HP SN8000B 8-Slot SAN Backbone Director Switch Hardware Reference Guide Abstract This document provides information about setting up, configuring, and maintaining the HP SN8000B 8-Slot SAN Backbone Director Switch (SN8000B 8-Slot SAN Director). It is intended for system administrators and technicians with knowledge of SANs and Directors.
© Copyright 2011–2012 Hewlett-Packard Development Company, L.P. © Copyright 2011–2012 Brocade Communications Systems, Incorporated The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein.
Contents 1 SN8000B 8-Slot SAN Director overview........................................................8 Features..................................................................................................................................8 Hardware components .............................................................................................................8 Port side of the Director.......................................................................................................
Monitoring Monitoring Monitoring Monitoring Monitoring Monitoring the Director blade status..........................................................................................49 CP blade status......................................................................................................58 the core switch blade status.....................................................................................60 the power supply status....................................................................
Determining whether to replace the chassis...........................................................................97 Recording critical Director and SAN information....................................................................98 Disconnecting from the network and fabric..........................................................................102 Removing components from the chassis...............................................................................102 Installing a replacement chassis....
Class A equipment...........................................................................................................129 Class B equipment...........................................................................................................129 European Union notice..........................................................................................................129 Japanese notices.............................................................................................................
Battery replacement notice................................................................................................143 Taiwan battery recycling notice..........................................................................................143 Power cords....................................................................................................................143 Japanese power cord notice..............................................................................................
1 SN8000B 8-Slot SAN Director overview This chapter provides an overview of the Director. The SN8000B 8-Slot SAN Director Power Pack model (part number QK710A) represents the next generation of advanced FC enterprise-class platforms used to intelligently interconnect storage devices, hosts, and servers in a SAN. The SN8000B 8-Slot SAN Director is the highest-performance and highest-scalability enterprise-class product offered by HP.
NOTE: HP highly recommends that you mount the chassis with the air intake (nonport side) mounted towards the cool air aisle, not towards the aisle where heated exhaust air comes from other components. • Up to eight hot-swappable Director blade assemblies can be configured in a single chassis, delivering up to 384 16 Gb/s FC ports or up to 512 8 Gb/s FC ports using the FC8-64 blade. • Two slots for CP blades (CP8): • • • ◦ A single active CP8 blade can control all FC ports in the chassis.
• All blades are serviced from the port side of the Director. Blowers, power supplies, and power cables are serviced from the nonport side. • Improved cable management using a redesigned cable management comb and chassis door. • Constant intake and FRU temperature monitoring. • Redundant AC primary power connections to ensure high-availability. Each power supply has its own connector. Therefore, the number of primary power connections varies from two to four.
Nonport side of the Director Figure 2 (page 11) shows a sample configuration of the nonport side view of the Director. Figure 2 Nonport side of the SN8000B 8-Slot SAN Director (sample configuration) 1. WWN bezel (logo plate) 2. Power supply 3.
Director blades Table 1 (page 12) describes the Director, CP blades, and core switch blades that are available for the SN8000B 8-Slot SAN Director. Table 1 Blades available for the Director Description Name Function SN8000B 8-Slot SAN Director CP blade CP8 The CP8 blade provides for management of all other blades in the Director. There are two CP8 blades for redundancy.
High availability The following features contribute to the SN8000B SAN Director high-availability design: • Redundant, hot-swappable blades and FRUs • Enhanced data integrity on all data paths • FSPF rerouting around failed links • Integration with SNMP managers • Automatic CP blade and core blade failover • Nondisruptive hot software code loads and activation • Easy configuration, save, and restore • Hot-swappable WWN cards The high-availability software architecture of the Director provide
• Status LEDs • Predictive diagnostics analysis through Fabric Watch • SNMP (including version 3) integration with higher-layer managers Software features Fabric OS allows any FC-compliant device to attach to the switches as long as it conforms to the device login, name service, and related FC standards. Each operating environment requires that an FC HBA be available with a standards-compliant driver for correct interface to the fabric.
Table 2 Security features (continued) Boot PROM password reset Persistent port disable Password hardening policies Persistent domain ID Upfront login in Web Tools E_Port disable Network manageability The Director has a single domain and is managed as a single element with the optional HP B-series SAN Network Advisor software. The Director responds to its own IP address and appears as a separate entity to the Telnet protocol and SNMP.
Table 4 SN8000B 8-Slot SAN Director optional hardware Accessory Part number Power supply One SN8000B SAN Director power supply AK863A Director blade HP DC Switch Encryption FC blade (FS8-18) AR945A Port blades HP SN8000B 16 Gb 32-port Fibre Channel Blade (FC16-32) QK713A HP SN8000B 16 Gb 48-port Fibre Channel Blade (FC16-48) QK714A HP DC SAN Director 8 Gb 64-port Fibre Channel Blade (FC8-64) BK798A HP SN8000B 8Gb 32-port Enhanced Fibre Channel Blade (FC8-32E) QW940A HP SN8000B 8Gb 48-port Enha
Table 4 SN8000B 8-Slot SAN Director optional hardware (continued) Accessory Part number HP 1m HP PremierFlex OM3+ LC/LC Multi-mode Optical Cable BK838A HP 2m HP PremierFlex OM3+ LC/LC Multi-mode Optical Cable BK839A HP 5m HP PremierFlex OM3+ LC/LC Multi-mode Optical Cable BK840A HP 15m HP PremierFlex OM3+ LC/LC Multi-mode Optical Cable BK841A HP 30m HP PremierFlex OM3+ LC/LC Multi-mode Optical Cable BK842A 50m HP PremierFlex OM3+ LC/LC Multi-mode Optical Cable BK843A HP OM3 LC-LC Optical Cable
2 SN8000B 8-Slot SAN Director installation This chapter provides information for installing a Director. You can set up and install the Director: • As a standalone unit on a flat surface • In a 19-inch EIA cabinet, using the 14U Rack Mount Kit (ships with the SN8000B 8-Slot SAN Director).
Site preparation and unpacking the Director IMPORTANT: 142). Before setting up the Director, see the safety guidelines in “Safety guidelines” (page To ensure correct installation and operation, you must: 1. Provide a space that is 14U high, 61.29 cm (24.09 inch) deep, and 43.74 cm (17.22 inch) wide. 1U is equal to 4.45 cm (1.75 inch). 2. Plan to install the Director with the nonport side facing the air-intake aisle.
8. Remove the upper portion of the packing crate while the Director is still in the shipping area, to reduce clutter at the installation site: a. Remove the straps securing the carton to the shipping tray. b. Lift the cardboard box off the chassis and remove the plastic bag. Leave the foam on top of the chassis to hold the kits in place during transportation to the installation area. Save the shipping crate and related items for any future shipping requirements. 9.
Table 6 SN8000B 8-Slot SAN Director shipping carton contents (continued) 14U Rack Mount Kit (includes rear brackets and bottom support rails) HP B-series 2 GB USB drive IMPORTANT: Order SFP+, mSFP, and QSFP transceivers separately. The Director supports SWL, LWL, and ELWL transceivers. The mSFPs and QSFPs are SWL transceivers. For more information on supported transceivers, see the HP website http://www.hp.com .
Figure 3 14U Rack Mount Kit contents 22 SN8000B 8-Slot SAN Director installation
Attaching the shelf brackets Attach the left and right rack mount shelf brackets (items A and B) to the cabinet rails adjustable ends installed on the side of the rack on the air-intake aisle. CAUTION: chassis. 1. 2. Use the screws specified in the procedure. Using longer screws can damage the Locate the shelf brackets in the 14U Rack Mount Kit. Locate and loosen the adjusting screws on the brackets to allow for adjustment to cabinet depth. See Figure 4 (page 23) (items A and B).
Figure 5 Shelf bracket and clip or retainer nut placement on cabinet rails NOTE: Standard EIA rails have holes in sets of three; spaces between the holes are 1.58 cm, 1.58 cm, and 1.27 cm (5/8 inch, 5/8 inch, and 1/2 inch) respectively. If cables will be routed down through the cable management comb, allow sufficient space below the brackets for cable management. 4. 5. Tighten the adjusting screws on the shelf brackets to a torque of 37 cm-kg (32 inch-lb).
Installing the chassis in a cabinet To install the Director in the cabinet: 1. Move the lift as close as possible to the rack, with the air-intake side of the chassis facing the front of the rack. See Figure 6 (page 25). 2. If applicable, lock the wheels of the lift. 3. Use the lift to raise the chassis to the correct level. 4. Slide the chassis onto the shelf brackets, ensuring that it remains supported during the transfer. See Figure 6 (page 25) 5. Fasten the port side of the chassis to the cabinet rails.
Figure 7 Attaching the port side of the chassis to the rack rails Replacing the chassis door You must install the chassis door to ensure that the SN8000B 8-Slot Director meets EMI and other regulatory requirements. If you do not use ICL cables, you must insert EMI plugs in the ICL cable ports to meet certification standards. NOTE: The door is not hinged. You install the door by snapping it into place over the four ball studs on the chassis. To replace the chassis door: 1.
Figure 8 Aligning the Director door with the chassis Figure 9 Attaching the Director door using the chassis ball studs 1. Ball stud on chassis (outside view of door) 2. Mounting hardware 3. Ball stud on chassis (inside view of door) Powering on the Director CAUTION: Use the supplied power cords. Ensure that the facility power receptacle is the correct type, supplies the required voltage, and is properly grounded. To power on the Director: 1. Connect the AC power cords to the power supply assemblies.
2. Connect the power cords to a power source with a voltage of 200 to 240 VAC, 47 to 63 Hz (typically two power cords), or to a power source with voltage of 110 to 120 VAC, 47 to 63 Hz (two to four power cords). TIP: HP recommends using the high-voltage line (200 to 240 VAC) for better power-conversion efficiency and to ensure high-availability. 3. Turn the AC power switches on the power supplies to ON. The AC power switches display a steady green when power is supplied.
diagram. The 1-GbE ports are 0 through 9 and are in both columns above the FC and 10-GE ports. They are labeled GE on the front panel diagram. There are three FC trunking groups: ◦ Trunk group 0: FC ports 0 and 1 ◦ Trunk group 1: FC ports 6 and 7 ◦ Trunk group 2: FC ports 2, 3, 4, 5, 8, 9, 10, and 11 Powering off the SN8000B 8-Slot SAN Director Perform the following steps to power off the SN8000B 8-Slot SAN Director: 1. Shut down the SN8000B 8-Slot SAN Director using the sysShutdown command.
NOTE: The FC8-64 high-density port blade cannot use the standard LC cables because the pitch between optics in the mSFP optical transceiver is smaller than in standard SFPs. Patch cables and panels can be used to attach standard-size cabling to the blade if necessary. Figure 10 (page 30) shows the mSFP-to-SFP patch cable. For cable management guidelines for high-density port solutions, and cable and patch panel part numbers, see the Best Practices Guide: High Density Cable Management Solutions.
5. 6. Use the switchShow command to verify the Director and port status. Use the fabricShow command to verify fabric connectivity. Using the optional inter-chassis link cable NOTE: For Fabric OS 7.0.0, up to six SN8000B Directors can connect using QSFP-based ICL optical cables in a core-edge configuration, and up to three SN8000B Directors can connect in a full-mesh configuration. For Fabric OS 7.0.
Figure 11 QSFP cable connections 1. Chassis 1 32 SN8000B 8-Slot SAN Director installation 2.
3 Director login and configuration This chapter provides information about configuring the SN8000B 8-Slot SAN Director. NOTE: If an FS8-18 encryption blade is installed, see the Fabric OS Encryption Administrator's Guide for information on configuring the encryption functions. You can find the document on the Manuals page of the HP Business Support Center website: http://h18006.www1.hp.com/storage/networking/b_switches/index.html Select B-series Director Switches.
Stop bits—1 Flow control—None For most UNIX systems, enter the following string at the prompt: tip /dev/ttyb -9600 However, if ttyb is in use, enter: tip /dev/ttya -9600 When the terminal emulator application stops reporting information, press Enter. The following login prompt appears: CP0 Console Login: 6. Log in to the Director as admin. The default password is passw0rd (the sixth character is a zero). At the initial login, you are prompted to enter new admin and user passwords.
3. Set up the CP0 IP address by entering the ipAddrSet -cp 0 command: swDir:admin> ipAddrSet -cp 0 Enter the configuration information at the prompts. 4. Set up the CP1 IP address by entering the ipAddrSet -cp 1 command: swDir:admin> ipAddrSet -cp 1 Enter the configuration information at the prompts. The following is a sample IP configuration: swDir:admin> ipAddrSet -chassis swDir:admin> ipaddrset -chassis Ethernet IP Address [0.0.0.0]: 192.168.1.1 Ethernet Subnetmask [0.0.0.0]: 255.255.255.
Customizing a switch name The Director switch name can be up to 30 characters; can include alphabetic, numeric, and underscore characters; and must begin with an alphabetic character. NOTE: Changing the switch name causes a domain address format RSCN to be issued. To customize the switch name: 1. Enter the switchName command followed by the new name in double quotation marks. swDir:admin> switchName "swModularSwitch5" Committing configuration... Done. swModularSwitch5:admin> 2.
2. Use the date command to set the date and time. The syntax is date "mmddHHMMyy" Where: • mm is the month. Valid values are 01 through 12. • dd is the date. Valid values are 01 through 31. • HH is the hour. Valid values are 00 through 23. • MM is minute. Valid values are 00 through 59. • yy is the year. Valid values are 00 through 99. NOTE: Values greater than 69 are interpreted as 1970 through 1999. Values less than 70 are interpreted as 2000-2069.
2. Enter the tsClockServer command. The syntax is switch:admin> tsClockServer "ntp1;ntp2" where ntp1 is the IP address or DNS name of the first NTP server that the switch must access, and ntp2 is the optional second NTP server. The operand “ntp1;ntp2” is optional. By default, this value is LOCL, which uses the local clock of the principal or primary switch as the clock server. The tsClockServer command accepts multiple server addresses in IPv4, IPv6, or DNS name formats.
3. Position a cable so that the key (the ridge on one side of the cable connector) is aligned with the slot in the transceiver. Insert the cable into the transceiver until the latching mechanism clicks. Cables are keyed so that they can be inserted with the correct orientation only. If a cable does not slide in easily, verify the orientation. 4. 5. 6. 7. Repeat Step 1 through Step 3 for the remaining ports. Organize the cables. See “Managing cables” (page 29).
5. Verify the Director and port status using the switchShow -qsfp command. The following example shows an SN8000B 4-Slot Director with a core blade installed in slot 3. Your output will look similar. NOTE: The state of an unconnected QSFP (shown QSFP 0 and Ports 0-3 in the example) appears as No_SigDet . This is different from the state of an unconnected SPF, which appears as No_Synch. QSFP 7 (ports 3/28–3/31, Index 748–751) shows a connected QSFP.
Installing SFP+ and mSFP transceivers and cables Complete the following steps to install SFP-type optical transceivers. NOTE: mSFP transceivers are compatible only with the FC8-64 port blade. While they will fit in other blades, such a configuration is unsupported and will generate an error. 1. Add the optical transceivers and cables to the Fibre Channel ports. The ports are color-coded to indicate which can be used in the same port group for trunking (trunking port groups can be up to eight ports).
2. Enter configUpload to upload the Director configuration to the server so that it is available for downloading to a replacement Director. Another way to back up configuration information is by enabling logging on your Telnet session, and then entering the following commands and saving the output in a file on a secure host. • configShow • ipaddrShow • licenseShow • switchShow Alternatively, you can use the usbstorage command to save the configuration file to a USB device.
4 Monitoring system components The Director is engineered for reliability and requires no routine operational steps or maintenance. This chapter describes the CLI commands and LED patterns that you use to determine the status of each component. For more information, see the Web Tools Administrator’s Guide and the Fabric OS Administrator’s Guide 7.0.1. Commands To monitor the health of the Director, use the switchShow and chassisShow commands.
135 1 23 788700 -- -- Offline VE 136 1 24 788800 -- -- Offline VE 137 1 25 788900 -- -- Offline VE 138 1 26 788a00 -- -- Offline VE 139 1 27 788b00 -- -- Offline VE 140 1 28 788c00 -- -- Offline VE 141 1 29 788d00 -- -- Offline VE 142 1 30 788e00 -- -- Offline VE 143 1 31 788f00 -- -- Offline VE 1 ge0 -- 1G No_Module FCIP Disabled (10G Mode) 1 ge1 -- 1G No_Module FCIP Disabled (10G Mode) 1 ge2 -- 1G No_Module FCIP Disabled (10G Mode) 1 ge3 -- 1G No_Module FCIP Disabled (10G Mode) 1 ge4 -- 1G No_Module FCIP
800 3 48 782080 id N8 No_Light FC 801 3 49 782180 -- N8 No_Module FC 802 3 50 782280 -- N8 No_Module FC 803 3 51 782380 id N8 No_Light FC 804 3 52 782480 -- N8 No_Module FC 805 3 53 782580 -- N8 No_Module FC 806 3 54 782680 -- N8 No_Module FC 807 3 55 782780 id N8 No_Light FC 808 3 56 782880 -- N8 No_Module FC 809 3 57 782980 -- N8 No_Module FC 810 3 58 782a80 -- N8 No_Module FC 811 3 59 782b80 -- N8 No_Module FC 812 3 60 782c80 -- N8 No_Module FC 813 3 61 782d80 -- N8 No_Module FC 814 3 62 782e80 -- N8 No_
10:00:00:05:33:03:2c:00 "DCX4S_130" (upstream) 384 5 0 ------ -- 16G No_Module FC 385 5 1 ------ -- 16G No_Module FC 386 5 2 ------ -- 16G No_Module FC 387 5 3 ------ -- 16G No_Module FC 388 5 4 ------ -- 16G No_Module FC 389 5 5 ------ -- 16G No_Module FC 390 5 6 ------ -- 16G No_Module FC 391 5 7 ------ -- 16G No_Module FC 392 5 8 ------ -- 16G No_Module FC 393 5 9 ------ -- 16G No_Module FC 394 5 10 ------ -- 16G No_Module FC 395 5 11 ------ -- 16G No_Module FC 396 5 12 ------ id 16G No_SigDet FC 397 5 1
swd77:admin> chassisShow Chassis Family: DCX8510-8 Chassis Backplane Revision: 0 AP BLADE Slot: 1 Header Version: 2 Power Consume Factor: -250 Factory Part Num: 60-1001157-21 Factory Serial Num: ATM0427F01F Manufacture: Day: 12 Month: 7 Year: 2010 Update: Day: 27 Month: 3 Year: 2011 Time Alive: 45 days Time Awake: 0 days SW BLADE Slot: 3 Header Version: 2 Power Consume Factor: -130 Factory Part Num: 60-0000071-07 Factory Serial Num: BAH0344E01G Manufacture: Day: 2 Month: 11 Year: 2009 Update: Day: 7 Month:
Time Awake: 0 days CORE BLADE Slot: 8 Header Version: 2 Power Consume Factor: -240 Power Usage (Watts): -148 Factory Part Num: 60-1002140-02 Factory Serial Num: BPZ0349F006 Manufacture: Day: 7 Month: 12 Year: 2010 Update: Day: 28 Month: 3 Year: 2011 Time Alive: 46 days Time Awake: 0 days SW BLADE Slot: 11 Header Version: 2 Power Consume Factor: -160 Power Usage (Watts): -115 Factory Part Num: 60-1002144-02 Factory Serial Num: BQB0345F00T Manufacture: Day: 11 Month: 11 Year: 2010 Update: Day: 28 Month: 3 Yea
FAN Unit: 2 Header Version: 2 Power Consume Factor: -126 Factory Part Num: 60-1000384-09 Factory Serial Num: AGB0652E0H9 Manufacture: Day: 29 Month: 12 Year: 2009 Update: Day: 28 Month: 3 Year: 2011 Time Alive: 319 days Time Awake: 0 days FAN Unit: 3 Header Version: 2 Power Consume Factor: -126 Factory Part Num: 60-1000384-09 Factory Serial Num: AGB0652E0H8 Manufacture: Day: 29 Month: 12 Year: 2009 Update: Day: 28 Month: 3 Year: 2011 Time Alive: 319 days Time Awake: 0 days WWN Unit: 1 Header Version: 2 Powe
2. Enter the slotShow command to view blade status. Figure 12 FC8-64 50 1. Status LED 2. Power LED 3. FC port 4.
Figure 13 FC8–32E 1. Power LED 2. Status LED 3. FC port 4.
Figure 14 FC8–48E 52 1. Power LED 2. Status LED 3. FC port 4.
Figure 15 FC16-32 1. Power LED 2. Status LED 3. FC port 4.
Figure 16 FC16-48 54 1. Power LED 2. Status LED 3. FC port 4.
Figure 17 FS8-18 encryption blade 1. Power LED 2. Status LED 3. FC port 4.
Figure 18 FX8-24 blade 1. Power LED 2. Status LED 3. GbE (GE) port 6 4. GbE port 6 LED 5. 10-GbE port 0 6. 10-GbE port 0 LED 7.
Table 8 (page 57) describes the Director blade LED patterns and the recommended actions for those patterns. Table 8 Director blade LEDs LED Power LED Status LED FC port status Color Status Recommended action Steady green Blade has been enabled. No action required No light (LED is off) Blade has not been enabled. Ensure that the blade is firmly seated. No light (LED is off) Blade is either healthy or does not have power. Verify that the power LED is on. Steady amber Blade is faulty.
Table 8 Director blade LEDs (continued) LED 1-GbE and 10-GbE port status (FX8-24) Color Status Recommended action No light (LED is off) Port has no incoming power, or Verify that the power LED is on; no light or signal carrier is verify the transceiver and cable. detected. Steady green Port is online but has no traffic. Slow-flashing green (on 1 second, then off 1 second) Beacon, used to identify specific No action required. ports.
Table 9 (page 59) describes the CP8 blade LED patterns and the recommended actions for those patterns. Table 9 CP8 blade LEDs LED Color Status Recommended action Power Steady green CP blade has power. No action required No light (LED is off) CP blade does not have incoming Ensure that the blade is firmly power. seated and has power. No light (LED is off) CP blade is either healthy or does Verify that the power LED is on. not have power.
Monitoring the core switch blade status To determine the status of a CR16-8 blade: 1. Observe the LED indicators on the core switch blade (see Figure 20 (page 60)). The LED patterns can change temporarily during POST and other diagnostic tests. For information about interpreting the LED patterns, see Table 9 (page 59). 2. Verify the core switch blade status by entering the slotShow and haShow commands. Figure 20 Core switch blade (CR16-8) 1. Power LED 2. Status LED 3.
Table 10 (page 61) describes the core switch blade LED patterns and the recommended actions for those patterns. Table 10 CR16-8 blade LEDs LED Color Status Recommended action Power Steady green CR16-8 has power. No action required. No light (LED is off) CR16-8 does not have incoming power. Ensure that the blade is firmly seated and has power. No light (LED is off) CR16-8 is either healthy or does not Verify that the power LED is on. have power.
2. Enter the psShow command to view the power supply status. The power supply status is OK, Absent, or Faulty. If a power supply is absent or faulty, reseat it. If the problem persists, contact HP to order a replacement power supply. Figure 21 Power supply 1. Power LED Table 11 (page 62) describes the power supply LED patterns and the recommended actions for those patterns.
2. Verify the blower assembly status using the fanShow command. The status for each blower assembly is OK, Absent, or Faulty. The RPM of each fan in the assembly is also displayed. If a blower assembly appears absent or faulty, reseat it. If the problem persists, contact HP. Figure 22 Blower assembly 1. Power LED 2.
Table 12 Blower assembly LEDs LED Color Status Recommended action Power No light (LED is off) Blower assembly does not have incoming power. Ensure that the blower assembly is firmly seated and has power. Steady green Blower assembly has incoming power. No action required. No light (LED is off) Blower assembly is either healthy or does not have incoming power. Ensure that the blower assembly has incoming power. Steady amber Blower assembly has a failure (full or partial).
Table 13 Messages that indicate WWN card failure (continued) Type of message Sample error message , [EM-1034], ,, ERROR, , WWN # set to faulty, rc= WWN unit is not present or is not accessible.
Table 14 WWN LEDs (continued) LED purpose Color Status Recommended action nl action Port blade/CP blade/CR blade Power Steady green Power is on. No action required. Port blade/CP blade/CR blade Status Steady amber Blade is faulty. Verify blade. No light (LED is off) Blade is functioning. No action required NOTE: If a status LED on the WWN bezel flashes, the power LED on the WWN bezel also flashes to increase visibility.
5 Replacing FRUs This chapter provides information for replacing FRUs. IMPORTANT: You do not need any special tools to replace Director FRUs. The Director can continue to operate during many of the FRU replacements if the conditions specified in the procedure are followed. Replacing the chassis door This section describes how to remove and replace the chassis door. The door must be installed properly to ensure that the Director meets EMI and other regulatory requirements.
Replacing the cable management comb This section describes how to remove and replace the cable management comb. Replacement takes less than five minutes and requires a #1 Phillips screwdriver. Removing a cable management comb CAUTION: Wear an ESD grounding strap when handling Director components. The Director chassis has a grounding connection above the power connectors. Also, store ESD-sensitive components in antistatic packaging. To remove the cable management comb: 1.
Replacing a Director blade takes less than 10 minutes. The following items are required for the Director blade and filler panel replacement: • ESD grounding strap • Workstation • Replacement Director blade or filler panel • #2 Phillips screwdriver • Optical cables (as needed) CAUTION: Remove a filler panel only if you are replacing it with a Director blade.
11. If you are not replacing the blade with another blade, install a filler panel in the slot. Figure 26 Director blade (FC16-48 shown) Installing a Director blade Slots are numbered 1 through 12, from left to right when facing the port side of the SN8000B 8-Slot SAN Director. Director blades can be installed in slots 1 through 4 and 9 through 12. CAUTION: Wear an ESD grounding strap when handling a Director blade. Use the grounding connections above the power connectors on the chassis. 1. 2. 3. 4. 5.
6. 7. Group and route the cables. Replace the chassis door. See “Installing the chassis door” (page 67). Replacing a Director blade filler panel This section describes how to remove and replace a Director blade filler panel. Removing a filler panel CAUTION: Remove a filler panel only if you are replacing it with a Director blade. Any slot that is not occupied by a Director blade must be occupied by a filler panel to ensure correct cooling of the chassis and protection from dust.
Figure 27 Installing or removing a filler panel Replacing a CP blade This section describes how to remove and replace a CP8 blade. Each Director has two CP8 blades, which are located in slots 6 and 7. NOTE: If the new CP blade does not have the same firmware version as the active CP blade, you must bring them to the same firmware version.
Determining whether to replace a CP blade The following events can indicate that a CP blade is faulty: • The status LED on the CP blade is steady amber or the power LED is off. • The CP blade does not respond to Telnet commands or the serial console is not available. • The slotShow command does not show that the CP blade is enabled. • The haShow command indicates an error. • The clock is inaccurate or the CP blade does not boot up or shut down properly.
c. d. Wait until the status LED on the functioning CP blade is off. Enter the haShow command from the functioning CP blade (the new active CP blade) to verify the failover.
Removing a CP blade The Director continues to operate while a CP blade is being replaced if the redundant CP blade is active and a failover does not occur. You can prevent failover by using the haDisable command. CAUTION: Wear an ESD grounding strap when handling Director components. The Director chassis provides a grounding connection above the power connectors. Also, store ESD-sensitive components in antistatic packaging.
Figure 28 Removing or installing a CP blade Installing a CP blade CAUTION: Wear an ESD grounding strap when handling a CP8 blade. Use the grounding connections above the power connectors on the chassis. Use the same version of Fabric OS on both CP blades. Using different versions is not supported and can cause the blades to malfunction. To install a CP blade (slot 6 or 7): 1. Open the ejector handles to approximately 45 degrees.
6. 7. 8. Connect the cables to the new CP blade. Verify the installation. See “Verifying operation of the new CP blade” (page 77). Replace the chassis door. See “Installing the chassis door” (page 67). Verifying operation of the new CP blade NOTE: The SN8000B SAN Director requires Fabric OS 7.0.0a or later to be recognized. If the firmware on the replacement blade is earlier than 7.0.0a, you must update the firmware to the same version installed on the active CP blade (7.0.0a or later).
To download firmware from an FTP server: 1. Log in to the standby CP blade as admin. 2. If you do not know the IP address of the standby CP blade, enter the ipAddrShow command. Remain logged in to the active CP blade in order to monitor it. 3. Enter the firmwareDownload -s command to download the firmware to the standby CP blade. The -s option disables the auto-reboot. You must do a manual reboot after the download is complete to initiate firmwareCommit.
5. On the standby CP blade (the blade for which you just changed the firmware), enter the reboot command. The standby CP blade reboots and initiates a firmwareCommit to the secondary partition, and then logs you out. DCX_124:admin> reboot Broadcast message from root (ttyS0) Fri Jun 18 14:49:45 2010...
1. 2. 3. 4. 5. 6. 7. Insert the USB device into the active CP blade. Attach a serial cable from the PC to the active CP blade. Log in to the active CP blade as admin. Enter the usbStorage -e command to enable the USB device. Remove the serial cable from the active CP blade, and then attach it to the standby CP blade. Log in to the standby CP blade as admin. Enter the command firmwareDownload -sU vx.x.x (where x.x.x is the firmware version) to download the firmware to the standby CP blade.
9. Reboot the standby CP blade (the blade for which you changed the firmware level). A firmwarecommit to the secondary partition initiates and logs you out. DCX_124:admin> reboot Broadcast message from root (ttyS0) Fri Jun 18 14:49:45 2010...
----------------------------------------------------------4 FX8-24 FOS v7.0.0 v7.0.0 6 CP0 FOS v7.0.0 STANDBY v7.0.0 7 CP1 FOS v7.0.0 ACTIVE * v7.0.0 10 FX8-24 FOS v7.0.0 v7.0.0 If there are one or more application blades in the chassis, the Fabric OS detects mismatches between the active CP blade firmware and the application blade firmware, and then triggers the auto-leveling process, which updates the application blade firmware to match the active CP blade firmware. 4. 5.
NOTE: The CR16-8 blade is compatible only with the SN8000B 8-Slot SAN Director. To remove a CR16-8 blade: 1. Remove the chassis door. See “Removing the chassis door” (page 67). 2. Use a Phillips screwdriver to unscrew the two thumb screws from the ejectors. When the top thumb screw pops out, a hot-swap request is initiated. 3. 4. 5. If necessary, label the cables on the faulty core switch blade. Disconnect the cables from the faulty core switch blade.
Installing a core switch blade CAUTION: Wear an ESD grounding strap when handling a CR16-8 blade. Use the grounding connections above the power connectors on the chassis. NOTE: The CR16-8 blade is compatible only with the SN8000B 8-Slot SAN Director. To install a CR16-8 blade: 1. Open the ejectors by rotating them toward the center of the blade, and then orient the core switch blade so that the handles are toward you and the flat metal side is on your left. 2.
Figure 30 Installing or removing a power supply Installing a power supply To install a power supply: 1. Remove the filler panel, if necessary. 2. Insert the power supply into the slot and push in until it is seated. Verify that the power supply is seated by gently pulling on the handle. 3. 4. 5. Tighten the thumb screw. Replace the power cord. Verify that the power LED on the power supply is steady green.
1. Verify that the power LEDs on the other blower assemblies are steady green. This ensures that the Director has adequate cooling. 2. 3. Use the screwdriver to loosen the captive screws at the top and bottom of the front of the blower assembly. Support the blower assembly from the bottom, and use the handle to remove it. See Figure 31 (page 86). Figure 31 Removing or installing a blower assembly Installing a blower assembly To install a blower assembly: 1.
Determining whether to replace a WWN card Any of the following events can indicate that the card requires replacement: • Status LEDs on the WWN bezel not reflecting the actual status of the components • Power or status LEDs on WWN card (behind logo plate) indicate a problem • Problems viewing or modifying the data stored on the WWN card • Error messages for WWN units #1 or #2 To determine the status of a WWN card: 1. Enter the chassisShow command to view information about the WWN card.
2. 3. Enter the haShow command to determine the active CP blade and verify that you are logged in to the active CP blade. Enter the supportSave command to capture all settings on the active CP blade. If any problems occur during the replacement procedure, you can use this information to solve the problem. 4. 5. 6. From the active CP blade, enter the fruReplace wwn command. When prompted Do you wish to continue [y/n]?, enter y. Wait until the WWN card data is backed up.
Figure 32 WWN bezel (logo plate) and WWN card 1. WWN cards 2. WWN bezel Installing the WWN bezel (logo plate) and WWN card CAUTION: Wear an ESD grounding strap when handling the WWN card. Use the grounding connections above the power connectors on the chassis. To install the WWN bezel and WWN card: 1. Unpack the new WWN card and put aside the packaging. 2. Install the WWN card. • To install a WWN card with handles: Hold the card by the handles and orient with the LEDs at the bottom.
Please enter the word 'continue' after the new WWN card has been installed: continue Restoring the information to the replacement FRU now, please wait about 20 seconds to complete Verifying the replacement FRU now... WWN card hot swap is now complete. FRU replacement completed successfully! 6. Verify that the WWN card is connected correctly by observing the LEDs on the WWN card to see if they reflect the status of the components. If the command fails, do not reboot or power off the system.
Figure 34 mSFP optical transceiver 1. Pull tab 2. mSFP optical transceiver Installing an mSFP optical transceiver NOTE: Do not insert mSFP optical transceivers into ports intended for SFP+ transceivers. They will fail on power-up. To install an mSFP transceiver: 1. Insert the cable into the new transceiver until the latching mechanism clicks. 2. Position the transceiver so that the key is oriented correctly to the port.
3. To remove a 16 Gb/s SFP+ transceiver, grasp the transceiver pull tab and pull it straight out from the blade. CAUTION: The pull tabs are not designed to be bent. Doing so damages them. The 16 Gb/s transceiver looks similar to the mSFP transceiver shown in Figure 34 (page 91). Installing an SFP+ transceiver CAUTION: Do not insert a cable intended for an mSFP transceiver into an SFP+ transceiver. Doing so can damage the cable. To install an 8 Gb/s SFP+ transceiver: 1.
Replacing QSFP transceivers and ICL cables An ICL license is required to use QSFP ports. After adding or removing a license, license enforcement is performed when the portDisable and portEnable commands are issued on the QSFP ports. You must install an ICL license all SN8000B Directors forming the ICL connection. Beginning with Fabric OS 7.0.1, up to ten in a core-edge topology and up to nine in a full-mesh topology SN8000B Director chassis can be combined with the QSFP-based ICL cables. Under Fabric OS 7.
Figure 37 QSFP transceiver—Bail open 1. Cable 2. Bail 3. Transceiver Installing a QSFP transceiver To install a QSFP transceiver: 1. While holding the bail, position the QSFP transceiver to align with the blade connector and push in the transceiver until it is firmly seated. The status LED initially blinks amber, and then displays steady amber. The QSFP transceiver is keyed to fit into the connector only one way. 2. Attach an ICL cable. Installing an ICL cable To install an ICL cable: 1.
Figure 38 SN8000B Director core/edge ICL topology The SN8000B Director chassis can also be connected in a full-mesh configuration as shown in Figure 39 (page 96). Although SN8000B 8-Slot Director chassis are shown in the figure, the chassis can be either SN8000B 4-Slot Director or SN8000B 8-Slot Director. In this example, the trunk groups are shown in color.
Figure 39 SN8000B Director full-mesh ICL topology Replacing the Director chassis This section describes how to replace the chassis (with its backplane). The basic steps are: 1. “Determining whether to replace the chassis” (page 97).
2. 3. 4. 5. 6. 7. 8. 9. 10. “Recording critical Director and SAN information” (page 98). “Disconnecting from the network and fabric” (page 102). “Removing components from the chassis” (page 102). “Installing a replacement chassis” (page 102). “Installing components in a chassis” (page 103). “Downloading the configuration” (page 103). “Verifying system operation” (page 104). “Reconnecting to the network and fabric” (page 105). “Verifying the fabric configuration” (page 106).
Recording critical Director and SAN information All commands for recording critical Director and SAN information must be entered from a CLI session (Telnet or serial) to the active CP blade unless otherwise indicated. For more information about Fabric OS commands, see the Fabric OS Command Reference Guide. Use the checklist on Table 18 (page 98) to record critical information. NOTE: Run supportShow to display important configuration and SAN information.
Upload complete switch:admin> Replacing the Director chassis 99
3. Record the Director values on a workstation: a. Record the WWN value. Enter the wwn command, and then copy the command output to a file named config-miscinfo.txt. switch:admin> wwn 10:00:00:60:69:00:00:0a b. Record the IP address information. Enter the ipAddrShow -sw command, and then copy the command output to the config-miscinfo.txt file. rsl8-st03-dcx-1:admin> ipAddrShow -sw SWITCH Ethernet IP Address: 10.32.50.12 Ethernet Subnetmask: 255.55.0.0 Fibre Channel IP Address: 1.2.3.
Factory Part Num: Factory Serial Num: Manufacture: Update: Time Alive: Time Awake: 60-0001501-07 FT02X805BE2 Day: 26 Month: Day: 14 Month: 207 days 3 days 3 3 Year: 2007 Year: 2009
Disconnecting from the network and fabric To disconnect from the network and fabric: 1. From the active CP blade, use the sysShutdown command to shut down the Director. rsl8-st03-dcx-1:admin> sysShutdown This command will shutdown the operating systems on your switch. You are required to power-cycle the switch in order to restore operation. Are you sure you want to shutdown the switch [y/n]? y HA is disabled Stopping blade 1 Shutting down the blade.... Stopping blade 4 Shutting down the blade....
2. 3. Place the chassis on a lift or on the shipping tray provided with the original chassis. Unpack the new chassis: a. Cut the bands around the packaging. b. Remove the lid, kits, and foam from the top of the chassis. c. Lift the cardboard box off the chassis and remove the plastic bag from around the chassis. Save the packing materials for use when returning the old chassis. d. Leave the chassis on top of the plastic shipping tray if the chassis will be transported to the installation location. 4.
Password: xxxxxxxx download complete switch:admin> 4. Reboot the Director. Verifying system operation To verify that the Director is operating correctly: 1. Log in to the Director as admin. rsl8-st03-dcx-1:admin> login login: admin password: xxxxxxxx rsl8-st03-dcx-1:admin> 2. Enter the slotShow -m command and verify that all installed cards are detected and that their status is operational (enabled).
4. Verify that all IP address information is correct by entering the ipAddrShow command. Compare the results to the IP information recorded in the config-miscinfo.txt file. rsl8-st03-dcx-1:admin> ipAddrShow SWITCH Ethernet IP Address: 10.32.50.12 Ethernet Subnetmask: 255.55.0.0 Fibre Channel IP Address: 1.2.3.4 Fibre Channel Subnetmask: 255.255.255.0 CP0 Ethernet IP Address: 10.32.50.10 Ethernet Subnetmask: 255.55.0.0 HostName : cp0 Gateway Address: 10.32.40.1 CP1 Ethernet IP Address: 10.32.50.
Verifying the fabric configuration HP recommends that you copy the command outputs from this section to a file. To verify the fabric configuration: 1. Create an “after” SAN profile by entering the following commands and copying the output to a text file named SANafter.
3. Resolve any issues or unintentional changes to the Director or fabric. • If there is a problem with a component, try reseating it. • If the configuration information is not correct for the Director, update it. If necessary, use the configDownLoad command to download the configuration that you saved before the replacement.
Table 19 Cable routing table for an SN8000B SAN Director (64 ports shown) (continued) Cable labels Slot Port 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 108 Replacing FRUs Switch end Device end Connected device Device slot/port
Table 19 Cable routing table for an SN8000B SAN Director (64 ports shown) (continued) Cable labels Slot Port Switch end Device end Connected device Device slot/port 53 54 55 56 57 58 59 60 61 62 63 Replacing the Director chassis 109
6 Support and other resources HP technical support For worldwide technical support information, see the HP support website: http://www.hp.
Rack stability Rack stability protects personnel and equipment. WARNING! To reduce the risk of personal injury or damage to equipment: • Extend leveling jacks to the floor. • Ensure that the full weight of the rack rests on the leveling jacks. • Install stabilizing feet on the rack. • In multiple-rack installations, fasten racks together securely. • Extend only one rack component at a time. Racks can become unstable if more than one component is extended.
for CSR. Your HP authorized service provider will determine whether a repair can be accomplished by CSR. For more information about CSR, contact your local service provider, or see the CSR website: http://www.hp.
A Technical specifications This appendix provides information for the SN8000B 8-Slot SAN Director. General specifications The SN8000B 8-Slot SAN Director is compliant with United States and International safety and EMC Electromagnetic Compatibility standards. Table 21 (page 113) lists the general specifications for the SN8000B 8-Slot SAN Director .
System architecture Table 22 System architecture FC ports Up to 384 16 Gb/s ports, universal (D_Port, E_Port, EX_Port, F_Port, M_Port) Control processor Redundant (active/standby) control processor modules Scalability Full fabric architecture: 239 switches maximum Performance 2.125 Gb/s line speed, full duplex 4.25 Gb/s line speed, full duplex 8.50 Gb/s line speed, full duplex 10.51875 Gb/s line speed, full duplex 16.
Table 22 System architecture (continued) FC8-64 blades require B-series hot-pluggable mSFP; 8 Gb SWL only. FC16-32 and FC16-48 blades require B-series hot-pluggable SFP+; 16 Gb, 10 Gb, or 8 Gb SWL and LWL . FX8-24 blades can use B-series 4 Gb SFP for 1-GbE ports. Core blades (CR16-8) use B-series hot-pluggable QSFP; 64 Gb SWL only for ICL connections (distance subject to fiber optic cable and port speed).
Table 24 FRU weights (continued) FRU Weight Power supply 2.45 kg (5.4 lb) Blower assembly 5.73 kg (12.6 lb) WWN bezel 0.3 kg (0.6 lb) Cable management comb 0.45 kg (1.0 lb) Chassis door 2.09 kg (4.
Table 26 (page 117) lists the power supply requirements.
Table 27 Power cord types (international) Plug style NEMA 5–20P 125V only USA, Canada, Mexico, other locations NEMA L6-20 USA, Canada, Mexico, other locations CEE-7/7 “Schuko” Continental Europe BS-1363A AS 3112 IEC-60309 Australia/New 32A-6h, Zealand 230V C20 20A-250V 12 AWG connect to in-cabinet power strip only, all locations Country Argentina X Australia X Austria X X Belgium Brazil X X X X X Chile X X X China, People's Republic X Czech Republic X X X X Denmark X X Egypt X
Table 27 Power cord types (international) (continued) Plug style NEMA 5–20P 125V only USA, Canada, Mexico, other locations NEMA L6-20 USA, Canada, Mexico, other locations CEE-7/7 “Schuko” Continental Europe BS-1363A AS 3112 IEC-60309 Australia/New 32A-6h, Zealand 230V C20 20A-250V 12 AWG connect to in-cabinet power strip only, all locations Country Korea, South X Malaysia Mexico X Alternate X Recommended X X X Monaco X X Netherlands X X New Zealand X Norway X X X Poland X X Portu
Table 27 Power cord types (international) (continued) Plug style NEMA 5–20P 125V only USA, Canada, Mexico, other locations NEMA L6-20 USA, Canada, Mexico, other locations X X CEE-7/7 “Schuko” Continental Europe BS-1363A AS 3112 IEC-60309 Australia/New 32A-6h, Zealand 230V C20 20A-250V 12 AWG connect to in-cabinet power strip only, all locations Country Venezuela Yugoslavia X X X Power cord notice WARNING! Some switches have more than one power cord.
NOTE: The 0° to 40°C range applies to the ambient air temperature at the air intake vents on the nonport side of the Director. The temperature inside the chassis can be up to 75°C during operation. If the internal temperature range exceeds the operating ranges of the components, the LEDs, error messages, and Fabric Watch alerts will indicate a problem. Use the tempShow command or Fabric Watch commands to view temperature status.
Table 30 Supported multi-mode cable speeds and distances Cable type Speed Minimum distance Maximum distance (SWL) 2 Gb/s 300 m (OM2) 500 m (OM3) 4 Gb/s 150 m (OM2) 380 m (OM3) 400 m (OM4) nl nl nl 50 m (OM2) 150 m (OM3) 190 m (OM4) nl 8 Gb/s 50 microns nl 82 m (OM2) 300 m (OM3) 550 m (OM4) nl 10 Gb/s nl 0.5 m 35 m (OM2) 100 m (OM3) 125 m (OM4) nl 16 Gb/s nl 62.
Table 31 Supported optics, speeds, cables, and distances (continued) Tranceiver type Form factor Speed Multimode media 62.5 µ (OM1) 50 µ (OM2) 50 µ (OM3) 50 µ (OM3) Single mode media 9 µ SFP+ 4 Gb/s N/A N/A N/A N/A 30 km (18.6 mi) SFP+ 8 Gb/s N/A N/A N/A N/A 25 km (15.
B Intelligent blades This appendix provides information for the following blades: • HP DC Switch Encryption FC blade (FS8-18) • DC Director Switch MP Extension blade (FX8-24) FS8-18 blade overview The FS8-18 encryption blade is a high-performance 16-port autosensing blade with data cryptographic (encryption/decryption) and data compression capabilities designed for enterprises to secure their data against theft or unauthorized use and to compress tape data for maximum utilization of tape media.
Cabling the FS8-18 blade To cable the FS8-18 blade: 1. Install the SFP transceivers in the FC and GbE ports, as required: a. Remove the rubber plugs from the ports to be used. b. Position the transceiver so that it is oriented correctly and insert it into a port until it is firmly seated and the latching mechanism clicks. For instructions specific to the type of transceiver, see the transceiver manufacturer's documentation. NOTE: The transceivers are keyed to ensure correct orientation.
IMPORTANT: The 10-GbE SFPs used in the FX8-24 blade are not interchangeable with the 10 Gb/s FC SFPs used in the FC16-32/48 blades. FX8-24 features The FX8-24 blade is intended as a platform for FCIP and FC Routing Services. For information on configuring these features, see the Fabric OS Administrator’s Guide 7.0.1.
EX_Port-attached edge fabrics do not merge. For more information, see the Fabric OS Administrator’s Guide 7.0.1.
C Regulatory compliance notices This section contains regulatory notices for the SN8000B 8-Slot SAN Director. Regulatory compliance identification numbers For the purpose of regulatory compliance certifications and identification, this product has been assigned a unique regulatory model number. The regulatory model number can be found on the product nameplate label, along with all required approval markings and information.
off and on, the user is encouraged to try to correct the interference by one or more of the following measures: • Reorient or relocate the receiving antenna. • Increase the separation between the equipment and receiver. • Connect the equipment into an outlet on a circuit that is different from that to which the receiver is connected. • Consult the dealer or an experienced radio or television technician for help.
This compliance is indicated by the following conformity marking placed on the product: This marking is valid for non-Telecom products and EU harmonized Telecom products (e.g., Bluetooth). Certificates can be obtained from http://www.hp.com/go/certificates.
Korean notices Class A equipment Class B equipment Taiwanese notices BSMI Class A notice Taiwan battery recycle statement Turkish recycling notice Türkiye Cumhuriyeti: EEE Yönetmeliğine Uygundur Korean notices 131
Vietnamese notice Laser compliance notices English laser notice This device may contain a laser that is classified as a Class 1 Laser Product in accordance with U.S. FDA regulations and the IEC 60825-1. The product does not emit hazardous laser radiation. WARNING! Use of controls or adjustments or performance of procedures other than those specified herein or in the laser product's installation guide may result in hazardous radiation exposure.
French laser notice German laser notice Italian laser notice Laser compliance notices 133
Japanese laser notice Spanish laser notice Recycling notices English recycling notice Disposal of waste equipment by users in private household in the European Union This symbol means do not dispose of your product with your other household waste. Instead, you should protect human health and the environment by handing over your waste equipment to a designated collection point for the recycling of waste electrical and electronic equipment.
Czech recycling notice Likvidace zařízení v domácnostech v Evropské unii Tento symbol znamená, že nesmíte tento produkt likvidovat spolu s jiným domovním odpadem. Místo toho byste měli chránit lidské zdraví a životní prostředí tím, že jej předáte na k tomu určené sběrné pracoviště, kde se zabývají recyklací elektrického a elektronického vybavení. Pro více informací kontaktujte společnost zabývající se sběrem a svozem domovního odpadu.
Estonian recycling notice Äravisatavate seadmete likvideerimine Euroopa Liidu eramajapidamistes See märk näitab, et seadet ei tohi visata olmeprügi hulka. Inimeste tervise ja keskkonna säästmise nimel tuleb äravisatav toode tuua elektriliste ja elektrooniliste seadmete käitlemisega egelevasse kogumispunkti. Küsimuste korral pöörduge kohaliku prügikäitlusettevõtte poole.
Greek recycling notice Απόρριψη άχρηοτου εξοπλισμού από ιδιώτες χρήστες στην Ευρωπαϊκή Ένωση Αυτό το σύμβολο σημαίνει ότι δεν πρέπει να απορρίψετε το προϊόν με τα λοιπά οικιακά απορρίμματα. Αντίθετα, πρέπει να προστατέψετε την ανθρώπινη υγεία και το περιβάλλον παραδίδοντας τον άχρηστο εξοπλισμό σας σε εξουσιοδοτημένο σημείο συλλογής για την ανακύκλωση άχρηστου ηλεκτρικού και ηλεκτρονικού εξοπλισμού. Για περισσότερες πληροφορίες, επικοινωνήστε με την υπηρεσία απόρριψης απορριμμάτων της περιοχής σας.
Lithuanian recycling notice Nolietotu iekārtu iznīcināšanas noteikumi lietotājiem Eiropas Savienības privātajās mājsaimniecībās Šis simbols norāda, ka ierīci nedrīkst utilizēt kopā ar citiem mājsaimniecības atkritumiem. Jums jārūpējas par cilvēku veselības un vides aizsardzību, nododot lietoto aprīkojumu otrreizējai pārstrādei īpašā lietotu elektrisko un elektronisko ierīču savākšanas punktā. Lai iegūtu plašāku informāciju, lūdzu, sazinieties ar savu mājsaimniecības atkritumu likvidēšanas dienestu.
Slovak recycling notice Likvidácia vyradených zariadení používateľmi v domácnostiach v Európskej únii Tento symbol znamená, že tento produkt sa nemá likvidovať s ostatným domovým odpadom. Namiesto toho by ste mali chrániť ľudské zdravie a životné prostredie odovzdaním odpadového zariadenia na zbernom mieste, ktoré je určené na recykláciu odpadových elektrických a elektronických zariadení. Ďalšie informácie získate od spoločnosti zaoberajúcej sa likvidáciou domového odpadu.
French battery notice German battery notice 140 Regulatory compliance notices
Italian battery notice Japanese battery notice Battery replacement notices 141
Spanish battery notice Safety guidelines The following sections summarize ways to maintain a safe operating environment for the Director. Electrostatic discharge recommendations CAUTION: To prevent damaging the system, be aware of the precautions you need to follow when setting up the system or handling parts. A discharge of static electricity from a finger or other conductor may damage system boards or other static-sensitive devices. This type of damage can reduce the life expectancy of the device.
• Use conductive field service tools. • Use a portable field service kit with a folding static-dissipating work mat. If you do not have any of the suggested equipment for proper grounding, have an HP authorized reseller install the part. NOTE: For more information on static electricity, or for assistance with product installation, contact your HP authorized reseller.
the voltage and current rating marked on the product. In addition, the diameter of the wire must be a minimum of 1.00 mm2 or 18 AWG, and the length of the cord must be between 1.8 m (6 ft) and 3.6 m (12 ft). If you have questions about the type of power cord to use, contact an HP authorized service provider. NOTE: Route power cords so that they will not be walked on and cannot be pinched by items placed upon or against them.
D Environmental regulation compliance This section describes the China RoHS environmental regulatory compliance requirements for the Director. China RoHS The contents included in this section are per the requirements of the People's Republic of ChinaManagement Methods for Controlling Pollution by Electronic Information products.
Table 32 Hazardous substances (continued) Name of the Component Hazardous/Toxic Substance/Elements Lead (PB) Mercury (Hg) Cadmium (Cd) Hexavalent Chromium (CR6+) Polybrominated Biphenyl (PBB) Polybrominated Diphenyl Ether (PBDE) SFPs (optical cable connectors) X O O O O O Sheet metal X O O O O O Chassis assembly X O O O O O Mechanical brackets and slides X O O O O O Slot filler X O O O O O Cable management comb X O O O O O Cable comb O O O O O O Cables
China RoHS 147
E Port numbering templates You can use the templates on the following pages to document the port numbering pattern for your Director. Table 33 (page 148) shows the mappings from the numbered ports on the face of the core blade to the port mappings as shown by the slotShow command. Each external port maps to four actual ports. The CR16-4 core blade has external ports 0 through 7 only.
Figure 40 FC8–32E port blade 1. Power LED 2. Status LED 3. FC ports 24–31 4. Port and trunking group map 5. FC ports 16–23 6. FC ports 0–7 7.
Figure 41 FC8–48E port blade 150 1. Power LED 2. Status LED 3. FC ports 24–47 4.
Figure 42 FC8-64 port blade 1. Blade Status LED 2. Blade Power LED 3. Port 63 4. Port 30 5. Port 61 LED 6. Port 29 LED 7. FC ports 32–63 (bottom to top) 8.
Figure 43 FC16-32 port blade 1. Power LED 2. FC ports 8–15 3. FC ports 0–7 4. Status LED 5. FC ports 24–31 6. Port and trunking group map 7.
Figure 44 FC16-48 port blade 1. Power LED 2. FC ports 0–23 3. Status LED 4.
Figure 45 FS8-18 encryption blade 1. GbE ports GE0–GE1 3. FC ports 0–15 154 Port numbering templates 2.
Figure 46 FX8-24 extension blade 1. Power LED 2. 1 GbE ports 0–3 3. 10-GbE ports 0–1 4. FC ports 0–5 5. Status LED 6. 1 GbE ports 4–9 7.
Glossary This glossary defines acronyms and terms used in this guide and is not a comprehensive glossary of computer terms. A ACL Access control list. A data protection feature used to restrict access to data resources based on defined policies. AES Advanced Encryption Standard. An encryption security technology. API Application Programming Interface. ASIC Application-Specific Integrated Circuit. B B-series FC switches and FICON directors manufactured for HP by Brocade Communications Systems, Inc.
F fabric A network of one or more FC switches that transmit data between any two N_Ports on any of the switches. failover An automatic method for transferring operations from a failed system to a secondary, identical system. FC Fibre Channel. A comprehensive set of standards for concurrent communication among servers, storage systems, and peripheral devices. FC-SP Fibre Channel Security Protocol. A security protocol that protects in-transit data. FCC Federal Communications Commission.
LR Long Reach. LTU License to use. LUN Logical unit number. An identification scheme for storage disks. LWL Long-wave laser. M MIB Management Information Base (B-series). MP Router Multi-protocol Router. MPIO Multipath I/O (Microsoft software). MUAs Multiple user accounts. N Network Advisor See HP B-series SAN Network Advisor. NTP Network time protocol. NVRAM Nonvolatile RAM P PID Port identifier.
SMI-S Storage Management Initiative Specification. SP Service pack. A collection of software updates. SPOCK Single Point of Connectivity Knowledge. An HP website as the primary portal to obtain detailed information about supported HP product configurations (http://www.hp.com/storage/spock). An HP Passport account is required for access. SR Short Reach SSH Secure Shell. A security encryption protocol. SWL Short-wave laser.
Index A accumulators, 143 B back up configuration, 41 batteries recycling or disposal, 143 replacement notice, 143 Taiwan EPA recycling and disposal, 143 battery replacement notices, 139 bezel, WWN replacing, 86 blade CP, LEDs, 59 CP, status, 58 CR, LEDs, 61 CR16-8, status, 60 Director, replacing, 68 FS8-18, 124 FX8-24, 125 blade, SN8000B port, status, 49 blades, 12 support for, 8 weight, 115 blower assembly replacing, 85 status, 62 C cable management comb, 68 cables, managing, 29 Canadian notice, 129 cha
port specifications, 121 features, Director , 8 Federal Communications Commission notice, 128 field-replaceable units see FRUs filler panel replacing, 71 FRUs, 9 blades, weights, 115 blower assembly, 62 replacing, 85 cable management comb replacing, 68 chassis door replacing, 67 CP blade LEDs, 59 replacing, 72 CR blade LEDs, 61 replacing, 82 Director blade replacing, 68 filler panel replacing, 71 power supply, 61 LEDs, 62 replacing, 84 removing and replacing, 67 WWN bezel replacing, 86 WWN card replacing, 8
S safety guidelines, 142 security features, 14 serial connection, establishing, 33 serviceability features, 13 site preparation, 19 size, Director, 115 software features, 14 software licences, enabling, 41 software licenses, 15 specifications, 113 data transmission, ranges, 121 electrostatic discharge recommendations, 142 environmental requirements, 120 FC port, 121 power cords, 117 status, port blade, 49 Subscriber's Choice, HP, 110 switch name, customizing, 36 symbols in text, 111 system architecture, 114
