Cisco UCS 5108 Server Chassis Installation Guide
Contents
1. ql magn i HAH ii Anan Connector Cordset r ating 16 A 250 V Connector TEC 60320 C20 Length 9 ft 0 in 2 7 m TEC 60320 C19 140587 E Cisco UCS 5108 Server Chassis Installation Guide APPENDIX Site Planning and Maintenance Records N Note For information about how to query the chassis for configuration information see the Cisco UCS Configuration Guide This appendix includes the following records to use when installing the Cisco UCS server chassis e Site Preparation Checklist page 83 e Contact and Site Information page 85 e Chassis and Module Information page 85 e FEX Port Connection Record page 87 e UCS 6324 Fabric Interconnect Port Connection Record page 88 Site Preparation Checklist Planning the location and layout of your equipment is essential for successful network operation ventilation and accessibility Consider heat dissipation when sizing the air conditioning requirements for an installation Table 23 Site Planning Checklist Task No Planning Activity Verified By Time Date 1 Space evaluation e Space and layout e Floor covering e Impact and vibration Lighting e Maintenance access Cisco UCS 5108 Server Chassis Installation Guide E Site Planning and Maintenance Records Site Preparation Checklist Task No Planning Activity Verified By Time Date2. Cisco UCS 5108 Server Chassis Installation Guide HG
3. Maximum Heat Output 8530 BTU Maximum hold up time 12 ms 2500 W Power supply output voltage 12 VDC 208 A Power supply standby voltage 3 3 VDC 5A Efficiency Rating Climate Savers Platinum Efficiency 80 Plus Platinum Certified 10 20 50 100 93 5 949 95 93 Input connector IEC320 C20 DC wiring must meet your local codes and regulations we recommend using a licensed local electrician to install the DC wiring needed To determine the number of power supply units needed for the blade server remember that each single slot server is budgeted a max 550 W and each full width server is budgeted a max 1100 W For a more detailed estimate contact Cisco Sales Supported AC Power Cords and Plugs The AC power connectors on the blade server chassis PDU use an IEC 320 C20 socket Each chassis power supply has a separate power cord The power cord that you use to connect the blade server power supply units to an AC power source will have an IEC 320 C19 plug on one end and on the other end one that conforms to the AC power outlet specifications for your country See the following table to determine which cord to order for your blade server chassis power supply units When you determine which power cord you need to order you can verify that its plugs conform to the power outlets for your facility by clicking on its reference link The jumper power cords for use in racks are available as an optional alternative to the s
4. Adapter Cards Depending on the model of server in question one to three adapter cards will reside in each blade server providing failover connectivity to each FEX in the chassis The following models are available and others are released on an ongoing basis Cisco UCS Virtual Interface Card 1240 The Cisco UCS Virtual Interface Card 1240 is a four port 10 Gigabit Ethernet Fibre Channel over Ethernet FCoE capable modular LAN on motherboard mLOM designed exclusively for the M3 generation of Cisco UCS B Series blade servers When used in combination with an optional port expander the Cisco UCS VIC 1240 capabilities can be expanded to either ports of 10 Gigabit Ethernet The Cisco UCS VIC 1240 enables a policy based stateless agile server infrastructure that can present up to 256 PCIe standards compliant interfaces to the host that can be dynamically configured as either network interface cards NICs or host bus adapters HBAs In addition the Cisco UCS VIC 1240 supports Cisco Cisco UCS 5108 Server Chassis Installation Guide 16 l Overview Adapter Cards Data Center Virtual Machine Fabric Extender VM FEX technology which extends the Cisco UCS fabric interconnect ports to virtual machines simplifying server virtualization deployment Cisco UCS Virtual Interface Card 1280 The Cisco UCS Virtual Interface Card 1280 UCS VIC M82 8P is an eight port 10 Gigabit Ethernet Fibre Channel over Ethernet FCoE capable mez
5. 1804 46 feet SFP module GLC LH SM 1 Gb Ethernet long range 10 km 32808 4 feet SFP module SFP GE T 1 Gb Ethernet extended temperature range module The UCS 6324 Fabric Interconnect also supports Twinax copper transceivers The enhanced SFP 10 Gb Ethernet transceiver is a bidirectional device with a transmitter and receiver in the same physical package It has a 20 pin connector on the electrical interface Table 11 SFP 10 Gb Ethernet Transceivers Model Description SFP H10GB CUIM 10 Gb Ethernet copper SFP 1 m 3 28 ft SFP H10GB CU3M 10 Gb Ethernet copper SFP 3 m 9 84 ft SFP H10GB CUSM 10 Gb Ethernet copper SFP 5 m 16 4 ft SFP H10GB ACU7M 10 Gb Ethernet copper SFP 7 m 22 9 ft SFP H10GB ACU10M 10 Gb Ethernet copper SFP 10 m 32 8 ft E Cisco UCS 5108 Server Chassis Installation Guide Installation Twinax Copper Cables for the UCS 6324 Fabric Interconnect Twinax Copper Cables for the UCS 6324 Fabric Interconnect Twinax copper cables are available in various lengths for the UCS 6324 Fabric Interconnect The 7 meter and 10 meter cables are active which means that they contain active components with the SFP connector housing to improve signal quality The ends ofthese cables have connectors that can plug directly into SFP receptacles Table 12 Twinax Copper Cables Model Description SFP H10GB CUIM
6. 2 Environmental evaluation e Ambient temperature e Humidity Altitude e Atmospheric contamination Air flow Power evaluation e Input power type e Power receptacles e Receptacle proximity to the equipment Dedicated circuit for power supply Dedicated separate circuits for redundant power supplies e UPS for power failures Grounding evaluation e Circuit breaker size e CO ground AC powered systems Cable and interface equipment evaluation e Cable type e Connector type e Cable distance limitations e Interface equipment transceivers EMI evaluation e Distance limitations for signaling e Site wiring RFE levels 6 Verify that the power supply installed in the chassis has a dedicated AC source circuit 7 UPS uninterruptable power supply E Cisco UCS 5108 Server Chassis Installation Guide Site Planning and Maintenance Records Contact and Site Information i 8 EMI electromagnetic interference 9 RFI radio frequency interference Contact and Site Information Use the following worksheet to record contact and site information Table 24 Contact and Site Information Contact person Contact phone Contact e mail Building site name Data center location Floor location Address line 1 Address line 2 City State Zip code Country Chassis and Module Information Use t
7. Bi Installing and Removing a Blade Server Hard Drive Installing a Blade Server Hard Drive Procedure Step1 Place the hard drive lever into the open position by pushing the release button Step2 Gently slide the hard drive into the opening in the blade server until it seats into place Step3 Push the hard drive lever into the closed position The following figure shows the positioning of a hard drive within a blade server Figure 38 Positioning a Hard Drive in a Blade Server Cisco UCS B200 M1 shown E Cisco UCS 5108 Server Chassis Installation Guide Installing and Removing Components Installing and Removing Power Supplies Removing a Blade Server Hard Drive Step 1 Step 2 Step 3 Procedure Push the button to release the ejector and then pull the hard drive from its slot Figure 39 Pressing the Button on the Front of the Hard Drive to Deploy the Lever Cisco UCS B200 M1 shown SOWAN D m CA VAN 1920680 1 Release button 2 Harddrive lever Place the hard drive on an antistatic mat or antistatic foam if you are not immediately reinstalling it in another blade server Install a blank faceplate N20 BBLKD to keep dust out of the blade server if the slot will remain empty Installing and Removing Power Supplies XY Note The AC and DC power supplies are keyed to work only with the power distribution system in their respective chassis version Mixing AC and DC in a given c
8. The Reset button is just inside the chassis and must be pressed using the tip of a paper clip or a similar item Hold the button down for five seconds and then release it to restart the server if other methods of restarting are not working The beaconing function for an individual server may get turned on or off by pressing the combination button and LED See Interpreting LEDs on page 28 for details The power button and LED allows you to manually take a server temporarily out of service but leave it in a state where it can be restarted quickly A console port gives a direct connection to a blade server to allow operating system installation and other management tasks to be done directly rather than remotely The port uses the KVM dongle device included in the chassis accessory kit See KVM Cable on page 71 for more information Cisco UCS 5108 Server Chassis Installation Guide Overview Cisco UCS B420 M3 High Performance Blade Server Cisco UCS B420 M3 High Performance Blade Server For full service and installation instructions see the Cisco UCS B420 M3 High Performance Blade Server Installation and Service Note You can install up to four UCS B420 M3 High Performance Blade Servers to a chassis Figure 7 Cisco UCS B420 M3 333874 1 Hard drive bay 1 8 Power button and LED 2 Hard drive bay 2 9 Network link status LED 3 Hard drive bay 3 10 Blade health LED 4 Hard drive bay 4 1
9. UCS Manager chassis making the chassis stateless Provides a single highly available management domain for all system chassis reducing administrative tasks Unified fabric Decreases TCO by reducing the number of network interface cards NICs host bus adapters HBAs switches and cables needed Support for one or two Cisco UCS 2100 Series or Cisco UCS 2200 FEXes and support for one or two Cisco UCS 6324 Fabric Interconnects in the UCS Mini chassis Eliminates switches from the chassis including the complex configuration and management of those switches allowing a system to scale without adding complexity and cost Allows use of two I O modules for redundancy or aggregation of bandwidth Enables bandwidth scaling based on application needs blades can be configured from 1 25 Gbps to 40 Gbps or more Auto discovery Requires no configuration like all components in the Cisco Unified Computing System chassis are automatically recognized and configured by Cisco UCS Manager High performance midplane Provides investment protection for new fabric extenders and future blade servers Supports up to 2x 40 Gigabit Ethernet for every blade server slot Provides 8 blades with 1 2 Tbps of available Ethernet throughput for future I O requirements The Cisco UCS 6324 Fabric Interconnect supports only 512 Gbps Provides reconfigurable chassis to accommodate a variety of form factors and functions Cisco
10. 10 Gb Ethernet copper SFP 1 m 3 28 ft SFP H10GB CU3M 10 Gb Ethernet copper SFP 3 m 9 84 ft SFP H10GB CUSM 10 Gb Ethernet copper SFP 5 m 16 4 ft SFP H10GB ACU7M 10 Gb Ethernet copper SFP 7 m 22 9 ft SFP H10GB ACU10M 10 Gb Ethernet copper SFP 10 m 32 8 ft OSFP Copper Optical Transceivers for the UCS 6324 Fabric Interconnect Fach UCS 6324 Fabric Interconnect supports up one copper optical transceiver Table 13 OSFP Copper Optical Transceivers Model Description QSFP 4SFP10G CUSM 40GBASE CR4 QSFP to four 10GBASE CU SFP direct attach breakout cable assembly 5 meter passive QSFP 4SFP10G CU3M 40GBASE CR4 QSFP to four 10GBASE CU SFP direct attach breakout cable assembly 3 meter passive QSFP 4SFP 10G CUIM 40GBASE CR4 QSFP to four 10GBASE CU SFP direct attach breakout cable assembly 1 meter passive QSFP 4x10G AC7M 40GBASE CR4 QSFP to four 10GBASE CU SFP direct attach breakout cable assembly 7 meter active QSFP 4x10G AC10M 40GBASE CR4 QSFP to four 10GBASE CU SFP direct attach breakout cable assembly 10 meter active Cisco UCS 5108 Server Chassis Installation Guide Bi Installation A Replacing a Copper Twinax SFP Transceiver with an Optical SFP Transceiver Replacing a Copper Twinax SFP Transceiver with an Optical SFP Transceiver Procedure Step1 Remove the copper Twinax SFP from the FEX port by pulling gently on the rubbe
11. Cisco contact your Cisco customer service representative to arrange for return shipment to Cisco SFP Transceivers Each FEX within the chassis supports Small Form Factor Pluggable SFP copper or optical transceivers Each transceiver runs at 10 Gb SFP Twinax Copper Transceivers The FEX also supports Twinax copper transceivers The enhanced SFP 10 Gb Ethernet transceiver is a bidirectional device with a transmitter and receiver in the same physical package It has a 20 pin connector on the electrical interface Table 8 SFP 10 Gb Ethernet Transceiver Model Description SFP H10GB CUIM 10 Gb Ethernet copper SFP 1 m 3 28 ft SFP H10GB CU3M 10 Gb Ethernet copper SFP 3 m 9 84 ft SFP H10GB CUSM 10 Gb Ethernet copper SFP 5 m 16 4 ft SFP H10GB ACU7M 10 Gb Ethernet copper SFP 7 m 22 9 ft SFP H10GB ACU10M 10 Gb Ethernet copper SFP 10 m 32 8 ft Cisco UCS 5108 Server Chassis Installation Guide EG l Installation Optical SFP Transceivers The figure below shows the SFP H10GB CUSM transceiver The rubber loop is used for removing the SFP from its port on the I O module Figure 34 SFP 10 Gb Twinax Copper Transceiver 187492 Optical SFP Transceivers If distances greater than 10 meters 33 feet must be spanned the FEX also supports the substitution of the copper SFP by optical SFP transceivers The SFP 10 Gb Ethernet optical transceiver is
12. Cisco UCS B22 Blade Server Installation and Service Note You can install up to eight UCS B22 M3 Blade Servers to a chassis Figure 3 Cisco UCS B22 M3 1 Asset tag 2 7 Network link status LED 2 Blade ejector handle 8 Blade health LED Cisco UCS 5108 Server Chassis Installation Guide 8 l Overview Blade Servers i 3 Ejector captive screw 9 Console connector 4 Hard drive bay 1 10 Reset button access 5 Hard drive bay 2 11 Beaconing LED and button 6 Power button and LED 2 Bach server has a blank plastic asset tag that pulls out of the front panel provided so you can add your own asset tracking label without interfering with the intended air flow LEDs Buttons Connectors The LED indicators indicate whether the blade server is in active or standby mode the status of the network link the over all health of the blade server and whether the server is set to give a flashing blue beaconing indication See Interpreting LEDs on page 28 for details The removable hard disks also have LEDs indicating hard disk access activity and hard disk health The Reset button is just inside the chassis and must be pressed using the tip of a paper clip or a similar item Hold the button down for five seconds and then release it to restart the server if other methods of restarting are not working The beaconing function for an individual server m
13. Interface Card 1280 17 Cisco UCS M81KR Virtual Interface Card 17 Cisco UCS 82598KR CI 10 Gigabit Ethernet Adapter 17 Cisco UCS M71KR E Emulex Converged Network Adapter 18 Cisco UCS M71KR Q QLogic Converged Network Adapter 18 Cisco UCS 6324 Fabric Interconnect 19 Cisco UCS 2104XP FEXes 20 LEDs 21 Buttons 21 Connectors 21 Cisco UCS 2200 Series FEXes 21 LEDs 23 Buttons 23 Connectors 23 Cisco UCS 5108 Server Chassis Installation Guide Contents Power Distribution Unit PDU 23 LEDs 23 Buttons 23 Connectors 23 Fan Modules 23 LEDs 24 Buttons and Connectors 24 Power Supplies 24 LEDs 24 Buttons 24 Connectors 24 Power Supply Redundancy 24 Non redundant Mode 25 N 1 Redundancy 25 Grid Redundancy 26 LEDs 26 LED Locations 27 Interpreting LEDs 28 CHAPTER 2 Installation 33 Installation Notes and Warnings for the Cisco UCS 5108 Server Chassis 33 Rack Requirements 34 Cable Management 34 Airflow Considerations 35 Moving Server Chassis 35 Installation Guidelines 36 Required Equipment 37 Unpacking and Inspecting the Chassis 37 Attaching the Round Hole Adapter Kit to the Rails Optional 38 Installing the Chassis 38 Installing the Rails 40 Installing the Round Hole Adapter Kit 43 Inserting the Chassis into the Rack 44 Connecting a DC Power Supply 46 Required Tools 46 Cisco UCS 5108 Server Chassis Installation Guide I Contents DC Power Installation Procedure 46 Cabling Considerations for Fabric Port Ch
14. L6 20 Length 14 ft 0 in 4 26 m Connector IEC 60320 C19 o 113363 Peoples Republic of China Power Cord Part Number CAB AC 16A CH Cisco UCS 5108 Server Chassis Installation Guide 80 l Technical Specifications Switzerland i Cord Set Rating 16A 250 VAC Figure 52 CAB AC 16A CH Power Cord for the Cisco UCS 5108 Blade Server Chassis Cordset rating 16A 250V Length 14 ft 0 in 4 26 m Plug GB16C A Connector IEC 60320 1 C19 126792 Switzerland Power Cord Part Number CAB ACS 16 Cord Set Rating 16A 250 VAC Figure 53 CAB ACS 16 Power Cord for the UCS 5108 Blade Server Chassis ma E Cordset rating 16 A 250 V Length 8 ft 2 in 2 5 m a a Plug SEV 5934 2 Connector IEC 60320 C19 Type 23 192844 Power Distribution Unit PDU Power Cord Part Number CAB C19 CBN Cisco UCS 5108 Server Chassis Installation Guide lai Technical Specifications A Power Distribution Unit PDU Cord Set Rating Not applicable Figure 54 CAB C19 CBN Power Cord for the UCS 5108 Blade Server Chassis
15. LEDs There are port activity LEDs and an LED that indicates connectivity to the servers in the chassis Buttons No buttons are on the FEX Connectors I O ports support SFP 10 Gb Ethernet connections There is also a console connection for use by Cisco diagnostic technicians It is not intended for customer use Cisco UCS 2200 Series FEXes Figure 12 Cisco UCS 2208 FEX UCS IOM 2208XP 1 Fabric extender status indicator LED 3 Connection ports to the fabric interconnect 2 Link status indicator LEDs 4 Captive screws for the insertion latches Cisco UCS 5108 Server Chassis Installation Guide I Overview A Cisco UCS 2200 Series FEXes Figure 13 Cisco UCS 2204XP FEX Jel op RER v ie Tas Ti an A it 7 eek Hi eae 1 Fabric extender status indicator LED 3 Connection ports to the fabric interconnect 2 Link status indicator LEDs 4 Captive screws for the insertion latches Cisco UCS 2200 Series FEXes bring the unified fabric into the blade server enclosure providing 10 Gigabit Ethernet connections between blade servers and the fabric interconnect simplifying diagnostics cabling and management The Cisco UCS 2200 Series extends the I O fabric between the fabric interconnects and the Cisco UCS 5100 Series Blade Server Chassis enabling a lossless and deterministic Fibre Channel over Ethernet FCoE fabric to connect a
16. SAVE THESE INSTRUCTIONS A Warning This unit is intended for installation in restricted access areas A restricted access area can be accessed only through the use of a special tool lock and key or other means of security Statement 1017 A Warning Only trained and qualified personnel must be allowed to install replace or service this equipment Statement 1030 Installing and Removing a Blade Server There are two types of blade server supported half width and full width Their installation is similar but with important differences For details see the Blade Server Installation and Service Note for the type of blade server you are using The server notes are available at the following URL http www cisco com en US products ps10280 prod_installation_guides_list html Installing and Removing a Blade Server Hard Drive You can remove blade server hard drives without removing the blade server from the chassis All other component replacement for a blade server requires removing the blade from the chassis Unused hard drive bays should always be covered with cover plates N20 BBLKD to assure proper cooling and ventilation The chassis is omitted from illustrations here to simplify the drawing gt Caution To prevent ESD damage wear grounding wrist straps during these procedures and handle modules by the carrier edges only Cisco UCS 5108 Server Chassis Installation Guide I Installing and Removing Components
17. UCS 5108 Server Chassis Installation Guide m Overview Components Feature Benefit Redundant hot swappable power supplies and fans Provides high availability in multiple configurations Increases serviceability Provides uninterrupted service during maintenance Available configured for AC or DC environments mixing not supported Hot pluggable blade servers FEXes and fabric interconnects Provides uninterrupted service during maintenance and server deployment Comprehensive monitoring Provides extensive environmental monitoring on each chassis Allows use of user thresholds to optimize environmental management of the chassis Efficient front to back airflow Helps reduce power consumption and increase component reliability Tool free installation Requires no specialized tools for chassis installation Provides mounting rails for easy installation and servicing Mixed blade configurations Components Allows up to 8 half width or 4 full width blade servers or any combination thereof for outstanding flexibility When configured with the 6324 Fabric Interconnect only 8 half width B200 M3 blades are supported Cisco UCS 5108 Server Chassis The Cisco UCS 5100 Series Blade Server Chassis is a scalable and flexible blade server chassis for today s and tomorrow s data center that helps reduce total cost of ownership There are two versions available that can be configured fo
18. a connection into a Cisco UCS blade server providing a DB9 serial connector a VGA connector for a monitor and dual USB ports for a keyboard and mouse With this cable you can create a direct connection to the operating system and the BIOS running on a blade server Figure 45 KVM Cable for Blade Servers 1 Connector to blade server slot 3 VGA connection for a monitor Cisco UCS 5108 Server Chassis Installation Guide Technical Specifications Chassis Specifications 2 DB9 serial connector 2 port USB connector for a mouse and keyboard Chassis Specifications Table 14 Cisco UCS Server Chassis Description Specification Height x Width x Depth 10 5 in 26 7 cm x 17 5 in 44 5 cm x 32 in 81 2 cm Blade server slots 8 FEX slots 2 Fan module bays 8 Power supply bays 4 Backplane throughput 1 2 Tb aggregate Table 15 Weight of the Chassis Components Description Specification Empty chassis 90 Ibs 40 83 kg FEX 2 5 Ibs 1 13 kg UCS 6324 Fabric Interconnect 2 5 Ibs 1 13 kg Fan module 1 8 lbs 0 82 kg B200 Blade Server 13 5 Ibs 6 1 kg 2 B230 Blade Server 18 0 Ibs 8 16 kg gt B250 Blade Server 25 Ibs 11 34 kg gt B440 Blade Server 34 5 Ibs 15 65 kg gt Hard drive 0 8 lbs 0 36 kg Fully Populated UCS 5108 Server Chassis Approximately 255 Ibs 115 66 kg depending on models and opt
19. can be restarted quickly A console port gives a direct connection to a blade server to allow operating system installation and other management tasks to be done directly rather than remotely The port uses the KVM dongle device included in the chassis accessory kit See KVM Cable on page 71 for more information Cisco UCS B440 Blade Servers For full service and installation instructions see the Cisco UCS B440 High Performance Blade Server Installation and Service Note Figure 6 Cisco UCS B440 1 Harddrivebay1 9 Right ejector thumbscrew 2 Hard drive bay 2 10 Power button and LED 3 Hard drive bay 3 11 Network link status LED Cisco UCS 5108 Server Chassis Installation Guide Overview LEDs Buttons Connectors Blade Servers i 4 Hard drive bay 4 12 Blade health LED 5 RAID battery backup module BBU 13 Local console connection 6 Left ejector thumbscrew 14 Reset button access 7 Left ejector handle 15 Locate button and LED 8 Right ejector handle The LED indicators indicate whether the blade server is in active or standby mode the status of the network link the over all health of the blade server and whether the server is set to give a flashing blue beaconing indication See Interpreting LEDs on page 28 for details The removable hard disks also have LEDs indicating hard disk access activity and hard disk health
20. inch holes measuring 625 inches from center to center Figure 30 Connecting DC Power to the Chassis shows DC PDU only Chassis is Omitted Step7 Replace the terminal cover as shown This cover should always be in place when power is applied to the terminals Step8 Connect the other end of the power wires to a DC power input source Step9 Set the DC disconnect switch in the circuit to ON Caution In a system with multiple power supplies connect each power supply to a separate DC power source In the event of a power source failure if the second source is still available it can maintain system operation Step 10 Verify power supply operation by checking the power supply s front panel LEDs You should see the following e The LED labeled INPUT OK is green e The LED labeled OUTPUT FAIL is not lit Cisco UCS 5108 Server Chassis Installation Guide 48 l Installation Cabling Considerations for Fabric Port Channels i Step 11 Check the power supply and system status from the UCS console by entering the show system command or the show power command do using the GUI For more information on these commands refer to the command reference for your software Cabling Considerations for Fabric Port Channels A When you configure the links between the Cisco UCS 2200 Series FEX and a Cisco UCS 6200 series fabric interconnect in fabric port channel mode the available VIF namespace on the adapter varies depending on where the
21. manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case users will be required to correct the interference at their own expense The following information is for FCC compliance of Class B devices This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to part 15 of the FCC rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If the equipment causes interference to radio or television reception which can be determined by turning the equipment off and on users are encouraged to try to correct the interference by using one or more of the following measures e Reorient or relocate the receiving antenna e Increase the separation between the equipment and receiver e Connect the equipment into an outlet on a circuit different from that to which the receiver is connected e Consult the dealer or an experienced radio TV technician for help Modifications to this product not authorized by Cisco could void the FCC approval and negate your authority
22. rearrange the cabling between FEX and Fabric Interconnect before performing the feature configuration Fabric port channel will require that all physical links from a given FEX physically connect to a contiguous block of ports 1 to 8 or 9 to 16 and so on This feature requires a Cisco UCS M82 8P Virtual Interface Card in at least one blade server and a UCS 2200 Series I O module that is connected to a UCS 6200 Series Fabric Interconnect See the Fabric Port Channel sections in the configuration guides for more details Cisco UCS 5108 Server Chassis Installation Guide m Installing and Removing Components A Removing a FEX or UCS 6324 Fabric Interconnect Removing a FEX or UCS 6324 Fabric Interconnect Step 1 Step 2 Step 3 Step 4 Step 5 Procedure Remove all cables from the FEX or UCS 6324 Fabric Interconnect Loosen the captive screws on the FEX or UCS 6324 Fabric Interconnect Pull the levers outward to unseat the FEX or UCS 6324 Fabric Interconnect Using the levers pull the FEX or UCS 6324 Fabric Interconnect from its slot Install a blank FEX filler panel N20 CBLKI if the FEX or fabric interconnect slot is to remain empty Note Ifyou plan to remove a FEX or fabric interconnect for an extended period of time you must replace it with the N20 CBLKI blank to avoid EMI issues Blanks can be order from Cisco Installing a FEX or Fabric Interconnect Step 1 Procedure Make sure that the two levers at the front of the FEX
23. the chassis is from front to back Air enters the chassis through the blade servers and power supply grills at the front of the chassis and exits through the fan modules on the back of the chassis To ensure proper airflow follow these guidelines e Maintain ambient airflow throughout the data center to ensure normal operation e Consider the heat dissipation of all equipment when determining air conditioning requirements Do not allow the exhaust of one system to be the intake for another system e When evaluating airflow requirements take into consideration that the hot air generated by equipment at the bottom of the rack can be drawn in the intake of the equipment above e Make sure that the exhaust at the rear of the chassis is unobstructed for at least 24 in 61 cm This includes obstruction due to messy cabling practices e Some blade servers ship with internal air baffles that are placed over the DIMMs and CPUs They are used to channel airflow to where it is needed the most The blades are designed to operate with air baffles installed and the system will not cool correctly if they are not installed e If an enclosed rack is used the front door must be 65 percent perforated to ensure adequate airflow to the servers Moving Server Chassis When lifting the chassis be aware of its weight and follow these guidelines A Caution Do not try to lift the chassis using the handles on the side These handles are intended only for movin
24. to operate the product The Cisco implementation of TCP header compression is an adaptation of a program developed by the University of California Berkeley UCB as part of UCB s public domain version of the UNIX operating system All rights reserved Copyright 1981 Regents of the University of California NOTWITHSTANDING ANY OTHER WARRANTY HEREIN ALL DOCUMENT FILES AND SOFTWARE OF THESE SUPPLIERS ARE PROVIDED AS IS WITH ALL FAULTS CISCO AND THE ABOVE NAMED SUPPLIERS DISCLAIM ALL WARRANTIES EXPRESSED OR IMPLIED INCLUDING WITHOUT LIMITATION THOSE OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OR ARISING FROM A COURSE OF DEALING USAGE OR TRADE PRACTICE IN NO EVENT SHALL CISCO OR ITS SUPPLIERS BE LIABLE FOR ANY INDIRECT SPECIAL CONSEQUENTIAL OR INCIDENTAL DAMAGES INCLUDING WITHOUT LIMITATION LOST PROFITS OR LOSS OR DAMAGE TO DATA ARISING OUT OF THE USE OR INABILITY TO USE THIS MANUAL EVEN IF CISCO OR ITS SUPPLIERS HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES Any Internet Protocol IP addresses and phone numbers used in this document are not intended to be actual addresses and phone numbers Any examples command display output network topology diagrams and other figures included in the document are shown for illustrative purposes only Any use of actual IP addresses or phone numbers in illustrative content is unintentional and coincidental Cisco and the Cisco logo are trademarks or registered t
25. top of the module Step2 Push the fan module into the chassis until it seats properly and the spring latch snaps into place Step3 Listen for the fans if the chassis is powered on You should immediately hear it operating If you do not hear it ensure that the fan module is inserted completely in the chassis and the faceplate is flush with the outside surface of the chassis Step4 Verify that the LED behavior is as expected See LED Locations on page 27 and Interpreting LEDs on page 28 Figure 44 Positioning a Fan Module N20 FAN5 in the Cisco UCS Server Chassis Removing a Fan Module Procedure Step1 Hold the fan module by its handle Step2 Press down on the spring latch at the top of the fan module Step3 Pull the fan module clear of the chassis Note The chassis is designed to have all fan modules in place and operating at all times Do not leave a fan module bay empty for longer than is necessary to replace it with a new fan module Cisco UCS 5108 Server Chassis Installation Guide _70 l APPENDIX Technical Specifications This appendix lists the technical specifications for the Cisco UCS 5108 server chassis and includes the following sections KVM Cable KVM Cable page 71 Chassis Specifications page 72 Environmental Specifications page 73 Specifications for the Cisco UCS 5108 Blade Server Chassis Power Supply Units page 74 Supported AC Power Cords and Plugs page 77 The KVM cable N20 BK VM provides
26. 1 Console connector 5 Left ejector handle 12 Reset button access 6 Asset tag 3 13 Beaconing LED and button 7 Right ejector handle 3 Bach server has a blank plastic asset tag that pulls out of the front panel provided so you can add your own asset tracking label without interfering with the intended air flow LEDs The LED indicators indicate whether the blade server is in active or standby mode the status of the network link the over all health of the blade server and whether the server is set to give a flashing blue beaconing indication See Interpreting LEDs on page 28 for details The removable hard disks also have LEDs indicating hard disk access activity and hard disk health Buttons The Reset button is just inside the chassis and must be pressed using the tip of a paper clip or a similar item Hold the button down for five seconds and then release it to restart the server if other methods of restarting are not working Cisco UCS 5108 Server Chassis Installation Guide E l Overview Cisco UCS B260 M4 Scalable Blade Server The beaconing function for an individual server may get turned on or off by pressing the combination button and LED See Interpreting LEDs on page 28 for details The power button and LED allows you to manually take a server temporarily out of service but leave it in a state where it can be restarted quickly Connectors A console port gives a direct connection to a
27. 4 Gbps Fibre Channel functions using drivers from Emulex providing e Compatibility with current Emulex adapter based SAN environments and drivers e Consolidation of LAN and SAN traffic over the same adapter card and fabric reducing the overall number of network interface cards NICs HBAs cables and switches e Integrated management with Cisco UCS Manager Cisco UCS M71KR Q QLogic Converged Network Adapter The Cisco UCS M71KR Q QLogic Converged Network Adapter CNA is a QLogic based Fibre Channel over Ethernet FCoE adapter card that provides connectivity for Cisco UCS B Series Blade Servers in the Cisco Unified Computing System Designed specifically for the Cisco UCS blades the adapter provides a dual port connection to the midplane of the blade server chassis The Cisco UCS M71KR Q uses an Intel 82598 10 Gigabit Ethernet controller for network traffic and a QLogic 4 Gbps Fibre Channel controller for Fibre Channel traffic all on the same adapter card The Cisco UCS M71KR Q presents two discrete Fibre Channel host bus adapter HBA ports and two Ethernet network ports to the operating system The Cisco UCS M71KR Q provides both 10 Gigabit Ethernet and 4 Gbps Fibre Channel functions using drivers from QLogic providing e Compatibility with current QLogic adapter based SAN environments and drivers e Consolidation of LAN and SAN traffic over the same adapter card and fabric reducing the overall number of network interface cards NI
28. Ajaj CISCO L 2 A a n le EA e Cisco UCS 5108 Server Chassis Installation Guide First Published June 10 2009 Last Modified July 29 2014 Americas Headquarters Cisco Systems Inc 170 West Tasman Drive San Jose CA 95134 1706 USA http www cisco com Tel 408 526 4000 800 553 NETS 6387 Fax 408 527 0883 THE SPECIFICATIONS AND INFORMATION REGARDING THE PRODUCTS IN THIS MANUAL ARE SUBJECT TO CHANGE WITHOUT NOTICE ALL STATEMENTS INFORMATION AND RECOMMENDATIONS IN THIS MANUAL ARE BELIEVED TO BE ACCURATE BUT ARE PRESENTED WITHOUT WARRANTY OF ANY KIND EXPRESS OR IMPLIED USERS MUST TAKE FULL RESPONSIBILITY FOR THEIR APPLICATION OF ANY PRODUCTS THE SOFTWARE LICENSE AND LIMITED WARRANTY FOR THE ACCOMPANYING PRODUCT ARE SET FORTH IN THE INFORMATION PACKET THAT SHIPPED WITH THE PRODUCT AND ARE INCORPORATED HEREIN BY THIS REFERENCE IF YOU ARE UNABLE TO LOCATE THE SOFTWARE LICENSE OR LIMITED WARRANTY CONTACT YOUR CISCO REPRESENTATIVE FOR A COPY The following information is for FCC compliance of Class A devices This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to part 15 of the FCC rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction
29. Cs HBAs cables and switches e Integrated management with Cisco UCS Manager Cisco UCS 5108 Server Chassis Installation Guide 18 l Overview Cisco UCS 6324 Fabric Interconnect i Cisco UCS 6324 Fabric Interconnect The Cisco UCS 6324 Fabric Interconnect UCS FI M 6324 is an integrated fabric interconnect and I O module It can be configured only with the UCSB 5108 AC2 and UCSB 5108 DC2 versions of the chassis Figure 10 Cisco UCS 6324 Fabric Interconnect 352708 1 Management port 5 QSFP licensed server port 2 Power on LED 6 Console management port 3 USB port 7 Ejector captive screws 4 Port LEDs 8 Four SPF unified ports The Cisco UCS 6324 Fabric Interconnect connects directly to external Cisco Nexus switches through 10 Gigabit Ethernet ports and Fibre Channel over Ethernet FCoE ports The Cisco UCS 6324 Fabric Interconnect fits into the back of the Cisco UCS Mini chassis Each Cisco UCS Mini chassis can support up to two UCS 6324 Fabric Interconnects which enables increased capacity as well as redundancy Cisco UCS 5108 Server Chassis Installation Guide I Overview Cisco UCS 2104XP FEXes Cisco UCS 2104XP FEXes Figure 11 Cisco UCS 2104 10 Module 1 Fabric extender status indicator LED 3 Connection ports to the fabric interconnect 2 Link status indicator LEDs 4 Captive screws for the insertion latches Cisco UC
30. FEX uplinks are connected to the fabric interconnect ports Inside the 6248 fabric interconnect there are six sets of eight contiguous ports with each set of ports managed by a single chip When uplinks are connected such that all of the uplinks from an FEX are connected to a set of ports managed by a single chip Cisco UCS Manager maximizes the number of VIFs used in service profiles deployed on the blades in the chassis Ifuplink connections from an IOM are distributed across ports managed by separate chips the VIF count is decreased Figure 31 Port Groups for Fabric Port Channels AV AV AV AV 18 20 2 24 Caution A Adding a second link to a fabric port channel port group is disruptive and will automatically increase the available amount of VIF namespace from 63 to 118 Adding further links is not disruptive and the VIF namespace stays at 118 Caution Linking a chassis to two fabric port channel port groups is disruptive and does not affect the VIF namespace unless it is manually acknowledged The VIF namespace is then automatically set to the smaller size fabric port channel port group usage either 63 or 118 VIFs of the two groups For high availability cluster mode applications symmetric cabling configurations are strongly recommended If the cabling is asymmetric the maximum number of VIFs available is the smaller of the two cabling configurations For more information on the maximum numb
31. S 2100 Series FEXes bring the unified fabric into the blade server enclosure providing 10 Gigabit Ethernet connections between blade servers and the fabric interconnect simplifying diagnostics cabling and management The Cisco UCS 2104 N20 16584 extends the I O fabric between the fabric interconnects and the Cisco UCS 5100 Series Blade Server Chassis enabling a lossless and deterministic Fibre Channel over Ethernet FCoE fabric to connect all blades and chassis together Because the FEX is similar to a distributed line card it does not do any switching and is managed as an extension of the fabric interconnects This approach removes switching from the chassis reducing overall infrastructure complexity and enabling the Cisco Unified Computing System to scale to many chassis without multiplying the number of switches needed reducing TCO and allowing all chassis to be managed as a single highly available management domain The Cisco 2100 Series also manages the chassis environment the power supply and fans as well as the blades in conjunction with the fabric interconnect Therefore separate chassis management modules are not required Cisco UCS 2100 Series FEXes fit into the back of the Cisco UCS 5100 Series chassis Each Cisco UCS 5100 Series chassis can support up to two FEXes enabling increased capacity as well as redundancy Cisco UCS 5108 Server Chassis Installation Guide _20 l Overview Cisco UCS 2200 Series FEXes i
32. SFP Transceivers 73 Specifications for the Cisco UCS 5108 Blade Server Chassis Power Supply Units 74 Supported AC Power Cords and Plugs 77 Australia and New Zealand 78 Continental Europe 78 International 78 Israel 79 Japan and North America 79 Peoples Republic of China 80 Switzerland 81 Power Distribution Unit PDU 81 APPENDIX B Site Planning and Maintenance Records 83 Site Preparation Checklist 83 Contact and Site Information 85 Chassis and Module Information 85 FEX Port Connection Record 87 UCS 6324 Fabric Interconnect Port Connection Record 88 Cisco UCS 5108 Server Chassis Installation Guide I BI Contents i Cisco UCS 5108 Server Chassis Installation Guide Preface This preface includes the following sections e Audience page ix e Conventions page ix e Related Cisco UCS Documentation page xi e Obtaining Documentation and Submitting a Service Request page xi Audience To use this installation guide you must be familiar with electronic circuitry and wiring practices and preferably be an electronic or electromechanical technician who has experience with electronic and electromechanical equipment Only trained and qualified service personnel as defined in IEC 60950 1 and AS NZS60950 should install replace or service the equipment Install the system in accordance with the U S National Electric Code if you are in the United States Conventions Text Type Indication GUI elements GUI elements such
33. SIE TOO USO Pelee 1 Hard drive bay 1 8 Power button and LED 2 Hard drive bay 2 9 Network link status LED 3 Leftejector captive screw 10 Blade health LED 4 Left blade ejector handle 11 Console connector 5 Papertab for server name or serial numbers 12 Reset button access 6 _ Right blade ejector handle 13 Beaconing LED and button 7 Right ejector captive screw Cisco UCS 5108 Server Chassis Installation Guide Overview Blade Servers LEDs Buttons Connectors The LED indicators indicate whether the blade server is in active or standby mode the status of the network link the over all health of the blade server and whether the server is set to give a flashing blue beaconing indication See Interpreting LEDs on page 28 for details The removable hard disks also have LEDs indicating hard disk access activity and hard disk health The Reset button is just inside the chassis and must be pressed using the tip of a paper clip or a similar item Hold the button down for five seconds and then release it to restart the server if other methods of restarting are not working The beaconing function for an individual server may get turned on or off by pressing the combination button and LED See Interpreting LEDs on page 28 for details The power button and LED allows you to manually take a server temporarily out of service but leave it ina state where it
34. Service Request Cisco UCS 5108 Server Chassis Installation Guide xii l CHAPTER 1 Overview This chapter contains the following sections e System Overview page 1 Features and Benefits page 3 e Components page 4 e LEDs page 26 System Overview The Cisco UCS 5108 server chassis and its components are part of the Cisco Unified Computing System UCS which uses the Cisco UCS 5108 server system with the two I O modules and the Cisco UCS Fabric Interconnects to provide advanced options and capabilities in server and data management All servers are managed via the GUI or CLI with Cisco UCS Manager The Cisco UCS 5108 server chassis system consists of the following components e Cisco UCS 5108 server chassis AC version UCSB 5108 AC2 and N20 C6508 e Cisco UCS 5108 server chassis DC version UCSB 5108 DC2 and UCSB 5108 DC e Cisco UCS 2104XP I O Module N20 16584 Up to two I O modules each providing four ports of 10 Gb Ethernet Cisco Data Center Ethernet and Fibre Channel over Ethernet FCoE connection to the fabric interconnect e Cisco UCS 2208XP I O Module UCS IOM 2208XP Up to two I O modules each providing eight universal ports configurable as a 10 Gb Ethernet Cisco Data Center Ethernet or Fibre Channel over Ethernet FCoE connection to the fabric interconnect e Cisco UCS 2204XP I O Module UCS IOM 2204XP Up to two I O modules each providing four universal ports configurable as a 10 Gb Ethernet Cisco D
35. a bidirectional device with a transmitter and receiver in the same physical package It has a duplex LC connector on the optical interface Model Description SFP 10G SR Short range optical SFP up to 300 m 984 feet SFP 10G LR Long range optical SFP up to 10 km 6 2 miles FET 10G Cisco 10G Fabric Extender Transceiver LC duplex connector 4 While the SFP 10G LR is supported by both the fabric interconnect and I O module the maximum distance will introduce latency issues that will affect overall performance Documentation for SFP 10 Gb Ethernet optical transceivers is at http www cisco com en US docs interfaces_modules transceiver_modules installation note 78_15160 html SFP and SFP Transceivers for the UCS 6324 Fabric Interconnect Each UCS 6324 Fabric Interconnect supports up to four SFP optical or copper transceivers Cisco UCS 5108 Server Chassis Installation Guide I Installation A SFP and SFP Transceivers for the UCS 6324 Fabric Interconnect Table 9 SFP Transceivers Model Description SFP 10G SR Short range optical SFP up to 300 m 984 feet SFP 10G SR X Short range optical SFP up to 300 m 984 feet extended temperature FET 10G Cisco 10G Fabric Extender Transceiver LC duplex connector Table 10 SFP Optical Transceivers Model Description GLC T 1 Gb Ethernet copper SFP module GLC SX MM 1 Gb Ethernet short range up to 550 m
36. ade server and whether the server is set to give a flashing blue beaconing indication See Interpreting LEDs on page 28 for details The removable hard disks also have LEDs indicating hard disk access activity and hard disk health Cisco UCS 5108 Server Chassis Installation Guide Overview Blade Servers i Buttons The Reset button is just inside the chassis and must be pressed using the tip of a paper clip or a similar item Hold the button down for five seconds and then release it to restart the server if other methods of restarting are not working The beaconing function for an individual server may get turned on or off by pressing the combination button and LED See Interpreting LEDs on page 28 for details The power button and LED allows you to manually take a server temporarily out of service but leave it ina state where it can be restarted quickly Connectors A console port gives a direct connection to a blade server to allow operating system installation and other management tasks to be done directly rather than remotely The port uses the KVM dongle device included in the chassis accessory kit See KVM Cable on page 71 for more information Cisco UCS B250 Blade Servers For full service and installation instructions see the Cisco UCS B250 Blade Server Installation and Service Note Figure 5 Cisco UCS B250 1 i E D Parraren Li SA TOGO len a 06 aie Li hee tn ee Bo Ax Sigg as teo eee easel Saee e aas HO
37. anced across active power supplies not including any supplies in standby When using Cisco UCS Release 1 3 1 or earlier releases small configurations that use less than 25000W may be powered up on a single power supply When using Cisco UCS Release 1 4 1 and later releases the chassis requires a minimum of 2 power supplies Note In a non redundant system power supplies can be in any slot Installing less than the required number of power supplies results in undesired behavior such as server blade shutdown Installing more than the required amount of power supplies may result in lower power supply efficiency At most this mode will require two power supplies N 1 Redundancy The N 1 redundancy configuration implies that the chassis contains a total number of power supplies to satisfy non redundancy plus one additional power supply for redundancy All the power supplies that are participating in N 1 redundancy are turned on and equally share the power load for the chassis If any additional power supplies are installed Cisco UCS Manager recognizes these unnecessary power supplies and places them on standby If a power supply should fail the surviving supplies can provide power to the chassis In addition UCS Manager turns on any turned off power supplies to bring the system back to N 1 status To provide N 1 protection the following number of power supplies is recommended e Three power supplies are recommended if th
38. annels 49 Proper FEX and Fabric Interconnect Port Connectivity 50 Removing the Chassis from a Rack 51 Repacking the Chassis 52 SFP Transceivers 52 SFP Twinax Copper Transceivers 52 Optical SFP Transceivers 53 SFP and SFP Transceivers for the UCS 6324 Fabric Interconnect 53 Twinax Copper Cables for the UCS 6324 Fabric Interconnect 55 QSFP Copper Optical Transceivers for the UCS 6324 Fabric Interconnect 55 Replacing a Copper Twinax SFP Transceiver with an Optical SFP Transceiver 56 CHAPTER 3 Installing and Removing Components 59 Components 59 Installing and Removing a Blade Server 61 Installing and Removing a Blade Server Hard Drive 61 Installing a Blade Server Hard Drive 62 Removing a Blade Server Hard Drive 63 Installing and Removing Power Supplies 63 Installing a Power Supply 64 Removing a Power Supply 65 Installing and Removing a Power Distribution Unit PDU 65 Installing a PDU 66 Removing a PDU 66 Installing and Removing a FEX or Fabric Interconnect 67 FEX Upgrade Considerations 67 Removing a FEX or UCS 6324 Fabric Interconnect 68 Installing a FEX or Fabric Interconnect 68 Installing and Removing a Fan Module 69 Installing a Fan Module 70 Removing a Fan Module 70 APPENDIX A Technical Specifications 71 KVM Cable 71 E Cisco UCS 5108 Server Chassis Installation Guide Contents Chassis Specifications 72 Environmental Specifications 73 Environmental Conditions and Power Requirement Specifications for Twinax
39. as tab titles area names and field labels appear in this font Main titles such as window dialog box and wizard titles appear in this font Document titles Document titles appear in this font TUI elements In a Text based User Interface text the system displays appears inthis font System output Terminal sessions and information that the system displays appear in this font Cisco UCS 5108 Server Chassis Installation Guide I Preface Bi Conventions X Text Type Indication CLI commands CLI command keywords appear in this font Variables in a CLI command appear in this font Elements in square brackets are optional x y z Required alternative keywords are grouped in braces and separated by vertical bars x y z Optional alternative keywords are grouped in brackets and separated by vertical bars string A nonquoted set of characters Do not use quotation marks around the string or the string will include the quotation marks lt gt Nonprinting characters such as passwords are in angle brackets Default responses to system prompts are in square brackets Le An exclamation point or a pound sign at the beginning of a line of code indicates a comment line Note p Means reader take note Notes contain helpful suggestions or references to material not covered in the document Tip A Means the following info
40. ata Center Ethernet or Fibre Channel over Ethernet FCoE connection to the fabric interconnect e A number of SFP choices using copper or optical fiber e Power supplies N20 PAC5 2500W UCSB PSU 2500ACPL or UCSB PSU 2500DC48 Up to four 2500 Watt hot swappable power supplies Cisco UCS 5108 Server Chassis Installation Guide I Overview System Overview e Fan modules N20 FAN5 Eight hot swappable fan modules e UCS B series blade servers including e Cisco UCS B200 blade servers N20 B6620 1 for M1 or N20 B6625 1 for M2 Up to eight half width blade servers each containing two CPUs and holding up to two hard drives capable of RAID 0 or 1 Cisco UCS B200 M3 blade servers UCSB B200 M3 Up to eight half width blade servers each containing two CPUs and holding up to two hard drives capable of RAID 0 or 1 e Cisco UCS B22 blade servers UCSB B22 M3 Up to eight half width blade servers each containing two CPUs and holding up to two hard drives capable of RAID 0 or 1 Cisco UCS B230 blade servers N20 B6730 Up to eight half width blade servers each containing two CPUs and holding up to two SDD drives capable of RAID 0 or 1 e Cisco UCS B250 blade servers N20 B6620 2 for M1 or N20 B6625 2 for M2 Up to four full width blade servers each containing two CPUs and holding up to two hard drives capable of RAID 0 or 1 Cisco UCS B440 blade servers N20 B6740 2 Up to four full width blade servers each contai
41. ated conductors are not accessible when cover is in place Statement 1075 Procedure Step1 Install the DC power supply in the chassis making note of the bay number so you are sure to connect the wiring to the appropriate terminals on the DC PDU at the chassis rear Step2 Verify that power is off to the DC circuit or circuits on the power supply that you are installing Step3 Ensure that all site power and grounding requirements have been met Step4 Remove the plastic cover from the DC terminals by squeezing the flanges at the top and bottom of the cover Step5 Connect the ground wires to the power supply terminal block shown as a green wire below Only one ground connection is required though there may be up to four DC connections Step6 Connect the DC input wires to the power supply terminal block The proper wiring sequence is positive to positive red wire and negative to negative black wire The figure below shows a connection to terminal 1 Cisco UCS 5108 Server Chassis Installation Guide m Installation Connecting a DC Power Supply Note The positive and negative wires can be installed pointing either to the right or to the left as long as the terminal cover is used The figure below shows them pointed to the right Panduit LCD4 14A L connectors may be used for the supply and return wires and Panduit LCD4 14AF L or equivalent connectors may be used for the 90 degree ground lug wire Both connections have double lugs with 25
42. ations on page 27 for details There is also a flashing blue Beaconing LED and button that can be triggered manually or remotely from UCS Manager The beaconing function LED is also a feature on off button When triggered beaconing of the server chassis is observable remotely from UCS Manager There are no user connectors such as RJ 45 ports on the chassis itself The integral chassis midplane supports the following e 320 G total bandwidth to each of two I O Modules e Auto discover of all components e Redundant data and management paths e 10 G Base KR The midplane is an entirely passive device Blade Servers The Cisco UCS B Series Blade Servers are based on industry standard server technologies and provide the following e Up to two or four Intel multi core processors depending on the server Front accessible hot swappable hard drives or solid state disk SSD drives e Depending on the server support is available for up to three adapter card connections for up to 160 Gbps of redundant I O throughput e Industry standard double data rate 3 DDR3 memory e Remote management through an integrated service processor that also executes policy established in Cisco UCS Manager software Local keyboard video and mouse KVM and serial console access through a front console port on each server Cisco UCS 5108 Server Chassis Installation Guide Bi Overview Blade Servers e Out of band access by remote KVM Sec
43. ave a single input for connectivity to customer power source a rack PDU such as the Cisco RP Series PDU or equivalent e The number of power supplies required to power a chassis varies depending on the following factors The total Maximum Draw required to power all the components configured within that chassis such as I O modules fans blade servers CPU and memory configuration of the blade servers Cisco UCS 5108 Server Chassis Installation Guide Overview Power Supplies i The Desired Power Redundancy for the chassis The supported power configurations are non redundant N 1 redundancy or any requirement greater than N 1 and grid redundancy To configure redundancy see the Configuration Guide for the version of Cisco UCS Manager that you are using The configuration guides are available at the following URL http www cisco com en US products ps10281 products installation and configuration guides list html Non redundant Mode amp In non redundant mode the system may go down with the loss of any supply or power grid associated with any particular chassis We do not recommend running a production system in non redundant mode To operate in non redundant mode each chassis should have at least two power supplies installed Supplies that are not used by the system are placed into standby The supplies that are placed into standby depends on the installation order not on the slot number The load is bal
44. ay get turned on or off by pressing the combination button and LED See Interpreting LEDs on page 28 for details The power button and LED allows you to manually take a server temporarily out of service but leave it in a state where it can be restarted quickly A console port gives a direct connection to a blade server to allow operating system installation and other management tasks to be done directly rather than remotely The port uses the KVM dongle device included in the chassis accessory kit See KVM Cable on page 71 for more information Cisco UCS 5108 Server Chassis Installation Guide Overview Blade Servers Cisco UCS B230 Blade Servers For full service and installation instructions see the Cisco UCS B230 Blade Server Installation and Service Note You can install up to eight UCS B230 Blade Servers to a chassis Figure 4 Cisco UCS B230 N20 B6730 Front Panel 1 SSD 1 Activity LED 9 Beaconing LED and button 2 SSD 1 Fault Locate LED 10 System Activity LED 3 SSD sled in Bay 1 11 Blade health LED 4 SSD 2 Activity 12 Reset button access 5 SSD 2 Fault LED 13 Power button and LED 6 Ejector lever captive screw 14 Console connector 7 Ejector lever 15 Asset tag 8 SSD sled in Bay 1 LEDs The LED indicators indicate whether the blade server is in active or standby mode the status of the network link the over all health of the bl
45. blade server to allow operating system installation and other management tasks to be done directly rather than remotely The port uses the KVM dongle device included in the chassis accessory kit See KVM Cable on page 71 for more information Cisco UCS B260 M4 Scalable Blade Server You can install up to four UCS B260 M4 Blade Servers in the Cisco UCS 5108 server chassis Figure 8 Cisco UCS B260 M4 Scalable Blade Server 1 Drive bay 1 7 Network link status LED 2 Drive bay 2 8 Power button and LED 3 Reset button access 9 Right ejector handle 4 Beaconing button and LED 10 UCS Scalability Terminator 5 Local console connection 11 Left ejector handle 6 Blade health LED 12 Asset tag Each server has a blank plastic tag that pulls out of the front panel so you can add your own asset tracking label without interfering with the intended air flow Cisco UCS 5108 Server Chassis Installation Guide Overview Cisco UCS B460 M4 Blade Server Cisco UCS B460 M4 Blade Server The UCS B460 M4 Blade Server is a four socket blade server that consists of two UCS Scalable M4 Blade Modules that are attached together with the UCS Scalability Connector Up to two Cisco UCS B460 M4 Blade Servers can be installed in the Cisco UCS 5108 chassis Figure 9 Cisco UCS B460 M4 Blade Server 1 Drive bay 1 4 UCS Scalability Connector 2 Drive bay 2 5 Drive bay 4 3 Drive bay 3
46. d Hole Adapter Kit to the Rails Optional on page 38 Procedure Remove the mounting template Cisco 78 19093 01 from the accessory box The template is designed to show you the proper holes within which the rails and cage nuts should be placed Once the rack holes line up with the template you should mark the holes so that their position is known after removing the template Adjust the length of the rail by sliding the ends of the rail back and forth until they match the depth of the rack Place the adapters and rails even with a rack boundary at each end of the rail Secure the rail to the rack with the provided pan head screws as shown below Figure 25 Attaching the Mounting Brackets to a Round Hole Rack asst o 0 00 0 0 2 3 29 0 00 0 00 0 0 Cisco UCS 5108 Server Chassis Installation Guide E Installation Inserting the Chassis into the Rack Step5 Follow the same procedure to install the other rack rail as shown below Figure 26 Round Hole Adapter and Rails Installed in a Rack 279774 Step6 Use a tape measure and level to verify that both rack rails are horizontal and at the same height Step7 Remove all power supplies fan assemblies server blades and I O modules to lighten the chassis Even with devices removed the chassis weighs 90 Ibs 40 83 kg Inserting the Chassis into the Rack Procedure Step1 With the help of another person or special lifting equipment lift the chassis an
47. d connection from a FEX to two separate fabric interconnects Figure 32 Invalid Connection for the Server Chassis and two Cisco UCS 6120XP Fabric Interconnects Fabric Interconnect A Rear r s s 7 fo mf ia is 7 19 ar 2s 2s 27 29 at i s s 7 s r fis fis AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV 6 a 10 12 14 16 2 4 e 8e 10 12 14 16 18 20 22 24 26 28 30 32 als Fabric Interconnect B Rear afa s 7 fo a 13 15 f 17 19 ar 23 2s 27 29 at aale als a hes AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV AV 2 4 e a 10 12 14 tell 18 20 22 24 26 28 30 32 2 4 6 8 f10 12 14 16 Port 1 Port 1 Port 2 Port 2 Port 3 Port 3 Port 4 Port 4 VO Module Slot 1 VO Module Blot 2 Chassis 1 rear 192748 Both fabric interconnects should be wired identically if port 1 on FEX 1 for a chassis goes to FI A port 5 then port 1 on FEX 2 goes to FI B port 5 The following figure shows valid connections from FEXes in two chassis to two separate fabric interconnects When you connect the serve
48. d place it on the mounting rail as shown Figure 27 Mounting Rail Weight Distribution Square Hole Mount Shown Weight bearing surface Chassis should be riding on this surface TAUN 0 E NON WEIGHT BEARING SURFACE CHASSIS SHOULD NOT BE RIDING ON THIS SURFACE 192518 Cisco UCS 5108 Server Chassis Installation Guide Installation Step 2 Step 3 Step 4 Step 5 Inserting the Chassis into the Rack i Caution The mounting rails may come loose and cause the chassis to fall if the weight is resting on the wrong surface Make sure that the bottom of the chassis is resting on the correct rail surface Slide the chassis into the rack until the front flange is flat against the cage nuts Cage nuts are not needed in round hole racks Using the six Phillips round washer head screws and the cage nuts used in square hole installations secure the chassis by its flanges to the rack as shown Figure 28 Securing the Chassis Into the Rack 192519 Replace all servers fans and power supplies back into their respective chassis slots To power up the chassis connect the appropriate AC power cables to the inlet connector corresponding to each installed power supply and then connect the other end of the cables to the power source For a DC installation see Connecting a DC Power Supply on page 46 To determine the number of power supplies needed for a given c
49. e UCS B Series blade servers including the following Cisco UCS B200 M3 blade servers UCSB B200 M3 Up to eight half width blade servers each containing two CPUs and holding up to two hard drives capable of RAID 0 or 1 Cisco UCS 5108 Server Chassis Installation Guide BEI l Features and Benefits e UCS C Series rack servers including the following Cisco UCS C240 M3 rack servers UCSC C240 M3 and Cisco UCS C220 M3 rack servers Up to seven rack servers either C240 M3 or C220 M3 or a combination of the two Features and Benefits The Cisco UCS 5108 server chassis revolutionizes the use and deployment of blade based systems By incorporating unified fabric integrated embedded management and fabric extender technology the Cisco Unified Computing System enables the chassis to have fewer physical components no independent management and to be more energy efficient than traditional blade server chassis This simplicity eliminates the need for dedicated chassis management and blade switches reduces cabling and enables the Cisco Unified Computing System to scale to 40 chassis without adding complexity The Cisco UCS 5108 server chassis is a critical component in delivering the Cisco Unified Computing System benefits of data center simplicity and IT responsiveness Table 1 Features and Benefits Feature Benefit Management by Cisco Reduces total cost of ownership by removing management modules from the
50. e of a special tool lock and key or other means of security Statement 1017 Cisco UCS 5108 Server Chassis Installation Guide I Installation Bi Rack Requirements A Warning Only trained and qualified personnel must be allowed to install replace or service this equipment Statement 1030 Rack Requirements This section provides the requirements for installing in a standard open rack assuming an external ambient air temperature range of 50 to 95 F 10 to 35 C N Note Do not use racks that have obstructions These obstructions could impair access to field replaceable units FRUs The Cisco R Series Racks are an ideal choice If other racks will be used the rack must be of the following type e Standard 19 inch 48 3 cm four post EIA rack a minimum of 39 4 inches 100 cm deep with mounting rails that conform to English universal hole spacing per section 1 of ANSI EIA 310 D 1992 e The mounting holes of the rails in the rack must be square unless the optional round hole adapter kit is used e The tool less rack mount kit shipped with the chassis is required The adjustable rack rails shipped with each enclosure extend from 29 inches 73 66 cm to 35 inches 88 9 cm Front and rear doors If your server rack includes closing front and rear doors the doors must have 65 percent open perforated area evenly distributed from top to bottom to permit adequate airflow A Caution Always use blan
51. e power configuration for that chassis requires greater than 2500 W or if using UCS Release 1 4 1 and later releases e Two power supplies are sufficient if the power configuration for that chassis requires less than 2500 W or the system is using UCS Release 1 3 1 or earlier releases e Four power supplies are recommended when running the dual voltage power supply from a 100 120V source Adding an additional power supply to either of these configurations will provide an extra level of protection Cisco UCS Manager turns on the extra power supply in the event of a failure and restores N 1 protection Cisco UCS 5108 Server Chassis Installation Guide Overview LEDs Note An n 1 redundant system has either two or three power supplies which may be in any slot Grid Redundancy The grid redundant configuration is sometimes used when you have two power sources to power a chassis or you require greater than N 1 redundancy If one source fails which causes a loss of power to one or two power supplies the surviving power supplies on the other power circuit continue to provide power to the chassis A common reason for using grid redundancy is if the rack power distribution is such that power is provided by two PDUs and you want the grid redundancy protection in the case of a PDU failure To provide grid redundant or greater than N 1 protection the following number of power supplies is recommended e Four powe
52. ency 10 Gigabit Ethernet transport capability and a dual port connection to the midplane of the blade server chassis The Cisco UCS 82598KR CI supports Intel Input Output Acceleration Technology I OAT as well as virtual queues for I O virtualization The adapter is energy efficient and can also help reduce CPU utilization by providing large segment offload LSO and TCP segmentation offload TSO The Cisco UCS 82598KR CI Cisco UCS 5108 Server Chassis Installation Guide Lai Overview A Adapter Cards uses Intel Virtual Machine Device Queue VMDq technology for the efficient routing of packets to the appropriate virtual machine Cisco UCS M71KR E Emulex Converged Network Adapter The Cisco UCS M71KR E Emulex Converged Network Adapter CNA is an Emulex based Fibre Channel over Ethernet FCoE adapter card that provides connectivity for Cisco UCS B Series Blade Servers in the Cisco Unified Computing System Designed specifically for the Cisco UCS blades the adapter provides a dual port connection to the midplane of the blade server chassis The Cisco UCS M71KR E uses an Intel 82598 10 Gigabit Ethernet controller for network traffic and an Emulex 4 Gbps Fibre Channel controller for Fibre Channel traffic all on the same adapter card The Cisco UCS M71KR E presents two discrete Fibre Channel host bus adapter HBA ports and two Ethernet network ports to the operating system The Cisco UCS M71KR E provides both 10 Gigabit Ethernet and
53. er of VIFs for your Cisco UCS environment see the configuration limits document for your hardware and software configuration Cisco UCS 5108 Server Chassis Installation Guide E Installation Proper FEX and Fabric Interconnect Port Connectivity Proper FEX and Fabric Interconnect Port Connectivity X Note The following illustrations are for example only you do not need to skip available ports to provide future expansion room See the UCS Manager configuration guide for FI port configuration considerations and limitations Observe the following guidelines e When you connect the server chassis to the fabric interconnect do not connect the FEXes to the fabric interconnect s expansion modules While similar in appearance to the other ports on the fabric interconnect the expansion modules are never used for direct chassis connections They are typically used for SAN connectivity or network uplink e All ports of a FEX must be connected to only one fabric interconnect You must connect each fabric interconnect to the chassis through its own FEX e If you need to connect to a second fabric interconnect do the following The chassis must have a second FEX installed All ports of the second FEX must be connected to the second fabric interconnect only because the FEX is a fabric extender which can only be connected to a single switch or in this case a fabric interconnect The following figure shows an invali
54. eries doc For a complete list of all M Series documentation see the Cisco UCS M Series Servers Documentation Roadmap available at the following URL https www author cisco com c en us td docs unified_computing ucs overview guide UCS_M_ Series Servers Documentation Roadmap html Other Documentation Resources An ISO file containing all B and C Series documents is available at the following URL http www cisco com cisco software type html mdfid 283 853 163 amp flowid 25821 From this page click Unified Computing System UCS Documentation Roadmap Bundle The ISO file is updated after every major documentation release Follow Cisco UCS Docs on Twitter to receive document update notifications Obtaining Documentation and Submitting a Service Request For information on obtaining documentation submitting a service request and gathering additional information see the monthly What s New in Cisco Product Documentation which also lists all new and revised Cisco technical documentation Subscribe to the What s New in Cisco Product Documentation as a Really Simple Syndication RSS feed and set content to be delivered directly to your desktop using a reader application The RSS feeds are a free service and Cisco currently supports RSS version 2 0 Follow Cisco UCS Docs on Twitter to receive document update notifications Cisco UCS 5108 Server Chassis Installation Guide E Preface A Obtaining Documentation and Submitting a
55. five seconds and then release it to restart the server if other methods of restarting The beaconing function for an individual server may get turned on or off by pressing the combination button The power button and LED allows you to manually take a server temporarily out of service but leave it ina Buttons are not working and LED See Interpreting LEDs on page 28 for details state where it can be restarted quickly Connectors A console port gives a direct connection to a blade server to allow operating system installation and other management tasks to be done directly rather than remotely The port uses the KVM dongle device included in the chassis accessory kit See KVM Cable on page 71 for more information Cisco UCS B200 M3 Blade Servers For full service and installation instructions see the Cisco UCS B200 M3 Blade Server Installation and Service Note You can install up to eight UCS B200 M3 Blade Servers to a chassis Figure 2 Cisco UCS B200 M3 1 Asset Tag 1 7 Network link status LED 2 Blade ejector handle 8 Blade health LED 3 Ejector captive screw 9 Console connector 4 Hard drive bay 1 10 Reset button access 5 Hard drive bay 2 11 Beaconing LED and button 6 Power button and LED Cisco UCS 5108 Server Chassis Installation Guide Overview Blade Servers 1 Each server has a blank plastic tag that pulls out of the f
56. g and adjusting the chassis position Cisco UCS 5108 Server Chassis Installation Guide I Installation Installation Guidelines e Never lift the chassis alone Always use two people to lift the chassis If available use a scissor jack or other lifting device designed for installing heavy equipment into data center racks e Disconnect all power and external cables before lifting the chassis e Remove all FEXes power supplies fans and servers from the chassis before lifting Ensure that your footing is solid and the weight of the system is evenly distributed between your feet e Lift the system slowly keeping your back straight Lift with your legs not with your back Bend at the knees not at the waist A Caution Do not remove the Power Distribution Unit PDU located at the back of the chassis Installation Guidelines When installing the chassis follow these guidelines e Plan your site configuration and prepare the site before installing the chassis See Site Planning and Maintenance Records on page 83 for the recommended site planning tasks For details see the Cisco UCS Site Preparation Guide e Record the information listed in Site Planning and Maintenance Records on page 83 as you install and configure the chassis e Ensure that there is adequate space around the chassis to allow for servicing the chassis and for airflow e Ensure that the air conditioning meets the heat dissipation requ
57. h is 0 82 in the stud hole spacing is 5 8 in and the hole size is 1 4 1n Output holdup time 8 ms Table 21 HVDC Input Platinum Power Supply UCSB PSU 2500HVDC Specifications Item DC input voltage Specification 200 to 380 VDC nominal Range 180 to 400 VDC Maximum DC input current 15 5 Amps 200 VDC Maximum output power 2500 W Maximum inrush current 35 A Efficiency rating Climate Savers Platinum Efficiency 80 Plus Platinum Certified 10 20 50 100 93 5 94 9 95 93 Power supply output voltage 12 VDC Maximum holdup time 12 ms 2500 W Input connector IEC320 C20 Table 22 AC input Dual Voltage Platinum Power Supply UCSB PSU 2500ACDV Specifications Description Specification AC input voltage 200 to 240 VAC nominal Range 180 to 264 VAC 100 to 120 VAC nominal Range 90 to 127 VAC supported only with the UCS 6324 Fabric Interconnect AC input frequency 50 and 60 Hz nominal Range 47 to 63 Hz AC input current lt 15 Amps 200 VAC Maximum Input VA 2790 VA 200 VAC Cisco UCS 5108 Server Chassis Installation Guide Technical Specifications Description Supported AC Power Cords and Plugs Specification Maximum output power per power supply 2500 W 200 to 240 VAC 1300 W 100 to 120 VAC Maximum inrush current 35 A sub cycle duration
58. hassis is not supported Cisco UCS 5108 Server Chassis Installation Guide m Installing and Removing Components Installing a Power Supply Installing a Power Supply Step 1 Step 2 Step 3 Step 4 Step 5 Step 6 Step 7 All power supply models N20 PAC5 2500W UCSB PSU 2500ACPL or UCSB PSU 2500DC48 install using the same process Procedure Place the power supply s handle in the up position Hold the power supply with both hands and then slide it into the power supply bay Press the handle down and give the power supply a gentle push inward to ensure that the power supply is fully seated into the Power Distribution Unit PDU Tighten the captive screw For an AC installation plug the power cable into the corresponding 220 VAC inlet connector on the PDU at the rear of the chassis For a DC environment see Connecting a DC Power Supply on page 46 Note Depending on the outlet receptacle on your rack s power distribution unit you may need the optional jumper power cord to connect the Cisco UCS 5108 server chassis to an outlet receptacle Connect the other end of the power cable to the AC power source Verify the power supply is operating by checking the power supply LEDs See LED Locations on page 27 and Interpreting LEDs on page 28 Figure 40 Positioning a Power Supply in the Cisco UCS Server Chassis 192520 Note Both grids in a power redundant system should have the same number of power supp
59. he following worksheets to record information about the server chassis and the modules it contains Contract Number Chassis Serial Number Product Number Table 25 Device Information Blade Server 1 Cisco UCS 5108 Server Chassis Installation Guide I Site Planning and Maintenance Records A Chassis and Module Information Device Serial Number Notes Blade Server 2 Blade Server 3 Blade Server 4 Blade Server 5 Blade Server 6 Blade Server 7 Blade Server 8 I O Module 1 I O Module 2 Note The serial numbers of all server chassis modules can be obtained using Cisco UCS Manager Cisco UCS 5108 Server Chassis Installation Guide Site Planning and Maintenance Records FEX Port Connection Record FEX Port Connection Record Table 26 Chassis FEX to Fabric Interconnect Port Connection Record FEX Connected to Number Port Fabric Interconnect AorB Slot Port Connection notes Cisco UCS 5108 Server Chassis Installation Guide Bi Site Planning and Maintenance Records A UCS 6324 Fabric Interconnect Port Connection Record UCS 6324 Fabric Interconnect Port Connection Record Table 27 Port Connection Record Fabric Interconnect Connected to Number Port Slot Port Connection notes 1 1
60. hut down the OS on all blade servers in the chassis b Disable the Smart Call Home feature c Decommission the chassis For details see the Configuration Guide for the version of Cisco UCS Manager that you are using The configuration guides are available at the following URL http www cisco com en US products ps 1028 1 products_installation_and_configuration_guides_list html Step2 Disconnect the power cords and networking cables from the chassis Step3 Remove all modules and blades from the chassis to lighten its weight Step4 Remove the screws holding the front rack mount flange to the rack Step5 With two people holding the chassis make sure that its weight is fully supported Step6 Gently slide the chassis off the rails and out of the rack Step7 Replace the modules and blades in the server chassis Cisco UCS 5108 Server Chassis Installation Guide I Installation Repacking the Chassis Repacking the Chassis If you need to repack the chassis remove it from the rack by reversing the steps in the Removing the Chassis from a Rack on page 51 section and then pack it for shipment If possible use the original packing materials and container to pack the chassis Replacement packaging can be ordered using the following PIDS e If you have only half width blades use UCSB 5108 PKG HW e If you have full width blades or a mix of full width and half width blades use UCSB PKG FW If you are returning the chassis to
61. ing a PDU Step 1 Step 2 Step 3 Procedure Partially remove all installed power supplies If a power supply is seated into the PDU removal is difficult or impossible Loosen the captive screws Pull the PDU clear of the chassis by pulling on the captive screws Support its weight from below Cisco UCS 5108 Server Chassis Installation Guide Installing and Removing Components Installing and Removing a FEX or Fabric Interconnect Installing and Removing a FEX or Fabric Interconnect X The chassis houses two FEXes Cisco UCS 2104XP UCS 2208XP UCS 2204XP that allow the blade servers in the chassis to communicate with Cisco UCS fabric interconnects FEXes can have either four or eight I O ports The same slot that is used for a FEX is used for the Cisco UCS 6324 Fabric Interconnect Up to two of these modules can be installed in the chassis Note A FEX is sometimes referred to as an I OM or IO Module FEX Upgrade Considerations Before you install a pair of UCS 2208XP FEXes to an existing UCS chassis using a pair of UCS 2104XPs or add a new chassis with a pair of UCS 2208XP FEXes to a UCS instance you must perform a full upgrade to UCS software version 2 0 1 or later The UCS 2208XP FEX is not recognized by earlier software releases Before you install a pair of UCS 2204XP FEXes to an existing UCS chassis using a pair of UCS 2104XPs or add a new chassis with a pair of UCS 2204XP FEXes to a UCS in
62. ing between the installed power supplies as well as distributing power to the other chassis components DC versions of the chassis use a different PDU with appropriate connectors The PDU is not field serviceable and converting an AC chassis to a DC chassis by swapping the PDU is not supported as the PDU is not separately orderable No LEDs are on the PDU No buttons are on the PDU The AC version of the PDU has four power connectors rated for 15 5 A 200 240V 50 60 Hz Only use power cords that are certified by the relevant country safety authority or that are installed by a licensed or certified electrician in accordance with the relevant electrical codes All connectors plugs receptacles and cables must be rated to at least the amperage of inlet connector on the PSU or be independently fused in accordance with the relevant electrical code See for more information about the supported power cords See Supported AC Power Cords and Plugs on page 77 for more information The DC version of the PDU has eight dual post lug power connections four positive and four negative A single dual post lug grounding connection is also provided The HDVC version of the PDU uses one Andersen SAF D GRID R connector per power supply The chassis can accept up to eight fan modules N20 FANS A chassis must have filler plates in place if no fan will be installed in a slot for an extended period Cisco UCS 5108 Server Chassis Installation Guide E Over
63. ions selected Cisco UCS 5108 Server Chassis Installation Guide Technical Specifications Environmental Specifications 5 The system weight listed here is an estimate for a fully configured system and will vary depending on the devices installed Environmental Specifications Table 16 Environmental Specifications for the Chassis Description Specification Temperature operating within altitude 0 to 10 000 50 to 95 F 10 to 35 C feet 0 to 3 000 meters Temperature non operating within altitude 0 to 40 to 149 F 40 to 65 C 40 000 feet 0 to 12 000 meters Operating 10 90 28 C max wet bulb Nonoperating 5 93 38 C max wet bulb Humidity RH noncondensing Altitude Operating 0 to 10000 feet 0 to 3000 meters Above 10 000 feet maximum temperature decreases by 1 C per 1000 feet 300 meters above 10 000 feet Nonoperating 40 000 ft 12 000 m Sound Pressure Level 83 dBA at normal operating temperature Environmental Conditions and Power Requirement Specifications for Twinax SFP Transceivers Table 17 Environmental Conditions and Power Requirement for the SFP Transceiver Parameter Symbol Min Max Unit Storage temperature TS 40 85 C Case temperature TC 0 50 se Module supply voltage VCCT R 3 1 3 5 V Cisco UCS 5108 Server Chassis Installation Guide m Technical Specifications a Specifications fo
64. irements listed in Technical Specifications on page 71 e Ensure that the cabinet or rack meets the requirements listed in Rack Requirements on page 34 N Note Jumper power cords are available for use in a rack See Specifications for the Cisco UCS 5108 Blade Server Chassis Power Supply Units on page 74 Ensure that the site power meets the power requirements listed in Technical Specifications on page 71 We recommend that you use a UPS to protect the UCS system Using an unprotected supply exposes you to a risk of system failure due to input supply voltage variations or failures Avoid UPS types that use ferroresonant technology These UPS types can become unstable with systems such as the Cisco UCS which can have substantial current draw fluctuations due to fluctuating data traffic patterns e Ensure that circuits are sized according to local and national codes For North America the power supply requires a 20 A circuit To prevent loss of input power ensure that the total maximum loads on the circuits supplying power to the chassis are within the current ratings for the wiring and breakers e Use the following torque values when installing the chassis e 10 32 screws 20 in lb Cisco UCS 5108 Server Chassis Installation Guide EHE l Installation Required Equipment i Required Equipment Before you begin the installation ensure that you have the following items e Number 1 and number 2 Phillips head screwd
65. king panels to fill all remaining empty front panel U spaces in the rack This arrangement ensures proper airflow Using a rack without blanking panels results in improper cooling that can lead to thermal damage The rack must also meet the following requirements e The minimum available vertical rack space per chassis must be six RU rack units equal to 10 5 inches 26 7 cm Cable Management To help with cable management allow additional space in the rack above and below the chassis to make it easier to route copper cables plus up to eight copper cables per Cisco UCS 5108 server chassis through the rack Cable management can be an important factor in preventing overheating issues In the following figure the before illustration shows cables blocking the rear of the chassis and preventing the fans from exhausting warm air from the chassis This situation causes failed DIMMs in the blade servers and seemingly random Cisco UCS 5108 Server Chassis Installation Guide EE l Installation Airflow Considerations i server shutdowns when internal temperatures exceed specification Use cable ties and other wiring practices to keep the rear of the chassis unobstructed as shown in the after illustration Figure 18 Cable Management Before After 253898 Airflow Considerations Airflow through
66. lation Guide E Installing and Removing Components Components Note Whenever you remove a module from the chassis for an extended period of time always replace the module with the appropriate blank panel Failing to do so can result in heating and EMI issues Blank panels can be ordered from Cisco Systems Figure 37 View of Cisco UCS 5108 Server Chassis Side view errare OP id Li D 1 Front of chassis 5 Power supply slot 4 slots 2 Chassis handle 6 Fabric interconnect or FEX slot 2 slots 3 Rear of chassis 7 Fan slots 8 slots 4 Half width server slot 8 slots 8 Power Distribution Unit PDU slot Cisco UCS 5108 Server Chassis Installation Guide Installing and Removing Components Installing and Removing a Blade Server Note Before you install operate or service the system see the Regulatory Compliance and Safety Information for Cisco UCS for important safety information A Warning IMPORTANT SAFETY INSTRUCTIONS This warning symbol means danger You are in a situation that could cause bodily injury Before you work on any equipment be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents Use the statement number provided at the end of each warning to locate its translation in the translated safety warnings that accompanied this device Statement 1071
67. lies If your system is configured for grid redundancy slots 1 and 2 are assigned to grid 1 and slots 3 and 4 are assigned to grid 2 If there are only two power supplies in a redundant mode chassis they should be in slots 1 and 3 This would be a very unusual configuration with a single B200 blade server in the chassis A larger configuration would require two power supplies per grid Slot and cord connection numbering is shown below Cisco UCS 5108 Server Chassis Installation Guide EG l Installing and Removing Components Removing a Power Supply i Figure 41 Power Supply Bay and Connector Numbering AC Version Shown Server Slot 1 Server Slot 2 Fan 1 Fan2 Fan3 Fan4 N Server Slot 3 Server Slot 4 3 o Server Slot 5 Server Slot 6 2 Fans Fan 6 Q Fm7 Fan 8 Server Slot 7 Server Slot 8 PSI PS2 PS3 PS4 asics Connector Connector N Front Rear S PS2 PS1 N Removing a Power Supply A Caution Ifyou are using the Cisco UCS 5108 server chassis with one power supply this is only supported in earlier versions of the system software removing the power supply will cause the servers and chassis to shut down If you are using more than two power supplies and you remove one of them the servers continue to operate as long as the other power supplies are sufficient to mee
68. ll blades and chassis together Because the FEX is similar to a distributed line card it does not do any switching and is managed as an extension of the fabric interconnects This approach removes switching from the chassis reducing overall infrastructure complexity and enabling the Cisco Unified Computing System to scale to many chassis without multiplying the number of switches needed reducing TCO and allowing all chassis to be managed as a single highly available management domain The Cisco 2200 Series also manages the chassis environment the power supply and fans as well as the blades in conjunction with the fabric interconnect Therefore separate chassis management modules are not required Cisco UCS 2200 Series FEXes fit into the back of the Cisco UCS 5100 Series chassis Each Cisco UCS 5100 Series chassis can support up to two FEXes enabling increased capacity as well as redundancy Cisco UCS 5108 Server Chassis Installation Guide 22 l Overview LEDs Buttons Connectors Power Distribution Unit PDU i There are port activity LEDs and an LED that indicates connectivity to the servers in the chassis No buttons are on the FEX I O ports support SFP 10 Gb Ethernet connections There is also a console connection for use by Cisco diagnostic technicians It is not intended for customer use Power Distribution Unit PDU LEDs Buttons Connectors Fan Modules The AC PDU N01 UACI provides load balanc
69. mal operation Amber Over voltage failure or over temperature alarm Table 3 1 0 Module LEDs LED Color Description Body Off No power a Green Normal operation Amber Booting or minor temperature alarm Blinking amber POST error or other error condition Port 1 4 Off Link down Green Link up and operationally enabled Amber Link up and administratively disabled Blinking amber POST error or other error condition Cisco UCS 5108 Server Chassis Installation Guide m Overview Interpreting LEDs Table 4 Cisco UCS 6324 Fabric Interconnect LEDs LED Color Description Body Off No power Green Normal operation Amber Booting or minor temperature alarm Blinking amber Stopped due to user intervention or unable to come online or major temperature alarm Port 1 4 Off Link enabled but not connected Green Link connected Amber Operator disabled Blinking amber Disabled due to error Table 5 Blade Server LEDs LED Color Description Power Off Power off Green Normal operation Amber Standby Link Off None of the network links are up wer Green At least one network link is up Health Off Power off A Green Normal operation Amber Minor error Blinking Critical error Amber E Cisco UCS 5108 Server Chassis Installation Guide Overview Interpreting LEDs i LED Color Description Activity Off Inactive 0 G
70. nd for data centers that want reduced TCO through NIC HBA cabling and switch reduction The Cisco UCS M81KR presents up to 128 virtual interfaces to the operating system on a given blade The 128 virtual interfaces can be dynamically configured by Cisco UCS Manager as either Fibre Channel or Ethernet devices Deployment of applications using multiple Ethernet and Fibre Channel interfaces is no longer constrained by the available physical adapters To an operating system or a hypervisor running on a Cisco UCS B Series Blade Server the virtual interfaces appear as regular PCIe devices The Cisco UCS M81KR has built in architectural support enabling the virtual machine to directly access the adapter I O bottlenecks and memory performance can be improved by providing virtual machines direct access to hardware I O devices eliminating the overhead of embedded software switches The Cisco UCS M81KR also brings adapter consolidation to physical environments The adapter can be defined as multiple different NICs and HBAs For example one adapter card can replace two quad port NICs and two single port HBAs resulting in fewer NICs HBAs switches and cables Cisco UCS 82598KR CI 10 Gigabit Ethernet Adapter The Cisco UCS 82598KR CI 10 Gigabit Ethernet adapter is based on the Intel 82598 10 Gigabit Ethernet controller which is designed for efficient high performance Ethernet transport It provides a solution for data center environments that need low lat
71. ndle as a grip point only use the handles on the sides of the chassis Cisco UCS 5108 Server Chassis Installation Guide Installation Installing the Chassis A Caution Ifthe rack has wheels ensure that the brakes are engaged the stabilizing pads are extended or that the rack is otherwise stabilized Table 6 Contents of the Cisco UCS 5108 Server Chassis Rack Mount Kit N20 CRMK2 Quantity Part Description 1 Left tool less rack mount rail 1 Right tool less rack mount rail 6 10 32 X 0 75 Phillips round washer head screws 6 10 32 X 0 125 cage nuts Table 7 Contents of the Cisco UCS 5108 Server Round Hole Adapter Kit N20 CRMK2 RHA Quantity Part Description 4 Round hole adapters threaded 4 Round hole adapters un threaded 4 Adapter securing screws 16 Phillips head screws for securing the rails to the rack A Warning The plug socket combination must be accessible at all times because it serves as the main disconnecting device Statement 1019 Cisco UCS 5108 Server Chassis Installation Guide Lei Installation A Installing the Rails Installing the Rails Procedure Step1 Remove the mounting template Cisco 78 19093 01 from the accessory box The template is designed to show you the proper holes within which the rails and cage nuts should be placed Once the rack holes line up with the template you should mark the holes so tha
72. ning four CPUs and holding up to four hard drives capable of RAID 0 1 5 and 6 e Cisco UCS B420 blade servers UCSB B420 M3 Up to four full width blade servers each containing four CPUs and holding up to four hard drives capable of RAID 0 1 5 and 10 e Cisco UCS B260 M4 blade servers UCSB EX M4 1C Up to four full width blade servers each containing two CPUs and a SAS RAID controller Cisco UCS B460 M4 blade servers UCSB EX M4 1A Up to two full width blade servers each containing four CPUs and SAS RAID controllers For smaller solutions the Cisco UCS 6324 Fabric Interconnect can be used in the I O slots at the back of the Cisco USC 5108 Chassis The 6324 Fabric Interconnect is only supported in the UCSB 5108 AC2 and UCSB 5108 DC2 versions of the 5100 Series Chassis The smaller solution consists of the following components e Cisco UCS 5108 server chassis AC version UCSB 5108 AC2 Cisco UCS 5108 server chassis DC version UCSB 5108 DC2 Cisco UCS 6324 Fabric Interconnect for the UCS Mini system UCS FI M 6324 Up to two integrated fabric interconnect modules each providing four SFP ports of 10 Gigabit Ethernet and Fibre Channel over Ethernet FCoE and a QSFP port e A number of SFP choices using copper or optical fiber Power supplies UCSB PSU 2500ACDV UCSB PSU 2500DC48 and UCSB PSU 2500HVDC Up to four 2500 Watt hot swappable power supplies e Fan modules N20 FAN5 Eight hot swappable fan modules
73. nit boundary the first two cage nuts are installed into the seventh holes above the rails horizontal Cisco UCS 5108 Server Chassis Installation Guide Eli Installation A Installing the Rails plates The next two cage nuts are installed into the fifth holes above the first cage nut Finally the two cage nuts are installed into the fourth holes above the second cage nuts Figure 23 Placement of Rails and Cage Nuts with Respect to the Rack Unit Boundary LJ OO 3 00 WD reference boundry j Lower rack unit A id 192824 Figure 24 Proper Placement for the Rails and Cage Nuts Cage nuts OOo c0 0005 00000 po 000006 ye rail Right rail Su T00 000000 0 Dc DAN 0 BOO cc O00 000000000000 gauut g 192730 Step8 Remove all power supplies fan assemblies server blades and fabric extenders to lighten the chassis Even with devices removed the chassis weighs 90 lbs 40 83 kg Cisco UCS 5108 Server Chassis Installation Guide 9 l Installation Installing the Round Hole Adapter Kit i Installing the Round Hole Adapter Kit Step 1 Step 2 Step 3 Step 4 Before installing the chassis in a round hole rack prepare the rails by adding the adapter kit according to the instructions in Attaching the Roun
74. nt View Cer ok omic sa Figure 17 Cisco UCS 5108 Server Chassis Rear View with the Cisco UCS 6324 Fabric Interconnect Cisco UCS 5108 Server Chassis Installation Guide I Overview Interpreting LEDs Interpreting LEDs Cisco UCS 5108 Server Chassis Installation Guide Sa CE M O Table 2 Chassis Fan and Power Supply LEDs LED Beaconing LED and button Color Off 49143 Description Beaconing not enabled Blinking blue 1 Hz Beaconing to locate a selected chassis If the LED is not blinking the chassis is not selected You can initiate beaconing in UCS Manager or with the button Chassis connections a Off No power Amber No I O module is installed or the I O module is booting Green Normal operation Chassis health A Solid amber Indicates a component failure or a major over temperature alarm Overview Interpreting LEDs i LED Color Description Fan Module Off No power to the chassis or the fan module was removed from the chassis Amber Fan module restarting Green Normal operation Blinking amber The fan module has failed Power Supply OK Off No power to the slot Green Normal operation Blinking green AC power is present but the PS is either in redundancy standby mode or is not fully seated Fail Off Nor
75. o UCS 5108 Blade Server Chassis Power Supply Units Description Specification Maximum Input VA 2790 VA 200 VAC Maximum output power per power supply 2500 W up to four power supplies Maximum inrush current 35 A sub cycle duration Maximum Heat Output 8530 BTU Maximum hold up time 12 ms 2500 W Power supply output voltage 12 VDC 208 A Power supply standby voltage 3 3 VDC 5A Efficiency Rating Climate Savers Platinum Efficiency 80 Plus Platinum Certified 20 50 100 90 94 91 Input connector IEC320 C20 Table 20 DC Input Power Supply UCSB PSU 2500DC48 Specifications Item Minimum software requirement Specification Cisco UCS Software Release 2 0 1 Capability Catalog Version 42 DC input voltage 48 to 60 VDC Maximum output power 2500 W Maximum inrush current 35 A Current draw at min voltage 62 A Current draw at max voltage SOA Maximum input VA 2880 Efficiency 10 20 50 100 88 73 91 68 92 19 90 51 Cisco UCS 5108 Server Chassis Installation Guide m Technical Specifications a Specifications for the Cisco UCS 5108 Blade Server Chassis Power Supply Units Item Specification DC input terminal block Accepts Panduit LCD4 14AF L or equivalent barrel type lug terminals with 90 degree angle two hole tongue which accommodates 1 0 AWG size copper wire The connector tongue widt
76. onfiguration use the Cisco UCS Power Calculator tool Cisco UCS 5108 Server Chassis Installation Guide Installation Connecting a DC Power Supply Note Both grids in a power redundant system should have the same number of power supplies If your system is configured for grid redundancy slots 1 and 2 are assigned to grid 1 and slots 3 and 4 are assigned to grid 2 If only two power supplies PS are in a redundant mode chassis they should be in slots 1 and 3 Slot and cord connection numbering is shown below Figure 29 Power Supply Bay and Connector Numbering Server Slot 1 Server Slot 2 n i Fan Fan3 Fan 4 N 8 ka Server Slot 3 Server Slot 4 a a 3 3 f Server Slot 5 Server Slot 6 9 Fans Fan 6 Q Fan7 Fan 8 Server Slot 7 Server Slot 8 Connector Connector Connector Connector PS1 PS2 PS3 PS4 N Front Rear PS4 PS3 PS2 PS1 Step 6 Connect the server chassis to the fabric interconnect as described in Proper FEX and Fabric Interconnect Port Connectivity on page 50 Connecting a DC Power Supply This section describes how to connect power to the rear PDU terminals on the DC version chassis UCSB 5108 DC corresponding to a UCS 5108 DC power supply UCSB PSU 2500DC48 Required Tools You must have the following tools to perform this procedure e A Phillips screwdrive
77. or the UCS 6324 Fabric Interconnect are pulled open Step2 Slide the FEX or UCS 6324 Fabric Interconnect into the chassis slot ensuring that the module is fully seated Figure 43 Positioning a FEX or Fabric Interconnect within the Server Chassis Cisco UCS 5108 Server Chassis Installation Guide 6 l Installing and Removing Components Installing and Removing a Fan Module i Step3 Close the levers and tighten the captive screw on each lever Step4 Connect the networking cables see SFP Transceivers on page 52 and Proper FEX and Fabric Interconnect Port Connectivity on page 50 Step5 Verify that the module is functioning correctly See LED Locations on page 27 and Interpreting LEDs on page 28 Installing and Removing a Fan Module You can hot swap a fan module N20 FANS without causing an electrical hazard or damage to the system However you can only remove one fan module while the system is operating Removing more than one fan module could cause overheating Note When a fan is removed louvers inside the chassis prevent recirculation of air into the system or loss of cooling However you should not leave the chassis for extended periods of time without all fan modules in place Cisco UCS 5108 Server Chassis Installation Guide E Installing and Removing Components Installing a Fan Module Installing a Fan Module Procedure Step1 Hold the fan module with the spring latch at the
78. ord Set Rating 16A 250 VAC Figure 48 CAB AC 2500W INT Power Cord for the UCS 5108 Blade Server Chassis EY oa Cordset rating 16 A 250 V Length 14 ft 0 in 4 26 m Plug IEC 309 I N Connector IEC 60320 C19 Israel Power Cord Part Number CAB AC 2500W ISRL Cord Set Rating 16A 250 VAC Figure 49 CAB AC 2500W ISRL Power Cord for the UCS 5108 Blade Server Chassis lt iY rA oi e i AL Cordset rating 16 A 250 V Plug SI16S3 Length 14 ft 0 in 4 26 m Connector IEC 60320 C19 f y CJ Cc Japan and North America Non Locking 200 to 240 VAC operation Power Cord Part Number CAB AC 2500W US1 113361 130113 Israel Cisco UCS 5108 Server Chassis Installation Guide I Technical Specifications A Peoples Republic of China Cord Set Rating 16A 250 VAC Figure 50 CAB AC 2500W US1 Power Cord for the UCS 5108 Blade Server Chassis es de Cordset rating 20 A 250 V Plug NEMA 6 20 Length 14 ft 0 in 4 26 m Connector IEC 60320 C19 o 113362 Locking 200 to 240 VAC Operation Power Cord Part Number CAB AC C6K TWLK Cord Set Rating 16A 250 VAC Figure 51 CAB AC C6K TWLK Power Cord for the UCS 5108 Blade Server Chassis ff Cordset rating 20 A 250 V Plug NEMA
79. r e A 10 mm wrench or socket e Connectors and wire for the DC circuit or circuits DC Power Installation Procedure A Warning When stranded wiring is required use approved wiring terminations such as closed loop or spade type with upturned lugs These terminations should be the appropriate size for the wires and should clamp both the insulation and conductor Statement 1002 A Warning Before performing any of the following procedures ensure that power is removed from the DC circuit Statement 1003 Cisco UCS 5108 Server Chassis Installation Guide 46 l Installation A Connecting a DC Power Supply i Warning A A readily accessible two poled disconnect device must be incorporated in the fixed wiring Statement 1022 Warning Use copper conductors only Statement 1025 Warning This product requires short circuit overcurrent protection to be provided as part of the building installation A Install only in accordance with national and local wiring regulations Statement 1045 Warning A When installing or replacing the unit the ground connection must always be made first and disconnected last Statement 1046 Warning Installation of the equipment must comply with local and national electrical codes Statement 1074 Warning Hazardous voltage or energy may be present on DC power terminals Always replace cover when terminals are not in service Be sure uninsul
80. r AC N20 C6508 and UCSB 5108 AC2 and two versions that can be configured for DC UCSB 5108 DC and UCSB 5 108 DC2 power environments An additional version UCSB 5108 HVDC is available that can be configured for 200 380V DC environments Is six rack units 6 RU high and can mount in an industry standard 19 inch rack with square holes such as the Cisco R Series Racks or in round hole racks when an adapter is used The chassis can house up to eight half width Cisco UCS B Series Blade Servers and can accommodate both half and full width blade form factors Up to four hot swappable AC DC or HVDC power supplies are accessible from the front of the chassis These power supplies can be configured to support nonredundant N 1 redundant and grid redundant configurations The rear of the chassis contains eight hot swappable fans four power connectors one per power supply and two I O bays for I O modules A passive backplane provides support for up to 80 Gbps of I O bandwidth to each half width blade and 160 Gbps of I O bandwidth to each full width blade E Cisco UCS 5108 Server Chassis Installation Guide Overview LEDs Buttons Connectors Midplane Blade Servers Scalability is dependent on both hardware and software For more information see FEX Upgrade Considerations on page 67 and the appropriate UCS software release notes LEDs on the chassis indicate system connectivity and failure warnings See LED Loc
81. r Kit to the Rails Optional N Note The chassis tool less rails are designed for racks that have square mounting holes You must use the round hole adapters N20 CRMK2 RHA to install the chassis in racks that have round mounting holes This round hole adapter kit allows you to adapt the rail kit N20 CRMK2 to install into rack front and or rear posts that use either threaded or non threaded round holes Four adapters in the kit are for adapting the rail kit to install into rack posts with threaded round holes and the other four adapters in the kit are for adapting the rail kit to install into rack posts with non threaded round holes You can use a combination of adapters based on the type of holes in the rack posts Various sizes and lengths of screws are also included in the kit Procedure Step1 Insert the adapter tab into the mounting rail as shown in callout 1 Step2 Slide the adapter up to lock it into position as shown in callout 2 Step3 Secure the adapter into place using the provided pan head screw as shown in callout 3 Figure 19 Attaching the Round Hole Adapter Optional Step4 Repeat steps Ito 3 for the other three adapters Installing the Chassis This section describes how to install the chassis This two part process consists of installing the rails into the rack and then installing the chassis into the rack and on to the rails A Caution Never attempt to lift the chassis by using an installed module s ha
82. r chassis to the fabric interconnect do not connect the FEXes to the fabric interconnect s expansion modules While similar in appearance to the other Cisco UCS 5108 Server Chassis Installation Guide Installation Removing the Chassis from a Rack i ports on the fabric interconnect the expansion modules are never used for direct chassis connections they are used for uplink or SAN connections Figure 33 Proper Connection for the Server Chassis and two Cisco UCS 6120XP Fabric Interconnects Fabric Interconnect A Rear 29 31 ally a 13 fis AV AV AV Av L AV AV AV 30 32 AE 12 14 16 Fabric Interconnect B Rear AV AV AV AV ex AV AV AV AV D di 26 28 sof 32 10 12 14 16 Port 1 Port 2 Port 1 Port 2 Port 3 Port 4 Port 3 Port 4 1O Module Slot 1 VO Module Blot 2 Chassis 1 rear 5 Port1 ie Port 2 Port 3 Port 3 Port 4 Port 4 VO Module Slot 1 VO Module Blot 2 Port1 Port 2 192749 Chassis 2 rear Removing the Chassis from a Rack Procedure Step1 Use Cisco UCS Manager to do the following a S
83. r loop The cable and SFP transceiver come out as a single unit leaving the FEX port empty Figure 35 Removing a Twinax Copper SFP Transceiver Step2 Insert the optical SFP transceiver into the FEX port Make sure that it clicks firmly into place Step3 Plug the fiber optic cable into the optical SFP transceiver Figure 36 Replacing a Copper SFP Transceiver with an Optical SFP Transceiver Cisco UCS 5108 Server Chassis Installation Guide HG l Installation Replacing a Copper Twinax SFP Transceiver with an Optical SFP Transceiver i Cisco UCS 5108 Server Chassis Installation Guide I Installation A Replacing a Copper Twinax SFP Transceiver with an Optical SFP Transceiver Cisco UCS 5108 Server Chassis Installation Guide 58 l CHAPTER Installing and Removing Components This chapter describes how to remove components from the chassis and how to install components into the chassis This section contains the following section Components Components page 59 Installing and Removing a Blade Server page 61 Installing and Removing Power Supplies page 63 Installing and Removing a Power Distribution Unit PDU page 65 Installing and Removing a FEX or Fabric Interconnect page 67 Installing and Removing a Fan Module page 69 The following figure shows an empty Cisco UCS 5108 server chassis and identifies the front back and module slots Cisco UCS 5108 Server Chassis Instal
84. r supplies are recommended if the power configuration for that chassis requires greater than 2500W or if using Cisco UCS Release 1 4 1 and later releases e Two power supplies are recommended if the power configuration for that chassis requires less than 2500W or the system is using Cisco UCS Release 1 3 1 or earlier releases Note LEDs Both grids in a power redundant system should have the same number of power supplies If your system is configured for grid redundancy slots 1 and 2 are assigned to grid 1 and slots 3 and 4 are assigned to grid 2 If there are only two power supplies PS in the a redundant mode chassis they should be in slots 1 and 3 Slot and cord connection numbering is shown below Figure 14 Power Supply Bay and Connector Numbering Server Slot 1 Server Slot 2 Fan 1 Fan2 Fan3 Fan4 Cl N 8 Server Slot 3 Server Slot 4 a 9 2 Server Slot 5 Se Slot 6 2 Fans Fan 6 g Fan 7 Fan 8 Server Slot 7 Server Slot 8 o PS1 PS2 PS3 PS4 E S Campo CE S Front Rear N LEDs on both the chassis and the modules installed within the chassis identify operational states both separately and in combination with other LEDs E Cisco UCS 5108 Server Chassis Installation Guide Overview LED Locations i LED Locations Figure 15 LEDs on a Cisco UCS 5108 Server Chassis Fro
85. r the Cisco UCS 5108 Blade Server Chassis Power Supply Units Specifications for the Cisco UCS 5108 Blade Server Chassis Power Supply Units Table 18 AC input Gold Power Supply N20 PAC5 2500W Specifications Description Specification Minimum Software requirement UCS Software Release 1 0 1 AC input voltage 200 to 240 VAC nominal Range 180 to 264 VAC AC input frequency 50 to 60 Hz nominal Range 47 to 63 Hz AC input current 15 5 A 200 VAC Maximum Input VA 2790 VA 200 VAC Maximum output power per power supply 2500 W 200 to 240 VAC up to four power supplies Maximum inrush current 35 A lt sub cycle duration Maximum Heat Output 8525 BTU Maximum hold up time 12 ms Power supply output voltage 12 VDC Efficiency Rating Climate Savers Gold Efficiency 80Plus Gold Certified 10 20 50 100 88 61 91 64 92 21 90 97 Input connector IEC320 C20 Table 19 AC input Platinum Power Supply UCSB PSU 2500ACPL Specifications Description Specification Minimum Software requirement UCS Software Release 2 0 2 AC input voltage 200 to 240 VAC nominal Range 180 to 264 VAC AC input frequency 50 and 60 Hz nominal Range 47 to 63 Hz AC input current lt 16 Amps 200 VAC E Cisco UCS 5108 Server Chassis Installation Guide Technical Specifications Specifications for the Cisc
86. rademarks of Cisco and or its affiliates in the U S and other countries To view a list of Cisco trademarks go to this URL http www cisco com go trademarks Third party trademarks mentioned are the property of their respective owners The use of the word partner does not imply a partnership relationship between Cisco and any other company 1110R 2009 2014 Cisco Systems Inc All rights reserved CONTENTS Preface Preface ix Audience ix Conventions ix Related Cisco UCS Documentation xi Obtaining Documentation and Submitting a Service Request xi CHAPTER 1 Overview 1 System Overview 1 Features and Benefits 3 Components 4 Cisco UCS 5108 Server Chassis 4 LEDs 5 Buttons 5 Connectors 5 Midplane 5 Blade Servers 5 Cisco UCS B200 Blade Servers 6 LEDs 6 Buttons 7 Connectors 7 Cisco UCS B200 M3 Blade Servers 7 LEDs 8 Buttons 8 Connectors 8 Cisco UCS B22 M3 Blade Servers 8 LEDs 9 Buttons 9 Cisco UCS 5108 Server Chassis Installation Guide I Contents Connectors 9 Cisco UCS B230 Blade Servers 10 LEDs 10 Buttons 11 Connectors 11 Cisco UCS B250 Blade Servers 11 LEDs 12 Buttons 12 Connectors 12 Cisco UCS B440 Blade Servers 12 LEDs 13 Buttons 13 Connectors 13 Cisco UCS B420 M3 High Performance Blade Server 14 LEDs 14 Buttons 14 Connectors 15 Cisco UCS B260 M4 Scalable Blade Server 15 Cisco UCS B460 M4 Blade Server 16 Adapter Cards 16 Cisco UCS Virtual Interface Card 1240 16 Cisco UCS Virtual
87. reen Outstanding I O to disk drive Disk Drive Health Off No fault Amber Some fault A Disk Drive Cisco UCS 5108 Server Chassis Installation Guide Bi Overview Bi Interpreting LEDs Cisco UCS 5108 Server Chassis Installation Guide HE l CHAPTER 2 Installation This chapter contains the following sections e Installation Notes and Warnings for the Cisco UCS 5108 Server Chassis page 33 e Installing the Chassis page 38 e Repacking the Chassis page 52 e SFP Transceivers page 52 Installation Notes and Warnings for the Cisco UCS 5108 Server Chassis The following notes and warnings apply to all installation tasks N Note Before you install operate or service the system see the Regulatory Compliance and Safety Information for Cisco UCS for important safety information A Warning IMPORTANT SAFETY INSTRUCTIONS This warning symbol means danger You are in a situation that could cause bodily injury Before you work on any equipment be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents Use the statement number provided at the end of each warning to locate its translation in the translated safety warnings that accompanied this device Statement 1071 SAVE THESE INSTRUCTIONS A Warning This unit is intended for installation in restricted access areas A restricted access area can be accessed only through the us
88. rivers with torque measuring capabilities e Tape measure and level ESD wrist strap or other grounding device e Antistatic mat or antistatic foam Unpacking and Inspecting the Chassis A Caution When handling chassis components wear an ESD strap and handle modules by the carrier edges only p Tip Keep the shipping container in case the chassis requires shipping in the future Note The chassis is thoroughly inspected before shipment If any damage occurred during transportation or any items are missing contact your customer service representative immediately Procedure Step1 Remove the chassis from its cardboard container Save all packaging material Step2 Compare the shipment to the equipment list provided by your customer service representative and verify that you have received the following items e Any printed documentation Tool less rack mount kit N20 CRMK2 mounting rails can be installed in a rack without the use of tools The optional round hole adapter kit N20 CRMK2 RHA does require tools e ESD wrist strap e Cables with connectors including the N20 BKVM which is the KVM local I O console dongle e Any optional items ordered Step3 Verify that all unused blade slots and power supply bays have blank covers Cisco UCS 5108 Server Chassis Installation Guide Lai Installation Attaching the Round Hole Adapter Kit to the Rails Optional Attaching the Round Hole Adapte
89. rmation will help you solve a problem The tips information might not be troubleshooting or even an action but could be useful information similar to a Timesaver Caution Means reader be careful In this situation you might perform an action that could result in equipment damage or loss of data Timesaver Means the described action saves time You can save time by performing the action described in the paragraph E Cisco UCS 5108 Server Chassis Installation Guide Preface A Related Cisco UCS Documentation i Warning IMPORTANT SAFETY INSTRUCTIONS This warning symbol means danger You are in a situation that could cause bodily injury Before you work on any equipment be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents Use the statement number provided at the end of each warning to locate its translation in the translated safety warnings that accompanied this device SAVE THESE INSTRUCTIONS Related Cisco UCS Documentation Documentation Roadmaps For a complete list of all B Series documentation see the Cisco UCS B Series Servers Documentation Roadmap available at the following URL http www cisco com go unifiedcomputing b series doc For a complete list of all C Series documentation see the Cisco UCS C Series Servers Documentation Roadmap available at the following URL http www cisco com go unifiedcomputing c s
90. ront panel which is provided so that you can add your own asset tracking label without interfering with the intended air flow LEDs The LED indicators indicate whether the blade server is in active or standby mode the status of the network link the over all health of the blade server and whether the server is set to give a flashing blue beaconing indication See Interpreting LEDs on page 28 for details The removable hard disks also have LEDs indicating hard disk access activity and hard disk health Buttons The Reset button is just inside the chassis and must be pressed using the tip of a paper clip or a similar item Hold the button down for five seconds and then release it to restart the server if other methods of restarting are not working The beaconing function for an individual server may get turned on or off by pressing the combination button and LED See Interpreting LEDs on page 28 for details The power button and LED allows you to manually take a server temporarily out of service but leave it in a state where it can be restarted quickly Connectors A console port gives a direct connection to a blade server to allow operating system installation and other management tasks to be done directly rather than remotely The port uses the KVM dongle device included in the chassis accessory kit See KVM Cable on page 71 for more information Cisco UCS B22 M3 Blade Servers For full service and installation instructions see the
91. stance you must perform a full upgrade to UCS software version 2 0 2 or later The UCS 2204XP I O Module is not recognized by earlier software releases Upgrading from a pair of UCS 2104XP to a pair of UCS 2200 series modules should be done first on the FEX connected to the standby Fabric Interconnect standby should be made active then the FEX connected to the new standby Fabric Interconnect can be upgraded If you are also performing an upgrade on the fabric interconnects perform the upgrades separately Attempting to upgrade both FEXes and fabric interconnects in a single process will likely complicate any reconfiguration needed on the FI ports Adding any M3 model blade server may require an upgrade from UCS 2104XP to UCS 2208 series FEXes M3 blade servers use newer MLOM and adapter card models that are not fully compatible with the older FEX model Before you disconnect any data cables make a record of which FEX ports are connected to which Fabric interconnect ports Configurations of 1 2 4 or 8 10 GB connections between FEX and Fabric interconnect are supported in UCS If your UCS 2104XP has 4 physical connections and you want more the next available upgrade step is the full 8 connections on the UCS 2208XP You should verify that the FEX upgrade is completed with no problems before adding the connections for ports 5 8 If you intend to implement the Fabric port channel feature available in UCS software version 2 0 you may need to
92. t the power requirements of the number of servers in the chassis Procedure Step1 Loosen the captive screw on the front of the power supply Step2 Lift up the power supply s handle to unseat the power supply Step3 Using the lever pull the power supply from its slot Place your other hand under the power supply to support it while you slide it out of the chassis Step4 Install a blank power supply filler panel N20 CBLKP if the power supply bay is to remain empty Installing and Removing a Power Distribution Unit PDU A Caution The Power Distribution Unit should only be replaced by a Cisco certified technician This section is for reference only A Caution You can not hot swap a PDU N01 UAC1 The entire chassis will need to be shut down and all power cords should be unplugged before attempting this procedure Cisco UCS 5108 Server Chassis Installation Guide I Installing and Removing Components Installing a PDU Installing a PDU Step 1 Step 2 Step 3 Step 4 Procedure Hold the PDU module from below with the captive screws at the top of the module Figure 42 Positioning a PDU N01 UAC1 in the Cisco UCS Server Chassis AC Version Push the PDU module into the chassis until it seats properly If power supplies are installed you may need to partially remove them Tighten the captive screws If necessary reseat the power supplies and restart the system to observe LED behavior Remov
93. t their position is known after removing the template Step2 Adjust the length of the rail by sliding the ends of the rail back and forth until they match the depth of the rack Figure 20 Adjusting the Tool less Rack Mount Rail Step3 Place the two hooks at each end of the rail into the first two holes at a rack unit boundary Figure 21 Hole Spacing for the Tool less Rails in Relationship to a Rack Unit id 192731 Cisco UCS 5108 Server Chassis Installation Guide _40 l Installation Step 4 Step 5 Step 6 Step 7 Installing the Rails The following figure shows a rail mounted into a rack in the proper position with respect to a rack unit boundary Measurements are in inches between the centers of the holes Figure 22 Installing Tool less Chassis Support Rails into the Rack fal lol fal fal lol fal fal i ET ti Ta fal a fgl i kl i fi 192518 Press down firmly on the rail until the hooks seat firmly and securely into the holes and the spring clip latches into place Follow the same procedure to install the other rack rail Use a tape measure and level to verify that the rack rails are horizontal and at the same height Insert the cage nuts on to the rack in the needed square holes as shown below When the rails are installed on a rack u
94. tandard power cords The optional jumper power cords have an IEC C19 connector such as a Cisco RP Series PDU on the end that plugs into the chassis PDU and an IEC C20 connector on the end that plugs into an IEC C19 outlet receptacle For more information contact your Cisco Systems representative Note Only the regular power cords or jumper power cords provided with the chassis are supported Cisco UCS 5108 Server Chassis Installation Guide lai Technical Specifications A Australia and New Zealand Australia and New Zealand Power Cord Part Number CAB AC 16A AUS Cord Set Rating 16A 250 VAC Figure 46 CAB AC 16A AUS Power Cord for the Cisco UCS 5108 Blade Server Chassis Tl wha I Cordset rating 16 A 250 V Plug AU20S3 Length 14 ft 0 in 4 26 m Connector IEC 60320 C19 Continental Europe Power Cord Part Number CAB AC 2500W EU Cord Set Rating 16A 250 VAC Figure 47 CAB AC 2500W EU Power Cord for the UCS 5108 Blade Server Chassis 7 5 Cordset rating 16 A 250 V Plug CEE 7 7 Length 14 ft 0 in 4 26 m H Connector IEC 60320 C19 International Power Cord Part Number CAB AC 2500W INT 140586 113360 E Cisco UCS 5108 Server Chassis Installation Guide Technical Specifications C
95. ure Shell SSH and virtual media vMedia as well as Intelligent Platform Management Interface IPMI The Cisco UCS B Series offers multiple blade server models The supported processor family is indicated by M1 M2 M3 or M4 designations on the model Cisco UCS B200 Blade Servers For full service and installation instructions see the Cisco UCS B200 Blade Server Installation and Service Note You can install up to eight UCS B200 M1 or M2 Blade Servers to a chassis Figure 1 Cisco UCS B200 M1 and M2 1 Paper tab for server name or serial 7 Network link status LED numbers 2 Blade ejector handle 8 Blade health LED 3 Ejector captive screw 9 Console connector 4 Hard drive bay 1 10 Reset button access 5 Hard drive bay 2 11 Beaconing LED and button 6 Power button and LED LEDs The LED indicators indicate whether the blade server is in active or standby mode the status of the network link the over all health of the blade server and whether the server is set to give a flashing blue beaconing indication See Interpreting LEDs on page 28 for details The removable hard disks also have LEDs indicating hard disk access activity and hard disk health Cisco UCS 5108 Server Chassis Installation Guide 6 l Overview Blade Servers The Reset button is just inside the chassis and must be pressed using the tip of a paper clip or a similar item Hold the button down for
96. view Power Supplies LEDs There is one LED indication of the fan module s operational state See Interpreting LEDs on page 28 for details Buttons and Connectors No buttons or connectors are on a fan module Power Supplies LEDs Buttons Connectors Different power supplies are available to work with the AC UCSB PSU 2500ACPL or N20 PAC5 2500W or DC UCSB PSU 2500DC48 versions of the chassis When configured with the Cisco UCS 6324 Fabric Interconnect only the following power supplies are supported UCSB PSU 2500ACDV dual voltage supply and UCSB PSU 2500DC48 48V DC power supply To determine the number of power supplies needed for a given configuration use the Cisco UCS Power Calculator tool Two LEDs indicate power connection presence power supply operation and fault states See Interpreting LEDs on page 28 for details There are no buttons on a power supply The power connections are at the rear of the chassis on the PDU with different types for AC DC or HVDC input Four hot swappable power supplies are accessible from the front of the chassis These power supplies can be configured to support non redundant N 1 redundant and grid redundant configurations Power Supply Redundancy Power supply redundancy functions identically for AC and DC configured systems When considering power supply redundancy you need to take several things into consideration e AC power supplies are all single phase and h
97. zanine card designed exclusively for Cisco UCS B Series Blade Servers The card enables a policy based stateless agile server infrastructure that can present up to 256 PCIe standards compliant interfaces to the host that can be dynamically configured as either network interface cards NICs or host bus adapters HBAs In addition the Cisco UCS Virtual Interface Card 1280 supports Cisco Virtual Machine Fabric Extender VM FEX technology which extends the Cisco UCS Fabric Interconnect ports to virtual machines simplifying server virtualization deployment Cisco UCS M81KR Virtual Interface Card The Cisco UCS M81KR Virtual Interface Card is a virtualization optimized Fibre Channel over Ethernet FCoE adapter card The virtual interface card is a dual port 10 Gigabit Ethernet adapter card that supports up to 128 Peripheral Component Interconnect Express PCIe standards compliant virtual interfaces that can be dynamically configured so that both their interface type network interface card NIC or host bus adapter HBA and identity MAC address and worldwide name WWNN are established using just in time provisioning In addition the Cisco UCS M81KR supports network interface virtualization and Cisco VN Link technology The Cisco UCS M81KR is designed for both traditional operating system and virtualization environments It is optimized for virtualized environments for organizations that seek increased mobility in their physical environments a
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