This document contains proprietary information of LSI Logic Corporation. The
information contained herein is not to be used by or disclosed to third parties
without the express written permission of an officer of LSI Logic Corporation.
LSI Logic products are not intended for use in life-support appliances, devices,
or systems. Use of any LSI Logic product in such applications without written
consent of the appropriate LSI Logic officer is prohibited.
Document DB14-000180-00, First Edition (February 2001).
This document describes the LSI Logic LSI40909G-S PCI to Fibre Channel Host
Adapter for Sun Solaris and will remain the official reference source for all
revisions/releases of this product until rescinded by an update.
LSI Logic Corporation reserves the right to make changes to any products herein
at any time without notice. LSI Logic does not assume any responsibility or
liability arising out of the application or use of any product described herein,
except as expressly agreed to in writing by LSI Logic; nor does the purchase or
use of a product from LSI Logic convey a license under any patent rights,
copyrights, trademark rights, or any other of the intellectual property rights of
LSI Logic or third parties.
Copyright © 2001 by LSI Logic Corporation. All rights reserved.
TRADEMARK ACKNOWLEDGMENT
The LSI Logic logo design, MetaStor, and Fusion-MPT are registered trademarks
or trademarks of LSI Logic Corporation. Sun and Solaris are trademarks or
registered trademarks of Sun Microsystems, Inc. All other brand and product
names may be trademarks of their respective companies.
DB
iii
iv
Preface
This book is the primary reference and user’s guide for the LSI Logic
LSI40909G-S PCI to Fibre Channel Host Adapter for Sun Solaris board.
It contains a complete functional description for the LSI40909G-S as well
as complete physical and electrical specifications.
Audience
This document assumes that you have some familiarity with Fibre
Channel protocol and related support devices and will benefit persons
installing and using the LSI40909G-S.
Organization
This document has the following chapters and appendix:
•
•
•
•
•
Chapter 1, LSI40909G-S Description, defines the interfaces and
characteristics of the LSI40909G-S.
Chapter 2, Installing the LSI40909G-S, provides both quick and
detailed installation instructions.
Chapter 3, Software Installation, describes the installation
procedures for the Fusion-MPT and Fibre Channel drivers.
Chapter 4, LSI40909G-S Technical Characteristics, describes the
physical and operational environments of the LSI40909G-S.
Appendix A, Glossary of Terms and Abbreviations, provides
definitions of various terminology that is referenced throughout this
user’s guide.
Preface
v
Related Publications
LSIFC909 Fibre Channel I/O Processor Technical Manual,
Order Number S14029.A
Revision Record
Revision Date
Remarks
1.0
02/01
First printing.
vi
Preface
Contents
Chapter 1
LSI40909G-S Description
1.1
1.2
General Description
Features
1-1
1.2.1
1.2.2
1.2.3
1.2.4
FC Interface
Board Characteristics
FC Link Activity/Link Fault LED
Chapter 2
Chapter 3
Installing the LSI40909G-S
2.1
2.2
Detailed Installation Procedure
2.2.1
2.2.2
Inserting the Host Adapter
Software Installation
3.1
3.1.1
3.1.2
3.1.3
3.1.4
3.1.5
3.1.6
Features
System Requirements
Verifying Correct Installation
Identifying the FC Disks
Persistent Device Naming
itmpt Device Driver
3-7
3.2
3.3
Installing the itmpt Sun SPARC Solaris FC Driver
3-7
3.2.1
3.2.2
Existing System Installation
3-7
Network Installation Procedure
3-12
3-15
Troubleshooting
Contents
vii
Chapter 4
LSI40909G-S Technical Characteristics
4.1
Physical Environment
4-3
4-4
4-4
4.1.1
4.1.2
4.1.3
4.1.4
4.1.5
Physical Characteristics
Electrical Characteristics
Thermal, Atmospheric Characteristics
Electromagnetic Compliance
Safety Characteristics
4.2
4.3
Operational Environment
4.2.1
4.2.2
4.2.3
The FC Interface
The FC Link Activity/Link Fault LED
IEEE Unique Address
Appendix A
Figures
Glossary of Terms and Abbreviations
Customer Feedback
2.1
2.2
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
4.1
Hardware Connections for the LSI40909G-S
Inserting the Host Adapter
System Devices Listing
FC Disk Devices Listing
Persistent Device Mapping
Clearing an Entry
pkgadd Procedure
3-9
Completing Floppy Disk Installation
Completing Floppy Disk Installation (Continued)
/kernel/drv/ssd.conf
3-10
4-2
LSI40909G-S Components
Tables
3.1
3.2
Resource Requirements
Error Messages
3-2
3-15
viii
Contents
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Chapter 1
LSI40909G-S
Description
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This chapter describes the LSI40909G-S PCI to Fibre Channel (FC) Host
Adapter board and includes these topics:
•
•
Section 1.1, “General Description,” page 1-1
Section 1.2, “Features,” page 1-1
1.1 General Description
The LSI Logic LSI40909G-S provides an FC interface to Sun Solaris PCI
computer systems. This board is referred to as the LSI40909G-S
throughout this guide. The LSI40909G-S uses the LSIFC909 FC I/O
Processor chip.
34.732 pc1.2 Features
This section provides an overview of the PCI Interface, the FC Interface,
and Board Characteristics for the LSI40909G-S.
1.2.1 PCI Interface
PCI interfaces I/O components to the processor and memory
subsystems in equipment ranging from PCs to servers. The PCI interface
operates as a 64-bit DMA bus master capable of 64-bit addressing. The
LSIFC909 contains the PCI functionality for the LSI40909G-S.
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The PCI interface includes these features:
•
•
Full 64-bit DMA bus master
LSIFC909 functionality:
–
–
–
Zero wait-state bus master data bursts up to 1 Kbyte
Complies with PCI Local Bus Specification, Revision 2.2
3.3 V interface (5.0 V tolerant)
•
•
Serial EEPROM configuration storage
Card edge keyed as a universal add-in card
1.2.2 FC Interface
The LSIFC909 contains the FC functionality for the LSI40909G-S. The
LSIFC909 generates signal timing and link protocol in compliance with
FC standards.
The FC interface includes these features:
•
•
1 Gigabit Giga-Bit Interface Converter (GBIC) connection
LSIFC909 functionality:
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–
–
–
Class 3, Arbitrated Loop (AL)
2 Kbyte frame payloads
Multiframe buffering
•
•
1 Gigabit/s serial link
Link fault LED
1.2.3 Board Characteristics
The LSI40909G-S board characteristics are:
•
•
•
PCI board dimensions: 168 x 98 mm (6.625 x 3.875 inches)
PCI Universal 64-bit card edge connector
FC Link Activity LED
In Chapter 4, “LSI40909G-S Technical Characteristics,” Figure 4.1
illustrates the mechanical drawing for this host adapter board.
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LSI40909G-S Description
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1.2.4 FC Link Activity/Link Fault LED
The LSI40909G-S provides a dual-purpose LED visible through the
bracket which indicates activity on the FC link when the LED is green.
This LED turns yellow when there has been a fault on the FC link.
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Features
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1-4
LSI40909G-S Description
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Chapter 2
Installing the
LSI40909G-S
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This chapter provides instructions on how to install the LSI40909G-S and
includes these topics:
•
•
Section 2.1, “Quick Installation Procedure,” page 2-1
Section 2.2, “Detailed Installation Procedure,” page 2-2
2.1 Quick Installation Procedure
This section provides an overview of the installation procedure. If you are
an experienced computer user with prior host adapter installation and FC
setup experience, this section may sufficiently describe the procedure for
you. If you prefer a more detailed guidance for installing the
LSI40909G-S, proceed to Section 2.2, “Detailed Installation Procedure.”
For safe and proper installation, check the user’s manual supplied with
your computer and perform the following steps.
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Step 1. Ground yourself before removing this host adapter board.
Step 2. Remove the LSI40909G-S from the packing and check that it is
not damaged.
Figure 2.1 illustrates an example of this host adapter board.
Also refer to Figure 4.1 on page 4-2 to see a more detailed
drawing of this board.
Step 3. Open your PC cabinet and select an appropriate open PCI slot.
Step 4. Insert the host adapter board.
Step 5. Make any configuration changes.
Step 6. Close your PC cabinet cover.
Step 7. Connect the FC cable to the LSI40909G-S.
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2.2 Detailed Installation Procedure
This section provides step-by-step instructions for installing the
LSI40909G-S. If you are experienced in these tasks, you may prefer to
use Section 2.1, “Quick Installation Procedure.”
2.2.1 Before You Start
Before starting, look through the following task list to get an overall idea
of the steps you will be performing. If you are not confident you can
perform the tasks as described here, LSI Logic recommends getting
assistance.
Each FC host adapter that you install can act as host for up to
126 Arbitrated Loop FC devices, not including the adapter itself. Follow
the detailed instructions in the next section to successfully install the host
adapter board.
2.2.2 Inserting the Host Adapter
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For safe and proper installation, use the user’s manual supplied with your
Step 1. Ground yourself before removing this host adapter board.
Step 2. Remove the LSI40909G-S from the packing and check that it is
not damaged.
Figure 2.1 illustrates an example of this host adapter board.
Also refer to Figure 4.1 on page 4-2 to see a more detailed
drawing of this board.
Step 3. Switch off the computer and unplug power cords for all
components in your system.
Step 4. Remove the cover from your computer per the instructions in
the user’s manual for your system to access the PCI slots.
Caution:
Ground yourself by touching a metal surface before
removing the cabinet top. Static charges on your body can
damage electronic components. Handle plug-in boards by
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the edge; do not touch board components or gold
connector contacts. The use of a static ground strap is
recommended.
Step 5. Locate the slots for PCI plug-in board installation.
the PCI slots.
The LSI40909G-S requires a 32-bit or 64-bit PCI slot that
allows bus master operation. If a 32-bit PCI slot is used, the
portion of the J1 connector opposite the bracket remains
uninserted. See Figure 2.2.
Note:
For the LSI40909G-S to function as a 64-bit device, it must
be inserted in a 64-bit PCI slot. If the LSI40909G-S is
inserted in a 32-bit PCI slot, it will function as a 32-bit
device.
Step 6. Remove the blank bracket panel on the back of the computer
aligned with the PCI slot you intend to use. Save the bracket
screw.
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Detailed Installation Procedure
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Figure 2.1 Hardware Connections for the LSI40909G-S
LSI40909G-S PCI Bus
Edge Connector J1
GBIC
Connector J2
Fibre Channel
Link Activity/
Link Fault LED
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Step 7. Carefully insert edge connector J1 (see Figure 2.1) of the host
adapter into the PCI slot.
Make sure the edge connector is properly aligned before
pressing the board into place as shown in Figure 2.2. The
bracket around connector J2 should fit where you removed the
blank panel.
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Figure 2.2 Inserting the Host Adapter
Bracket Screw
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32-bit PCI Slots
64-bit PCI Slots
Step 8. Secure the board with the bracket screw (see Figure 2.2) before
making the external FC link connection.
Step 9. Connect the FC cable to the LSI40909G-S.
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2-6
Installing the LSI40909G-S
Chapter 3
Software Installation
This chapter describes the features and use of the LSI Logic/IntraServer
device drivers for the Solaris operating system 2.6, 2.7, and 2.8. This
chapter includes these topics:
•
•
•
Section 3.1, “Installing the Sun SPARC Solaris Fusion-MPT™
Drivers,” page 3-1
Section 3.2, “Installing the itmpt Sun SPARC Solaris FC Driver,”
page 3-7
Section 3.3, “Troubleshooting,” page 3-15
For the most up-to-date information on drivers, please visit:
3.1 Installing the Sun SPARC Solaris Fusion-MPT™ Drivers
The LSI Logic LSI40909G-S offers the highest possible performance on
Sun Solaris systems. The LSI Logic Fusion-MPT FC driver (itmpt) is
optimized for low CPU overhead and high I/O throughput, making use of
the LSI Logic Fusion-MPT architecture.
The LSI Logic FC adapters have built-in Fcode, designed to operate in
the Sun OpenBoot environment, allowing FC devices to be available to
the OpenBoot (ok) prompt.
The LSI Logic driver, itmpt, allows the Solaris operating system to
interface with FC devices connected to the LSI40909G-S. This driver
takes advantage of new hardware features in the LSI40909G-S to
minimize CPU utilization, including interrupt coalescing, which can result
in less than one interrupt per I/O.
LSI40909G-S PCI to Fibre Channel Host Adapter for Sun Solaris
3-1
3.1.1 Features
The following features of the LSI40909G-S minimize CPU utilization:
•
Uses state of the art Fusion-MPT interface, providing support for FC,
SCSI, and RAID devices with a single binary image.
•
•
•
•
•
•
Provides highly efficient, low CPU usage architecture.
Multiport functionality minimizes slot usage.
66 MHz/64-bit PCI interface provides maximum I/O bandwidth.
Supports multiple host adapters.
Supports scatter/gather.
Supports multiprocessor environments.
3.1.2 System Requirements
Your SPARC Solaris system must have the available resources as listed
in Table 3.1 in order to install the LSI40909G-S.
Table 3.1
Resource Requirements
Requirement
Resource
Host Bus Slot
Sun Solaris system with available PCI slot
Solaris 2.6 release or later
Operating system
Network Boot Server
Firmware
1
Sparc or Intel Solaris boot server
OpenBoot PROM Version 3.0 or greater
1. Only required if you will be using the LSI Logic module to support your
System disk.
After installing the module in an appropriate PCI slot and making all the
necessary internal and external connections to the module, power on the
host system.
3.1.3 Verifying Correct Installation
Use this procedure to verify installation of your LSI Logic/IntraServer FC
adapter before booting your system:
Step 1. Power on the system.
3-2
Software Installation
Step 2. When the banner is displayed, press the Stop-A keys to
interrupt the boot process and stop at the ok prompt.
Step 3. Use the show-devs command to list the system devices. You
should see an output similar to the following example, as shown
in Figure 3.1:
Figure 3.1 System Devices Listing
ok show-devs
/SUNW,UltraSPARC-IIi@0,0
/pci@1f,0
/virtual-memory
/memory@0,10000000
/aliases
/options
/openprom
/chosen
/packages
/pci@1f,0/pci@1
/pci@1f,0/pci@1,1
/pci@1f,0/pci@1/pci@2
/pci@1f,0/pci@1/IntraServer,Ultra2-scsi@1
/pci@1f,0/pci@1/pci@2/IntraServer,fc@4
/pci@1f,0/pci@1/pci@2/IntraServer,fc@4/disk
/pci@1f,0/pci@1/pci@2/IntraServer,fc@4/tape
/pci@1f,0/pci@1/IntraServer,Ultra2-scsi@1/tape
/pci@1f,0/pci@1/IntraServer,Ultra2-scsi@1/disk
/openprom/client-services
…
Note: /pci@1f,0/pci@1/pci@2/IntraServer,fc@4
identifies the first FC interface on an
LSI Logic/IntraServer 7000 Series adapter.
The above is an example. The output of show-devs may
vary depending on your system and configuration. Use the
corresponding entries on your system, not those given
here.
If these devices are not listed, check that the adapter is correctly
installed, and reseat the adapter if necessary.
Installing the Sun SPARC Solaris Fusion-MPT™ Drivers
3-3
3.1.4 Identifying the FC Disks
The probe-scsi-all command is used to identify the FC disk devices
on your LSI Logic/IntraServer adapter, as shown in Figure 3.2.
Figure 3.2 FC Disk Devices Listing
ok probe-scsi-all
/pci@1f,0/pci@1/IntraServer,Ultra2-scsi@1
Target 0
Unit 0 Disk
IBM
DNES-309170W SA30
/pci@1f,0/pci@1/pci@2/IntraServer,fc@7
MPT Firmware Version 1.00
Target 0
Unit 0 Disk
SEAGATE ST39173FC
6615
6258
6258
6258
6258
6615
WWN 220000203710d063 ID 111d2
Target 1
Unit 0 Disk
SEAGATE ST39173FC
WWN 220000203710c09b ID 111d6
Target 2
Unit 0 Disk
SEAGATE ST39173FC
WWN 220000203710b066 ID 111d5
Target 3
Unit 0 Disk
SEAGATE ST39173FC
WWN 220000203710b063 ID 111d3
Target 4
Unit 0 Disk
SEAGATE ST39173FC
WWN 220000203710b04f ID 111d4
Target 5
Unit 0 Disk
SEAGATE ST39173FC
WWN 2200002037104f73 ID 111d9
Target 6
Unit 0 Disk
SEAGATE ST39173FC
6615
WWN 2200002037102d0f ID 111d1
3-4
Software Installation
If the FC disks on your LSI Logic/IntraServer adapter are not identified
by your system, check the following:
1. Are all the FC cables correctly connected to the disk enclosure?
2. Is the disk enclosure powered up?
3. If the external disk enclosure required a loopback connector, is the
loopback connector correctly installed?
3.1.5 Persistent Device Naming
Under certain configurations, such as when the FC disk is the boot
device of a system, it may be preferable to lock a target disk to a unit
number. LSI Logic/IntraServer Fcode allows the system administrator to
write a nonvolatile map of IDs to the FC controller. The following is an
example of how to map devices in the persistent device table.
Select the controller you want to modify, as shown in Figure 3.3:
Installing the Sun SPARC Solaris Fusion-MPT™ Drivers
3-5
Figure 3.3 Persistent Device Mapping
ok show-disks
a) /pci@1f,0/pci@1/IntraServer,fc@2/disk
b) /pci@1f,0/pci@1/IntraServer,Ultra2-scsi@1/disk
c) /pci@1f,0/pci@1,1/ide@3/cdrom
d) /pci@1f,0/pci@1,1/ide@3/disk
e) /pci@1f,0/pci@1,1/ebus@1/fdthree@14,3203f0
q) NO SELECTION
Enter Selection, q to quit: a
/pci@1f,0/pci@1/IntraServer,fc@2/disk has been selected.
Type ^Y (Control-Y) to insert it in the command line.
e.g. ok nvalias mydev ^Y for creating devalias mydev for
/pci@1f,0/pci@1/IntraServer,fc@2/disk
ok select/pci@1f,0/pci@1/IntraServer,fc@2
ok show-children
MPT Firmware Version 1.00
Target 0
Unit 0 Disk
SEAGATE ST39173FC
6615
WWN 200000203710c4e8 PortID a3
ok set-persistent(Note: issue command with no parameters to
print this help)
usage is <current-target-id> <persistent-target-id>
set-persistent
ok 0 0 set-persistent
ok show-persistent
Entry 1 WWN 200000203710c4e8 Target 0
ok
3-6
Software Installation
To clear an entry in the persistent device map, use the
clear-persistent command, as shown in Figure 3.4:
Figure 3.4 Clearing an Entry
ok 1 clear-persistent
Entry 1 has been cleared
ok show-persistent
ok
Entry 1 has been deleted from the table, and the table is now empty.
3.1.6 itmpt Device Driver
The LSI Logic/IntraServer itmpt driver is designed to Sun Microsystems
SCSA specifications for device drivers. This driver allows connection of
FC devices to LSI Logic/IntraServer adapter cards on PCI-based
machines.
The following sections describe the procedures to install the driver on
Solaris.
3.2 Installing the itmpt Sun SPARC Solaris FC Driver
driver is included with your adapter kit.
Note:
If you plan to use an LSI Logic/IntraServer FC adapter for
your system disk, you must use the installation procedure
as described in Section 3.2.2, “Network Installation Proce-
dure,” in order to load the device driver during installation.
3.2.1 Existing System Installation
These instructions provide details to install the LSI Logic/IntraServer
itmpt driver to an existing Solaris operating system installation.
Note:
You must be logged on as root to perform the installation.
Installing the itmpt Sun SPARC Solaris FC Driver
3-7
3.2.1.1 Floppy Disk Install
If you received the drivers on a floppy diskette, follow these steps:
Step 1. Place the diskette in the floppy drive and execute the volcheck
command to ensure the system sees the floppy.
Step 2. Change the directory to the root of the floppy
(e.g. "cd /floppy/floppy0").
operating system.
Example: pkgadd(space)-d(space).
You will see the display on the screen as shown in Figure 3.5 through
Figure 3.7.
3-8
Software Installation
Figure 3.5 pkgadd Procedure
The following packages are available:
1 TImpt LSI Logic/IntraServer FusionMPT(tm)
Fibrechannel/SCSI drivers
(sparc) itmpt kit version 1.1
Select package(s) you wish to process (or 'all' to process
all packages). (default: all) [?,??,q]: 1
Processing package instance <ITImpt> from
</floppy/intraserver>
LSI Logic/IntraServer FusionMPT(tm) Fibrechannel/SCSI
drivers (sparc) itmpt kit version 1.1
IntraServer Technology, Inc / LSI Logic
Using </> as the package base directory.
## Processing package information.
## Processing system information.
2 package pathnames are already properly installed.
## Verifying disk space requirements.
## Checking for conflicts with packages already installed.
## Checking for setuid/setgid programs.
Installing the itmpt Sun SPARC Solaris FC Driver
3-9
Figure 3.6 Completing Floppy Disk Installation
This package contains scripts which will be executed with
superuser permission during the process of installing this
package.
Do you want to continue with the installation of <ITImpt>
[y,n,?] y
Installing LSI Logic/IntraServer FusionMPT(tm)
Fibrechannel/SCSI drivers as <ITImpt>
## Installing part 1 of 1.
/kernel/drv/itmpt
/kernel/drv/itmpt.conf
[ verifying class <none> ]
## Executing postinstall script.
installing /kernel/drv/sparcv9/itmpt
Entries added. For support of more than 15 targets or nonzero
LUNs it may be necessary to edit /kernel/drv/ssd.conf to add
additional entries.
See Figure 3.8 for additional information.
Figure 3.7 Completing Floppy Disk Installation (Continued)
Following installation, please reboot the system to properly
configure and load the drivers.
Installation of <ITImpt> was successful.
To support nonzero LUNs, which is default for most RAID controllers
®
such as the LSI Logic MetaStor , you must edit the file
/kernel/drv/ssd.conf as shown in Figure 3.8:
3-10
Software Installation
Figure 3.8 /kernel/drv/ssd.conf
Example:
With just the default entry for each target in /kernel/drv/ssd.conf, only
devices at LUN 0 will be probed.
name="ssd" parent="itmpt" target=0;
To add nonzero LUN support, replace the above entry with an entry for
each LUN to probe, such as:
name="ssd" parent="itmpt" target=0 lun=0;
name="ssd" parent="itmpt" target=0 lun=1;
name="ssd" parent="itmpt" target=0 lun=2;
name="ssd" parent="itmpt" target=0 lun=3;
This should be done for any targets that need to probe for multiple
LUNs.
Step 4. The itmpt device driver is now installed. Reboot the machine to
reconfigure the system and to recognize the new devices.
3.2.1.2 Distribution File Install
If you received the drivers in an itmpt_install.tar.Z file, follow these steps:
Step 1. Uncompress and untar the itmpt_install.tar.Z file by typing the
following commands in order to create a directory named
install:
uncompress itmpt_install.tar.Z
tar -xvf itmpt_install.tar
cd install
Step 2. Execute the pkgadd process as described in the previous
section to add the itmpt driver to the operating system:
Note:
If you change the disk drive configuration of your machine,
it may be necessary to issue the command:
touch(space)/reconfigure
and then reboot the system in order for the system to
detect and correctly install your new disks.
Installing the itmpt Sun SPARC Solaris FC Driver
3-11
3.2.2 Network Installation Procedure
If you are using your LSI Logic/IntraServer adapter to support your Sparc
Solaris system disk, you must install the Solaris operating system using
a network install. This section describes a complete installation of Solaris
to a client system using LSI Logic/IntraServer FC adapters for the system
disk. The method described in this section allows you to install the
available during the Sparc installation process.
If you are simply installing an LSI Logic/IntraServer adapter as an
additional storage adapter in an existing system, use the driver
installation procedure described in Section 3.2.1.2, “Distribution File
Install.”
3.2.2.1 Setting up a Boot/Install Server
Refer to the “Preparing to Install Solaris Software Over the Network,”
section of the Solaris Advanced Installation Guide, available at
The basic steps to set up a boot and install server are as follows:
Step 1. Insert your Solaris distribution CD in your boot/install server’s
CD-ROM drive.
Step 2. Change your directory to the Tools area on your distribution CD:
cd /cdrom/cdrom0/Solaris_2.7/Tools
Step 3. Use the setup_install_server script to copy the boot and
installation files to your boot/install server:
./setup_install_server /export/home/install
3.2.2.2 Installing the itmpt Driver on the Boot/Install Server
After you have set up your network boot and install server, follow these
steps run the install.shscript with the –nparameter to copy the driver
kit to the boot server’s boot files:
Step 1. Place the diskette in the floppy drive and execute the volcheck
command to ensure the system sees the floppy.
Step 2. Change the directory to the root of the floppy:
3-12
Software Installation
cd /floppy/floppy0
Step 3. Execute the install.sh shell script to add the itmpt driver to
the boot installation area:
./install.sh –n /export/home/install/Solaris_2.7
Notes:
•
•
For Solaris 2.8 boot files, the directory would be
/export/home/install/Solaris_2.8.
The message “major number maximum based on server, not client”
can safely be ignored.
Running the install.sh script this way copies and installs the
LSI Logic/IntraServer drivers into the Tools/Boot/ area of the boot files
and allows LSI Logic/IntraServer adapters to be booted for installation
using the bootserver.
3.2.2.3 Adding Clients to Your Boot/Install Server
For each machine that boots into the boot/install server, follow these
steps to add a client entry on the boot/install server:
Step 1. Change the directory to the boot/install kit:
cd /export/home/install/Solaris_2.7/Tools
Step 2. Use the add_install_client script to add the client machine
./add_install_client -i ipaddr
-e ethernetid client_name platform_group
Where:
ipaddr
is the tcp/ip address of the client
ethernetid
is the ethernet hardware (mac) address of
the client
client_name
is the client’s system name
platform_group is the client’s vendor defined hardware
group
Example: ./add_install_client -i 192.168.103.124 –e
00:08:26:02:25:34 sunsys sun4u
Installing the itmpt Sun SPARC Solaris FC Driver
3-13
Note:
You can obtain the platform_group from a machine of the
same type as the target client using the uname –m
command.
3.2.2.4 Booting the Client Using the itmpt FC Driver
Now you can begin the installation of the Solaris operating system to the
client target machine using the boot and install server. On the client
machine, boot the network install kit you created in the preceding steps
as follows:
ok boot net -v
Note:
It is important to choose "Manual Reboot" rather than "Auto
Reboot" during the installation of Solaris on the target
machine. If you choose "Auto Reboot", you will not have the
opportunity to complete the installation of the
LSI Logic/IntraServer FC drivers and your system will fail to
boot.
After the installation has completed and the system is waiting to be
manually rebooted, proceed to a console window and run the following
script:
/sbin/itmptinst
This copies and installs the drivers from the boot server to the newly
created Solaris installation. After this script has been run, the
LSI Logic/IntraServer device driver installation is complete and the
system can be rebooted.
3-14
Software Installation
Notes:
The message “major number maximum based on server,
not client” can safely be ignored.
Your Sun machine will prompt you to allow power saving
automatic shutdown. You must answer no to this question
if you are using the LSI Logic/IntraServer adapter to
support your boot disk.
If you change the disk drive configuration of your machine,
it may be necessary to issue the command:
touch /reconfigure
and then reboot the system in order for the system to
3.3 Troubleshooting
Table 3.2 lists some potential error messages that may be preceded by
a warning message displayed by the operating system. In the message
descriptions below the itmpt<n> signifies that <n> can be replaced by
some number assigned to it by the operating system. That value helps
to identify the bus that is reporting the error.
Table 3.2
Error Messages
Error Messages
Explanation
itmpt<n>: This hardware not
supported by this driver.
itmpt has been told to control an MPT device that is made by a
manufacturer other than LSI Logic/IntraServer. This adapter
requires a special driver provided by that manufacturer. Please
contact the manufacturer for assistance.
itmpt<n>: Failed to map device
registers.
itmpt was unable to access the hardware registers necessary
for operation. The operating system did not properly configure
the PCI device. Make sure your adapter has
LSI Logic/IntraServer Fcode, and that the adapter is working
correctly at the SUN OBP prompt.
itmpt<n>: Hardware not properly
enabled by system, cmd=xxxxh.
The system has not properly enabled the configuration
resources that itmpt needs in order to use this hardware. The
cmd=xxxxh value needs to be reported to LSI Logic/IntraServer
technical support.
Troubleshooting
3-15
Table 3.2
Error Messages (Cont.)
Error Messages
Explanation
itmpt<n>: Could not allocate
The driver was unable to allocate memory required to process
memory to read configuration data. the configuration data. This means that the configuration was
not properly determined. To fix this you may need to manually
configure the driver using the itmpt.conf file.
itmpt<n>: Unable to make reset
notification callbacks.
The itmpt was unable to notify the target device driver of a bus
reset. The target driver may start to malfunction.
itmpt<n>: ddi_dma_unbind_handle: The operating system failed to respond to the named routine in
failed
a known manner. This is a fatal error that is not recoverable.
Please report this error to technical support.
itmpt<n>: ddi_dma_numwin() failed.
itmpt<n>: ddi_dma_getwin() failed.
–
–
–
itmpt<n>: ddi_dma_alloc_handle:
xxh unknown/impossible.
itmpt<n>:
–
ddi_dma_buf_bind_handle:
DDI_DMA_INUSE impossible.
itmpt<n>:
–
ddi_dma_buf_bind_handle: xxh
unknown/impossible.
itmpt<n>: No KeyROM found.
The adapter is not a valid LSI Logic/IntraServer adapter
Hardware contains no valid license. licensed for use with Solaris.
itmpt<n>: Hi-level interrupts not
supported.
The adapter is in a slot that cannot be used with this driver.
Please try moving the adapter to a different PCI slot.
itmpt<n>: Device in a slave-only slot
and is unusable.
–
itmpt<n>: Failed to attach. This
adapter will not be installed.
Because of one of the previous two errors, this adapter could
not be "attached" to the I/O subsystem and will not be
accessible. See the previous error message and solve that
problem.
itmpt<n>: Unable to obtain soft
state structure.
The driver was unable to initialize a required data structure and
therefore did not load. Please call technical support.
itmpt<n>: Failed to attach interrupt The driver was unable to initialize the interrupt handler as
handler. required. Please call technical support.
3-16
Software Installation
Table 3.2
Error Messages (Cont.)
Error Messages
Explanation
itmpt<n>: The adapter is
The driver is not able to communicate with the hardware. You
malfunctioning or is of an unknown may need to update your driver or your hardware.
type.
itmpt<n>: The adapter is
malfunctioning.
–
itmpt<n>: Failed to create minor
node required for DMI interface.
The driver was unable to create an entry point for the DMI
device driver. If you are not using the DMI device driver then
you may safely ignore this message.
itmpt<n>: Could not attach to the
SCSI subsystem.
The driver was unable to communicate with the SCSI/FC device
driver that is part of the operating system. You may need to
update your driver.
itmpt<n>: Failed to allocate
memory.
The driver was unable to allocate the memory needed during
initialization. You may have run out of available memory.
itmpt<n>: Unbind failed!
The driver had a problem when attempting to unload itself.
This is a fatal error.
Troubleshooting
3-17
3-18
Software Installation
Chapter 4
LSI40909G-S Technical
Characteristics
This chapter provides specific details about the physical environment
associated with the LSI40909G-S. This chapter includes these topics:
•
•
•
Section 4.1, “Physical Environment,” page 4-1
Section 4.2, “Operational Environment,” page 4-3
Section 4.3, “IEEE Unique Address,” page 4-4
4.1 Physical Environment
This section provides information about the physical, electrical, thermal,
and safety characteristics of the LSI40909G-S. Additionally, these boards
are compliant with electromagnetic standards set by the FCC.
4.1.1 Physical Characteristics
The LSI40909G-S is a PCI short card; the dimensions are 168 x 98 mm
(6.625 x 3.875 inches). J1 is the PCI edge connector. The external FC
connection is made through a 1 Gigabit/s GBIC optical module.
The component height on the top and bottom of the board conforms to
the PCI Local Bus Specification, Revision 2.2. Figure 4.1 illustrates the
components on the LSI40909G-S.
LSI40909G-S PCI to Fibre Channel Host Adapter for Sun Solaris
4-1
Figure 4.1 LSI40909G-S Components
Flash
2000 LSI Logic
C
VR2
All Rights Reserved
Product Name
SRAM
SRAM
SRAM
SRAM
Assembly Numbers/Rev
0001234567
123456
U7
LSIFC909
U10
GBIC
J1_T
CR3
4.1.2 Electrical Characteristics
Under normal conditions, the LSI40909G-S maximum power requirement
is: + 5 V DC, ± 5%, 1.0 A, and over the operating range 0 °C to 55 °C.
Under abnormal conditions + 5 V current may be higher.
The PCI PRSNT1/and PRSNT2/pins are set to indicate a 7.5 W maximum
configuration.
4.1.3 Thermal, Atmospheric Characteristics
The thermal, atmospheric characteristics of the LSI40909G-S are:
•
•
•
Temperature range: 0 °C to 55 °C (dry bulb)
Relative humidity range: 5% to 90% noncondensing
Maximum dew point temperature: 32 °C
4-2
LSI40909G-S Technical Characteristics
The following parameters define the storage and transit environment for
the LSI40909G-S:
•
•
Storage Temperature: − 45 °C to + 85 °C (dry bulb)
Relative Humidity Range: 5% to 95% noncondensing
4.1.4 Electromagnetic Compliance
These boards minimize electromagnetic emissions, susceptibility, and the
effects of electromagnetic discharge. The boards comply with Class B
and carry markings for CE, VCCI, Canada, C-Tick, and FCC.
4.1.5 Safety Characteristics
The bare boards meet or exceed the requirements of UL flammability
rating 94 V0. The bare boards are also marked with the supplier’s name
or trademark, type, and UL flammability rating. Because these boards
are installed in a PCI bus slot, all voltages are below the SELV 42.4 V
limit.
4.2 Operational Environment
Use the LSI40909G-S in PCI computer systems with an ISA/EISA
bracket type. The LSI Logic supplied FC BIOS and firmware operate the
boards. An on-board flash memory device and a serial EEPROM are
provided to allow BIOS code and open boot code support through PCI.
4.2.1 The PCI Interface
The PCI interface operates as a 64-bit DMA bus master. Edge connector
J1 makes the PCI connection, which provides connections on both the
front and back of the board. The signal definitions and pin numbers
conform to the PCI Local Bus Specification, Revision 2.2. See that
specification for more details regarding the signal assignments. The
on-board regulators provide power to the board’s 3.3 V devices.
Note:
The PCI + 3.3 V pins are tied together and decoupled with
high frequency bypass capacitors to ground. No current
from these + 3.3 V pins is used on the board. The board
derives power from the + 5 V pins, directly and through a
Operational Environment
4-3
3.3 V voltage regulator. The PCI + 3 V/+ 5 V pins are used
to differentiate between a 5 V or a 3.3 V PCI signaling
environment.
4.2.2 The FC Interface
The LSI40909G-S Fibre Channel interface provides an optical connection
to the FC link. The GBIC board uses an SCA connector and rail set
which accepts a GBIC module.
4.2.3 The FC Link Activity/Link Fault LED
The LSI40909G-S provides a dual-purpose LED visible through the
bracket which indicates activity on the FC link when the LED is green.
This LED turns yellow when there has been a fault on the FC link.
4.3 IEEE Unique Address
Each LSI40909G-S is provided with a unique IEEE address. The last six
hexadecimal characters of this address appear on a label on the board.
This address is stored in the serial EEPROM on the board, and is also
used for the worldwide name.
4-4
LSI40909G-S Technical Characteristics
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Appendix A
Glossary of Terms and
Abbreviations
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8B/10B
ANSI
A data encoding scheme developed by IBM, translating byte wide data
to an encoded 10-bit format.
American National Standards Institute. The coordinating organization for
voluntary standards in the United States.
Arbitrated Loop
Topology
A FC Topology that provides a low cost solution to attach multiple ports
in a loop without hubs and switches.
(FC-AL)
BER
Bit
Bit Error Rate.
A binary digit. The smallest unit of information a computer uses. The
value of a bit (0 or 1) represents a two-way choice, such as on or off,
true or false, and so on.
Broadcast
Bus
Sending a transmission to all N_Ports on a fabric.
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A collection of unbroken signal lines across which information is
transmitted from one part of a computer system to another. Connections
to the bus are made using taps on the lines.
Bus Mastering
A high-performance way to transfer data. The host adapter controls the
transfer of data directly to and from system memory without bothering the
computer’s microprocessor. This is the fastest way for multitasking
operating systems to transfer data.
Byte
A unit of information consisting of eight bits.
Channel
A point-to-point link, the main task of which is to transport data from one
point to another.
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Configuration
Refers to the way a computer is setup; the combined hardware
components (computer, monitor, keyboard, and peripheral devices) that
make up a computer system; or the software settings that allow the
hardware components to communicate with each other.
CPU
Central Processing Unit. The “brain” of the computer that performs the
actual computations. The term Microprocessor Unit (MPU) is also used.
Crosspoint-
Switched
Topology
(FC-XS)
Highest performance FC fabric, providing a choice of multiple path
routings between pairs of F_Ports.
DMA
Direct Memory Access. A method of moving data from a storage device
directly to RAM, without using the CPU’s resources.
DMA Bus
Master
A feature that allows a peripheral to control the flow of data to and from
system memory by blocks, as opposed to PIO (Programmed I/O) where
the processor is in control and the flow is by byte.
Device Driver
EEPROM
EISA
A program that allows a microprocessor (through the operating system)
to direct the operation of a peripheral device.
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Electronically Erasable Programmable Read Only Memory. A memory
chip typically used to store configuration information.
Extended Industry Standard Architecture. An extension of the 16-bit ISA
bus standard. It allows devices to perform 32-bit data transfers.
Exchange
Fabric
A term that refers to one of the FC “building blocks”, composed of one
or more nonconcurrent sequences for a single operation.
FC defined interconnection methodology that handles routing in FC
networks.
FC-EP
The future FC Enhanced Physical standard, which will build on and is
compatible with FC-PH.
FC-PH
FC Physical standard, consisting of the three lower levels;
FC-0, FC-1, and FC-2.
FC-0
Lowest level of the FC Physical standard, covering the physical
characteristics of the interface and media.
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FC-1
FC-2
FC-3
FC-4
Middle level of the FC-PH standard, defining the 8B/10B
encoding/decoding and transmission protocol.
Highest level of FC-PH, defining the rules for signaling protocol and
describing transfer of the frame, sequence, and exchanges.
The hierarchical level in the FC standard that provides common services,
such as striping definition.
The hierarchical level in the FC standard that specifies the mapping of
Upper Layer Protocols (ULPs) to levels below.
FCC
FCP
FDDI
Federal Communications Commission.
Fibre Channel Protocol.
Fiber Distributed Data Interface. ANSI option for a Metropolitan Area
Network (MAN); a network based on the use of optical fiber cable to
transmit data at 100 Mbits/s.
Fibre Channel
Service
The common FC-4 level protocol for all services, transparent to the fabric
type or topology.
Protocol (FSP)
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File
A named collection of information stored on a disk.
Firmware
Software that is permanently stored in ROM. Therefore, it can be
accessed during boot time.
F_Port
“Fabric” port, the access point of the fabric for physically connecting the
user’s N_Port.
FL_Port
Frame
An F_Port that contains arbitrated loop functions.
A linear set of transmitted bits that define a basic transport element.
Hard Disk
A disk made of metal and permanently sealed into a drive cartridge. A
hard disk can store very large amounts of information.
HAL
Hardware Abstraction Layer.
HIPPI
High Performance Parallel Interface. An 800 Mbits/s interface to
supercomputer networks (formerly known as high speed channel)
developed by ANSI.
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Host
The computer system in which a SCSI host adapter is installed. It uses
the SCSI host adapter to transfer information to and from devices
attached to the SCSI bus.
Host Adapter
A circuit board or integrated circuit that provides a SCSI bus connection
to the computer system.
IP
Internet Protocol.
IPI
ISA
Intelligent Peripheral Interface.
Industry Standard Architecture. A type of computer bus used in most
PCs. It allows devices to send and receive data up to 16 bits at a time.
Kbyte
LCT
Kilobyte. A measure of computer storage equal to 1024 bytes.
Logical Configuration Table.
LLC
Logical Link Control.
Local Bus
A way to connect peripherals directly to computer memory. It bypasses
the slower ISA and EISA buses. PCI is a local bus standard.
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L_Port
An FC port which supports the arbitrated loop topology.
Link_Control_
Facility
A termination card that handles the logical and physical control of the FC
link for each mode of use.
Login Server
LUN
Entity within the FC fabric that receives and responds to login requests.
Logical Unit Number. An identifier, zero to seven, for a logical unit.
Megabyte. A measure of computer storage equal to 1024 kilobytes.
Message Frame Address.
Mbyte
MFA
Multicast
NIC
Refers to delivering a single transmission to multiple destination N_Ports.
Network Interface Card.
N_Port
NL_Port
“Node” port, an FC defined hardware entity at the node end of a link.
An N_Port that contains arbitrated loop functions.
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Operating
System
A program that organizes the internal activities of the computer and its
peripheral devices. An operating system performs basic tasks such as
moving data to and from devices, and managing information in memory.
It also provides the user interface.
Operation
A term, defined in FC-2, that refers to one of the FC “building blocks”
composed of one or more, possibly concurrent, exchanges.
Ordered Set
An FC term referring to four 10-bit characters (a combination of data and
special characters) that provide low level link functions, such as frame
demarcation and signaling between two ends of a link. It provides for
initialization of the link after power-on and for some basic recovery
actions.
Originator
An FC term referring to the initiating device.
Parity Checking A way to verify the accuracy of data transmitted over the SCSI bus. One
bit in the transfer is used to make the sum of all the 1 bits either odd or
even (for odd or even parity). If the sum is not correct, an error message
appears.
PCI
Peripheral Component Interconnect. A local bus specification that allows
connection of peripherals directly to computer memory. It bypasses the
slower ISA and EISA buses.
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PDB
PIO
Packet Descriptor Block.
Programmed Input/Output. A way the CPU can transfer data to and from
memory using the computer’s I/O ports. PIO is usually faster than DMA,
but requires CPU time.
Port
The hardware entity within a node that performs data communications
over the FC link.
Port Address
Also Port Number. The address through which commands are sent to a
host adapter board. This address is assigned by the PCI bus.
Port Number
RAM
See Port Address.
Random Access Memory. The computer’s primary working memory in
which program instructions and data are stored and are accessible to the
CPU. Information can be written to and read from RAM. The contents of
RAM are lost when the computer is turned off.
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Responder
An FC term referring to the answering device.
RISC Core
LSIFC909 chips contain a RISC (Reduced Instruction Set Computer)
processor, programmed through microcode scripts.
ROM
Read Only Memory. Memory from which information can be read but not
changed. The contents of ROM are not erased when the computer is
turned off.
SAN
Storage Area Network.
SCAM
SCSI Configured AutoMatically. A method to automatically allocate SCSI
IDs using software when SCAM compliant SCSI devices are attached.
Scatter/Gather
A device driver feature that lets the host adapter modify a transfer data
pointer so that a single host adapter transfer can access many segments
of memory. This minimizes interrupts and transfer overhead.
SCB
SCSI Command Block.
SCSI
Small Computer System Interface. A specification for a high-performance
peripheral bus and command set. The original standard is referred to as
SCSI-1.
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SCSI-2
The current SCSI specification which adds features to the original
SCSI-1 standard.
SCSI ID
A way to uniquely identify each SCSI device on the SCSI bus. Each SCSI
bus has eight available SCSI IDs numbered 0 through 7 (or 0 through 15
for Wide SCSI). The host adapter usually gets ID 7 giving it priority to
control the bus.
Sequence
A term referring to one of the FC “building blocks”, composed of one or
more related frames for a single operation.
SGL
Scatter Gather List.
SNAP
SubNetwork Access Protocol.
Synchronous
Data Transfer
One of the ways data is transferred over the SCSI bus. Transfers are
clocked with fixed frequency pulses. This is faster than asynchronous
data transfer. Synchronous data transfers are negotiated between the
SCSI host adapter and each SCSI device.
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System BIOS
Controls the low level POST (Power-On Self-Test), and basic operation
of the CPU and computer system.
TID
Target ID.
Topology
ULP
The logical and/or physical arrangement of stations on a network.
Upper Layer Protocol.
VCCI
Voluntary Control Council for Interference.
Space on a hard disk that can be used as if it were RAM.
Vendor Product Data.
Virtual Memory
VPD
Word
A two byte (or 16 bit) unit of information.
X3T9
A technical committee of the Accredited Standards Committee X3, titled
X3T9 I/O Interfaces. It is tasked with developing standards for moving
data in and out of central computers.
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Tel: 256.705.3559
Tel: 256.830.1222
W. E. Tel: 781.271.9953
W. E. Tel: 800.627.9953
San Diego
Orlando
A. E.
Tel: 407.657.3300
Maryland
Baltimore
A. E.
B. M.
I. E.
Tel: 858.385.7500
Tel: 858.597.3010
Tel: 800.677.6011
W. E. Tel: 407.740.7450
Tampa
W. E. Tel: 800.395.9953
St. Petersburg
W. E. Tel: 800.964.9953
A. E.
Tel: 410.720.3400
Alaska
A. E.
W. E. Tel: 800.863.9953
Columbia
W. E. Tel: 800.829.9953
San Jose
Tel: 800.332.8638
A. E.
Tel: 727.507.5000
B. M.
I. E.
Tel: 800.673.7461
Tel: 410.381.3131
Arizona
Phoenix
A. E.
A. E.
B. M.
I. E.
Tel: 408.435.3500
Tel: 408.436.0881
Tel: 408.952.7000
Georgia
Atlanta
A. E.
Tel: 480.736.7000
Tel: 602.267.9551
Massachusetts
Boston
Tel: 770.623.4400
Tel: 770.980.4922
B. M.
Santa Clara
W. E. Tel: 800.866.9953
Woodland Hills
B. M.
W. E. Tel: 800.528.4040
Tempe
I. E.
Tucson
A. E.
A. E.
Tel: 978.532.9808
W. E. Tel: 800.876.9953
Duluth
W. E. Tel: 800.444.9953
Burlington
Tel: 480.829.1800
A. E.
Tel: 818.594.0404
I. E.
Tel: 678.584.0812
Tel: 800.851.2282
Tel: 801.365.3800
Westlake Village
I. E.
Tel: 781.270.9400
Tel: 520.742.0515
I. E.
Tel: 818.707.2101
Marlborough
Hawaii
A. E.
B. M.
Tel: 800.673.7459
Arkansas
W. E. Tel: 972.235.9953
Colorado
Denver
Woburn
B. M.
Tel: 800.552.4305
Idaho
A. E.
A. E.
B. M.
Tel: 303.790.1662
Tel: 303.846.3065
Michigan
Brighton
W. E. Tel: 801.974.9953
W. E. Tel: 800.933.9953
Englewood
I. E.
Tel: 810.229.7710
Illinois
North/South
I. E.
Tel: 303.649.1800
Detroit
A. E.
Idaho Springs
Tel: 734.416.5800
A. E.
Tel: 847.797.7300
Tel: 314.291.5350
B. M.
Tel: 303.567.0703
W. E. Tel: 888.318.9953
Clarkston
Chicago
B. M.
Connecticut
Cheshire
B. M.
Tel: 877.922.9363
Tel: 847.413.8530
W. E. Tel: 800.853.9953
Schaumburg
A. E.
I. E.
Tel: 203.271.5700
Tel: 203.272.5843
Minnesota
Champlin
I. E.
Tel: 847.885.9700
Wallingford
B. M.
Tel: 800.557.2566
W. E. Tel: 800.605.9953
Eden Prairie
Indiana
Fort Wayne
I. E.
W. E. Tel: 888.358.9953
Indianapolis
A. E.
B. M.
Tel: 800.255.1469
Delaware
North/South
Minneapolis
Tel: 219.436.4250
A. E.
Tel: 612.346.3000
A. E.
Tel: 800.526.4812
Tel: 800.638.5988
Tel: 302.328.8968
W. E. Tel: 800.860.9953
St. Louis Park
Tel: 317.575.3500
B. M.
I. E.
Tel: 612.525.9999
W. E. Tel: 856.439.9110
Iowa
Mississippi
W. E. Tel: 612.853.2280
Cedar Rapids
A. E.
A. E.
Tel: 800.633.2918
W. E. Tel: 256.830.1119
Tel: 319.393.0033
Missouri
Kansas
W. E. Tel: 630.620.0969
St. Louis
W. E. Tel: 303.457.9953
Kansas City
A. E.
I. E.
Tel: 314.291.5350
Tel: 314.872.2182
A. E.
Tel: 913.663.7900
Lenexa
I. E.
Tel: 913.492.0408
U.S. Distributors
by State
(Continued)
Montana
Ohio
Cleveland
A. E.
Texas
Arlington
B. M.
Wyoming
A. E.
Tel: 800.526.1741
A. E.
Tel: 800.332.9326
W. E. Tel: 801.974.9953
Tel: 216.498.1100
Tel: 817.417.5993
W. E. Tel: 801.974.9953
W. E. Tel: 800.763.9953
Dayton
Austin
A. E.
B. M.
Nebraska
Tel: 512.219.3700
Tel: 512.258.0725
Tel: 512.719.3090
A. E.
Tel: 800.332.4375
A. E.
I. E.
Tel: 614.888.3313
Tel: 937.253.7501
W. E. Tel: 303.457.9953
I. E.
W. E. Tel: 800.575.9953
Strongsville
W. E. Tel: 800.365.9953
Dallas
Nevada
Las Vegas
A. E.
B. M.
Tel: 440.238.0404
A. E.
B. M.
Tel: 214.553.4300
Tel: 972.783.4191
Tel: 800.528.8471
Valley View
W. E. Tel: 702.765.7117
I. E.
Tel: 216.520.4333
W. E. Tel: 800.955.9953
El Paso
New Hampshire
A. E.
W. E. Tel: 781.271.9953
Oklahoma
W. E. Tel: 972.235.9953
Tulsa
A. E.
Tel: 800.526.9238
Tel: 800.272.9255
Houston
A. E.
B. M.
Tel: 713.781.6100
Tel: 713.917.0663
A. E.
I. E.
Tel: 918.459.6000
Tel: 918.665.4664
New Jersey
North/South
A. E.
W. E. Tel: 800.888.9953
Richardson
Tel: 201.515.1641
Tel: 609.222.6400
Oregon
Beaverton
I. E.
Tel: 972.783.0800
Mt. Laurel
I. E.
Pine Brook
B. M.
W. E. Tel: 800.862.9953
Parsippany
I. E.
Wayne
W. E. Tel: 973.237.9010
Rio Grande Valley
B. M.
I. E.
Tel: 503.524.1075
Tel: 503.644.3300
Tel: 856.222.9566
A. E.
Tel: 210.412.2047
Stafford
I. E. Tel: 281.277.8200
Portland
A. E.
Tel: 973.244.9668
Tel: 503.526.6200
W. E. Tel: 800.879.9953
Utah
Centerville
Tel: 973.299.4425
Pennsylvania
Mercer
B. M.
Murray
I. E.
Tel: 801.295.3900
I. E.
Tel: 412.662.2707
Tel: 801.288.9001
Philadelphia
New Mexico
W. E. Tel: 480.804.7000
Albuquerque
Salt Lake City
A. E.
B. M.
Tel: 800.526.4812
Tel: 877.351.2355
A. E.
Tel: 801.365.3800
W. E. Tel: 800.477.9953
W. E. Tel: 800.871.9953
Pittsburgh
A. E.
Tel: 505.293.5119
Vermont
A. E.
Tel: 412.281.4150
New York
Hauppauge
A. E.
Tel: 800.272.9255
W. E. Tel: 440.248.9996
W. E. Tel: 716.334.5970
I. E.
Long Island
A. E.
W. E. Tel: 800.861.9953
Rochester
A. E.
I. E.
W. E. Tel: 800.319.9953
Smithtown
B. M.
Tel: 516.761.0960
Rhode Island
Virginia
A. E.
W. E. Tel: 301.604.8488
Haymarket
B. M.
A. E.
800.272.9255
Tel: 800.638.5988
Tel: 516.434.7400
W. E. Tel: 781.271.9953
South Carolina
Tel: 703.754.3399
Tel: 716.475.9130
Tel: 716.242.7790
A. E.
Tel: 919.872.0712
Springfield
B. M.
W. E. Tel: 919.469.1502
Tel: 703.644.9045
South Dakota
Washington
Kirkland
I. E.
Maple Valley
B. M.
Seattle
A. E.
Tel: 800.543.2008
A. E.
Tel: 800.829.0116
Syracuse
A. E.
W. E. Tel: 612.853.2280
Tel: 425.820.8100
Tel: 315.449.4927
Tennessee
W. E. Tel: 256.830.1119
East/West
Tel: 206.223.0080
North Carolina
Raleigh
A. E.
I. E.
Tel: 425.882.7000
Tel: 919.859.9159
Tel: 919.873.9922
A. E.
Tel: 800.241.8182
Tel: 800.633.2918
W. E. Tel: 800.248.9953
W. E. Tel: 800.560.9953
West Virginia
A. E.
Tel: 800.638.5988
North Dakota
A. E.
Tel: 800.829.0116
Wisconsin
Milwaukee
W. E. Tel: 612.853.2280
A. E.
Tel: 414.513.1500
W. E. Tel: 800.867.9953
Wauwatosa
I. E.
Tel: 414.258.5338
Direct Sales
Representatives by State
(Components and Boards)
E. A.
E. L.
GRP
I. S.
ION
R. A.
Earle Associates
Electrodyne - UT
Group 2000
Infinity Sales, Inc.
ION Associates, Inc.
Rathsburg Associ-
ates, Inc.
Texas
Austin
ION
Arlington
ION
Tel: 512.794.9006
Tel: 817.695.8000
Tel: 281.376.2000
Houston
ION
SGY
Synergy Associates,
Inc.
Utah
Salt Lake City
Arizona
Tempe
E. A.
E. L.
Tel: 801.264.8050
Wisconsin
Muskego
Tel: 480.921.3305
R. A.
Saukville
R. A.
Tel: 414.679.8250
California
Calabasas
Tel: 414.268.1152
I. S.
Irvine
I. S.
Tel: 818.880.6480
Tel: 714.833.0300
San Diego
E. A.
Tel: 619.278.5441
Illinois
Elmhurst
R. A.
Tel: 630.516.8400
Indiana
Cicero
R. A.
Ligonier
R. A.
Tel: 317.984.8608
Tel: 219.894.3184
Tel: 317.838.0360
Plainfield
R. A.
Massachusetts
Burlington
SGY
Tel: 781.238.0870
Michigan
Byron Center
R. A.
Tel: 616.554.1460
Good Rich
R. A.
Novi
R. A.
Tel: 810.636.6060
Tel: 810.615.4000
North Carolina
Cary
GRP
Tel: 919.481.1530
Ohio
Columbus
R. A.
Tel: 614.457.2242
Dayton
R. A.
Tel: 513.291.4001
Independence
R. A.
Tel: 216.447.8825
Pennsylvania
Somerset
R. A.
Tel: 814.445.6976
Sales Offices and Design
Resource Centers
LSI Logic Corporation
Fort Collins
New Jersey
Red Bank
125 Half Mile Road
Suite 200
Red Bank, NJ 07701
Tel: 732.933.2656
Fax: 732.933.2643
Canada
Ontario
Ottawa
260 Hearst Way
Suite 400
2001 Danfield Court
Fort Collins, CO 80525
Tel: 970.223.5100
Corporate Headquarters
1551 McCarthy Blvd
Milpitas CA 95035
Tel: 408.433.8000
Fax: 970.206.5549
♦TKealn:a6ta1,3O.5N9K22.1L236H31
Fax: 408.433.8989
NORTH AMERICA
California
Irvine
18301 Von Karman Ave
Suite 900
Florida
Boca Raton
2255 Glades Road
Suite 324A
Boca Raton, FL 33431
Tel: 561.989.3236
Fax: 561.989.3237
Fax: 613.592.3253
Cherry Hill - Mint Technology
215 Longstone Drive
Cherry Hill, NJ 08003
Tel: 856.489.5530
Fax: 856.489.5531
INTERNATIONAL
France
Paris
LSI Logic S.A.
Immeuble Europa
53 bis Avenue de l'Europe
B.P. 139
♦ITreviln:e9,4C9A.890296.142600
Georgia
Alpharetta
2475 North Winds Parkway
Suite 200
Alpharetta, GA 30004
Tel: 770.753.6146
Fax: 770.753.6147
New York
Fairport
550 Willowbrook Office Park
Fairport, NY 14450
Tel: 716.218.0020
Fax: 949.809.4444
Pleasanton Design Center
5050 Hopyard Road, 3rd Floor
Suite 300
Pleasanton, CA 94588
Tel: 925.730.8800
78148 Velizy-Villacoublay
Fax: 716.218.9010
♦CTeeld:e3x3, P.1a.r3is4.63.13.13
North Carolina
Raleigh
Phase II
4601 Six Forks Road
Suite 528
Raleigh, NC 27609
Tel: 919.785.4520
Fax: 919.783.8909
Fax: 33.1.34.63.13.19
Fax: 925.730.8700
Illinois
Oakbrook Terrace
Two Mid American Plaza
Suite 800
Oakbrook Terrace, IL 60181
Tel: 630.954.2234
Germany
Munich
LSI Logic GmbH
Orleansstrasse 4
San Diego
7585 Ronson Road
Suite 100
San Diego, CA 92111
Tel: 858.467.6981
♦8T1e6l:6499M.8u9ni.c4h.58.33.0
Fax: 630.954.2235
Fax: 858.496.0548
Fax: 49.89.4.58.33.108
Kentucky
Oregon
Silicon Valley
1551 McCarthy Blvd
Sales Office
Bowling Green
Beaverton
15455 NW Greenbrier Parkway
Suite 235
Beaverton, OR 97006
Tel: 503.645.0589
Stuttgart
1262 Chestnut Street
Bowling Green, KY 42101
Tel: 270.793.0010
Mittlerer Pfad 4
♦DTe-7l:044999.7S1t1ut.t1g3ar.9t 6.90
M/S C-500
♦TMeillp:it4a0s,8C.4A3935.8030500
Fax: 270.793.0040
Fax: 49.711.86.61.428
Fax: 503.645.6612
Fax: 408.954.3353
Design Center
Maryland
Bethesda
6903 Rockledge Drive
Suite 230
Bethesda, MD 20817
Tel: 301.897.5800
Fax: 301.897.8389
Italy
Milan
Texas
Austin
M/S C-410
Tel: 408.433.8000
Fax: 408.433.7695
LSI Logic S.P.A.
CentroDirezionaleColleoniPalazzo
Orione Ingresso 1
9020 Capital of TX Highway North
Building 1
Suite 150
Austin, TX 78759
Tel: 512.388.7294
♦2T0e0l:4319A.g0r3a9te.6B8ri7a3nz7a1, Milano
Wireless Design Center
11452 El Camino Real
Suite 210
San Diego, CA 92130
Tel: 858.350.5560
Fax: 39.039.6057867
Fax: 512.388.4171
Massachusetts
Waltham
200 West Street
Japan
Tokyo
LSI Logic K.K.
Rivage-Shinagawa Bldg. 14F
4-1-8 Kounan
Plano
Fax: 858.350.0171
500 North Central Expressway
Suite 440
♦TWeall:th7a8m1,.8M9A00.02145810
Colorado
Boulder
4940 Pearl East Circle
Suite 201
♦PTelaln: o9,7T2X.2745407.54000
Fax: 781.890.6158
♦MTeinl:a8to1-k.3u,.5T4ok6y3o.718082-10075
Fax: 972.244.5001
Burlington - Mint Technology
77 South Bedford Street
Burlington, MA 01803
Tel: 781.685.3800
Fax: 781.685.3801
Fax: 81.3.5463.7820
♦TBeolu:ld3e0r,3C.4O4780.3380100
Houston
20405 State Highway 249
Suite 450
Houston, TX 77070
Tel: 281.379.7800
Fax: 303.541.0641
Osaka
Crystal Tower 14F
1-2-27 Shiromi
Colorado Springs
Minnesota
Minneapolis
8300 Norman Center Drive
Suite 730
♦TCehlu:o8-k1u.6, O.9s4a7k.a5524801-6014
4420 Arrowswest Drive
Colorado Springs, CO 80907
Tel: 719.533.7000
Fax: 281.379.7818
Fax: 81.6.947.5287
Fax: 719.533.7020
♦MTeinl:n6ea1p2o.l9is2,1M.8N35050437
Fax: 612.921.8399
Sales Offices and Design
Resource Centers
(Continued)
Korea
Seoul
LSI Logic Corporation of
Korea Ltd
10th Fl., Haesung 1 Bldg.
942, Daechi-dong,
Kangnam-ku, Seoul, 135-283
Tel: 82.2.528.3400
Fax: 82.2.528.2250
The Netherlands
Eindhoven
LSI Logic Europe Ltd
World Trade Center Eindhoven
Building ‘Rijder’
Bogert 26
5612 LZ Eindhoven
Tel: 31.40.265.3580
Fax: 31.40.296.2109
Singapore
Singapore
LSI Logic Pte Ltd
7 Temasek Boulevard
#28-02 Suntec Tower One
Singapore 038987
Tel: 65.334.9061
Fax: 65.334.4749
Sweden
Stockholm
LSI Logic AB
Finlandsgatan 14
♦1T6e4l:7446K.8is.4ta44.15.00
Fax: 46.8.750.66.47
Taiwan
Taipei
LSI Logic Asia, Inc.
Taiwan Branch
10/F 156 Min Sheng E. Road
Section 3
Taipei, Taiwan R.O.C.
Tel: 886.2.2718.7828
Fax: 886.2.2718.8869
United Kingdom
Bracknell
LSI Logic Europe Ltd
Greenwood House
London Road
♦TBeral:ck4n4e.l1l,3B4e4rk.4sh2i6re5R4G412 2UB
Fax: 44.1344.481039
♦Sales Offices with
Design Resource Centers
International Distributors
Australia
Hong Kong
Yokohama-City
United Kingdom
New South Wales
Reptechnic Pty Ltd
3/36 Bydown Street
Hong Kong
AVT Industrial Ltd
Unit 608 Tower 1
Cheung Sha Wan Plaza
833 Cheung Sha Wan Road
Kowloon, Hong Kong
Tel: 852.2428.0008
Innotech
2-15-10 Shin Yokohama
Kohoku-ku
Yokohama-City, 222-8580
Tel: 81.45.474.9037
Maidenhead
Azzurri Technology Ltd
16 Grove Park Business Estate
Waltham Road
White Waltham
Maidenhead, Berkshire SL6 3LW
♦TNeelu:tr6a1l 2B.a9y9, N53S.W98240489
Fax: 81.45.474.9065
Fax: 612.9953.9683
Tel: 44.1628.826826
Fax: 852.2401.2105
Fax: 44.1628.829730
Milton Keynes
Ingram Micro (UK) Ltd
Garamonde Drive
Wymbush
Milton Keynes
Buckinghamshire MK8 8DF
Tel: 44.1908.260422
Macnica Corporation
Hakusan High-Tech Park
1-22-2 Hadusan, Midori-Ku,
Yokohama-City, 226-8505
Tel: 81.45.939.6140
Belgium
Acal nv/sa
Lozenberg 4
1932 Zaventem
Tel: 32.2.7205983
Fax: 32.2.7251014
Serial System (HK) Ltd
2301 Nanyang Plaza
57 Hung To Road, Kwun Tong
Kowloon, Hong Kong
Tel: 852.2995.7538
Fax: 852.2950.0386
Fax: 81.45.939.6141
The Netherlands
Eindhoven
Acal Nederland b.v.
Beatrix de Rijkweg 8
5657 EG Eindhoven
Tel: 31.40.2.502602
China
Beijing
LSI Logic International
Services Inc.
Beijing Representative
Office
India
Bangalore
Spike Technologies India
Private Ltd
951, Vijayalakshmi Complex,
2nd Floor, 24th Main,
J P Nagar II Phase,
Swindon
EBV Elektronik
12 Interface Business Park
Bincknoll Lane
Wootton Bassett,
Swindon, Wiltshire SN4 8SY
Tel: 44.1793.849933
Fax: 44.1793.859555
Fax: 31.40.2.510255
Room 708
Canway Building
66 Nan Li Shi Lu
Xicheng District
Beijing 100045, China
Tel: 86.10.6804.2534 to 38
Fax: 86.10.6804.2521
Switzerland
Brugg
LSI Logic Sulzer AG
Mattenstrasse 6a
CH 2555 Brugg
Tel: 41.32.3743232
Fax: 41.32.3743233
♦TBealn:g9a1lo.r8e0, .I6nd6i4a.5565030078
Fax: 91.80.664.9748
♦Sales Offices with
Israel
Tel Aviv
Eastronics Ltd
11 Rozanis Street
P.O. Box 39300
Tel Aviv 61392
Tel: 972.3.6458777
Fax: 972.3.6458666
Design Resource Centers
France
Rungis Cedex
Azzurri Technology France
22 Rue Saarinen
Sillic 274
94578 Rungis Cedex
Tel: 33.1.41806310
Fax: 33.1.41730340
Taiwan
Taipei
Avnet-Mercuries
Corporation, Ltd
14F, No. 145,
Sec. 2, Chien Kuo N. Road
Taipei, Taiwan, R.O.C.
Tel: 886.2.2516.7303
Japan
Tokyo
Daito Electron
Sogo Kojimachi No.3 Bldg
1-6 Kojimachi
Chiyoda-ku, Tokyo 102-8730
Tel: 81.3.3264.0326
Fax: 81.3.3261.3984
Germany
Haar
EBV Elektronik
Hans-Pinsel Str. 4
D-85540 Haar
Tel: 49.89.4600980
Fax: 49.89.46009840
Fax: 886.2.2505.7391
Lumax International
Corporation, Ltd
7th Fl., 52, Sec. 3
Nan-Kang Road
Taipei, Taiwan, R.O.C.
Tel: 886.2.2788.3656
Fax: 886.2.2788.3568
Global Electronics
Corporation
Nichibei Time24 Bldg. 35 Tansu-cho
Shinjuku-ku, Tokyo 162-0833
Tel: 81.3.3260.1411
Fax: 81.3.3260.7100
Technical Center
Munich
Avnet Emg GmbH
Stahlgruberring 12
81829 Munich
Tel: 49.89.45110102
Fax: 49.89.42.27.75
Prospect Technology
Corporation, Ltd
4Fl., No. 34, Chu Luen Street
Taipei, Taiwan, R.O.C.
Tel: 886.2.2721.9533
Tel: 81.471.43.8200
Wuennenberg-Haaren
Peacock AG
Fax: 886.2.2773.3756
Marubeni Solutions
1-26-20 Higashi
Shibuya-ku, Tokyo 150-0001
Tel: 81.3.5778.8662
Fax: 81.3.5778.8669
Graf-Zepplin-Str 14
D-33181 Wuennenberg-Haaren
Tel: 49.2957.79.1692
Fax: 49.2957.79.9341
Wintech Microeletronics
Co., Ltd
7F., No. 34, Sec. 3, Pateh Road
Taipei, Taiwan, R.O.C.
Tel: 886.2.2579.5858
Shinki Electronics
Myuru Daikanyama 3F
3-7-3 Ebisu Minami
Fax: 886.2.2570.3123
Shibuya-ku, Tokyo 150-0022
Tel: 81.3.3760.3110
Fax: 81.3.3760.3101
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