Cambex Network Card Bus Adapter User Manual

Dynamic Path Failover Driver for AIX  
FibreQuik Host Bus Adapter  
Installation and User Guide  
Cambex Corporation  
115 Flanders Road  
Westborough, MA 01581  
Customer support  
Document:  
Date:  
Rev.:  
081-468-025  
12/07/06  
H
 
Table of Contents  
1
 
Dynamic Path Failover for AIX  
Introduction  
The Cambex FibreQuikFibre Channel host bus adapters  
provide attachment of Fibre Channel devices to PCI or Micro  
Channel based servers. They support the SCSI-FCP protocol.  
When used with the Cambex DPF (Dynamic Path Failover)  
software, two adapters in a system provide greater throughput  
and total protection from failure of a fibre channel component.  
In addition, the Cambex AutoRecover daemon, cbxdpfar, will  
automatically detect when a failed path has been repaired and  
make it available as a standby path. For arrays that support  
preferred paths, AutoRecover will automatically resume  
operation on the repaired path, otherwise, an operator may  
manually change paths to do load balancing.  
Storage (SAN) and communications (LAN) networks have  
resulted in a physical and logical separation between the storage  
device (typically a SAN-connected RAID array), the storage  
user (typically an Enterprise Server, which we will refer to  
below as the server) and the administration station (typically a  
remote workstation).  
As storage systems have evolved from JBOD (just bunch of  
disks) to complex shared RAID systems, the management  
software has also grown in complexity. The following sections  
describe the different levels of management software.  
3
 
 
SAN Management  
SAN Management is the top layer. It is responsible for  
assigning the required access for each server to each storage  
device. The unit of storage is the LUN (Logical Unit Number)  
which acts the same as a single disk directly attached to the  
server. In reality, a LUN is made up of portions of a number of  
disks under the direction of a RAID controller in the storage  
device. SAN Management typically requires a process running  
on each managed server communicating with the manager  
running on the administering station.  
Storage Management  
The Storage Management layer, or RAID manager, is the layer  
that communicates with the RAID controllers on the storage  
device. This is the layer used to create, modify or delete LUNs.  
The Storage Management layer may provide SAN Management  
functions, but only for the specific storage device being  
managed. Storage management typically runs on a server  
attached to the storage device (in-band) but may also run over a  
network (out-of-band).  
Path Management  
Path Management includes a variety of software for managing  
the various fibre channel components such as HBAs (Host Bus  
Adapters), hubs and switches. It is used to display path status  
and allow control over multiple paths between servers and  
storage. To avoid having to access a large number of unrelated  
software interfaces, integration of the various Path Management  
components is usually done using a management tool  
4
 
 
communicating via a network connection to each managed  
device.  
The Cambex Dynamic Path Failover driver is a Path  
Management component that allows multiple paths to a storage  
device and provides automatic failover between available paths.  
Cambex Dynamic Path Failover software provides both a  
command line interface and access through smit, the standard  
integrated management tool for AIX.  
SCSI and FCP Drivers  
AIX makes two types of device drivers available. SCSI device  
drivers support SCSI-2 disk and tape devices. FCP device  
drivers support newer SCSI-3 disk and tape devices, which  
provides a larger address space for target ID and LUN. When  
using the FCP device driver, the adapter will be configured with  
a name like fscsi2.  
Load Balancing  
Selection of which path to use happens in one of three ways.  
Static load balancing allows the operator to select which path is  
used to access a LUN. This is the default method. Preferred  
Paths allow certain RAID arrays to automatically specify a path  
choice. See the next section on Preferred Paths for more  
information. Finally, turning on Load Balancing will send I/O  
on all available paths using round robin scheduling.  
5
 
 
How Preferred Paths work  
The basic idea of multipathing is fairly simple. Access a disk on  
one of two paths. If the path fails, move I/O activity to the other  
path. We build on that basis by adding more factors into the  
configuration and seeing what effect they have.  
A path is defined as an end-to-end connection through a SAN,  
ignoring any intermediate routing points. A complex SAN may  
have multiple connections from an HBA to a storage device, but  
this is invisible to the software. The combination of one HBA to  
one target is one path, regardless of how it is routed.  
Multiple LUNs  
The effect of multiple LUNs on a RAID controller is that we  
can choose to distribute them so as to balance the I/O across  
multiple paths. The choice can be made in one of two ways. If  
one RAID controller has preference over the other, we call this  
"controller preference". If the selection is made in the host  
software we call this "target preference". A third type of  
preference is to lock a LUN to a particular HBA, called "HBA  
preference".  
More than two paths  
With four paths (for example) we have to sort the paths into an  
order in which they are chosen when the primary path fails. This  
order should depend on getting the best performance when a  
path segment fails. For example, if our performance is limited  
by the IOPS that can be handled by each RAID controller, then  
we want to balance the LUNs between the RAID controllers,  
6
 
 
and set up preferences so that the remaining paths to the same  
controller are preferred over paths to the alternate controller.  
Example 1) Suppose we have two HBAs, a switch, and two  
RAID controllers. A total of four cables, and four paths to each  
LUN (2 HBAs x 2 RAID controllers). We use the RAID  
controller preference to select which controller each LUN is  
accessed on. The target preference lets me balance those  
accesses across the two HBAs.  
Example 2) We have two switches, 2 HBAs and 2 RAID  
controllers, a fully redundant system. We add an inter-switch  
link for in-band management, but we do not want to use this as  
a data path if there are any other paths available. We set the ISL  
paths' target preference lower than the direct paths, so they will  
be used last.  
Example 3) A 2G RAID array is connected to a 2G switch,  
which does speed matching to two 1G HBAs in the host. To  
avoid saturating either of the 1G paths, We use HBA preference  
when balancing the LUNs across the paths.  
Multiple Hosts  
When we have more than two hosts accessing the same storage,  
we find that the limit is usually the number of controller ports.  
The HBAs will run below the maximum bandwidth, but the  
controllers need to be balanced. Use the controller preferences  
and target preferences to balance the loads.  
Normally, each host accesses different LUNs through either  
controller, so all paths are independent. One special case is  
where a RAID controller has LUN groups. All LUNs in a LUN  
group are accessed on the same controller. If the different LUNs  
7
 
 
are accessed by different hosts, we could have the problem of  
"thrashing". One host tries to move the LUN group to preferred  
controller A while the other host tries to move the group to  
preferred controller B. Anti-thrashing code prevents this  
problem in the multipathing software.  
8
 
Adapter Specifications  
PC2000LC-HPSP PC4000 (Single Port)  
PC2000LC-A  
PC4002 (Dual Port)  
Bus  
PCI  
PCI-X 2.0  
Data rate (each dir.)  
Cable length - copper  
- multimode optical  
- single mode optical  
Voltage  
100/200 100/200/400 MB/s  
30  
500  
10  
70  
m
3.3 or 5  
7.2  
3.3  
8.0  
10  
V
W
oz  
Power  
Shipping weight  
10  
Trademarks  
Dynamic Path Failover and FibreQuik are trademarks of  
Cambex Corporation.  
9
 
 
Software and Hardware Installation  
Driver Installation (command line)  
The examples assume that the driver CD is mounted at /mnt and  
that you are installing on AIX 5.1. The name and revision level  
of the uninstalled driver image may be examined by issuing the  
command (as root):  
installp -ld <device>  
where <device> is the path to the drivers, such as /mnt/AIX4/  
for the CD or the name of a driver directory on the hard disk.  
Example output would be:  
Fileset Name  
==============================================  
PC1000.driver.obj 2.5.10.25 I b usr  
# PC1000 Fibre Channel Adapter Driver (AIX 5L)  
Level  
I/U Q Content  
cbxdpf.driver.obj  
5.1.0.23  
I b usr  
# Cambex Dynamic Path Failover Driver  
Before installing a new version of the driver, delete the previous  
version of the driver. Note that any file systems must be  
unmounted, volume groups exported and SCSI devices must be  
removed before removing the driver. Be sure to have a  
complete backup of all data before updating the driver. The  
command to remove the driver is:  
installp -u <name>.driver.obj  
where names are cbxdpf and PC1000 or PC4000 as shown  
above.  
10  
 
 
The new driver may be installed on the system with the  
command:  
installp -acd <device> all  
where <device> is as described above.  
example:  
installp -acd /mnt/AIX5.1 all  
After installing the driver, see the README file for additional  
information and release notes.  
/usr/lpp/cbxfc/READ_ME  
/usr/lpp/PC4000/READ_ME  
/usr/lpp/cbxdpf/READ_ME  
11  
 
Driver Installation (smit)  
The smit path is  
Software Installation and Maintenance  
Install and Update Software  
Install and Update Software by Package Name  
For item " INPUT device / directory" use /mnt/AIX5.1or  
the directory where the image files are located. A list should  
pop up with the name of the drivers. Select and press enter.  
Also make sure that the following drivers are loaded from the  
AIX installation media.  
devices.fcp.disk.rte  
devices.fcp.tape.rte  
The recommended maintenance levels for AIX are specified in  
the image file prereq section. If not at the correct maintenance  
level, the driver installation will fail. The current level may be  
found from the command:  
instfix -i |grep ML  
Installation may fail if conflicting drivers are present for the  
same devices. Only one driver may be installed on AIX for a  
given device type.  
12  
 
 
Hardware Installation  
Power down the system and install the adapter in a free slot.  
The PCI cards may be installed in either 32 or 64-bit PCI card  
slots, however the 32-bit slots may limit performance at high  
data rates. Make sure that any cables do not block airflow to the  
card. Observe proper static precautions. Detailed procedures  
for opening the case and for suggested adapter placement may  
be found in the Operator Guide for the specific server model.  
When using copper cable, it is extremely important that the  
building wiring present a low impedance ground path to the  
frame of the device and the host with which it will  
communicate. Noise due to copiers or large machinery sharing  
the electrical circuits is a common cause of signal integrity  
problems.  
13  
 
 
AutoRecover  
cbxdpfar, the AutoRecover daemon, is automatically installed  
and enabled when the DPF driver is installed. Control of the  
daemon is done using SRC.  
stopsrc -s cbxdpfar Stops AutoRecover  
startsrc -s cbxdpfar Starts AutoRecover  
AutoRecover works by periodically polling the standby paths to  
each LUN. If the polls fail, the path is marked as failed. If the  
polls succeed, the path is marked as available for use. If path  
preferences are set up, the AutoRecover daemon will move I/O  
to the preferred paths when they become available.  
AutoRecover also deletes paths to hdisks that have been  
removed from the system. See the section on SMIT for  
changing the default AutoRecover timing parameters.  
14  
 
 
AIX Configuration  
During power-up initialization, AIX will find and configure the  
new adapter(s) and any supported devices using the driver's  
configuration method. Devices are assigned a SCSI ID as they  
are discovered starting with 0. SCSI ID is not related to loop  
ID, port ID or to SCSI ID assignment on other hosts. It is a  
logical value bound to the fibre channel WWN of the device.  
Configuration may also be run from the command line:  
cfgmgr  
Once disks have been configured, the standard AIX utilities  
may be used to build volume groups, logical volumes and file  
systems. See the AIX System Management Guide for a detailed  
explanation.  
Find out the names of the installed adapters with the command:  
lsdev -Cc adapter  
In arbitrated loop, the ID of each device must be unique. For  
disk drives, the ID is typically set by switches on the drive  
enclosure. The adapter ID is soft assigned and may be  
examined after it is participating with the mbtest command. If  
the adapter name found by the lsdev command were fscsi1, the  
command would be:  
/usr/lpp/cbxfc/mbtest fscsi1 id  
The requested ID may be changed in the database to any non-  
conflicting value in the range 0 to 126 with the command:  
chdev -l fscsi1 -a id=6 –P  
The ID attribute has no effect in a fabric environment.  
15  
 
 
Persistent Bindings  
Persistent Bindings is the term used to indicate the mapping of  
SCSI ID to FC Worldwide Name (WWN). By keeping a  
persistent binding, the loop ID or port ID of a device may  
change and the device will still be properly addressed.  
In the Cambex AIX driver, persistent binding is automatic. At  
configuration time, all devices that are found are automatically  
assigned to a SCSI ID and a persistent binding is created.  
Persistent bindings are by portname and are kept in the ODM  
database. They are preserved and restored at reboot for all FC  
devices.  
To display the SCSI ID to WWN mapping for all adapters and  
devices, issue the command:  
/usr/lpp/cbxfc/fctest  
When replacing a failed device on a SAN, we want to keep the  
same SCSI ID but change the WWN binding to the  
replacement. A perl script is provided for doing this:  
/usr/lpp/cbxfc/FRU_replace  
16  
 
 
SMIT Commands  
Commands  
The adapter management commands available in SMIT are in  
the devices menu under Cambex Fibre Channel Adapter:  
List all Cambex FC adapters  
This provides the name and location of each adapter.  
Change / Show Characteristics of a Cambex FC Adapter  
Allows the user to display and modify attributes. Attributes  
(and default values) include:  
exec_throttle (256) number of simultaneous I/O operations.  
dma_window (64) PCI DMA memory window in MB.  
retry_delay (3) Delay in seconds after bus reset or other error.  
logout_delay (7) Time in seconds allowed for ports to be logged  
out before failing I/O.  
topology_list (LOOP_P2P) Automatically detect topology.  
May also be forced to LOOP_ONLY or P2P_ONLY.  
frame_size (2048) Maximum FC frame size. Choices are 1024  
or 2048.  
infinity (300) Maximum SCSI command timeout in seconds.  
Set to 0 to disable.  
GHz (auto) Auto-detect fibre channel rate in GHz. May also be  
forced to 1 or 2. Ignored on 1GHz cards.  
17  
 
 
sw_fc_class (3) Fibre channel class.  
devtype_exclude ( ) List of SCSI device types to ignore during  
configuration. For example, specifying "1,5" would exclude  
both tape and CD devices.  
Attributes only used in loop mode include:  
id (0) Default L_ID for adapter. See table of L_ID to ALPA.  
login_on_lip (yes) Full login if LIP occurs.  
full_duplex (no) Use full duplex loop open, OPNyx.  
Generate Error Report  
Accesses the AIX error logging facility.  
Trace Cambex FC Adapters  
Runs the AIX trace facility, looking only for the entries specific  
to the adapter driver.  
Path Management Commands  
The path management commands available in SMIT are in the  
devices menu under Cambex Dynamic Path Management:  
List all Cambex Dynamic Paths  
This provides the information on all paths and devices known to  
the DPF driver. Use this when installing to verify that all paths  
have been found and configured.  
Change / Show Characteristics of a Cambex Dynamic Path  
Displays the current path status and allows the user to place  
paths online/offline or to change path preferences.  
18  
 
 
The autorecover daemon will automatically move operation to  
preferred paths. The preferred path is the combination of path  
preference values for HBA, device and path. For some arrays,  
target device preference is read automatically from the array at  
configuration time. Consult the array user manuals for more  
information.  
Change / Show Characteristics of Cambex Managed HBA’s  
Used to display and change HBA preference for one or more  
adapters.  
Trace Cambex Dynamic Paths  
Runs the trace facility, looking only for the entries specific to  
the DPF driver and adapter driver.  
Manage AutoRecovery Subsystem  
Provides the following functions:  
Show Status of AutoRecovery Subsystem  
Start AutoRecovery Subsystem  
Stop AutoRecovery Subsystem  
Change / Show AutoRecovery Subsystem Parameters  
Parameters are:  
-n  
-t  
-r  
Number of successful inquiries (3 - 9)  
Seconds between inquiries (3 - 3599)  
Seconds between ODM updates (automatic)  
Manage Load-Balancing  
Enable or disable dynamic load balancing for the selected disks.  
Manage Licensing  
Allows the user to enter a new license for the DPF software,  
overwriting the existing license, or to display the expiration date  
of the current license. To enable a one-time-use, 30-day license  
19  
 
 
for use until the purchased license is received. Issue the  
commands:  
cd /usr/lpp/cbxdpf  
mv license.30day license  
cfgmgr  
Licenses for OEM versions of the driver are obtained from the  
storage vendor who provided the software.  
The generic version of DPF purchased from Cambex is licensed  
for use only on Cambex cards and on only one LPAR. A  
license token is provided with the purchase. Contact Cambex  
support by email to obtain a license. You will need to provide  
The license tokens for each card  
Host machine ID from 'uname –a -L'  
The output of /usr/lpp/cbxfc/fcinfo  
How to set path preferences  
Controller preference is set on the RAID controller using RAID  
Management software provided by the storage vendor. HBA  
preference and Target preference are set in the host using the  
dpfutil Path Management software, or in the smit menus. The  
preference value, although internally combined numerically, is a  
yes/no value in the user interface. HBA preference outweighs  
controller preference. It defaults to yes (all HBAs are preferred)  
but can be changed to no with the tool. Target preference ranks  
lower than controller preference and defaults to no (no preferred  
path) but may be changed to yes with the tool.  
Path priority is the combination of the following factors, which  
are listed from highest to lowest.  
20  
 
 
failed or offline status is considered first. A path will not  
be used if failed or offline.  
Anti-thrashing prevents paths to the wrong controller  
from causing thrashing.  
HBA preference - normally all HBAs have equal  
preference to paths. To block an hba from using a path,  
do:  
Command line:  
dpfutil hba_set_wwn cbx0 no (default is yes)  
to list HBA preferences:  
odmget -q"attribute=hba_pref" CuAt  
in smit:  
Devices  
-> Cambex Dynamic Path Management  
-> Change / Show Characteristics of Cambex Managed  
HBAs  
Controller preference - this is for multi-controller RAID  
arrays where one or more of the controllers reports that  
it owns the LUN. Controllers which do not report  
preference, are treated equally.  
Target preference - To make one path higher preference  
than other paths to the same LUN, use target  
preference.  
Command line:  
dpfutil target_set_wwn cbx10 yes (default is no)  
to list target preference:  
odmget -q"attribute=tgt_pref" CuAt  
in smit:  
Devices  
-> Cambex Dynamic Path Management  
-> Change / Show Characteristics of Cambex  
Dynamic Paths  
-> Change / Show Physical Path Routing  
Preferences  
21  
 
Troubleshooting  
Use the errpt command to identify the cause of failure. The  
lsdev command will provide the location of the component. For  
example, if errpt identifies a loose cable on device hdisk1, lsdev  
will give an address similar to:  
hdisk1 Available 00-02-01  
Cambex SCSI...  
and lsattr -El hdisk1 will show:  
clr_q  
no  
Device CLEARS it’s  
Queue on error  
location  
lun_id  
node_name  
pvid  
Location Label  
Logical Unit Num ID  
0x20000080e511b744 FC Node Name  
0x0  
none  
yes  
Physical Volume id  
Use QERR bit  
q_err  
q_type  
queue_depth 16  
reassign_to 120  
rw_timeout  
scsi_id  
simple  
Queuing TYPE  
Queue DEPTH  
REASSIGN time out  
READ/WRITE timeout  
SCSI ID  
30  
0x0  
start_timeout 60  
ww_name  
START UNIT timeout  
0x23000080e511b744 FC World Wide Name  
Which indicates that the adapter is in card location 00-02, and the  
drive is at SCSI ID 0, LUN 0.  
22  
 
 
Checklist for driver and HBA installation  
The following commands may be used to isolate problems  
during installation of the fibre channel driver and card. Type  
the command shown in bold and verify the output.  
lslpp -l PC1000.driver.obj  
must give:  
Fileset  
Level  
State  
Path: /usr/lib/objrepos PC1000.driver.obj  
01.05.00.00 (or greater)  
Committed  
Description Cambex Fibre Channel Adapter Driver  
lsdev -Cc adapter should print a line for each card:  
fscsi<x>  
<x> is a unique number for each SCSI card  
Available <SS-SS> <S> is the location in the machine where  
the card is installed  
Check that the number of SCSI cards and their slots are correct  
If 'Available'then card and driver are installed.  
If 'Defined'or not listed then card was not found.  
lscfg -vl fscsi4 should print more information for a card:  
DEVICE  
LOCATION  
DESCRIPTION  
Cambex Fibre  
fscsi4  
00-03  
Channel I/O Controller  
Manufacturer................CAMBEX  
Machine Type and Model......MC1000F  
ROS Level and ID............V2.01.04  
Serial Number...............  
2354  
Displayable Message.........Cambex Fibre ...  
Network Address.............500502E020000932  
Device Specific.(Z0)........Build:TMNX  
cfgmgr -v >/tmp/cfg.log 2>&1  
Should identify the card and configure it.  
23  
 
If cfg.log contains the ID 7710002x and no driver is found,  
then the adapter driver is not installed.  
During boot, the number displayed when configuring the  
adapter is hex 0x911 (FC adapter).  
/usr/lpp/cbxfc/mbtest fscsi1  
This test code may be used to get fibre channel status from the  
adapter or from attached devices. Type the command as above  
for a list of subcommands.  
/usr/lpp/cbxfc/mbtest fscsi1 fab  
This command will list the persistent bindings between SCSI ID  
and WWN on adapter scsi1. It will also list the loop ID and  
port ID (fabric address) which can change dynamically as  
devices are connected or disconnected.  
/usr/lpp/cbxfc/mbtest fscsi1 getp  
This command will show the fibre channel ports which are  
currently logged in to adapter scsi1.  
/usr/lpp/cbxfc/sctest fscsi1  
This test code may be used to get IOCINFO information from  
the adapter or to see the results of SCSI Inquiry or  
TestUnitReady commands to SCSI devices attached to the  
adapter. Type the command as above for a list of  
subcommands.  
/usr/lpp/cbxdpf/dpfutil listall  
This will list the failover devices and paths. The active path  
will be shown on the left. Status is shown by letter codes:  
“F’ indicates a failed path.  
“L” indicates dynamic load balancing is active.  
“O” indicates offline paths.  
24  
 
The message no failover devices available indicates that the  
attached storage is not yet recognized by the DPF driver. This  
could mean that a platform kit needs to be installed for your  
storage or that the storage is not yet configured.  
/usr/lpp/cbxfc/runtrace  
This should be run to start a trace if Cambex support requests a  
trace of the card failure. To stop the trace and generate a trace  
report, type:  
trcstop; trcrpt > /tmp/trc.log  
Questions or problems related to Cambex fibre channel adapters  
may be e-mailed to: [email protected]  
25  
 
Error Messages  
Various errors and notifications will be placed in the AIX error  
log. These can be read using the errpt command, or automatic  
notification may be set up.  
DPF_FAILOVER  
This indicates that the active path to a device has failed, and that  
DPF successfully transferred I/O to an alternate path.  
DPF_STDBYDN  
This indicates that a path other than the active path has failed to  
a device.  
DPF_UNRECOV  
This indicates that the active path to a device has failed, and that  
DPF was not successful in transferring I/O to an alternate path.  
DPF_OFFLINE  
DPF_ONLINE  
These messages indicate that a path has been manually set to the  
offline or online state.  
DPF_LIC_WARNING  
DPF_LIC_EXPIRE  
These messages indicate that a temporary license for the DPF  
software is either close to or has expired. Once the DPF license  
has expired, you will need to uninstall the DPF driver in order  
to regain access to the hdisks.  
26  
 
 
Upgrading the Driver  
When upgrading to a newer version of the driver there are two  
methods:  
1) Use rmdev to remove all dependent devices, remove the  
existing driver(s), then install the new driver(s) and run cfgmgr  
to recreate the devices. This method allows a new driver to be  
installed without rebooting the server. File systems which are  
unmounted before the process may be mounted again  
afeterwards without affecting the data.  
2) Install the new driver with devices in place. The server must  
be rebooted afterwards so that the driver on disk will match the  
driver in memory.  
When upgrading AIX to a new major version, remove the  
drivers beforehand and install the new versions after completing  
the AIX upgrade.  
27  
 
 
Appendix A  
Identifying Fibre Channel Components  
Copper DE9 GBIC  
Copper DE9 Cable  
28  
 
 
Copper HSSDC Cable  
Duplex SC Optical GBIC  
29  
 
Small form factor (SFF) optical LC cable  
30  
 
PC2000 LED Meanings  
Top LED – Transceiver hardware is detecting a signal.  
Middle LED – Firmware is being synchronized.  
Bottom LED – Flashing amber when not synchronized.  
LED  
TOP  
MIDDLE  
NORM  
GREEN  
GREEN  
BAD CABLE  
GREEN  
OFF  
NO CONN  
OFF  
OFF  
BOTTOM OFF  
FLASHING  
FLASHING  
 
PC4000 LED Meanings  
Y G A  
Y
G
A
Off  
On  
Flash  
Off  
Off  
Off  
On  
Flash  
Off  
On/Flash Off  
Off  
Off  
On  
Flash  
No Power  
Power Applied  
Initializing *  
On/Flash 1G (Flash indicates active)  
2G (Flash indicates active)  
4G (Flash indicates active)  
On/Flash Off  
Flashing in unison indicates initialized, while  
alternate flashing indicates a firmware error.  
Y G A  
32  
 
 
Declaration of conformity  
We Cambex Corporation of Westborough, Massachusetts, USA, declare  
under our sole responsibility, that the products PC2000LC-HPSP,  
PC2000LC-A, and PC4000 are in conformity with the following standards:  
EN 55022:1994/A1:1995/A2:1997 Class A ITE emissions requirements  
EN 50082-1:1992 EMC residential, commercial and light industrial generic  
immunity standard  
Warning  
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.  
33  
 
 
Safety Notices  
FCC Warning  
This equipment has been tested and found to comply with the limits for a  
class A computing device pursuant to Part 15 of FCC rules which are  
designed to provide reasonable protection against interference when  
operating 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 interference to radio  
communications. Operation of this equipment in a residential area is likely  
to cause interference in which case the users will be required to take  
whatever measures may be required to correct the interference at their own  
expense. Changes or modifications of this device could affect the user's  
authority to operate this equipment.  
Safety Notice  
Class 1 Laser Product  
Versions of this product supplied with an optical transceiver meet the safety  
requirements of a class 1 laser as specified by the US Food and Drug  
Administration Center of Drug and Radiological Health (CDRH) 21 CFR  
1040.10 & 1040.11 and by IEC 825-1. The U.S. Department of Health and  
Human Services (DHHS) does not consider Class 1 lasers to be hazardous.  
Customer supplied laser GBICs must meet the same requirements. If in  
doubt, contact Cambex customer support before operating the product.  
The International Electrotechnical Commission (IEC) 825 Laser Safety  
Standard requires labeling in English, German, Finnish, and French stating  
that the product uses Class 1 lasers. Because it is impractical to label the  
transceiver, the following label is provided in this manual.  
CLASS 1 LASER PRODUCT  
LASER KLASSE 1  
LUOKAN 1 LASERLAITE  
APPAREIL A LASER DE CLASSE 1  
TO IEC 825 (1984) + CENELEC HD 482 S1  
34  
 
 
Dynamic Path Failover License Agreement  
Cambex Dynamic Path Failover (the Software) is a licensed product. The  
user must consent to the provisions of this license agreement in order to use  
the Software. Use of the Software beyond the number of purchased licenses  
is prohibited.  
The user may not cause or permit copying, modification, rental, sublicense,  
lease, transfer, reverse engineering, or disassembly or decompilation of the  
Software, or creation of derivative works based on the Software.  
This license for the Software remains in effect until terminated by either  
party upon written notice. Upon termination of the license for the Software,  
the user must discontinue use of and destroy or delete any copies of the  
Software.  
Except as limited by applicable law, Cambex’s total liability under this  
agreement is limited to the purchase price of the Software. Dynamic Path  
Failover may not be used to provide life-critical protection such as operation  
of medical equipment or control of nuclear facilities. The Software is  
intended to provide improved availability of data but makes no claim for  
greater reliability or protection of data, and Cambex may not be held liable  
for data loss or consequential damages.  
Any provision of this agreement found unenforceable will not affect other  
provisions. This agreement is governed by laws of the Commonwealth of  
Massachusetts.  
35  
 
 

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