power cords properly connected to the system and the AC
wall outlet?
Is the power connector for the cooling fan connected to the system I/O
board (option board fan) and the CPU base board (CPU fans)?
Is the front panel power on indicator lit?
If the switches and connections are correct and the power outlet is functioning,
the power supply has probably failed. Contact your service representative for
assistance.
No Characters Appear On Screen
Check the following.
Is the riser card fully seated in the system I/O board connector? The riser
card is the small card that the mouse and keyboard plug into.
Is the keyboard working?
Is the video display plugged in and turned on?
Are the brightness and contrast controls properly adjusted?
Are the video display switch settings correct?
Is the video display signal cable properly installed?
If you are using an option video controller board, perform the following:
1. Verify that the video controller board is fully seated in the system board
connector.
2. Run the RCU to disable the onboard video controller.
3. Reboot the system for changes to take effect.
If there are still no characters on the screen after you reboot the system, contact
your service representative or authorized dealer for assistance.
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Characters are Distorted or Incorrect
Check the following.
Are the brightness and contrast controls properly adjusted on the video
display? Refer to the documentation supplied with your video display.
Are the video display signal and power cables properly installed?
If the problem persists, the video display may be faulty or it may be the
incorrect type. Contact your service representative for assistance.
Floppy Disk Drive Activity LED Does Not Light
Check the following.
Are the floppy disk drive power and signal cables properly installed?
Are all relevant switches and jumpers on the floppy disk drive set
correctly?
Is the floppy disk drive properly configured in Setup?
If you are using the onboard floppy disk controller, use BIOS Setup to make
sure that Onboard Floppy is set to Enabled. Conversely, to use an optional
fixed/floppy disk controller, make sure that Onboard Floppy is set to Disabled.
For information about running Setup, see Chapter 3, Configuring Your System.”
If the problem persists, there may be a problem with the floppy disk drive,
system I/O board, or drive signal cable. Contact your service representative for
assistance.
Hard Disk Drive Activity LED Does Not Light
If you have installed one or more hard disk drives in your system, check the
following.
Is the optional disk controller board fully seated in the system I/O board
connector?
Is the disk drive seated properly?
Are the jumpers on the system I/O board set correctly?
Is the hard disk activity LED cable connector plugged into the optional
controller board, if present?
If you received error messages, refer to the Error Message section for
information about error messages.
If the problem persists, there may be a problem with the hard disk drive, the
optional controller board, system I/O board, drive signal cable, or LED
connector. Contact your service representative for assistance.
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Problems with Application Software
If you have problems with application software, perform the following.
Verify that the software is properly configured for the system. Refer to
the software installation and operation documentation for instructions on
setting up and using the software.
Verify a different copy of the software to see if the problem is with the
copy you are using.
Make sure all cables are installed correctly.
Verify that the system I/O board jumpers are set correctly. See Chapter 3,
“Configuring Your System,” for jumper settings.
If other software runs correctly on the system, contact your vendor about
the failing software.
If the problem persists, contact the software vendor's customer service
representative for assistance.
Error Messages
The server status is displayed in 16 digits of alphanumeric characters on the
liquid crystal display (LCD) on the front of the server. Use this indication
together with the status LED indications to solve problems that may occur while
using your system.
Note: Record the indication of LCD before contacting
your service representative. An alarm indication is useful
when maintaining the server.
Alarm Indication during POST
Each time you turn on the system, POST runs automatically. During POST, the
test that is being executed is displayed on the LCD. If the same code has been
displayed for more than 5 minutes, an occurrence of fatal error is assumed.
Record the code displayed on LCD, then contact your service representative.
When an alarm that restricts operation (such as degradation function) or that can
be recovered by re-setup has occurred, an error code is displayed on the LCD.
(An error message is also displayed on the display unit.)
Table 5-1 lists the error codes and messages you may see during POST.
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Table 5-1. POST Error Codes and Messages
Code Error message
Description
0710 WARNING: CPU with error taken Off-line.
A CPU error was detected and the CPU is
being degraded.
0718 ERROR: Forced to use CPU with error.
A CPU error was detected.
0720 WARNING: DIMM groups have been disabled. A memory error was detected and memory
is being degraded.
0728 ERROR - DIMM group with error is enabled.
0B00 Keyboard controller error
A memory error was detected.
A keyboard controller error was detected.
A keyboard error was detected.
A CPU cache error was detected.
NvRAM battery is worn out.
0B01 Keyboard Error
0B02 System cache error - Cache disabled
0B03 System battery is dead - Replace and run
SETUP
0B04 System CMOS checksum bad - run SETUP
Start the Setup utility to correctly set the
CMOS.
0B05 Monitor type does not match CMOS - run
SETUP
The connected display unit does not match
the internal setting.
0B06 Stuck Key
A key is continuously pressed.
0B07 System timer error
0B08 Real time clock error
A system timer error was detected.
A realtime clock error was detected.
Previous boot was not terminated normally.
0B09 Previous boot incomplete - default
configuration used (xx)
0B0A Keyboard Locked - Unlock key switch
0B0B Diskette drive A error
Keyboard is locked.
An error was detected on the floppy disk
drive A.
0B0D address conflict
An error was detected on the standard
device and/or extended board.
0B0E combination not supported
An error was detected on the standard
device and/or extended board.
0B0F IO device IRQ conflict
0B14 System RAM failed
IRQs of I/O devices do not match.
A memory error was detected.
0B15 Shadow RAM failed
A memory error was detected.
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Table 5-1. POST Error Codes and Messages (cont’d)
Code Error message
Description
0B16 Extended RAM failed
A memory error was detected.
A memory error was detected.
NvRAM value is illegal.
0B17 Failing Bits
0B1A Missing or Invalid NVRAM taken
0B1B PCI System Error on Bus/Device/Function
0B1C PCI Parity Error on Bus/Device/Function
0B1E Unsupported CPU detect.
A error was detected on PCI bus.
A error was detected on PCI bus.
CPU step was incorrect.
0B1F System Temperature is exceeded limit.
An abnormal temperature was detected.
CPUs of different cache size were detected.
0B23 WARNING: CPUs with different L2 cache
size are found.
0B30 Fan 1 Alarm occurred.
0B31 Fan 2 Alarm occurred.
A failure on option slot fan was detected.
A failure on CPU fan was detected.
System configuration is illegal.
0B40 Invalid System Configuration Data - run
configuration utility
0B41 System Configuration Data Read Error
0B42 Resource Conflict
Read error of system configuration data.
Resource such as IRQ or memory conflicts.
IRQ conflicts.
0B43 Warning: IRQ not configured.
0B44 Expansion Rom not initialized
0B45 System Configuration Data Write Error
Initialization of expansion ROM failed.
Write error of system configuration data.
—
—
—
BIOS not installed
No bootable device is found on Fast SCSI2
bus channel.
Warning: The system detected on illegal CPU Combination of CPU cards is invalid.
Card combination.
A system error has occurred.
An error occurred on system.
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Alarm Indication during Operation
Table 5-2 lists the alarm indications displayed on LCD during server operation.
Table 5-2. Operational Error Codes and Messages
Error Indication
Description
CPU Err #YZ
(Y:1-2)(Z:1-2)
0BYZ
0BXY
050X
An error was detected on CPU #YZ.
CPU Error
An error was detected on CPU.
CPU #XY overheated.
CPU Thermal
(X:1-2)(Y:1-2)
CPU Thermal
CPU overheated.
ISA Error
(X: 1-2)
An error was detected on ISA board slot #X.
ISA Error
An error was detected on ISA boards.
HDD Thermal
1060
22XY
The internal hard disks overheated.
Memory Err
A DIMM error was detected. X = bank. Y = 1 (lower) or 2 (upper)
(X:1-8) (Y:1-2)
PCI PERR#
PCI PERR#
PCI PERR#
PCI PERR#
A parity error was detected on PCI boards.
0901
0902
0903
A parity error was detected on PCI boards slot #11 or #12.
A parity error was detected on PCI boards slot #21, #22 or #23.
A parity error was detected on PCI boards slot #31, #32, #33 or
#34.
PCI SERR#
PCI SERR#
PCI SERR#
PCI SERR#
POW Major B
POW Major E
An error was detected on PCI boards or system I/O board.
An error was detected on PCI boards slot #11 or #12.
An error was detected on PCI boards slot #21, #22 or #23.
An error was detected on PCI boards slot #31, #32, #33 or #34.
An error was detected on the system power supply.
0A01
0A02
0A03
10F0
10F1
An error was detected on the disk expansion cabinet power
supply.
Power +3.3V
Power +5V
Power +12V
Power –12V
Power –5V
1012
1013
1014
1015
1016
An abnormal +3.3V was detected.
An abnormal +5V was detected.
An abnormal +12V was detected.
An abnormal –12V was detected.
An abnormal –5V was detected.
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Table 5-2. Operational Error Codes and Messages (cont’d)
Error Indication
Description
Power CPU#11
Power CPU#12
Power CPU#21
Power CPU#22
Thermal Hi
1010
1011
1020
1021
An abnormal voltage was detected for CPU #11.
An abnormal voltage was detected for CPU #12.
An abnormal voltage was detected for CPU #21.
An abnormal voltage was detected for CPU #22.
A cabinet overheated error was detected.
10X7
(X:1-2)
WDT-Timeout
Unknown SMI
0C00
The watchdog timer timed out.
An illegal interrupt occurred.
CPU Error Messages
The system can have up to four processors. If an error occurs in a processor (or
VRM), the processor (or VRM) location is displayed on the LCD as follows:
CPU #11
CPU #12
CPU #21
CPU #22
1st primary CPU board processor
2nd primary CPU board processor
1st secondary CPU board processor
2nd secondary CPU board processor
In addition, it is also possible to know the CPU location in the BIOS Setup
utility (by CPU Configuration in the Advanced menu).
Memory Error Messages
The system can have up to sixteen DIMMs. If an error occurs in memory, the
DIMM location is displayed on the LCD as a combination of two numerals
specifying the bank and socket. The numerals in the error message correspond
to the lower two digits of the number of the relevant DIMM memory socket on
the CPU base board.
In addition, it is also possible to know the DIMM location in the BIOS Setup
utility (by Memory Configuration in the Advanced menu).
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Status LED
The following paragraphs list and describe the various system and disk status
LED indicators and provides a user response for the various status conditions.
Once your server is up and running, you can monitor server operation through
the system status LED panel indicators and the SCSI device status LED panel
indicators. See Table 5-3 and Table 5-4 for a list and description of the LED
indicators and Table 5-5 for a list of the system status abnormal conditions.
If any problems persist, contact your service representative for assistance.
Table 5-3. System Status LED Indicators
LED
Status
Description
Response
Power
Off
Power OFF
None required (normal)
None required (normal)
Green
Amber
Power ON
System power supply failure
Replace failed power supply
module.
Status
Disk
Off
Power OFF
No alarms
None required (normal)
None required (normal)
Check condition.
Green
Amber
Abnormal condition
(see Table 5-5).
Off
Not accessing disk drives
Internal disk drive failure
None required (normal)
Amber
Check disk drive status
LEDs
Green
Accessing disk drives
None required (normal)
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Table 5-4. Disk Drive Status LED Panel Indicators
LED
Status
Description
Response
Disk
Off
Disk drive not present
None required (normal)
Drive
Present
Green
Off
Disk drive present
None required (normal)
None required (normal)
Disk
Not accessing disk drive
Drive
Activity
On
Off
Accessing disk drive
No alarms
None required (normal
None required (normal)
Disk
Drive
Status
Amber
Disk drive failure
Replace disk drive.
Table 5-5. System Status Abnormal Conditions
LED (Amber)
Conditions
System Status
Chassis intrusion (front cover)
Unit fan alarm
Memory multi-bit error (SERR)
P6 bus error (SERR)
Thermal sensor
Temperature
Voltage
CPU thermal trip
PCI PERR# (OPB/ESC detect)
PCI SERR#
CPU internal error
WDT
IOCHK
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A
System Cabling
Before You Begin
Static Precautions
RAID Configuration
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This appendix contains information and procedures on cabling configurations
used in your system. The configurations include the RAID controller.
Before You Begin
!
WARNING
The DC push-button on/off switch on the front panel does
not turn off the system AC power. Before doing the
procedures in this chapter, make sure that your system is
powered off and unplug the AC power cord from the back of
the chassis. Failure to disconnect power before opening
your system can result in personal injury and equipment
damage.
Static Precautions
An electrostatic discharge (ESD) can damage disk drives, option boards, and
other components. You can provide ESD protection by wearing an antistatic
wrist strap attached to chassis ground when handling system components.
Electronic devices can be easily damaged by static electricity. To prevent
damage, keep them in their protective packaging when they are not installed in
your system.
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RAID Configuration
One of the standard features of your system is the three channel SecuRAID 530
controller board, which gives your system the added security of fault tolerance.
If your system has RAID at the time you order it, the system is pre-cabled at the
factory. The RAID controller is installed in PCI slot P2 and is used to control
the hot-swap hard drive cages. Channel B of the dual Ultra2 wide SCSI-2
controller (Adaptec® AIC-7895) on the system I/O board is used to control up
to four peripherals (CD-ROM and tape drives) in the removable media drive
bays. A 3 1/2-inch diskette drive is installed in all systems and interfaces
separately to the system I/O board. Figure A-1 is a diagram of the SCSI cabling.
The narrow SCSI interface cable is connected to the SCSI connector on the
system I/O board (Figure A-1, D). This cable connects to the rear of the SCSI
removable media peripherals (if present). The last drive on the daisy chain cable
must have it’s internal SCSI terminators installed (Figure A-1, A).
The Ultra2 wide SCSI interface cables are connected to the RAID board (Figure
A-1, Q). Termination for the hard disk drives is provided on the SCSI
distribution panel (Figure A-1, E).
The onboard narrow SCSI controller also includes a connector located at the
rear of the system for connecting external SCSI devices (Figure A-1, M). Three
important rules must be followed if you connect external narrow SCSI devices:
A maximum of seven narrow SCSI devices may be connected to the
onboard SCSI controller. For example if three SCSI devices in the system
cabinet are connected to the SCSI bus, only four external narrow SCSI
devices can be connected.
The maximum cable length for all narrow devices connected to the
controller is 1 meter (39 inches).
The last external narrow SCSI device must be terminated. Active
termination is recommended.
System Cabling A-3
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A
E
E
E
0
0
0
B
1
2
3
1
2
3
1
2
3
G
G
J
F
G
K
H
H
H
C
I
D
L
M
N
O
P
S
R
W
Q
T
U
V
A.
B.
Device internal SCSI termination
resister
Narrow SCSI devices in upper
peripheral bays
C.
E.
G.
I.
K.
M.
O.
Q.
S.
U.
W
D.
F.
H.
J.
L.
N.
P.
R.
T.
V.
Narrow SCSI interface cable
SCSI back plane terminator
SCSI channel B connector
Ultra2 wide SCSI disks in lower cage
Wide SCSI interface cable
Ultra2 wide SCSI disks in middle cage
I/O riser board
External narrow SCSI cable
SCSI terminator
Channel 1 cable connector
Diskette interface cable
3 1/2-inch diskette drive
Distribution back plane
SCSI channel A connector
Ultra2 wide SCSI disks in upper cage
Narrow SCSI connector (50 pin)
External narrow SCSI device
RAID controller in PCI slot #11 P2
Channel 2 cable connector
2nd 3 1/2-inch device (optional)
Channel 0 cable connector
Figure A-1. RAID Cable Configuration
A-4 System Cabling
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B
Memory Configurations
Memory DIMM Configurations
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Memory DIMM Configurations
The CPU base board contains sixteen 168-pin DIMM sockets for a total of up to
4 GB of system memory, using 256MB DIMMs. See Figure B-1. DIMM
sockets on the board are organized as four 144-bit wide (122-bit wide data path
with 16 parity bits) banks. Parity generation/checking is provided for each byte.
DIMM sockets accept 168-pin single- or double-sided DIMMs. A bank must be
populated using identical DIMMs. DIMMs may vary in size from one bank to
the other, but all DIMMs must be the same speed. Timing requires 60 ns fast
page devices.
A memory DIMM upgrade kit consists of 4 identical (of the same size and type)
DIMMs defined as:
4 x 32MB DIMMS = 128MB
4 x 64MB DIMMs = 256MB
4 x 128MB DIMMs = 512MB
4 x 256MB DIMMs = 1GB.
The first bank of DIMMs should be installed in sockets P02, P03, P04 and P05.
When you install additional DIMMs, you must start with bank 2 and continue to
bank 4. When you remove DIMMs, you must start with the highest populated
bank of DIMMs. Table B-1 lists the distribution of DIMMs for system memory
configurations that maximize socket availability, other combinations are
possible.
P02
P04
P03
P05
A
B
C
D
P14
P16
P15
P17
60 50
Figure B-1. CPU Base Board DIMM Sockets
B-2 Memory Configurations
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Table B-1. Memory Configurations
Total Memory
Bank #1
Bank #2
Bank #3
Bank #4
128MB
4 x 32MB
256MB
4 x 64MB
384MB
4 x 64MB
4 x 32MB
512MB
4 x 128MB
4 x 128MB
4 x 128MB
4 x 128MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
640MB
4 x 32MB
4 x 64MB
4 x 64MB
768MB
896MB
4 x 32MB
4 x 32MB
1024MB
1152MB
1280MB
1408MB
1536MB
1664MB
1792MB
1920MB
2048MB
2176MB
2304MB
2432MB
2560MB
2688MB
2816MB
3200MB
3328MB
3456MB
3584MB
4096MB
4 x 32MB
4 x 64MB
4 x 64MB
4 x 128MB
4 x 128MB
4 x 128MB
4 x 128MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 32MB
4 x 64MB
4 x 64MB
4 x 32MB
4 x 32MB
4 x 32MB
4 x 64MB
4 x 64MB
4 x 128MB
4 x 128MB
4 x 128MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 256MB
4 x 32MB
4 x 64MB
4 x 32MB
4 x 64MB
4 x 128MB
4 x 256MB
Memory Configurations B-3
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Glossary
A
AC
(Alternating Current) The type of current available in wall outlets. All computers
must convert alternating current to direct current to operate. See also DC.
Address
A label, name, or number that identifies a location in computer memory.
ASCII
(American Standard Code for Information Interchange) A standard number
assigned to each of the alphanumeric characters and keyboard control code keys to
enable the transfer of information between different types of computers and
peripherals.
B
backplane slot
A connector on the backplane board in desktop computers and expansion boxes that
allows you to install circuit cards.
backup
A copy of data for safe-keeping. The data is copied from computer memory or disk
to a floppy disk, magnetic tape, or other media.
backup battery
The battery in your computer that maintains the real-time clock and the
configuration information when the computer's power is removed.
base memory
An area of memory between 0 and 640 kilobytes.
baud rate
The speed with which data is transmitted during serial communication. The
computer's operating system and software program must be configured for the same
baud rate as the communication device, such as a serial printer. See also bps.
BIOS
(Basic Input/Output System) A program stored in flash EPROM or ROM that
controls the keyboard, disk drives, video monitor, and other devices. See also flash
EPROM, EPROM, and ROM.
bit
Derived from BInary digiT, a bit is the smallest unit of information a computer
handles. See also byte.
Glossary 1
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boot
The process of loading the operating system into memory.
bps
(bits per second) The number of bits transferred in one second during serial
communication, such as modem transmission.
byte
A group of eight bits.
C
cache memory
A very fast, limited portion of RAM set aside for temporary storage of data for
direct access by the microprocessor.
CD-ROM drive
(Compact Disk ROM drive) A type of mass storage device that reads information
from a compact disk.
Centronics port
An industry standard parallel port. See also parallel port.
CGA
(Color Graphics Adapter) A type of video display system that provides low-
resolution text and graphics on TTL monochrome and color monitors.
CMOS
(Complimentary Metal-Oxide Semiconductor) A type of low-power integrated
circuit used in computers. See also TTL.
COM1 or COM2
The name you can assign a serial port to set or change its address. See also serial
port.
command
An instruction that directs the computer to perform a particular operation.
configuration
The way in which a computer is set up to operate. Some configurable options
include CPU speed, serial port designation, and memory allocation.
coprocessor
See math coprocessor.
CPU
(Central Processing Unit) See microprocessor.
2 Glossary
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CRT
(Cathode-Ray Tube) The type of video display used in monitors for desktop
computers.
D
DC
(Direct Current) The type of current available in the rechargeable battery packs
used in portable computers. See also AC.
default
The factory setting your computer uses unless you instruct it otherwise. For
example, when powering up, the computer will boot from the default drive.
density
The capacity of information (bytes) that can be packed onto a storage device, such
as a floppy disk.
device driver
A software program that a computer must use to recognize and operate certain
hardware, such as a mouse or a video monitor.
disk drive
A device that stores data on a hard or floppy disk. A floppy disk drive requires a
floppy disk to be inserted; a hard disk drive has a permanently encased hard disk.
DOS
(Disk Operating System) See operating system.
DRAM
(Dynamic RAM) See RAM.
E
ECC
(Error Checking and Correction) A method of detecting and correcting errors.
EEPROM
(Electrically Erasable Programmable Read-Only Memory) A type of memory
device that stores password and configuration information.
EGA
(Enhanced Graphics Adapter) A type of video display system that provides
medium-resolution text and graphics on TTL monochrome, color, and enhanced
color monitors.
Glossary 3
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EMS
(Expanded Memory Specification) A method of accessing memory beyond the
640K limit of DOS by exchanging data in and out of main memory at high speeds.
Some software requires EMS to operate.
EPROM
(Erasable Programmable Read-Only Memory) A type of memory device that is
usually used to store system BIOS code. This code can be erased with ultraviolet
light, but is not lost when the computer is powered off. See also flash EPROM and
ROM.
expanded memory
See EMS.
expansion slot
See backplane slot.
extended memory
The protected memory above 1M that is directly accessible by the microprocessor
through certain utilities and operating systems. This memory is used in computers
with 80286, 80386, and 80486 microprocessors.
F
flash EPROM
A type of memory device that is usually used to store system BIOS code. This code
can be replaced with updated code from a floppy disk, but is not lost when the
computer is powered off. See also EPROM and ROM.
floppy disk drive
See disk drive.
format
The process used to organize a hard or floppy disk into sectors so it can accept data.
Formatting destroys all previous data on the disk.
G
(Gigabyte)
1,073,741,824 bytes. See also byte.
4 Glossary
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H
hard disk drive
See disk drive.
hardware
The physical parts of your computer, including the keyboard, monitor, disk drives,
cables, and circuit cards.
I
IC
(Integrated Circuit) An electronic device that contains miniaturized circuitry.
(ISA Configuration Utility)
The program that you use to change the configuration of some ISA desktop
computers. This program also contains information about the hardware in the
computer.
interface
A connection between the computer and a peripheral device that enables them to
exchange data. See also parallel port and serial port.
ISA
(Industry Standard Architecture) An industry standard for computers and circuit
cards that transfer 16 bits of data at a time.
J
jumper
A small electrical connector used for configuration on some computer hardware.
K
(Kilobyte)
1,024 bytes. See also byte.
L
LAN
(Local Area Network) A group of computers linked together within a limited area
to exchange information.
LCD
(Liquid Crystal Display) The type of video display used in portable computers.
LED
(Light-Emitting Diode) A small electronic device that glows when current flows
through it.
Glossary 5
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LPT1 or LPT2
The name you can assign a parallel port to specify its address. See also parallel
port.
LVD
Super-fast Ultra2 SCSI Low Voltage Differential (LVD) Parallel SCSI Interface. A
new SCSI interface that provides greater I/O bandwidth, device connectivity, data
reliability, and longer cable lengths for Ultra2 SCSI hard disk drives.
M
(Megabyte)
1,048,576 bytes. See also byte.
math coprocessor
An IC that works with the microprocessor to speed up mathematical calculations.
memory
The circuitry in your computer that stores data and programs. See also EMS,
extended memory, RAM, and ROM.
microprocessor
The integrated circuit that processes data and controls the basic functions of the
computer.
modem
A device used to exchange information with other computers over telephone or data
lines.
module
A circuit board that plugs into a dedicated connector on the system board in your
computer.
mouse
A small input device that you guide on a flat surface to control the cursor
movement and operation of the computer when using certain software programs.
N
NVRAM
(Nonvolatile RAM) A type of RAM that retains its contents even after the computer
is powered off. This memory stores EISA configuration information. See also RAM
and SRAM.
O
operating system
A set of programs that provides the interface between other software programs and
the computer.
6 Glossary
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P
parallel port
The connector on the back of your computer that allows the transfer of data
between the computer and a parallel device, such as a parallel printer.
partition
The process of dividing the storage space on a hard disk into separate areas so that
the operating system treats them as separate disk drives.
password
A security feature that prevents an unauthorized user from operating your
computer. See also EEPROM.
PCI
Peripheral Component Interconnect. PCI is a high-performance peripherals I/O bus
supporting data transfers of up to 132MB per second.
Pentium
A type of microprocessor, with a built-in math coprocessor, cache memory, and
memory and bus controllers, that processes and communicates 32 bits of data at a
time. This microprocessor also contains power management capabilities.
peripheral
A device connected to and controlled by the computer, such as an external disk
drive or a printer.
pixel
The smallest element that is visible on a video display. The resolution of a video
display system is measured in pixels.
PnP
(Plug-n-Play) Plug-and-play is the ability to plug a device into a computer and have
the computer recognize that the device is there. The user doesn't have to tell the
computer.
POST
Power-On-Self-Test.
R
RAM
(Random-Access Memory) A temporary storage area for data and programs. This
type of memory must be periodically refreshed to maintain valid data, and is lost
when the computer is powered off. See also NVRAM and SRAM.
real-time clock
The IC in your computer that maintains the time and date.
Glossary 7
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RCU
(Resource Configuration Utility) The program that you use to change the
configuration of your system. This program also contains information about the
hardware in your system.
ROM
(Read-Only Memory) A type of memory device that usually is used to store system
BIOS code. This code cannot be altered and is not lost when the computer is
powered off. See also BIOS, EPROM, and flash EPROM.
RS-232C port
An industry standard serial port. See also serial port.
S
save
To store information on a floppy disk, hard disk, magnetic tape, or some other
permanent storage device.
SCSI
(Small Computer System Interface) An industry standard interface that provides
high-speed access to tape drives, hard disk drives, and other peripheral devices.
SEL
(System Event Log) A record of system management events. The information
stored includes the name of the event, the date and time the event occurred and data
pertinent to the event. Event data may include POST error codes that reflect
hardware errors or software conflicts within the system.
serial communication
Information sent sequentially, one bit at a time.
serial port
The connector on the back of your computer that allows the transfer of data
between the computer and a serial device, such as a mouse, a modem, or a serial
printer.
Setup program
The program that you use to change the configuration of some ISA desktop and
notebook computers. This program also contains information about the hardware in
the computer.
software
Programs with specific functions, such as word processing, data base management,
communications, and operating system.
SRAM
(Static RAM) A temporary storage area for data and programs. This type of
memory does not need to be refreshed, but it is lost when the computer is powered
off. See also NVRAM and RAM.
8 Glossary
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SVGA
(Super VGA) A type of video display system that provides very high-resolution
text and graphics on analog color monitors.
system board
The main circuit board in your computer. It contains most of the connectors and
ports.
T
tape drive
A type of storage device using magnetic tape.
TTL
(Transistor-Transistor Logic) A type of integrated circuit used in computers. See
also CMOS.
Glossary 9
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V
VGA
(Video Graphics Array) A type of video display system that provides high-
resolution text and graphics on analog color monitors.
10 Glossary
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Equipment Log
Use this equipment log form to record pertinent information about your system.
You will need some of this information to run the System Setup Utility. Be sure
to update the equipment log when you add options.
Record the model and serial numbers of the system components, dates of
component removal or replacement, and the name of the vendor from whom the
component was purchased. Be sure to record the same information for any
components added to the system, such as hard disk drives, add-in boards, or
printers.
Record the model and serial numbers of the unit and system baseboard. The
model and serial numbers of the system unit are recorded on a label attached to
the rear of the unit. The serial number of the system board is located along the
left side of the board, near the PCI expansion slot covers.
The location of serial numbers on add-in boards, hard disk drives, and external
equipment, such as video displays or printers, varies from one manufacturer to
another. Literature accompanying these products should illustrate or describe the
location of model and serial numbers.
Equipment Log 1
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Manufacturer Name
and Model
Serial Number
(if available)
Component
Date Installed
Server
CPU 1
CPU 2
CPU 3
CPU 4
DIMMs
Video Mem. DRAM
Modem
Diskette Drive A
Diskette Drive B
Tape Drive 1
Tape Drive 2
CD-ROM Drive 1
CD-ROM Drive 2
Hard Disk Drive 1
Hard Disk Drive 2
Hard Disk Drive 3
Hard Disk Drive 4
Hard Disk Drive 5
Hard Disk Drive 6
Hard Disk Drive 7
Hard Disk Drive 8
Hard Disk Drive 9
Hard Disk Drive 10
Hard Disk Drive 11
2 Equipment Log
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Manufacturer Name
and Model
Serial Number
(if available)
Component
Date Installed
Hard Disk Drive 12
RAID Controller
Network Controller 1
Network Controller 2
Monitor
Keyboard
Mouse
External Peripherals
Equipment Log 3
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Index
External devices, 1-17
B
Battery, 1-16
Battery, clock
replacing, 4-13
Battery, I/O
F
Fans, 1-18
FCC statement, 1
Front doors
installing, 4-7
opening, 1-7
removing, 4-7
replacing, 4-12
BIOS
configuration settings, 3-9
exiting, 3-9
flash memory, 1-16
setup utility, 3-8
updating, 3-25
using, 3-8
H
Hard disk drives
hot swapping, 4-43
installing, 4-39
removing, 4-42
Hot swap
C
Cabling
hard drives, 4-43
power supply, 4-30
RAID board, A-3
system, 2-4, A-2
Chassis, 1-5
Chassis features
front and rear, 1-9
Clock, 1-16
CMOS NVRAM
resetting, 3-27
Configuration, 1-4
system, 3-2
I
I/O board
switches and jumpers, 3-21
I/O riser board
switches, 3-18
Indicators, 1-6
ISA
board configuration, 3-6
Connections
system, 2-4
J
Jumpers
memory board, 3-21
setting, 3-24
system, 3-18
D
DIMMs
installing, 4-15
memory configuration, B-2
removing, 4-17, 4-22
diskette drive
removing, 4-37
Diskette drive
installing, 4-33
Doors
K
Keyboard, 1-17
M
Memory, 1-16
Memory board
jumpers, 3-21
Memory configurations, B-2
Mouse, 1-17
opening front, 1-7
E
Equipment log, 4-6
Error messages, 5-10
Expansion slots
capabilities, 1-16
O
Option boards
considerations, 4-23
hardware configurations, 4-25
installing, 4-26
removing, 4-28
Index-1
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Status indicators, 1-6
Status LEDs, 5-15
Switches
P
Password
clearing, 3-28
base board, 3-20
I/O riser board, 3-18
setting, 3-24
Peripheral controller, 1-17
Peripheral devices
removable media drives, 1-19
Utra2 wide SCSI-2 drives, 1-18
Power, 1-20
system, 3-18
System
cabling, A-2
chassis, 1-5
turning on, 2-7
Power cords
configuration, 1-4
configuring, 3-2
connections, 2-4
expansion, 1-4
features, 1-3
indicators, 1-6
jumpers and switches, 3-18
memory, 1-16
moving, 2-3
connecting, 2-6
Power supply
hot swapping, 4-30
installing, 4-29
removing, 4-30
Precautions
upgrading, 4-4
Problems, 5-2
Processor, 1-16
Processors
overview, 1-2
power, 1-20
installing, 4-18
power cords, 2-6
powering on, 2-7
processor, 1-16
System board
features, 1-11, 1-13
set, 1-11
switches, 3-20
System reset, 5-2
System upgrade
preparing, 4-6
R
RAID controller
configuration, 3-17
RCU, 3-2
command line parameters, 3-5
configuration settings, 3-5
using, 3-3
Resetting
system, 5-2
Resource configuration utility, 3-2
T
S
Top cover
SCSI controller
features, 1-17
SCSISelect utility, 3-14
configuration settings, 3-15
exiting, 3-15
using, 3-14
installing, 4-10
removing, 4-8
Troubleshooting, 5-2
checklists, 5-2
diagnostics, 5-5
diskette drive LED, 5-9
error messages, 5-10
fans, 5-8
hard drive LED, 5-9
no characters on screen, 5-8
power LED, 5-7
software, 5-10
Server
expansion, 1-4
Setup utility
BIOS, 3-8
Side panels
installing, 4-10
removing, 4-8
Site selection, 2-2
Software
status LEDs, 5-15
locks, 1-20
Index-2
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U
Unpacking, 2-3
V
Video
features, 1-17
Video memory
installing, 4-11
Index-3
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xx
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