HP Hewlett Packard Computer Accessories E200 User Manual

HP Smart Array E200 Controller  
User Guide  
December 2005 (First Edition)  
Part Number 408556-001  
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Contents  
Contents  
3
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Contents  
4
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Hardware features  
In this section  
Board components ................................................................................................................................... 5  
Controller specifications............................................................................................................................ 5  
Board components  
Item ID  
Description  
1
Runtime LEDs. To interpret the illumination pattern of these LEDs,  
refer to "Controller board runtime LEDs (on page 30)".  
2
3
4
SAS port 2I (internal), 4x wide.  
SAS port 1I (internal), 4x wide.  
Cache module (also known as array accelerator). To enable RAID  
migration, stripe size migration, array expansion, or logical drive  
capacity extension, upgrade the cache ("Upgrading the cache" on  
page 20).  
Controller specifications  
Feature  
Details  
Card type  
Full-size PCIe  
Dimensions (excluding bracket)  
Maximum power required  
31.2 cm × 11.1 cm × 1.5 cm (12.3 in × 4.4 in × 0.6 in)  
Approximately 8 W  
Hardware features  
5
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Temperature range  
Operating, 10°C to 55°C (50°F to 131°F)  
Storage, -30°C to 60°C (-22°F to 140°F)  
Relative humidity  
(noncondensing)  
Operating, 10% to 90%; storage, 5% to 90%  
RAID levels supported  
RAID 0 and 1+0; also RAID 5 if the cache is upgraded ("Upgrading  
Type of edge connector  
PCIe x8 (fits in slots that have a physical size of x8 or greater;  
operates at the speed rating of the slot, up to a maximum of x4)  
PCIe transfer rate  
Number of SAS ports  
SAS transfer rate  
Up to 1.0 GB/s full duplex  
Two internal wide ports; each port has four 1x connectors  
Up to 1.2 GB/s per port in each direction  
For more information about the controller features and specifications, and for information about system  
requirements, refer to the HP website (http://www.hp.com/products/smartarray).  
Hardware features  
6
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Overview of the installation procedure  
In this section  
Installing the controller in an unconfigured server......................................................................................... 7  
Installing the controller in an unconfigured server  
New HP ProLiant server models self-configure when they are powered up for the first time. For more  
information about the autoconfiguration process, refer to the server-specific setup and installation guide or  
the HP ROM-Based Setup Utility User Guide. These guides are available on the server Documentation CD.  
IMPORTANT: Do not power up the server until the hardware configuration is satisfactory, as described in  
the procedure given in this section.  
To install the controller in an unconfigured server:  
1. Install the controller hardware ("Installing the controller hardware" on page 9).  
2. If necessary, install physical drives.  
The number of drives in the server determines the RAID level that is autoconfigured when the server is  
powered up (next step). For details, refer to the server-specific setup and installation guide or the HP  
ROM-Based Setup Utility User Guide.  
3. Power up the server. The autoconfiguration process runs.  
5. Update the controller firmware ("Methods for updating the firmware" on page 11).  
6. Install the operating system and device drivers ("Installing device drivers" on page 18). Instructions  
are provided with the CD that is supplied in the controller kit.  
The server is now ready to use. If you want to create additional logical drives ("Configuring an array" on  
Installing the controller in a previously configured server  
1. Back up any data on the system.  
3. If the new controller is to be the boot device, install the device drivers ("Installing device drivers" on  
page 18). Otherwise, continue with step 4.  
4. Install the controller hardware ("Installing the controller hardware" on page 9).  
5. Connect storage devices to the controller ("Connecting storage devices" on page 10).  
6. Update the controller firmware ("Methods for updating the firmware" on page 11).  
7. Set the controller order, using either ORCA ("Setting a controller as the boot controller" on page 17)  
8. If the controller is not going to be the boot device, install the device drivers ("Installing device  
Overview of the installation procedure  
7
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9. Update the Management Agents ("Installing Management Agents" on page 18) if new versions are  
available.  
The server is now ready to use. If you want to create additional logical drives, you may now do so.  
Overview of the installation procedure  
8
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Installing the controller hardware  
In this section  
Before beginning the installation ................................................................................................................ 9  
Preparing the server ................................................................................................................................. 9  
Installing the controller board .................................................................................................................... 9  
Before beginning the installation  
Before beginning the installation procedure, visit the HP website (http://www.hp.com/support) to confirm  
that you have the latest version of each driver and utility file needed. Compare the version numbers of the  
files there with those of the same files on the software CD or DVD that is supplied in the controller kit.  
Preparing the server  
1. Back up all data.  
2. Close all applications.  
3. Power down the server.  
CAUTION: In systems that use external data storage, be sure that the server is the first unit to be powered  
down and the last to be powered back up. Taking this precaution ensures that the system does not  
erroneously mark the drives as failed when the server is powered up.  
4. Power down all peripheral devices that are attached to the server.  
5. Unplug the AC power cord from the outlet and then from the server.  
6. Disconnect all peripheral devices from the server.  
Installing the controller board  
WARNING: To reduce the risk of personal injury or damage to the equipment, consult the  
safety information and user documentation provided with the server before attempting  
the installation.  
Many servers are capable of providing energy levels that are considered hazardous and are  
intended to be serviced only by qualified personnel who have been trained to deal with  
these hazards. Do not remove enclosures or attempt to bypass any interlocks that may  
be provided for the purpose of removing these hazardous conditions.  
1. Remove or open the access panel.  
2. Select an available x8 or larger PCI Express slot.  
3. Remove the slot cover. Save the retaining screw if one is present.  
Installing the controller hardware  
9
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4. Slide the controller board along the slot alignment guide if applicable, and press the board firmly  
into the slot so that the contacts on the board edge are properly seated in the system board  
connector.  
5. Secure the controller board in place with the retaining screw. If there is a guide latch on the rear of  
the board, close the latch.  
6. Connect storage devices to the controller. (For details of the procedure, see "Connecting storage  
devices (on page 10).")  
IMPORTANT: Drives that are to be used in the same array must be of the same type, either all SAS or all  
SATA. (Parallel SCSI drives cannot be used with this controller.)  
NOTE: Drives that are to be grouped in the same array should all have comparable capacity for efficient  
use of total storage capacity.  
7. Close or replace the access panel, and secure it with thumbscrews, if any are present.  
CAUTION: Do not operate the server for long periods with the access panel open or removed. Operating  
the server in this manner results in improper airflow and improper cooling that can lead to thermal damage.  
Connecting storage devices  
You can connect the controller ports to internal SAS backplanes that are connected to SAS or SATA  
drives. For information about the supported drive models, refer to the controller-specific page on the HP  
1. Power down the system.  
2. Install hard drives, if necessary.  
IMPORTANT: Drives that are to be used in the same array must be of the same type, either all SAS or all  
SATA. (Parallel SCSI drives cannot be used with this controller.)  
NOTE: Drives that are to be grouped in the same array should all have comparable capacity for efficient  
use of total storage capacity.  
For additional information about drive installation, see the appropriate section in this guide  
the documentation that accompanied the drives.  
3. Use the internal wide SAS cable provided with the server to connect the controller to the drives.  
If the drives are hot-pluggable, connect the internal connector of the controller to the SAS  
connector on the hot-plug drive cage.  
If the drives are not hot-pluggable, connect the internal connector of the controller to the non-hot-  
pluggable hard drives.  
4. Close or replace the access panel, and secure it with thumbscrews, if any are present.  
CAUTION: Do not operate the server for long periods with the access panel open or removed. Operating  
the server in this manner results in improper airflow and improper cooling that can lead to thermal damage.  
5. If the added drives are not hot-pluggable, power up the system.  
Installing the controller hardware 10  
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Updating the firmware  
In this section  
Methods for updating the firmware  
To update the firmware on the server, controller, or hard drives, use Smart Components. These  
components are available on the Firmware Maintenance CD. A more recent version of a particular server  
or controller component might be available on the support page of the HP website  
(http://www.hp.com/support). Components for controller and hard drive firmware updates are also  
available from the software and drivers page for storage products  
1. Find the most recent version of the component that you require. Components for controller firmware  
updates are available in offline and online formats.  
2. Follow the instructions for installing the component on the server. These instructions are given with  
the CD and are provided on the same Web page as the component.  
3. Follow the additional instructions that describe how to use the component to flash the ROM. These  
instructions are provided with each component.  
For more information about updating the firmware, refer to the HP ProLiant Storage Firmware  
Maintenance User Guide (for controller and hard drive firmware) or the HP Online ROM Flash User  
Guide (for server firmware).  
Updating the firmware 11  
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Configuring an array  
In this section  
Introduction ........................................................................................................................................... 12  
Comparing the utilities............................................................................................................................ 12  
Using ACU............................................................................................................................................ 14  
Introduction  
HP provides four utilities for manually configuring an array on a Smart Array controller:  
ORCA—A simple ROM-based configuration utility  
ACU—A versatile, browser-based utility that provides maximum control over configuration  
parameters  
ACU CLI—A command line version of ACU  
CPQONLIN—A menu-based configuration utility specifically for servers using Novell NetWare  
For more information about the features of these utilities, see "Comparing the Utilities (on page 12)."  
Whichever utility you use, be aware of the following limitations:  
For the most efficient use of drive space, do not mix drives of different capacities within the same  
array. The configuration utility treats all physical drives in an array as if they have the same capacity  
as the smallest drive in the array. The excess capacity of any larger drives is wasted because it is  
unavailable for data storage.  
All drives in an array must be of the same type (for example, all SAS or all SATA).  
The probability that an array will experience a drive failure increases with the number of physical  
drives in the array.  
For conceptual information about arrays, logical drives, and fault-tolerance methods, and for information  
about default array configuration settings, refer to the HP Array Configuration Utility User Guide. This  
document is available on the Documentation CD that is provided in the controller kit.  
Comparing the utilities  
NOTE: A + in the appropriate column indicates that the feature or procedure is supported, while -- indicates  
that the feature or procedure is not supported.  
Supported features  
ACU  
+
CPQONLIN  
ORCA  
Uses a graphical interface  
Available in languages other than English  
Executable at any time  
--  
--  
+
--  
--  
+
+
+
Only during POST  
Available on CD  
+
CD not necessary;  
located in ROM  
Configuring an array 12  
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Supported features  
ACU  
CPQONLIN  
ORCA  
Uses a wizard to suggest the optimum configuration for  
an unconfigured controller  
+
+
--  
Describes configuration errors  
+
--  
--  
Supported procedures  
ACU  
+
CPQONLIN  
ORCA  
Creation and deletion of arrays and logical drives  
Assignment of RAID level  
+
+
+
+
+
+
+
+
+
--  
+
+
--  
+
Sharing of spare drives among several arrays  
Assignment of multiple spare drives per array  
Setting of stripe size  
+
+
--  
+
--  
Migration of RAID level or stripe size  
Configuration of controller settings  
Expansion of an array  
+
--  
+
--  
+
--  
Creation of multiple logical drives per array  
Setting of boot controller  
+
--  
--  
+
Using ORCA  
1. Power up the server.  
POST runs, and all controllers in the server are initialized one at a time in the current boot order  
sequence. If a controller is connected to one or more hard drives, an ORCA prompt message  
appears during the initialization process for that controller.  
2. At the ORCA prompt for the controller that you want to configure, press the F8 key.  
The ORCA main menu appears, enabling you to create, view, or delete a logical drive.  
To create a logical drive using ORCA:  
1. Select Create Logical Drive.  
The screen displays a list of all available (unconfigured) physical drives and the valid RAID options  
for the system.  
2. Use the Arrow keys, Spacebar, and Tab key to navigate around the screen and set up the  
logical drive, including an online spare drive if one is required.  
Configuring an array 13  
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NOTE: You cannot use ORCA to configure one spare drive to be shared among several arrays. Only ACU  
enables you to configure shared spare drives.  
3. Press the Enter key to accept the settings.  
4. Press the F8 key to confirm the settings and save the new configuration.  
After several seconds, the Configuration Saved screen appears.  
5. Press the Enter key to continue.  
You can now create another logical drive by repeating the previous steps.  
NOTE: Newly created logical drives are invisible to the operating system. To make the new logical drives  
available for data storage, format them using the instructions given in the operating system documentation.  
Using ACU  
For detailed information about using ACU, refer to the HP Array Configuration Utility User Guide. This  
document is available on the Documentation CD that is provided in the controller kit.  
Using CPQONLIN  
The NetWare Online Array Configuration Utility (CPQONLIN) is an NLM that enables you to configure  
drive arrays on a NetWare server without powering down the server or storage system. CPQONLIN also  
provides information about the status of drives attached to the controller.  
NOTE: CPQONLIN can only be used while the server is online. If you want to configure an array when the  
server is offline, you must use ACU instead.  
To run CPQONLIN:  
1. Use the software CD provided with the controller to load the drivers (HPQCISS.HAM and  
CPQSHD.CDM) and the executable (CPQONLIN.NLM) on the server. Detailed instructions are  
provided with the CD.  
2. Enter cpqonlin at the console prompt.  
3. Use the arrow keys to highlight the Array Configuration Utility menu item, and then press the Enter  
key.  
4. From the list of controllers that is presented, select the one that you want to configure.  
If there are no logical drives connected to the controller, an auto-configuration wizard opens and  
prompts you for fault-tolerance information.  
If the controller is connected to at least one logical drive, CPQONLIN continues in manual  
configuration mode. Use the arrow and Enter keys to navigate around the screen and set up the  
logical drive. To get online help at any time, press the F1 key.  
5. When you have finished configuring the array, save the changes.  
NOTE: Newly created logical drives are invisible to the operating system. To make the new logical drives  
available for data storage, format them using the instructions given in the operating system documentation.  
The following sections provide details of some typical procedures.  
Setting drive rebuild, expand priority, and accelerator ratio  
1. Go to the Main Configuration View screen.  
2. Highlight the controller.  
Configuring an array 14  
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3. Select the Controller Settings option below Controller Options. The Controller Settings screen  
appears.  
Drive rebuild  
Drive rebuild occurs after a physical drive fails and is replaced. Only logical drives that are configured  
with RAID 1+0 or RAID 5 can be rebuilt.  
Priority settings  
To set the drive rebuild priority:  
1. Highlight the controller.  
2. Select the controller settings:  
If you choose low priority for drive rebuild, drive rebuilding occurs when I/O to the drive is  
inactive.  
If you choose high priority, drive rebuilding occurs faster, at the expense of normal I/O  
operations.  
Accelerator ratio  
The controller has an onboard cache called an Array Accelerator, which performs both write-posting and  
read-ahead caching. The setting in CPQONLIN determines the amount of memory allocated to the read  
and write caches.  
For example, if the accelerator ratio is set to Read 75%:Write 25%, 75% of Array Accelerator cache is  
dedicated to read-ahead cache and 25% is dedicated to the write-posting cache. This option can be  
modified from the Controller Settings menu.  
Expanding an array  
During an expand, performance might be slightly degraded. In most cases, however, any potential  
degradation is offset by the addition of physical drives.  
IMPORTANT: Be sure that the cache battery is connected and fully charged before beginning an array  
expansion, RAID level migration, or stripe size migration.  
Some tips for expanding include:  
Perform the expand process during periods of low server use. If you must expand during peak  
periods, CPQONLIN enables you to set the priority of the expand. Setting the priority to LOW  
affects performance the least, but it takes longer for the new space to become available.  
When expanding, always add drives with a capacity equal to or greater than the capacity of the  
smallest drive in the array. Adding larger drives wastes space because only the space that is equal  
to the smallest drive size can be used.  
Adding or configuring spare drives  
When adding a spare drive to an array, an unassigned drive must exist or a drive already assigned as a  
spare must exist on another array. You can assign a single spare to any number of arrays or assign  
separate spares.  
When you select Assign Spare Drive, only drives that qualify appear (for example, only those spares  
that are large enough appear). If drives that you expect to see do not appear, switch to the physical drive  
view (Tab key), and check the size of the drives. The capacity of the spare must be equal to or greater  
than the capacity of the smallest drive in the array.  
Configuring an array 15  
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Migrating RAID level and stripe size online  
Using CPQONLIN, you can modify both the RAID level and stripe size of an existing logical drive while  
online.  
IMPORTANT: Be sure that the cache battery is connected and fully charged before beginning an array  
expansion, RAID level migration, or stripe size migration.  
To migrate a drive:  
1. Select the drive setting option under the logical drive menu for the drive you intend to modify.  
2. Select the new RAID level, stripe size, or both from the choices presented. If the new settings are  
valid, the migration begins when you save the changes.  
Configuring an array 16  
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Setting the boot controller and controller order  
In this section  
Setting a controller as the boot controller .................................................................................................. 17  
Setting the controller order ...................................................................................................................... 17  
Setting a controller as the boot controller  
The following procedure enables you only to set a controller as the boot controller. If you also want to  
adjust the boot order settings of other controllers in the system, use RBSU instead ("Setting the controller  
IMPORTANT: A controller that is to be set as the boot controller must be connected to a logical drive.  
1. Power up the server.  
POST runs, and all controllers in the server are initialized one at a time in the current boot order  
sequence. If a controller is connected to one or more hard drives, an ORCA prompt message  
appears during the initialization process for that controller.  
As soon as you see the ORCA prompt for the controller that you want to set as the boot controller,  
continue with the next step.  
2. Press the F8 key.  
The ORCA main menu appears. If the controller is configured with a logical drive, one of the menu  
options is to set the controller as the boot controller.  
3. Select the appropriate menu option, and follow any subsequent on-screen instructions. If prompted to  
save the settings, do so.  
4. If you want to configure or reconfigure an array on this controller, you can do this while you are still  
in ORCA. For further information, see the ORCA procedure in the array configuration section  
If you do not want to configure an array at this time or if you intend to use a different utility to  
configure the array, exit from ORCA, and then restart the server for the new boot controller setting to  
take effect.  
Setting the controller order  
1. Power up the server.  
The server runs the POST sequence and briefly displays an RBSU prompt.  
2. At the prompt, press the F9 key to start RBSU.  
3. Follow the on-screen instructions to set the boot order for the different controllers in the system.  
4. Save the settings.  
5. Exit from the utility.  
For more information about using RBSU, refer to the HP ROM-Based Setup Utility User Guide or the server  
setup and installation guide. These documents are both available on the Documentation CD supplied in  
the server kit.  
Setting the boot controller and controller order 17  
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Installing device drivers and Management  
Agents  
In this section  
Installing device drivers  
The drivers for the controller are located on the Support Software CD or the SmartStart CD that is  
provided in the controller kit. Updates are posted to the HP website (http://www.hp.com/support).  
Using the Support Software CD: Instructions for installing the drivers from the Support Software CD  
are given in the leaflet that is supplied with the CD.  
Using the SmartStart CD: If you use the Assisted Installation path feature of SmartStart to install the  
operating system on a new server, the drivers are automatically installed at the same time.  
You can also use SmartStart to update the drivers manually on systems that are already configured. For  
more information, refer to the SmartStart documentation.  
Installing Management Agents  
If you use the Assisted Installation path feature of SmartStart to install the operating system on a new  
server, the Management Agents are automatically installed at the same time.  
You can update the Management Agents by using the latest versions of the agents from the HP website  
(http://www.hp.com/servers/manage). The procedure for updating the agents is provided on the same  
Web page.  
If the new agents do not function correctly, you might also need to update Systems Insight Manager. The  
latest version of Systems Insight Manager is available for download at the HP website  
Installing device drivers and Management Agents 18  
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Upgrading or replacing controller options  
In this section  
Replacing a battery ................................................................................................................................ 19  
Replacing a battery  
WARNING: There is a risk of explosion, fire, or personal injury if the battery pack is not  
properly handled. Refer to "Battery replacement notice (on page 35)" before installing or  
removing any item that contains a battery pack.  
The standard 64-MB cache module does not use a battery. Only the cache upgrade module uses a  
battery.  
1. Close all applications, and then power down the server. This procedure flushes all data from the  
cache.  
2. Remove the cache module:  
a. Open the ejector latches on each side of the DIMM connector (1).  
b. Pull the cache module out of the DIMM slot (2).  
3. Press the battery retainer tabs down, and push them through to the other side of the cache board (1).  
Upgrading or replacing controller options 19  
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4. Lift the battery off the cache board (2).  
5. Mount the new battery on the cache board by reversing the procedure used in steps 3 and 4.  
6. Reinstall the cache board and its battery on the controller by reversing the procedure used in step 2.  
IMPORTANT: If the cache is not properly connected, the controller will not boot.  
NOTE: After installing a battery pack, you might see a POST message during reboot indicating that the  
array accelerator (cache) is temporarily disabled. This is normal, because the new battery pack is likely to  
have a low charge. You do not need to take any action, because the recharge process begins automatically  
when the battery pack is installed. The controller will operate properly while the battery pack recharges,  
although the performance advantage of the array accelerator will be absent. When the battery pack has  
been charged to a satisfactory level, the array accelerator will automatically be enabled.  
Upgrading the cache  
WARNING: There is a risk of explosion, fire, or personal injury if the battery pack is not  
properly handled. Refer to "Battery replacement notice (on page 35)" before installing or  
removing any item that contains a battery pack.  
1. Close all applications, and then power down the server. This procedure flushes all data from the  
cache.  
2. Remove the existing cache module:  
a. Open the ejector latches on each side of the DIMM connector (1).  
Upgrading or replacing controller options 20  
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b. Pull the cache module out of the DIMM slot (2).  
3. Insert the cache upgrade module and its attached battery into the DIMM slot on the controller.  
IMPORTANT: If the cache is not properly connected, the controller will not boot.  
Upgrading or replacing controller options 21  
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Replacing, moving, or adding hard drives  
In this section  
Identifying the status of a hard drive......................................................................................................... 22  
Moving drives and arrays ....................................................................................................................... 28  
Adding drives........................................................................................................................................ 28  
Identifying the status of a hard drive  
When a drive is configured as a part of an array and connected to a powered-up controller, the condition  
of the drive can be determined from the illumination pattern of the hard drive status lights (LEDs).  
Item  
Description  
1
Fault/ID LED (amber/blue)  
2
Online LED (green)  
Online/Activity  
LED (green)  
Fault/UID LED  
(amber/blue)  
Interpretation  
On, off, or flashing Alternating amber  
and blue  
The drive has failed, or a predictive failure alert has been  
received for this drive; it also has been selected by a  
management application.  
On, off, or flashing Steadily blue  
The drive is operating normally, and it has been selected by a  
management application.  
On  
Amber, flashing  
regularly (1 Hz)  
A predictive failure alert has been received for this drive.  
Replace the drive as soon as possible.  
Replacing, moving, or adding hard drives 22  
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Online/Activity  
LED (green)  
Fault/UID LED  
(amber/blue)  
Interpretation  
On  
Off  
The drive is online, but it is not active currently.  
Flashing regularly Amber, flashing  
(1 Hz) regularly (1 Hz)  
Do not remove the drive. Removing a drive may  
terminate the current operation and cause data loss.  
The drive is part of an array that is undergoing capacity  
expansion or stripe migration, but a predictive failure alert has  
been received for this drive. To minimize the risk of data loss, do  
not replace the drive until the expansion or migration is  
complete.  
Flashing regularly Off  
(1 Hz)  
Do not remove the drive. Removing a drive may  
terminate the current operation and cause data loss.  
The drive is rebuilding, or it is part of an array that is undergoing  
capacity expansion or stripe migration.  
Flashing irregularly Amber, flashing  
regularly (1 Hz)  
The drive is active, but a predictive failure alert has been  
received for this drive. Replace the drive as soon as possible.  
Flashing irregularly Off  
The drive is active, and it is operating normally.  
Off  
Steadily amber  
A critical fault condition has been identified for this drive, and  
the controller has placed it offline. Replace the drive as soon as  
possible.  
Off  
Off  
Amber, flashing  
regularly (1 Hz)  
A predictive failure alert has been received for this drive.  
Replace the drive as soon as possible.  
Off  
The drive is offline, a spare, or not configured as part of an  
array.  
Recognizing hard drive failure  
A steadily glowing Fault LED indicates that that drive has failed. Other means by which hard drive failure  
is revealed are:  
The amber LED on the front of a storage system illuminates if failed drives are inside. (However, this  
LED also illuminates when other problems occur, such as when a fan fails, a redundant power supply  
fails, or the system overheats.)  
A POST message lists failed drives whenever the system is restarted, as long as the controller detects  
at least one functional drive.  
ACU represents failed drives with a distinctive icon.  
Systems Insight Manager can detect failed drives remotely across a network. (For more information  
about Systems Insight Manager, refer to the documentation on the Management CD.)  
ADU lists all failed drives.  
For additional information about diagnosing hard drive problems, refer to the HP Servers Troubleshooting  
Guide.  
CAUTION: Sometimes, a drive that has previously been failed by the controller may seem to be  
operational after the system is power-cycled or (for a hot-pluggable drive) after the drive has been removed  
and reinserted. However, continued use of such marginal drives may eventually result in data loss. Replace  
the marginal drive as soon as possible.  
Replacing, moving, or adding hard drives 23  
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Effects of a hard drive failure  
When a hard drive fails, all logical drives that are in the same array are affected. Each logical drive in  
an array can use a different fault-tolerance method, so each logical drive can be affected differently.  
RAID 0 configurations cannot tolerate drive failure. If any physical drive in the array fails, all non-  
fault-tolerant (RAID 0) logical drives in the same array will also fail.  
RAID 1+0 configurations can tolerate multiple drive failures as long as no failed drives are mirrored  
to one another.  
RAID 5 configurations can tolerate one drive failure.  
Compromised fault tolerance  
If more hard drives fail than the fault-tolerance method allows, fault tolerance is compromised, and the  
logical drive fails. In this case, all requests from the operating system are rejected with unrecoverable  
errors. You are likely to lose data, although it can sometimes be recovered (refer to "Recovering from  
One example of a situation in which compromised fault tolerance may occur is when a drive in an array  
fails while another drive in the array is being rebuilt. If the array has no online spare, any logical drives  
in this array that are configured with RAID 5 fault tolerance will fail.  
Compromised fault tolerance can also be caused by non-drive problems, such as a faulty cable or  
temporary power loss to a storage system. In such cases, you do not need to replace the physical drives.  
However, you may still have lost data, especially if the system was busy at the time that the problem  
occurred.  
Recovering from compromised fault tolerance  
If fault tolerance is compromised, inserting replacement drives does not improve the condition of the  
logical volume. Instead, if the screen displays unrecoverable error messages, perform the following  
procedure to recover data:  
1. Power down the entire system, and then power it back up. In some cases, a marginal drive will work  
again for long enough to enable you to make copies of important files.  
If a 1779 POST message is displayed, press the F2 key to re-enable the logical volumes. Remember  
that data loss has probably occurred and any data on the logical volume is suspect.  
2. Make copies of important data, if possible.  
3. Replace any failed drives.  
4. After you have replaced the failed drives, fault tolerance may again be compromised. If so, cycle the  
power again. If the 1779 POST message is displayed:  
a. Press the F2 key to re-enable the logical drives.  
b. Recreate the partitions.  
c. Restore all data from backup.  
To minimize the risk of data loss that is caused by compromised fault tolerance, make frequent backups of  
all logical volumes.  
Replacing hard drives  
The most common reason for replacing a hard drive is that it has failed. However, another reason is to  
gradually increase the storage capacity of the entire system.  
Replacing, moving, or adding hard drives 24  
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If you insert a hot-pluggable drive into a drive bay while the system power is on, all disk activity in the  
array pauses for a second or two while the new drive is spinning up. When the drive has achieved its  
normal spin rate, data recovery to the replacement drive begins automatically (as indicated by the  
blinking Online/Activity LED on the replacement drive) if the array is in a fault-tolerant configuration.  
If you replace a drive belonging to a fault-tolerant configuration while the system power is off, a POST  
message appears when the system is next powered up. This message prompts you to press the F1 key to  
start automatic data recovery. If you do not enable automatic data recovery, the logical volume remains  
in a ready-to-recover condition and the same POST message appears whenever the system is restarted.  
Hard drive replacement guidelines  
Before replacing a degraded drive, perform the following tasks:  
Open HP Systems Insight Manager, and inspect the Error Counter window for each physical drive in  
the same array to confirm that no other drives have any errors. (For details, see the Systems Insight  
Manager documentation on the Management CD.)  
Be sure that the array has a current, valid backup.  
Confirm that the replacement drive is of the same type (SAS or SATA) as the degraded drive.  
Use replacement drives that have a capacity at least as great as that of the smallest drive in the  
array. The controller immediately fails drives that have insufficient capacity.  
In systems that use external data storage, be sure that the server is the first unit to be powered down and  
the last to be powered back up. Taking this precaution ensures that the system does not erroneously mark  
the drives as failed when the server is powered up.  
To minimize the likelihood of fatal system errors, take these precautions when removing failed drives:  
Do not remove a degraded drive if any other drive in the array is offline (the Online/Activity LED is  
off). In this situation, no other drive in the array can be removed without data loss.  
The following cases are exceptions:  
When RAID 1+0 is used, drives are mirrored in pairs. Several drives can be in a failed condition  
simultaneously (and they can all be replaced simultaneously) without data loss, as long as no two  
failed drives belong to the same mirrored pair.  
If the offline drive is a spare, the degraded drive can be replaced.  
Do not remove a second drive from an array until the first failed or missing drive has been replaced  
and the rebuild process is complete. (The rebuild is complete when the Online/Activity LED on the  
front of the drive stops blinking.)  
The following case is an exception:  
In RAID 1+0 configurations, any drives that are not mirrored to other removed or failed drives  
can be simultaneously replaced offline without data loss.  
Automatic data recovery (rebuild)  
When you replace a hard drive in an array, the controller uses the fault-tolerance information on the  
remaining drives in the array to reconstruct the missing data (the data that was originally on the replaced  
drive) and write it to the replacement drive. This process is called automatic data recovery, or rebuild. If  
fault tolerance is compromised, this data cannot be reconstructed and is likely to be permanently lost.  
Fault tolerance is unavailable during a rebuild. If another drive in the array fails while a rebuild is in  
progress, a fatal system error can occur, and all data on the array is then lost. In some cases, however,  
failure of another drive need not lead to a fatal system error. These exceptions include:  
Failure after activation of a spare drive  
Failure of a drive that is not mirrored to any other failed drives (in a RAID 1+0 configuration)  
Replacing, moving, or adding hard drives 25  
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Time required for a rebuild  
The time required for a rebuild varies considerably, depending on several factors:  
The priority that the rebuild is given over normal I/O operations (you can change the priority setting  
by using ACU)  
The amount of I/O activity during the rebuild operation  
The rotational speed of the hard drives  
The availability of drive cache  
The brand, model, and age of the drives  
The amount of unused capacity on the drives  
For RAID 5, the number of drives in the array  
Allow approximately 15 minutes per gigabyte for the rebuild process to be completed. This figure is  
conservative, and the actual time required is usually less.  
System performance is affected during the rebuild, and the system is unprotected against further drive  
failure until the rebuild has finished. Therefore, replace drives during periods of low activity when  
possible.  
When automatic data recovery has finished, the Online/Activity LED of the replacement drive stops  
blinking steadily at 1 Hz and begins to either glow steadily (if the drive is inactive) or flash irregularly (if  
the drive is active).  
CAUTION: If the Online/Activity LED on the replacement drive does not light up while the corresponding  
LEDs on other drives in the array are active, the rebuild process has abnormally terminated. The amber Fault  
LED of one or more drives might also be illuminated. Refer to "Abnormal termination of a rebuild (on page  
Abnormal termination of a rebuild  
If the Online/Activity LED on the replacement drive permanently ceases to be illuminated even while other  
drives in the array are active, the rebuild process has abnormally terminated. The following table  
indicates the three possible causes of abnormal termination of a rebuild.  
Observation  
Cause of rebuild termination  
None of the drives in the array have  
an illuminated amber Fault LED.  
One of the drives in the array has  
experienced an uncorrectable read error.  
The replacement drive has an  
illuminated amber Fault LED.  
The replacement drive has failed.  
One of the other drives in the array  
has an illuminated amber Fault LED.  
The drive with the illuminated Fault LED has  
now failed.  
Each of these situations requires a different remedial action.  
Case 1: An uncorrectable read error has occurred.  
1. Back up as much data as possible from the logical drive.  
CAUTION: Do not remove the drive that has the media error. Doing so causes the logical drive to fail.  
2. Restore data from backup. Writing data to the location of the unreadable sector often eliminates the  
error.  
3. Remove and reinsert the replacement drive. This action restarts the rebuild process.  
If the rebuild process still terminates abnormally:  
1. Delete and recreate the logical drive.  
Replacing, moving, or adding hard drives 26  
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2. Restore data from backup.  
Case 2: The replacement drive has failed.  
Verify that the replacement drive is of the correct capacity and is a supported model. If these factors are  
not the cause of the problem, use a different drive as the replacement.  
Case 3: Another drive in the array has failed.  
A drive that has recently failed can sometimes be made temporarily operational again by cycling the  
server power.  
1. Power down the server.  
2. Remove the replacement physical drive (the one undergoing a rebuild), and reinstall the drive that it  
is replacing.  
3. Power up the server.  
If the newly failed drive seems to be operational again:  
1. Back up any unsaved data.  
2. Remove the drive that was originally to be replaced, and reinsert the replacement physical drive. The  
rebuild process automatically restarts.  
3. When the rebuild process has finished, replace the newly failed drive.  
However, if the newly failed drive has not recovered:  
1. Remove the drive that was originally to be replaced, and reinsert the replacement physical drive.  
2. Replace the newly failed drive.  
3. Restore data from backup.  
Upgrading hard drive capacity  
You can increase the storage capacity on a system even if there are no available drive bays by swapping  
drives one at a time for higher capacity drives. This method is viable as long as a fault-tolerance method  
is running.  
CAUTION: Because it can take up to 15 minutes per gigabyte to rebuild the data in the new configuration,  
the system is unprotected against drive failure for many hours while a given drive is upgraded. Perform drive  
capacity upgrades only during periods of minimal system activity.  
To upgrade hard drive capacity:  
1. Back up all data.  
2. Replace any drive. The data on the new drive is re-created from redundant information on the  
remaining drives.  
CAUTION: Do not replace any other drive until data rebuild on this drive is complete.  
When data rebuild on the new drive is complete, the Online/Activity LED stops flashing steadily and  
either flashes irregularly or glows steadily.  
3. Repeat the previous step for the other drives in the array, one at a time.  
When you have replaced all drives, you can use the extra capacity to either create new logical drives or  
extend existing logical drives. For more information about these procedures, refer to the HP Array  
Configuration Utility User Guide.  
Replacing, moving, or adding hard drives 27  
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Moving drives and arrays  
You can move drives to other ID positions on the same array controller. You can also move a complete  
array from one controller to another, even if the controllers are on different servers.  
Before you move drives, the following conditions must be met:  
The server must be powered down.  
If moving the drives to a different server, the new server must have enough empty bays to  
accommodate all the drives simultaneously.  
The array has no failed or missing drives, and no spare drive in the array is acting as a replacement  
for a failed drive.  
The controller is not running capacity expansion, capacity extension, or RAID or stripe size  
migration.  
The controller is using the latest firmware version (recommended).  
If you want to move an array to another controller, all drives in the array must be moved at the same time.  
When all the conditions have been met:  
1. Back up all data before removing any drives or changing configuration. This step is required if you  
are moving data-containing drives from a controller that does not have a battery-backed cache.  
2. Power down the system.  
3. Move the drives.  
4. Power up the system. If a 1724 POST message appears, drive positions were changed successfully  
and the configuration was updated.  
If a 1785 (Not Configured) POST message appears:  
a. Power down the system immediately to prevent data loss.  
b. Return the drives to their original locations.  
c. Restore the data from backup, if necessary.  
5. Verify the new drive configuration by running ORCA or ACU ("Configuring an array" on page 12).  
Adding drives  
You can add hard drives to a system at any time, as long as you do not exceed the maximum number of  
drives that the controller supports. You can then either build a new array from the added drives or use the  
extra storage capacity to expand the capacity of an existing array.  
To perform an array capacity expansion, use ACU. If the system is using hot-pluggable drives, you can  
expand array capacity without shutting down the operating system (that is, with the server online) if ACU  
is running in the same environment as the normal server applications. (For more information, refer to the  
HP Array Configuration Utility User Guide.)  
Replacing, moving, or adding hard drives 28  
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The expansion process is illustrated in the following figure, in which the original array (containing data) is  
shown with a dashed border and the newly added drives (containing no data) are shown unshaded. The  
array controller adds the new drives to the array and redistributes the original logical drives over the  
enlarged array one logical drive at a time. This process liberates some storage capacity on each of the  
physical drives in the array. During this procedure, the logical drives each keep the same fault-tolerance  
method in the enlarged array that they had in the smaller array.  
When the expansion process has finished, you can use the liberated storage capacity on the enlarged  
array to create new logical drives. Alternatively, you can enlarge one of the original logical drives. This  
latter process is called logical drive capacity extension and is also carried out using ACU.  
Replacing, moving, or adding hard drives 29  
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Diagnosing array problems  
In this section  
Diagnostic tools ..................................................................................................................................... 32  
Controller board runtime LEDs  
NOTE: During server power-up, each runtime LED illuminates randomly until POST has finished.  
LED ID  
Color  
LED name and interpretation  
1
Green  
CR1: Idle Task LED. This LED, together with item 2, indicates the amount of  
controller CPU activity. For details, see the following table.  
2
3
4
Green  
Green  
Green  
CR2: Gas Pedal LED. This LED, together with item 1, indicates the amount of  
controller CPU activity. For details, see the following table.  
CR3: Heartbeat LED. This LED blinks every two seconds to indicate the controller  
health.  
CR4: Command Outstanding LED. The controller is working on a command from  
the host driver.  
5
6
7
Green  
Green  
Amber  
CR5: DMA Activity LED.  
CR6: SAS Activity LED.  
CR7: Drive Failure LED. A physical drive connected to the controller has failed.  
Observe the Fault LED on each drive to determine which drive has failed.  
8
Amber  
CR8: Controller Lockup LED.  
Diagnosing array problems 30  
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Idle task LED  
status  
Gas pedal LED  
status  
Controller CPU activity level  
Blinking  
Off  
Off  
0–25%  
Blinking  
On steadily  
On steadily  
25–50%  
50–75%  
75–100%  
Off  
On steadily  
Battery pack LEDs  
Only the cache upgrade module has a battery pack. The LEDs for the battery pack are viewable on the  
cache board.  
Item 1  
(amber LED)  
Item 2 (green Interpretation  
LED)  
Steady glow  
Fast blink  
The cache batteries are being charged. (The  
charging process takes less than three hours.)  
The cache microcontroller is waiting for the host  
controller to communicate.  
Steady glow  
One of the following situations is occurring:  
There is a short circuit across the battery  
terminals or within the battery pack.  
The host controller is updating the cache  
microcontroller firmware.  
Fast blink  
There is an open circuit across the battery  
terminals or within the battery pack.  
Diagnosing array problems 31  
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Item 1  
(amber LED)  
Item 2 (green Interpretation  
LED)  
Slow blink  
(once every  
16 seconds)  
This display pattern occurs after the system is  
powered down if the cache contains data that  
has not yet been written to the drives. Restore  
system power as soon as possible to prevent  
data loss. (A fully charged battery pack can  
preserve cached data for up to three days.)  
The life expectancy of a battery pack is  
typically three years or more, depending on the  
cache module size. For further information, see  
the controller QuickSpecs on the HP website  
Diagnostic tools  
Several diagnostic tools provide feedback about problems with arrays. The most important are:  
ADU  
This utility is available on both the SmartStart CD and the HP website (http://www.hp.com/support).  
The meanings of the various ADU error messages are provided in the HP Servers Troubleshooting  
Guide.  
POST messages  
Smart Array controllers produce diagnostic error messages at reboot. Many of these POST messages  
are self-explanatory and suggest corrective actions. For more information about POST messages,  
refer to the HP Servers Troubleshooting Guide.  
Server Diagnostics  
To use Server Diagnostics:  
a. Insert the SmartStart CD into the server CD-ROM drive.  
b. Click Agree when the license agreement appears, and click the Maintenance tab.  
c. Click Server Diagnostics, and follow the on-screen prompts and instructions.  
Diagnosing array problems 32  
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Electrostatic discharge  
In this section  
Grounding methods to prevent electrostatic discharge ................................................................................ 33  
Preventing electrostatic discharge  
To prevent damaging the system, be aware of the precautions you need to follow when setting up the  
system or handling parts. A discharge of static electricity from a finger or other conductor may damage  
system boards or other static-sensitive devices. This type of damage may reduce the life expectancy of the  
device.  
To prevent electrostatic damage:  
Avoid hand contact by transporting and storing products in static-safe containers.  
Keep electrostatic-sensitive parts in their containers until they arrive at static-free workstations.  
Place parts on a grounded surface before removing them from their containers.  
Avoid touching pins, leads, or circuitry.  
Always be properly grounded when touching a static-sensitive component or assembly.  
Grounding methods to prevent electrostatic discharge  
Several methods are used for grounding. Use one or more of the following methods when handling or  
installing electrostatic-sensitive parts:  
Use a wrist strap connected by a ground cord to a grounded workstation or computer chassis. Wrist  
straps are flexible straps with a minimum of 1 megohm 10 percent resistance in the ground cords.  
To provide proper ground, wear the strap snug against the skin.  
Use heel straps, toe straps, or boot straps at standing workstations. Wear the straps on both feet  
when standing on conductive floors or dissipating floor mats.  
Use conductive field service tools.  
Use a portable field service kit with a folding static-dissipating work mat.  
If you do not have any of the suggested equipment for proper grounding, have an authorized reseller  
install the part.  
For more information on static electricity or assistance with product installation, contact an authorized  
reseller.  
Electrostatic discharge 33  
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Regulatory compliance notices  
In this section  
European Union regulatory notice ............................................................................................................ 34  
BSMI notice........................................................................................................................................... 34  
Battery replacement notice ...................................................................................................................... 35  
European Union regulatory notice  
This product complies with the following EU Directives:  
Low Voltage Directive 73/23/EEC  
EMC Directive 89/336/EEC  
Compliance with these directives implies conformity to applicable harmonized European standards  
(European Norms) which are listed on the EU Declaration of Conformity issued by Hewlett-Packard for this  
product or product family.  
This compliance is indicated by the following conformity marking placed on the product:  
This marking is valid for non-Telecom products and EU harmonized Telecom products (e.g. Bluetooth).  
This marking is valid for EU non-harmonized Telecom products.  
*Notified body number (used only if applicable—refer to the product label)  
BSMI notice  
Regulatory compliance notices 34  
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Korean class B notice  
Battery replacement notice  
This component uses a nickel metal hydride (NiMH) battery pack.  
WARNING: There is a risk of explosion, fire, or personal injury if a battery pack is  
mishandled. To reduce this risk:  
Do not attempt to recharge the batteries if they are disconnected from the controller.  
Do not expose the battery pack to water, or to temperatures higher than  
60°C (140°F).  
Do not abuse, disassemble, crush, or puncture the battery pack.  
Do not short the external contacts.  
Replace the battery pack only with the designated HP spare.  
Battery disposal should comply with local regulations.  
Batteries, battery packs, and accumulators should not be disposed of together with the  
general household waste. To forward them to recycling or proper disposal, please use  
the public collection system or return them to HP, an authorized HP Partner, or their  
agents.  
For more information about battery replacement or proper disposal, contact an authorized reseller or an  
authorized service provider.  
Taiwan battery recycling notice  
The Taiwan EPA requires dry battery manufacturing or importing firms in accordance with Article 15 of  
the Waste Disposal Act to indicate the recovery marks on the batteries used in sales, giveaway or  
promotion. Contact a qualified Taiwanese recycler for proper battery disposal.  
Regulatory compliance notices 35  
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Acronyms and abbreviations  
ACR  
Array Configuration Replicator  
ACU  
Array Configuration Utility  
ADG  
Advanced Data Guarding (also known as RAID 6)  
ADU  
Array Diagnostics Utility  
BBWC  
battery-backed write cache  
CPQONLIN  
NetWare Online Array Configuration Utility  
ORCA  
Option ROM Configuration for Arrays  
POST  
Power-On Self Test  
RBSU  
ROM-Based Setup Utility  
SA  
Smart Array  
SIM  
Systems Insight Manager  
Acronyms and abbreviations 36  
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Index  
drives, configuring 15  
A
ACU (Array Configuration Utility) 14  
E
ADU (Array Diagnostic Utility) 32  
array capacity expansion 28  
Array Configuration Utility (ACU) 14  
array controller installation overview 7  
Array Diagnostic Utility (ADU) 32  
environmental requirements 5  
error messages 23, 32  
extending logical drive capacity 28  
F
B
failure of hard drive 23  
firmware, updating 11  
battery pack LEDs 31  
battery replacement notice 35  
BSMI notice 34  
G
H
C
hard drive, failure of 24  
hard drives, determining status of 22  
connectors 5  
controller board, features of 5  
controller installation, overview of 7  
controller LEDs 30  
I
controller order, setting 17  
D
L
data transfer rate 5  
diagnostic tools 32  
drive capacity, upgrading 27  
drive failure, detecting 23  
LEDs, battery pack 31  
logical drive capacity extension 28  
logical drive, creating 12  
Index 37  
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M
Management Agents, updating 18  
O
Option ROM Configuration for Arrays (ORCA) 13  
ORCA (Option ROM Configuration for Arrays) 13  
overview of installation process 7  
P
POST error messages 23, 32  
power requirements 5  
R
rebuild, time required for 26  
regulatory compliance notices 34  
replacing hard drives 22  
replacing the batteries 19  
runtime LEDs 30  
S
Server Diagnostics utility 32  
specifications, controller 5  
static electricity 33  
status lights, battery pack 31  
storage capacity, increasing 27  
storage devices, connecting 10  
T
temperature requirements 5  
troubleshooting 32  
U
upgrading drive capacity 27  
Index 38  
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