HP Hewlett Packard Network Card AB232A User Manual

Installation  
Guide  
hp StorageWorks  
AB232A PCI-X Host Bus Adapter  
Third Edition (June 2004)  
Part Number: AA–RU1ZC–TE  
This guide describes how to install, configure, and use the diagnostic utilities for the AB232A  
PCI-X host bus adapter for 64-bit Windows operating systems.  
 
 
contents  
3
 
Contents  
4
 
Contents  
Figures  
Tables  
5
 
about this  
guide  
This installation guide provides information to help you:  
About this Guide  
Install, configure, andAubsoeutththeisdGiuaigdenostic utilities for the AB232A PCI-X host  
bus adapter for 64-bit Windows systems.  
Contact technical support for additional assistance.  
“About this Guide” topics include:  
7
 
 
About this Guide  
Overview  
This section covers the following topics:  
Intended Audience  
This book is intended for use by system administrators who are experienced with  
the following:  
Windows Server 2003 Enterprise Edition, 64-bit version  
Host bus adapters  
Related Documentation  
In addition to this guide, refer to the HP StorageWorks AB232A PCI-X Host Bus  
Adapter Release Notes.  
8
 
         
About this Guide  
Conventions  
Conventions consist of the following:  
Document Conventions  
The document conventions included in Table 1 apply in most cases.  
Table 1: Document Conventions  
Element  
Convention  
Cross-reference links  
Blue text: Figure 1  
Key and field names, menu items,  
buttons, and dialog box titles  
Bold  
File names, application names, and text  
emphasis  
Italics  
User input, command and directory  
names, and system responses (output  
and messages)  
Monospace font  
COMMAND NAMES are uppercase  
monospace font unless they are case  
sensitive  
Variables  
<monospace, italic font>  
Website addresses  
Blue, underlined sans serif font text:  
Text Symbols  
The following symbols may be found in the text of this guide. They have the  
following meanings.  
WARNING: Text set off in this manner indicates that failure to follow  
directions in the warning could result in bodily harm or death.  
9
 
           
About this Guide  
Caution: Text set off in this manner indicates that failure to follow directions  
could result in damage to equipment or data.  
Note: Text set off in this manner presents commentary, sidelights, or interesting points  
of information.  
Equipment Symbols  
The following equipment symbols may be found on hardware for which this guide  
pertains. They have the following meanings.  
Any enclosed surface or area of the equipment marked with these  
symbols indicates the presence of electrical shock hazards. Enclosed  
area contains no operator serviceable parts.  
WARNING: To reduce the risk of personal injury from electrical shock  
hazards, do not open this enclosure.  
Any RJ-45 receptacle marked with these symbols indicates a network  
interface connection.  
WARNING: To reduce the risk of electrical shock, fire, or damage to  
the equipment, do not plug telephone or telecommunications  
connectors into this receptacle.  
Any surface or area of the equipment marked with these symbols  
indicates the presence of a hot surface or hot component. Contact with  
this surface could result in injury.  
WARNING: To reduce the risk of personal injury from a hot  
component, allow the surface to cool before touching.  
10  
 
   
About this Guide  
Power supplies or systems marked with these symbols indicate  
the presence of multiple sources of power.  
WARNING: To reduce the risk of personal injury from electrical  
shock, remove all power cords to completely disconnect power  
from the power supplies and systems.  
Any product or assembly marked with these symbols indicates that the  
component exceeds the recommended weight for one individual to  
handle safely.  
WARNING: To reduce the risk of personal injury or damage to the  
equipment, observe local occupational health and safety requirements  
and guidelines for manually handling material.  
Getting Help  
If you still have a question after reading this guide, contact an HP authorized  
service provider or access our website http://www.hp.com  
.
HP Technical Support  
Telephone numbers for worldwide technical support are listed on the HP website  
http://www.hp.com/support/. From this website, select the country of origin.  
Note: For continuous quality improvement, calls may be recorded or monitored.  
Be sure to have the following information available before calling:  
Technical support registration number (if applicable)  
Product serial numbers  
Product model names and numbers  
Applicable error messages  
Operating system type and revision level  
Detailed, specific questions  
11  
 
       
About this Guide  
HP Storage Website  
The HP website has the latest information on this product, as well as the latest  
drivers. Access storage at  
.
From this website, select the appropriate product or solution.  
HP Authorized Reseller  
For the name of your nearest HP authorized reseller:  
In the United States, call 1-800-345-1518  
In Canada, call 1-800-263-5868  
Elsewhere, see the HP website for locations and telephone numbers:  
.
12  
 
       
Adapter Features  
1
This introduction to the AB232A PCI-X Host Bus Adapter (HBA) includes:  
13  
 
       
Adapter Features  
Product Description  
The AB232A HBA has the following characteristics:  
Robust suite of software supporting Windows Server 2003 Enterprise Edition,  
64-bit version.  
Optical small form factor (LC) interface LC Fibre connector.  
Embedded optical shortwave laser, multi-mode Fibre Channel interface.  
AB232A is designed using a single custom Application Specific Integrated  
Circuit (ASIC). The custom ASIC implements a very high performance,  
multiclass, multiprotocol Fibre Channel host adapter with a 64-bit PCI-X bus  
connection.  
66/100/133MHz PCI-X 1.0a compatibility.  
AB232A has a 266MIPs onboard processor, an embedded 1GB/2GB  
SERDES, and a high performance unified QDR SRAM.  
14  
 
 
Adapter Features  
Figure 1 illustrates the AB232A HBA.  
Figure 1: AB232A HBA  
Table 2 describes the AB232A HBA.  
Table 2: AB232A HBA Diagram Description  
Figure  
Legend  
1
Description  
Fibre Channel (LC) connectors.  
POST LEDs indicators  
Note: See Table 3, on page 22 for detailed descriptions.  
2
15  
 
         
Adapter Features  
Performance Specifications  
The AB232A HBA offers a highly integrated 2 Gbps Fibre Channel HBA for use  
in Itanium servers based on the latest PCI-X expansion bus. The features of the  
AB232A HBA provides the flexibility and broad interoperability needed for  
complex, highly scalable SANs.  
The AB232A HBA also features sophisticated hardware that provides superior  
performance in SANs and provides best in class server CPU offload. This  
exclusive hardware delivers low latency and high throughput in switched fabric,  
arbitrated loop, and clustered environments. Support for fiber optic cabling is  
provided through an embedded small form factor (LC) optical interface.  
The AB232A HBA is both ANSI Fibre Channel and PCI Local Bus Compliant  
and supports:  
Full duplex 2 Gbps Fibre Channel that provides data transfers of up to 400  
MBps.  
Full fabric boot support to multiple LUNs.  
FC-Tape (FC-2) devices.  
Point-to-point, arbitrated-loop, and switch fabric FC connections.  
Storage protocol.  
Fibre Channel class 2 and 3.  
Automatic speed negotiation and topology detection.  
End-to-end parity protection for high data integrity.  
Collectively, these characteristics create a high-performance Fibre Channel HBA.  
16  
 
   
Installation  
2
This chapter provides step-by-step instructions for installing the AB232A HBA,  
including:  
This chapter also provides information on installation guidelines and supported  
configurations for the operating systems.  
Caution: The HBAs contain static-sensitive components. Make sure you  
comply with Electrostatic Discharge (ESD) procedures described on page 59.  
17  
 
       
Installation  
Hardware Requirements  
The system hardware requirements for installing the HBAs include:  
AB232A HBA requires one open 64-bit/133 MHz PCI-X universal slot.  
Multimode fiber optic cable with LC connector, used with shortwave lasers.  
18  
 
   
Installation  
Recording Reference Numbers  
Each HBA ships with a unique address identifier that is stored in flash memory.  
Fibre Channel industry standards issue two unique identifiers: WorldWide Port  
Name (WWPN) and Node Name (NN), each of which is derived from the HBA’s  
IEEE address. Combined, the WWPN and NN create the WorldWide Name  
(WWN) which is an 8-byte field that uniquely identifies an HBA on a FC circuit.  
The WWN address and serial number are clearly marked on the HBA. Record the  
addresses on the lines below for future reference.  
Note: The WWN is a static identifier that cannot be changed.  
IEEE address: __________________________________________________  
Serial number: __________________________________________________  
19  
 
   
Installation  
Installing the HBA into a Computer  
Use the following procedure for installing the HBA into a computer.  
Caution: Be sure to observe the ESD precautions described on page 59 for  
this procedure.  
1. Make sure the computer is powered off.  
2. Remove the screws on the computer cover, and then remove the cover.  
3. Wearing a static wrist strap, remove the blank panel from an empty 64-bit  
PCI-X bus slot.  
Compare the removed panel to the bracket on the HBA. Follow steps 4–7 to  
change the bracket if the brackets are different sizes.  
Note: The HBAs come with a standard PCI bracket installed. The low-profile mounting  
bracket is shorter than the standard bracket; approximately 7.9 cm (3.11 in.)  
compared to 12.06 cm (4.75 in.) long.  
4. Remove the mounting bracket screws from the top of the HBA.  
5. Remove the bracket and store it for future use.  
6. Align the new mounting bracket tabs with the holes in the HBA.  
Note: Be careful not to push the bracket past the transceiver housing's grounding  
tabs.  
7. Replace the screws that attach the HBA to the bracket.  
8. Insert the HBA into the empty PCI-X bus slot; press firmly until it is seated  
securely.  
9. Secure the HBA mounting bracket to the computer panel with the panel  
screws.  
10. Replace the computer cover and secure it using the previously removed  
screws.  
20  
 
   
Installation  
11. Attach media:  
a. Connect the fiber optic cable to the LC connector on the HBA.  
b. Connect the other end of the cable to the Fibre Channel device.  
Note: The HBAs do not allow normal data transmission on an optical link unless the  
link is connected to a similar or compatible laser product. That is, both products are  
multimode to multimode.  
21  
 
Installation  
Verifying the Installation  
To verify the HBA is properly installed and is operating:  
1. Turn on the computer.  
2. At power up, observe the POST LED indicators on the HBA. The position of  
the POST LED indicators is defined in page 15 on page 15, and Table 2 on  
page 22 of this guide. The green LED indicates power functions and the  
amber LED signifies port activity. The amber LED blinks at all times during  
normal operation.  
Table 3 lists normal LED indications.  
Table 3: Normal POST LED Indicators  
Amber LED (L1)  
Green LED (L2)  
State  
Off  
Off  
Wake-up failure (dead board)  
POST failure (dead board)  
Wake-up failure (dead board)  
Failure in POST (dead board)  
POST processing in progress  
Failure while functioning  
Failure while functioning  
Normal—1 Gb link rate  
On  
Off  
Slow blink (1 Hz)  
Fast blink (4 Hz)  
Flashing (irregular)  
Off  
Off  
Off  
Off  
On  
On  
On  
Slow blink (1 Hz)  
Fast blink (4 Hz)  
Off  
On  
On  
Normal—2 Gb link rate  
Blink (1 Hz)  
Normal—link down or not yet  
started  
22  
 
         
Installation  
Configuration Guidelines  
The software for loading the driver also contains the default registry parameter  
settings that are loaded as part of the driver installation. Consult the following  
sources for any restriction and for information on supported configurations  
specific to your operating system and topology.  
Release Notes  
.
23  
 
   
Installing the SCSI Miniport  
Driver  
3
This chapter contains step-by-step instructions for installing the SCSI Miniport  
driver.  
System managers must be familiar with the Windows Server 2003 operating  
system under which the PCI-X-to-Fibre Channel HBA is to operate. System  
managers must also have access to standard system documentation.  
HBA files are updated periodically. You can download the latest versions of the  
HBA driver kits from the HP website at  
.
Note: This chapter describes the steps for installing the device driver and for  
accessing Fibre Channel storage devices. For other configuration changes, see Modify  
25  
 
     
Installing the SCSI Miniport Driver  
Device Driver Installation  
This section describes the instructions for installing the Windows SCSI Miniport  
driver.  
System Requirements  
Ensure that your system meets these minimum requirements:  
Installed HBA  
StorageWorks Fibre Channel Storage subsystem (interconnect device and  
storage device)  
Installing or Upgrading a New Driver  
The AB232A HBA is a plug-and-play device that is detected by Windows  
operating systems. Perform the following steps to add or update the Windows  
driver to a previously installed Windows system:  
1. Install the HBA as described in Chapter 2 on page 17.  
2. Restart or turn on the computer.  
3. Browse to the the driver kit on the Smart Setup CD-ROM (or one you  
downloaded from the website if it is more recent).  
4. Double-click cp00xxxx.exe.  
Note: Refer to the following website for the information about this Smart Component’s  
final version number:  
5. Follow the installation wizard instructions.  
6. When the installation completes, you must reboot.  
7. Repeat step 1 through step 6 for any additional HBAs. Make sure to reboot  
after installing the driver for the last HBA.  
26  
 
               
Installing the SCSI Miniport Driver  
Installing the LightPulse Utility  
The LightPulse Utility, LpUtilNt (described in Diagnostic and Configuration  
Utilities, on page 37) does not automatically load. HP recommends that after  
loading the HBA driver, you install LpUtilNt as follows:  
1. Browse to the LighPulse folder on the Smart Setup CD-ROM (or to one  
downloaded from the web site if it is more recent).  
2. Double-click cp00xxxx.exe.  
Note: Refer to the following website for the information about this Smart Component’s  
final version number:  
3. Follow the installation wizard instructions.  
4. After the installation completes, you can start the LightPulse Utility by  
choosing Start > Programs > LpUtilNt.  
27  
 
       
Installing the SCSI Miniport Driver  
28  
 
Troubleshooting  
4
The Power-On Self Test (POST) and the Windows Event Viewer are utilities you  
can use for troubleshooting the HBA. This chapter explains the use of these  
utilities in the event of an HBA problem.  
29  
 
   
Troubleshooting  
POST Conditions and Results  
Table 4 lists the HBA LED states with descriptions of each.The position of the  
POST LED indicators is defined in Figure 1 on page 15, and Table 3 on page 22  
of this guide.  
If the LEDs indicate a failure during POST:  
1. Make sure that the HBA is seated firmly in the PCI slot.  
2. Verify that the fiber cable connection to the HBA is secure.  
Table 4: Normal POST LED Indicators  
Amber LED (L1)  
Green LED (L2)  
State  
Off  
Off  
Wake-up failure (dead board)  
POST failure (dead board)  
Wake-up failure (dead board)  
Failure in POST (dead board)  
POST processing in progress  
Failure while functioning  
Failure while functioning  
Normal—1 Gb link rate  
On  
Off  
Slow blink (1 Hz)  
Fast blink (4 Hz)  
Flashing (irregular)  
Off  
Off  
Off  
Off  
On  
On  
On  
Slow blink (1 Hz)  
Fast blink (4 Hz)  
Off  
On  
On  
Normal—2 Gb link rate  
Blink (1 Hz)  
Normal—link down or not yet  
started  
30  
 
       
Troubleshooting  
Using The Event Viewer  
The Windows SCSI driver verifies the condition of the HBA POST. If there is a  
failure or a suspected failure, an error log entry is issued to the Windows Event  
log.  
Following is the procedure for viewing the event log.  
From the Main menu:  
1. Double-click or choose the Administrative Tools program group.  
2. Double-click or choose the Event Viewer.  
3. Specify LPXNDS.  
Note: You can find the source name in the SCSI device’s Disk Manager.  
4. Double-click any event with the source name.  
5. Change the data view from Bytes (default) to Words.  
6. Examine the entry at offset 0x10: if the low byte = En, match the low byte  
with the error found in Table 5 on page 32, SCSI Port Error Log. Table 6 on  
page 34, and Table 7 on page 35 list CmdStat values and Parameter error  
values.  
31  
 
   
Troubleshooting  
Windows Miniport Event Log Codes  
The Windows Miniport driver logs events and errors in the Windows Event log.  
Serious errors are always logged. Informational events are only logged if the  
registry parameter LogError=1 is used.  
All Miniport logged events are issued with an Event ID of 11 (INTERNAL  
ADAPTER ERROR) but do not necessarily indicate an HBA error occurred. Byte  
offset 0x10 of the event is the driver event code. Byte offsets 0x11 to 0x13 contain  
event-specific information.  
Table 5 describes the SCSI port error log codes.  
Table 5: SCSI Port Error Log Codes  
0x10  
Offset  
Explanation  
0x11 to 0x13 Further Information  
0xD0  
SNS_REQ (XMIT_SEQ  
failed)  
0x11 = cmdstat, 12 = parm err  
0xD1  
SNS_RSP (RCV_SEQ  
failed)  
0x11 = cmdstat, 12 = parm err  
0xD3  
0xD4  
0xD5  
RCV_ELS_REQ failed  
XMT_ELS_REQ failed  
0x11 = cmdstat, 12 = parm err  
0x11 = cmdstat, 12 = parm err  
0x11 to 13 = D_DID that didn’t fit  
Too many targets found  
(160+)  
0xD6  
0xD7  
0xD8  
SNS request time-out  
0x11 to 13 = no additional information  
0x11 = mailbox word 0  
Mailbox interrupt time-out  
TPRLO requested when  
busy  
0x11 = local req. state, 12 =  
discstate, 13 = mailbox word 0  
0xD9  
0xDA  
0xE1  
Link down time-out  
occurred  
0x11 = local req. state, 12 =  
discstate, 13 = mailbox word 0  
Hard link down time-out  
occurred  
0x11 = local req. state, 12 =  
discstate, 13 = mailbox word 0  
Error interrupt occurred  
Status register bytes 1–3 in event  
11–13. E1 error indicates an HBA  
hardware failure, return HBA for  
repair.  
0xE2  
Mailbox cmd time-out  
0x11 = command  
32  
 
     
Troubleshooting  
Table 5: SCSI Port Error Log Codes (Continued)  
0x10  
Offset  
Explanation  
0x11 to 0x13 Further Information  
0xE3  
Mailbox rsp err  
0x11 = command, 12–13 =  
mbxstatus  
0xE4  
0xE5  
0xE6  
HBA not ready after init  
Status register bytes 1–3 in event  
11–13  
Requested loop but link =  
PT–PT  
Mailbox int. but cmd not  
complete  
0x11 = MB cmd, 12–13 = mbxstatus  
0xE7  
0xE8  
0xE9  
SRB already queued to ring  
RESTART failed  
PORT BYPASS (LPB)  
received  
0xEB  
0xEC  
Unknown IOCB cmd rsp  
0x11 = 15:8 = cmd field  
Uncached extension alloc.  
error  
0xED  
0xEF  
0xF1  
0xF2  
0xF3  
0xF4  
Link down @ boot time  
(30 sec)  
Too many interrupts at  
initial boot  
LinkUp error; LP8 down,  
driver up  
0x11 = parameter field, 12 = IOCB  
cmd  
LinkUp w/ illegal or corrupt  
RPI  
0x11 = parameter field, 12 = IOCB  
cmd  
DeQueue  
ring->iotcmd.head  
0x11 = caller ID  
HBA reset  
0x11 = coded reason for reset:  
Bit 0 = IOCB requeue; bit 1 = readla  
retry  
Bit 2 = initlink retry; bit 3 = rstbus retry  
Bit 4 = mailbox time-out  
0xF5  
PCP_IXXX_CR IOCB rsp  
err  
0x11 = cmdstat, 12 = parm err, 13 =  
ALPA  
33  
 
Troubleshooting  
Table 5: SCSI Port Error Log Codes (Continued)  
0x10  
Offset  
Explanation  
0x11 to 0x13 Further Information  
0xF6  
PCP_IXXX_CR IOCB rsp  
err  
0x11 = cmdstat, 12 = parm err, 13 =  
ALPA  
0xF7  
0xF8  
0xF9  
0xFA  
0xFB  
0xFC  
Ring hd !=0 &&  
pendingsrb!=NULL  
Invalid FCP_RSP  
0x11 = pcpcntrl, 12 = scsisat, 13 =  
len  
Two consec. time-outs,  
issue LIP  
START_IO error  
0x11 = errtype, 12 = srbstat, 13 =  
linkup  
ELS_REQ_CR IOCB rsp err 0x11 = cmdstat, 12 = parm err, 13 =  
ALPA  
ELS_REQ_CR IOCB rsp err 0x11 = cmdstat, 12 = parm err, 13 =  
ALPA  
0xFE  
0xFF  
FLOGI failed  
0x11 = cmdstat, 12 = parm err  
0x11 = cmdstat, 12 = parm err  
SNS_PLOGI failed  
Table 6: CmdStat Values  
0x11  
Offset  
Explanation  
Further Information  
0x1  
IOSTAT_FCP_RSP_ERR  
0x2  
0x3  
IOSTAT_REMOTE_STOP  
IOSTAT_LOCAL_REJECT  
Remote sent an ABTS  
Parameter field contains  
additional information  
0x4  
0x5  
0x6  
0x7  
IOSTAT_NPORT_RJT  
IOSTAT_FABRIC_RJT  
IOSTAT_NPORT_BSY  
IOSTAT_FBRIC_BSY  
34  
 
   
Troubleshooting  
Table 6: CmdStat Values (Continued)  
0x8  
IOSTAT_INTERMED_RSP  
0x9  
0xA  
IOSTAT_LS_RJT  
IOSTAT_BA_RJT  
Remote sent LS_RJT  
Remote sent BA_RJT  
Table 7: Parameter Error Values Valid only when CmdStat=0x3  
0x12  
Offset  
0x00  
0x01  
0x02  
0x03  
0x04  
0x05  
0x06  
0x07  
0x08  
0x09  
0x0A  
0x0B  
0x0C  
0x0D  
0x0E  
0x0F  
0x10  
0x11  
0x12  
0x13  
0x14  
Explanation  
Further Information  
IOERR_SUCCESS  
IOERR_MISSING_CONTINUE  
IOERR_SEQUENCE_TIMEOUT  
IOERR_INTERNAL_ERROR  
IOERR_INVALID_RPI  
Possible bad cable/link noise  
Remote port login data invalid  
IOERR_NO_XRI  
IOERR_ILLEGAL_COMMAND  
IOERR_XCHG_DROPPED  
IOERR_ILLEGAL_FIELD  
IOERR_BAC_CONTINUE  
IOERR_TOO_MANY_BUFFERS  
IOERR_RCV_BUFFER_WAITING  
IOERR_NO_CONNECTION  
IOERR_TX_DMA_FAILED  
IOERR_RX_DMA_FAILED  
IOERR_ILLEGAL_FRAME  
IOERR_EXTRA_DATA  
Possible bad cable/link noise  
IOERR_NO_RESOURCES  
IOERR_RESERVED  
IOERR_ILLEGAL_LENGTH  
IOERR_UNSUPPORTED_  
FEATURE  
0x15  
IOERR_ABORT_IN_PROGRESS  
35  
 
   
Troubleshooting  
Table 7: Parameter Error Values Valid only when CmdStat=0x3 (Continued)  
0x12  
Offset  
Explanation  
IOERR_ABORT_REQUESTED  
IOERR_RECEIVE_BUFFER_  
TIMEOUT  
Further Information  
0x16  
0x17  
0x18  
IOERR_LOOP_OPEN_FAILURE  
FC_AL target not responding.  
Received our own transmitted  
frame back. Port may be  
bypassed by a hub.  
0x19  
0x1A  
0x1B  
0x1C  
0x1D  
0x1E  
0x1F  
0x20  
0x21  
0x22  
0x23  
0x24  
0x25  
IOERR_RING_RESET  
IOERR_LINK_DOWN  
IOERR_CORRUPTED_DATA  
IOERR_CORRUPTED_RPI  
IOERR_OUT_OF_ORDER  
IOERR_OUT_OF_ORDER_ACK  
IOERR_DUPLICATE_FRAME  
IOERR_INVALID_ACK  
IOERR_BAD_40BIT_ADDRESS  
IOERR_RESERVED  
Possible bad cable/link noise  
IOERR_RESERVED  
IOERR_RESERVED  
IOERR_ABORT_MULTI_  
REQUESTED  
0x26  
0x27  
0x28  
IOERR_RESERVED  
IOERR_RESERVED  
IOERR_LINK_BUFFER_  
SHORTAGE  
0x29  
IOERR_RCV_XRIBUF_WAITING  
36  
 
Diagnostic and Configuration  
Utilities  
5
This chapter contains instructions for using the LightPulse Utility, LpUtilNt, a  
Windows-based graphical user interface. Use this utility to update firmware,  
BIOS, view registry parameters, perform persistent binding operations on selected  
targets, and obtain specific information about all HBAs installed in the server.  
37  
 
     
Diagnostic and Configuration Utilities  
Using LightPulse Utility  
The LightPulse Utility (LpUtilNt) is an HBA utility that lets you:  
View HBA parameters  
Modify driver parameters in the Windows registry  
The Original Equipment Manufacturer (OEM) setup file provided in the software  
kit sets these parameters. The Fibre Channel setup file that comes with the  
platform kit, modifies these parameters. The resulting parameter settings provide  
the optimal setting for your configurations.  
Note the following:  
You must install and connect the SCSI Miniport driver to at least one drive  
before LightPulse Utilitycan operate properly. You can alternately set the  
registry parameter Simulate Device=1.  
LightPulse Utility does not load automatically on Windows Server 2003  
systems. HP recommends that you install the LightPulse utility after installing  
the HBA drivers as described in the section Installing the LightPulse Utility  
on page 27.  
View HBA Parameters  
From the LightPulse Utility Main menu screen:  
1. Choose an HBA.  
2. On the menu bar, click on an HBA or pull down the category list.  
3. Choose an option to view HBA parameters.  
Each of the following options displays a different group of HBA parameters:  
Adapter Revision Levels—View information about the chipset and  
firmware revision levels of the selected HBA.  
Firmware Maintenance—View detailed information about the firmware  
in the flash ROM of the selected host adapter. Update host adapter  
firmware and boot code, manage existing firmware, and enable or disable  
the BootBIOS bootup message.  
Loop Map—View a list of the members of the selected HBA loop map.  
PCI Registers—View the values of the PCI configuration registers for the  
selected HBA.  
38  
 
         
Diagnostic and Configuration Utilities  
Configuration Data—View information about the data in each of the  
configuration regions in the flash ROM of the selected HBA.  
Drive Parameters—View information about device driver parameters that  
are maintained in the Windows/NT registry.  
Persistent Binding—View and manage persistent binding for the adapter,  
and LUN mapping and masking for devices in your SAN.  
Link Statistics—View statistics about the arbitrated loop of the selected  
HBA.  
Status and Counters—View status and counters for bytes, frames,  
sequences, exchanges, and so on.  
4. Expand the category list and choose Firmware Maintenance.  
5. Click Download.  
6. Locate the new upgrade file.  
7. Click Open.  
Note: The new software is transferred to the HBA.  
8. Expand the category list and choose Adapter Revision Levels.  
9. Verify that the new firmware revision is shown.  
39  
 
Diagnostic and Configuration Utilities  
Modify Diagnostic Driver Parameters in the Windows Registry  
This screen provides information about device driver parameters that are  
maintained in the Windows registry and allows you to modify those values.  
Caution: Do not modify the registry parameters unless specifically instructed  
to do so by support personnel. Modifying registry parameters can result in an  
unstable SAN.  
The data display lists all available device driver parameters, along with the  
current, minimum, maximum, and default values. Parameters that have their value  
specified in the system registry are denoted with either a G or an L in the left-most  
column of the screen. The G indicates that the value is set in the global registry  
entry, which applies to all HBAs that do not have a local registry entry. The L  
indicates that the value is set in a registry entry specific to the selected HBA,  
which overrides the value settings in the global entry.  
Modify the Driver Parameters  
From the LightPulse Utility Main menu screen:  
1. Choose the desired HBA.  
2. Expand the category list and choose Driver Parameters.  
3. Double-click a Parameter Name.  
4. Enter the desired value in the New Value field.  
5. Choose the Permanent or Global checkbox:  
Choose Permanent to cause the new value to be written to the system  
registry. If Permanent is not selected, the parameter reverts to its default  
value when the driver is reset.  
Choose Global to change the global registry entry. Otherwise, the change  
is made to the HBA-specific registry entry.  
40  
 
       
Diagnostic and Configuration Utilities  
Table 8 lists the current parameters that you can set.  
Table 8: Drive Parameters  
Parameter  
Description  
AbortStatus = 0xn  
Values from 0x00 – 0xFF. Controls NT SRB error status  
for general Abort conditions.  
Default = SRB_STATUS_BUS_RESET (0x0E) which will  
not cause the current NT class driver to throttle down I/O  
performance after four of these errors have been  
received (on a per-LUN basis).  
ALTOV = n  
Values are in milliseconds from 1 to 15. Default = 15.  
ARBTOV = n  
Values are milliseconds from 500 to 10000. Default =  
1000. Represents FC_AL arbitration time-out prior to LIP.  
Class = n  
Values from 0 to 2. Default = 2. Controls which Fibre  
Channel Class will be used: 0 = Class 1, 1 = Class 2, 2 =  
Class 3.  
EDTOV = n  
Values are in milliseconds from 500 to 10000. Default =  
1000. Represents error detect time-out value prior to LIP.  
EnableDPC = n  
Values 0 or 1. Default = 0. 0 = process I/O completion at  
interrupt level, 1 = process at DPC level.  
FrameSizeMSB = n Values from 1 – 8. Default = 8. Controls the upper byte of  
the receive FrameSize if issued in PLOGI. This allows the  
FrameSize be constrained on 256 byte increments from  
256 (1) – 2048 (8).  
HardALPA = 0xn  
LinkTimeOut = n  
LogErrors = n  
Values from 0x01 – 0xEF. Default = 0x01 allows the HBA  
use a hard assigned loop address. NOTE: Only valid  
ALPAs can be used (see Table 9 on page 44).  
Values are in seconds from 1 – 500. Default = 60.  
Controls the time-out at which link no longer busy with  
requests but issues SELECTION_TIMEOUT error status.  
Values 0 or 1. Default = 0. 0 = don’t log general  
HBA/drive errors. 1 = use Event Log to log general  
errors.  
NodeTimeOut = n  
Values are in seconds from 1–255.  
Default = 10. Controls the time-out at which a formerly  
logged-in node will issue SELECTION_TIMEOUT error  
status to an I/O request.  
41  
 
   
Diagnostic and Configuration Utilities  
Table 8: Drive Parameters (Continued)  
Parameter  
Description  
QueueDepth = n  
Values from 1–64 (decimal). Default = 64. Requests per  
LUN/Target (see Queue Target parameter).  
QueueTarget = n  
Values 0 or 1 (decimal). Default = 0. 0 = QueueDepth  
applies on a per LUN basis: 1 = QueueDepth applies on  
a Target basis.  
RATOV = n  
Values are in seconds from 2 to 120. Default = 2. This  
value is the ELS request time-out.  
ReadCheck = n  
Values 0 or 1. Default = 1. 0 = do not enable byte  
counting for read operations. 1 = enable byte counting. If  
bytes counted are less than requested transfer count,  
issue underrun.  
ResetFF = n  
Values 0 or 1. Default = 1. 0 = ResetBus translates to LIP  
(F7). 1 = ResetBus translates to LIP (FF). Used for  
WolfPack to force reservations to be freed when  
ResetBus issued. Only meaningful for FC_AL topology  
and Seagate native FC hard drives.  
ResetTPRLO = n  
RetryInterval = n  
Values 0 or 1. Default = 1. 0 = ResetBus translates to LIP  
(). 1 = ResetBus translates to ThirdPartyProcessLogout +  
LIP (). Used for WolfPack to force reservations to be  
freed when ResetBus is issued.  
Values are in seconds from 2-255. Default = 45. Used for  
time-out interval if RetryloTimeOut = 1. Must be shorter  
than Class driver TimeOutInterval.  
RetryloTimeOut = n Values 0 or 1. Default = 1. 1 = allows HBA to time-out I/O  
prior to port driver’s time-out that causes a LIP/Link  
Reset.  
RTTOV = n  
Values are in milliseconds from 100 to 511. Default =  
256. Represents time-out between phases of Off-line to  
On-line protocol.  
ScanDown = n  
Values 0 or 1. Default = 0. 0 = Lowest AL_PA = Lowest  
physical disk (ascending AL_PA order). 1 = Highest  
AL_PA = Lowest Physical Disk (ascending SEL_ID  
order).  
42  
 
Diagnostic and Configuration Utilities  
Table 8: Drive Parameters (Continued)  
Parameter  
Description  
SilFlags = n  
Values from 0-2. Default = 0. Controls which driver  
interface to use. 0 = automode; attempt SLI-2 first. If that  
fails, uses SLI-1. 1 = always use SLI-1. 2 = always use  
SLI-2.  
SimulateDevice = n Values 0 or 1. Default = 0. 0 = do not create a “dummy”  
disk device. 1 = create a dummy disk to force the driver  
to load even if no disk devices are present at boot time.  
SnsALL = n  
Topology = n  
Values 0 or 1. Default = 1. Controls which N_Ports are  
queried from the NameServer. 0 = SCSI FCP only. 1 = All  
N_Ports.  
Value 0 through 3. Default = 2. 0 = FC_AL (loop), 1 =  
PT-PT Fabric, 2=FC-AL first, then attempt PT-PT,  
3=PT-PT first, then attempt FC-AL. When set to 1,  
FLOGI, SCR/RSCN and NameServer queries are  
employed.  
TrafficCop = n  
Values 0 or 1. Default = 0. 1 = enable FC-AL loop master  
to run unfair and break potential arbitration problems by  
sending frames to itself. 0 = run fair all the time.  
43  
 
Diagnostic and Configuration Utilities  
Table 9 lists the Arbitrated Loop Physical Addresses (AL-PA) you can set.  
Table 9: AL-PA Values  
0x01  
0x1D  
0x2B  
0x36  
0x4A  
0x55  
0x69  
0x74  
0x84  
0x9F  
0xAD  
0xBA  
0xCC  
0xD9  
0x02  
0x1E  
0x2C  
0x39  
0x4b  
0x56  
0x6A  
0x75  
0x88  
0xA3  
0x04  
0x1F  
0x08  
0x23  
0x0F  
0x25  
0x31  
0x43  
0x4D  
0x5C  
0x6D  
0x7A  
0x97  
0xA7  
0xB3  
0xC6  
0xD2  
0xE1  
0x10  
0x26  
0x32  
0x45  
0x51  
0x63  
0x6E  
0x7C  
0x98  
0xA9  
0xB4  
0xC7  
0xD3  
0xE2  
0x17  
0x27  
0x33  
0x46  
0x52  
0x65  
0x71  
0x80  
0x9B  
0xAA  
0xB5  
0xC9  
0xD4  
0xE4  
0x18  
0x29  
0x34  
0x47  
0x53  
0x66  
0x72  
0x81  
0x9D  
0xAB  
0xB6  
0xCA  
0xD5  
0xE8  
0x1B  
0x2A  
0x35  
0x49  
0x54  
0x67  
0x73  
0x82  
0x9E  
0xAC  
0xB9  
0xCB  
0xD5  
0xEF  
0x2D 0x2E  
0x3A 0x3C  
0x4C 0x4D  
0x59  
0x5A  
0x6B 0x6C  
0x75  
0x8F  
0x79  
0x90  
0xA5 0xA6  
0xAE 0xB1 0xB2  
0xBC 0xC3 0xC5  
0xCD 0xCE 0xD1  
0xDA 0xDC 0xE0  
Set Up Persistent Binding  
The persistent binding feature allows you to control the devices that are to be  
presented to the system.  
The Miniport driver detects all devices attached to the HBAs. Global  
automapping assigns a binding type, target ID, SCSI bus, and SCSI ID to the  
device. The binding type, SCSI bus, and SCSI ID may change when the system is  
rebooted. When persistent binding is applied to one of these targets, the binding  
type, SCSI bus, and SCSI ID remain the same, whether the system is rebooted or  
whether Global Automap All Targets is subsequently disabled (enabled by  
default).  
The binding information is permanent because it is stored in the Windows  
registry. The driver refers to the binding information at bootup.  
44  
 
     
Diagnostic and Configuration Utilities  
Persistent binding permanently maps a device to the following:  
Binding type World Wide Port Name (WWPN), World Wide Node Name  
(WWNN), or a Destination Identifier (D_ID)  
SCSI bus  
SCSI ID  
Prerequisites  
Installed Miniport driver with the adjunct driver  
Installed LightPulse Utility  
Global Automap All Targets is enabled. Global Automap All Targets is  
enabled or disabled from the Global Automap window  
Setting Up Persistent Binding  
From the LightPulse Utility Main menu screen:  
1. Choose the desired HBA.  
2. Expand the category list and choose Persistent Binding.  
3. Click on a target and click Add. The Add Binding window displays, as  
shown in Figure 2.  
Figure 2: Add Binding window  
4. Click the target to be bound from the Unbound Targets list.  
5. If required, change the Bind Type for the target.  
6. If required, change the SCSI Bus and SCSI ID values.  
7. Click OK. The letters PB display next to the target row.  
45  
 
       
Diagnostic and Configuration Utilities  
Global Automap and Unmasking Overview  
Global Automap All Targets defaults to enabled, to allow the driver to detect all  
Fibre Channel devices attached to the HBAs. If Global Automap All Targets is  
disabled, the driver detects Fibre Channel devices attached to the HBA, and does  
not pass them to the operating system unless they are already persistently bound.  
Global Automap All LUNs defaults to enabled and assigns an operating system  
LUN ID to a Fibre Channel LUN ID for all LUNs behind the targets in your SAN.  
LUN mapping can also be enabled and disabled at the target level. Global  
automapping of LUNs is different from persistent binding. Global LUN  
automapping does not concern itself with the SCSI ID or SCSI Bus. This is  
because the global LUN mapping stays the same for the target when the system is  
rebooted.  
Globally Unmask All LUNs defaults to enabled, to allow the operating system  
to see all LUNS behind targets. If Globally Unmask All LUNS is set to disabled  
and you want the operating system to see all LUNS behind a specific target, you  
must set unmasking at the target level.  
Prerequisites  
Installed SCSI Miniport driver  
Installed LightPulse Utility  
A target device with LUNs that have been properly configured  
LUN Automap enabled and LUN Unmasking disabled on the LUN Mapping  
window:  
— If LUN Automap is enabled for the target, you can map each LUN  
individually.  
— Unless LUNs were previously mapped, if LUN Automap is disabled for  
the target, no LUNs will be mapped when you reboot the system.  
— If LUN Unmasking is disabled for the target, the HBA can see all LUNS  
behind a specific target.  
46  
 
   
Diagnostic and Configuration Utilities  
Mapping and Masking LUNs  
From the LightPulse Utility Main menu screen:  
1. Choose the desired HBA.  
2. Expand the category list and choose Persistent Binding.  
3. Click on a target. The Lunmap button becomes active.  
4. Click Lunmap. The Lunmap window displays, as shown in Figure 3:  
Figure 3: Lunmap window  
Test Host Bus Adapters  
Choose this option to run host-based internal and external loopback tests on the  
HBAs.  
From the LightPulse Utility Main menu screen:  
1. Choose Test Host Bus Adapters.  
2. Enable or disable the external loopback tests:  
a. Enable the external loopback tests by choosing 1=Y. The default is  
disabled, 0=No. Internal BIU PCI loopback and other loopback tests are  
run automatically.  
b. Choose 0=No if you do not have an external loopback connector.  
47  
 
     
Diagnostic and Configuration Utilities  
Note: Testing the HBA while it is connected to an arbitrated loop is not recommended.  
Modify Test Options  
Use this option to specify the number of passes on one or more of these tests: PCI  
loopback, internal loopback, external Loopback, or all three.  
From the LightPulse Utility Main menu screen:  
1. Choose Test.  
2. Choose the following data for the PCI loopback, Internal loopback, External  
Loopback tests:  
a. The number of passes. The default is 0x50. 0=infinity  
b. The action to take upon encountering errors. Choose one of the following:  
— 0 = stop (default)  
— 1 = repeat  
— 2 = ignore  
Restart Host Bus Adapters  
Choose this option to reset the HBA. When a restart HBA occurs, the HBA  
performs POST testing and reloads functional firmware.  
Input/Output  
Choose this option to open or close input and output files. The contents of the  
input file are interpreted and executed by the program. The output file contains a  
log of all messages. Note that nesting of input files is not supported.  
Maintenance  
Choose this option to update firmware or non-volatile parameters in the flash  
ROM. This option also displays program images (load list) stored in the HBA  
memory. You must reboot the HBA for the new firmware to take effect.  
48  
 
                 
Diagnostic and Configuration Utilities  
Show Host Bus Adapter Info  
Choose this option to display HBA data in these areas:  
BIU PCI Configuration Parameters  
HBA Info and Status  
Adapter Revisions  
Display Configuration Data  
Service Parameters  
Status/Counters Info  
Link Status  
Link Attention  
Quit the LightPulse Utility  
Choose this option to exit the program. A warning message indicates if any errors  
were encountered during the session.  
49  
 
   
Diagnostic and Configuration Utilities  
50  
 
Regulatory Compliance Notices  
Federal Communications Commission Notice  
Part 15 of the Federal Communications Commission (FCC) Rules and  
Regulations has established Radio Frequency (RF) emission limits to provide an  
interference-free radio frequency spectrum. Many electronic devices, including  
computers, generate RF energy incidental to their intended function and are,  
therefore, covered by these rules. These rules place computers and related  
peripheral devices into two classes, A and B, depending upon their intended  
installation. Class A devices are those that may reasonably be expected to be  
installed in a business or commercial environment. Class B devices are those that  
may reasonably be expected to be installed in a residential environment (for  
example, personal computers). The FCC requires devices in both classes to bear a  
label indicating the interference potential of the device as well as additional  
operating instructions for the user.  
The rating label on the device shows the classification (A or B) of the equipment.  
Class B devices have an FCC logo or FCC ID on the label. Class A devices do not  
have an FCC logo or ID on the label. After the class of the device is determined,  
refer to the corresponding statement in the sections below.  
Class A Equipment  
This equipment has been tested and found to comply with the limits for a Class A  
digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to  
provide reasonable protection against harmful interference when the equipment is  
operated in a commercial environment. This equipment generates, uses, and can  
radiate radio frequency energy and, if not installed and used in accordance with  
the instructions, may cause harmful interference to radio communications.  
Operation of this equipment in a residential area is likely to cause harmful  
interference, in which case the user will be required to correct the interference at  
personal expense.  
Declaration of Conformity for Products Marked with FCC Logo—United  
States Only  
This device has been tested and found to comply with the limits for a Class A  
digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to  
provide reasonable protection against harmful interference when the equipment is  
operated in a commercial environment. This equipment generates, uses and can  
radiate radio frequency energy and, if not installed and used in accordance with  
the instruction manual, may cause harmful interference to radio communications.  
52  
 
           
Regulatory Compliance Notices  
Operation of this equipment in a residential area is likely to cause harmful  
interference, in which case users will be required to correct the interference at  
their own expense. The end user of this product should be aware that any changes  
or modifications made to this equipment without the approval of Hewlett-Packard  
could result in the product not meeting the Class A limits, in which case the FCC  
could void the user's authority to operate the equipment.  
Network and Serial Cables  
Connections to this device must be made with shielded cables with metallic  
RFI/EMI connector hoods in order to maintain compliance with FCC Rules and  
Regulations.  
IEC EMC Statement (Worldwide)  
This is a Class A product. In a domestic environment this product may cause radio  
interference, in which case the user may be required to take adequate measures.  
Spécification ATI Classe A (France)  
DECLARATION D'INSTALLATION ET DE MISE EN EXPLOITATION d'un  
matériel de traitement de l'information (ATI), classé A en fonction des niveaux de  
perturbations radioélectriques émis, définis dans la norme européenne EN 55022  
concernant la Compatibilité Electromagnétique.  
53  
 
         
Regulatory Compliance Notices  
Canadian Notice (Avis Canadien)  
Class A Equipment  
This Class A digital apparatus meets all requirements of the Canadian  
Interference-Causing Equipment Regulations.  
Cet appareil numérique de la classe A respecte toutes les exigences du Règlement  
sur le matériel brouilleur du Canada.  
54  
 
     
Regulatory Compliance Notices  
European Union Notice  
Products with the CE Marking comply with both the EMC Directive  
(89/336/EEC) and the Low Voltage Directive (73/23/EEC) issued by the  
Commission of the European Community.  
Compliance with these directives implies conformity to the following European  
Norms (the equivalent international standards are in parenthesis):  
EN55022 1998 (CISPR 22)-Electromagnetic Interference  
EN55024 1998 (IEC61000-4-2, IEC61000-4-3, IEC61000-4-4,  
IEC61000-4-5, IEC61000-4-6, IEC61000-4-8,  
IEC61000-4-11)-Electromagnetic Immunity  
EN60950 (IEC60950)-Product Safety  
Power Quality: (IEC610000-3-2)-Harmonics and (IEC61000-3-3)-Voltage  
Fluctuations and Flicker  
Also approved under UL 1950, 3rd Edition/CSA C22.2 No. 950-95, Safety of  
Information Technology Equipment  
55  
 
     
Regulatory Compliance Notices  
Japanese Notice  
56  
 
 
Regulatory Compliance Notices  
Harmonics Conformance (Japan)  
German Noise Declaration  
Schalldruckpegel Lp = 70.3 dB(A)  
Am Arbeitsplatz (operator position)  
Normaler Betrieb (normal operation)  
Nach ISO 7779:1988 / EN 27779:1991 (Typprüfung)  
57  
 
   
Regulatory Compliance Notices  
Laser Safety  
WARNING: To reduce the risk of exposure to hazardous radiation:  
Do not try to open the laser device enclosure. There are no user-serviceable  
components inside.  
Do not operate controls, make adjustments, or perform procedures to the laser  
device other than those specified herein.  
Allow only HP authorized service technicians to repair the laser device.  
Certification and Classification Information  
This product contains a laser internal to the Optical Link Module (OLM) for  
connection to the Fiber communications port.  
In the USA, the OLM is certified as a Class 1 laser product conforming to the  
requirements contained in the Department of Health and Human Services (DHHS)  
regulation 21 CFR, Subchapter J. The certification is indicated by a label on the  
plastic OLM housing.  
Outside the USA, the OLM is certified as a Class 1 laser product conforming to  
the requirements contained in IEC 825-1:1993 and EN 60825-1:1994, including  
Amendment 11:1996.  
The OLM includes the following certifications:  
UL Recognized Component (USA)  
CSA Certified Component (Canada)  
TUV Certified Component (European Union)  
CB Certificate (Worldwide)  
The following figure shows the Class 1 information label that appears on the  
metal cover of the OLM housing.  
58  
 
     
Electrostatic Discharge  
B
To prevent damaging the system, you must take precautions when setting up the  
system or when handling parts. A discharge of static electricity from a finger or  
other conductor may damage system adapters or other static-sensitive devices.  
This type of damage can reduce the life expectancy of the device.  
To prevent electrostatic damage, observe the following precautions:  
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 make sure you are properly grounded when touching a static-sensitive  
component or assembly.  
59  
 
       
Electrostatic Discharge  
Grounding Methods  
There are several methods 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  
grounding, 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  
HP authorized reseller install the part.  
Note: For more information on static electricity, or for assistance with product  
installation, contact your HP authorized reseller.  
60  
 
   
index  
A
F
Arbitrated Loop Physical Addresses (AL_PA),  
table of 44  
FCC  
class A compliance notice 52  
compliance statement, cables 53  
Federal Communications Commission (FCC)  
notice 52  
audience 8  
authorized reseller, HP 12  
flash ROM, updating parameters in 48  
C
G
cables, FCC compliance statement 53  
Canadian Notice (Avis Canadien)  
Regulatory Compliance  
notices 54  
getting help 11  
grounding methods 60  
H
HBAs  
CE marking 55  
CmdStat values 34  
configuration guidelines for HBAs 23  
conventions, document 9  
cp003654.exe 27  
configuration guidelines 23  
diagram description 15  
installation overview 17  
installation procedure 20  
installation requirements 18  
peformance specifications 16  
POST LED results 30  
product description 13  
recording reference numbers 19  
restarting 48  
cp003667.exe 26  
D
declaration of conformity 52  
diagram, HBAs 15  
document conventions 9  
driver parameters, table of 41  
drivers  
verifying installation 22  
viewing parameters 38  
help, obtaining 11  
installing 26  
updating 26  
HP  
E
authorized reseller 12  
storage website 12  
technical support 11  
electrostatic discharge 59  
equipment symbols 10  
European Union notice 55  
61  
 
 
Index  
overview 25  
I
Windows requirements 26  
showing HBA information 48  
specifictions, performance 16  
symbols  
installation  
overview 17  
procedure 20  
requirements 18  
verifying 22  
in text 9  
on equipment 10  
system requirements, HBA installation 18  
Windows drivers 26  
L
T
laser  
technical support, HP 11  
test options, modifying 48  
text symbols 9  
devices 58  
LightPulse Utility  
input and output files 48  
loading on Windows 2003 Server 27  
modifying driver parameters 40, 45  
modifying test options 48  
overview 38  
troubleshooting  
CmdStat values 34  
parameter error values 35  
SCSI Miniport driver event logs 32  
using POST LED results 30  
Windows Event Viewer 31  
restarting HBAs 48  
showing HBA information 48  
updating flash ROM parameters 48  
viewing HBA parameters 38  
LpUtilNt see LightPulse Utility 38  
U
udating drivers 26  
utilities, LightPulse 27, 38  
P
V
parameter error values 35  
POST LED indicators, verifying HBA installation  
viewing HBA parameters 38  
W
R
websites, HP storage 12  
Windows  
reference numbers 19  
Regulatory Compliance  
notices 53  
Event log 31  
Event Viewer 31  
installing or updating drivers 26  
loading LightPulse utility 27  
SCSI Miniport drivers 25  
system requirements 26  
related documentation 8  
S
SCSI Miniport drivers  
event log codes 32  
62  
 

Graco Inc Paint Sprayer 208 644 User Manual
Graco Inc Paint Sprayer 208008 User Manual
Grizzly Saw Model H5698 User Manual
Hans Grohe Plumbing Product 04193000 User Manual
Hotpoint Clothes Dryer NWXR473 User Manual
Hotpoint Cooktop GF941 User Manual
HP Hewlett Packard Car Video System LA1905WG User Manual
HP Hewlett Packard Wheelchair HP 11947A User Manual
Image Treadmill IMTL491052 User Manual
Impex Home Gym MD 3400 User Manual