HARDWARE INSTALLATION GUIDE Extreme Routing MLX Series Hardware Installation Guide 9035627-01 November 2018
Copyright © 2018 Extreme Networks, Inc. All Rights Reserved. Legal Notice Extreme Networks, Inc. reserves the right to make changes in specifications and other information contained in this document and its website without prior notice. The reader should in all cases consult representatives of Extreme Networks to determine whether any such changes have been made. The hardware, firmware, software or any specifications described or referred to in this document are subject to change without notice.
Contents Preface...................................................................................................................................................................................................................................9 Conventions..................................................................................................................................................................................................................................................
Installing 2x100GbE CFP2 interface modules................................................................................................................................................................ 91 Installing BR-MLX-10Gx24-DM interface modules.............................................................................................................................................................. 92 Installation considerations........................................................................
Activating the power source.............................................................................................................................................................................................................172 Verifying proper operation................................................................................................................................................................................................................172 Observing the LEDs....................
Line Module Configuration Deletion in Interactive Boot Mode............................................................................................................................... 209 Managing switch fabric modules...................................................................................................................................................................................................209 Forcing HSF modules to operate in normal mode...............................................
Powering on the power supply through the CLI ...........................................................................................................................................................252 Replacing a power supply....................................................................................................................................................................................................... 253 Replacing fan assemblies........................................................
Extreme Routing MLX Series Hardware Installation Guide 9035627-01
Preface • • • • Conventions............................................................................................................................................................................................................ 9 Documentation and Training.........................................................................................................................................................................10 Getting Help...................................................................
Documentation and Training Format Description Courier font Identifies CLI output. Identifies command syntax examples. Command syntax conventions Bold and italic text identify command syntax components. Delimiters and operators define groupings of parameters and their logical relationships. Convention Description bold text Identifies command names, keywords, and command options. italic text Identifies a variable. [] Syntax components displayed within square brackets are optional.
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About This Document • • • • Supported hardware and software..............................................................................................................................................................13 What’s new in this document........................................................................................................................................................................ 18 How command information is presented in this guide..........................................
Supported hardware and software TABLE 1 Management modules used with MLX Series routers (continued) Part number Description Supported devices Introduced Supported Notes NI-MLX-MR (MR) management module, 1 GB SDRAM, dual auxiliary flash slots, EIA or TIA-232 and 10/100/1000 Ethernet ports. MLXe-4, MLXe-8 and MLXe-16 Extreme NetIron R05.2.00. Extreme NetIron R05.7.xx. EOL initiated. Extreme NetIron R05.2.00. Extreme NetIron R05.7.xx. EOL initiated.
Supported hardware and software TABLE 2 Interface modules used with MLX Series routers (continued) Part number Description Supported device(s) Introduced Supported Notes NIMLX-10GX2 2-port 10-GbE module with IPv4/IPv6/ MPLS hardware support. MLXe-4, MLXe-8 MLXe-16 and MLXe-32 Earlier than NetIron R05.1.00. Extreme NetIron R05.6.00. EOL initiated. NIMLX-10GX4 4-port 10-GbE module with IPv4/IPv6/ MPLS hardware support. MLXe-4, MLXe-8 MLXe-16 and MLXe-32 Earlier than NetIron R05.1.00.
Supported hardware and software TABLE 2 Interface modules used with MLX Series routers (continued) Part number Description Supported device(s) Introduced Supported Notes discontinue d. NIMLX-1GX20GC 20-port 10/100/1000 copper module with IPv4/IPv6/MPLS hardware support. MLX-4, MLX-8 MLX-16 and MLX-32 Extreme NetIron R05.2.00. Extreme NetIron R05.6.00. EOL initiated. Support discontinue d. NIXMR-1Gx20GC 20-port 10/100/1000 copper module with IPv4/IPv6/MPLS hardware support. Extreme NetIron R05.
Supported hardware and software TABLE 3 Switch fabric modules used with MLX Series routers Part number Description Supported device(s) Introduced Supported NI-X-4-HSF High speed switch fabric module MLXe-4 Earlier than Extreme NetIron R05.4.00. Yes Earlier than Extreme NetIron R05.4.00. Yes Earlier than Extreme NI R05.4.00. Yes Extreme NetIron R05.2.00. Extreme NetIron R05.6.00. EOL initiated. Extreme NetIron R05.2.00. Extreme NetIron R05.6.00. EOL initiated. Extreme NetIron R05.2.00.
What’s new in this document TABLE 4 Power supplies used with MLX Series routers (continued) Part number Description Supported device(s) BR-MLXE-32ACPWR-3000 AC 3000W power supply. MLXe-32 BR-MLXE-32DCPWR-3000 DC 3000W power supply. NIBI-32ACPWR-A AC 2400W power supply. NIBI-32DCPWR DC 2400W power supply. Introduced Supported Notes Extreme NetIron R05.4.00. or earlier Yes Extreme NetIron R05.4.00. or earlier Yes Extreme NetIron R05.4.00. or earlier EOL initiated.
Notice to the reader How command information is presented in this guide Starting with Extreme NetIron 5.6.00, command syntax and parameter descriptions are removed from commands that are referenced in configuration tasks. To find the full description of a specific command, including all required and optional keywords and variables, refer to the Extreme NetIron Command Reference for your software release. Notice to the reader This document contains references to Phillips screws.
Extreme Routing MLX Series Hardware Installation Guide 9035627-01
Product Overview • • • • • ExtremeRouting MLX Series device overview.......................................................................................................................................21 MLX Series router applications.................................................................................................................................................................... 21 Hardware features..........................................................................................
Hardware features ExtremeRouting MLX Series routers MLX Series routers are available in the following models: • MLXe-4: 4 interface slots (refer to MLXe-4 router components on page 22) • MLXe-8: 8 interface slots (refer to MLXe-8 router components on page 23) • MLXe-16: 16 interface slots (refer to MLXe-16 router components on page 23) • MLXe-32: 32 interface slots (refer to MLXe-32 router components on page 26) The following content describes the components you can install in the router slots, and
Hardware features MLXe-8 router components You can install the following components in the router slots: • Up to two management modules (one active and one redundant). • Up to three switch fabric modules. • Up to eight interface modules. • Up to four power supplies (AC or DC). For a detailed list of components that ships with each router, refer to ExtremeRouting MLX Series Chassis Bundles on page 277. FIGURE 2 MLXe-8 router 1. Interface slot 1 10. Interface slot 7 2. Interface slot 2 11.
Hardware features • Up to four switch fabric modules. • Up to 16 interface modules. • Up to eight power supplies (AC or DC). For a detailed list of components that ships with each router, refer to ExtremeRouting MLX Series Chassis Bundles on page 277.
Hardware features FIGURE 3 MLXe-16 router Extreme Routing MLX Series Hardware Installation Guide 9035627-01 25
Hardware features 1. Interface slot 1 17. Switch fabric slot 1 2. Interface slot 2 18. Switch fabric slot 2 3. Interface slot 3 19. Switch fabric slot 3 4. Interface slot 4 20. Switch fabric slot 4 5. Interface slot 5 21. Management slot 1 6. Interface slot 6 22. Management slot 2 7. Interface slot 7 23. ESD connector 8. Interface slot 8 24. Power supply slot 1 9. Interface slot 9 25. Power supply slot 2 10. Interface slot 10 26. Power supply slot 3 11.
Hardware features FIGURE 4 MLXe-32 router Extreme Routing MLX Series Hardware Installation Guide 9035627-01 27
MLX Series router modules 1. Interface slot 1 27. Interface slot 27 2. Interface slot 2 28. Interface slot 28 3. Interface slot 3 29. Interface slot 29 4. Interface slot 4 30. Interface slot 30 5. Interface slot 5 31. Interface slot 31 6. Interface slot 6 32. Interface slot 32 7. Interface slot 7 33. Switch fabric slot 1 8. Interface slot 8 34. Switch fabric slot 2 9. Interface slot 9 35. Switch fabric slot 3 10. Interface slot 10 36. Switch fabric slot 4 11.
MLX Series router modules TABLE 6 Management modules for all MLX Series routers (continued) Part number Description Notes NI-MLX-32-MR (MR) MLX SeriesMLXe-32 and MLX Series-32 management module, 1 GB SDRAM, dual auxiliary flash slots, EIA or TIA-232 and 10/100/1000 Ethernet ports for out-of-band management. This module is no longer supported from Extreme NetIron R05.7.xx.
MLX Series router modules NOTE Prior to installing or replacing the MR2 management module, you must read the Hardware Installation Notes that shipped with the hardware. NOTE Although management modules are designed to be hot-swappable, you must upgrade the software on all interface modules and management modules to the appropriate software release before installing them.
MLX Series router modules External compact flash MR2 management modules do not contain an auxiliary flash slot. Instead, they contain a 2 GB internal compact flash card and an external compact flash drive. MR2 management modules come with a factory installed compact flash card in the external compact flash slot. The internal compact flash provides greater storage space for image retention, improving the upgrade process. NOTE Do not use compact flash cards over 2 GB; they will render the system unstable.
MLX Series router modules TABLE 7 Management module LEDs LED Position State Meaning Port 1 and Port 2 Each adjacent to the auxiliary flash slot that it represents On or blinking The software is currently accessing the auxiliary flash card. Off The software is not currently accessing an auxiliary flash card, although there is one inserted in the slot. On The module is functioning as the active management module. Off The module is functioning as the redundant management module.
MLX Series router modules TABLE 8 Interface modules for all MLX Series routers (continued) SKU Ports Description Generation CFP2 optics. Supports simultaneous 2M IPv4 and 0.8M IPv6, or simultaneous 1.5M IPv4 and 1M IPv6 routes in FIB. Requires high speed switch fabric module. BR-MLX-10Gx20-M 20 MLXe twenty (20)-port 10-GbE/1-GbE (M) combo module with IPv4/IPv6/MPLS hardware support. Requires SFP+ and SFP optics. Supports 512K IPv4 routes in FIB.
MLX Series router modules TABLE 8 Interface modules for all MLX Series routers (continued) SKU Ports Description Generation NI-MLX-10GX8-D 8 MLX Series 8-port 10-GbE (D) module with IPv4/ IPv6 hardware support. Requires SFPP optics. Supports 256K IPv4 routes in FIB. Does not support MPLS. Requires high speed switch fabric modules Gen 2 BR-MLX-10GX8-X 8 MLX/XMR 8-port 10-GbE (X) module with IPv4/ IPv6/MPLS hardware support-requires SFPP optics. Supports 1M IPv4 routes in FIB.
MLX Series router modules 2x100GbE CFP2 optics based high density module The 100GbE 2-port CFP2 optics based high density blade is a half slot module card for the MLX Series chassis. The 2x100GbE CFP2 interface module is supported on all MLX Series routers. NOTE The 100G CFP2 ER4 optic is supported on this card for hardware revision 15 or later only. To check the version of the line card, enter the show version slot slot-number command. The version number must be 15 or later.
MLX Series router modules • Each 2x100GbE CFP2 TM can support one full 100Gbps wire speed ports. • For best performance, Turbo mode is recommended; 1024B credit size; and full fabric connectivity. • Performance in Turbo mode: – – • Line-rate with all SFMs installed except for some small packet sizes No line-rate without all SFMs installed. Performance in non Turbo mode: – No line-rate even with all SFMs installed.
MLX Series router modules TABLE 10 2x100GbE CFP2 Chassis Support Ports Chassis Supported Description 2x100GbE CFP2 MLX Series Support in MLX Series. NOTE XMR not supported. CFP2 optics for 2x100GbE The 2x100GbE CFP2 interface module is 802.3ba compliant, supports CFP2-based optics, and can be used with existing MLX Series interface modules. The 2x100GbE interface module requires high-speed fabric modules.
MLX Series router modules PBIF Recovery In the event PBIF gets locked up, PBIF recovery is activated by default with the option to activate PBIF recovery through the system-monitoring pbif lp-reset-recovery command. Syntax system-monitoring pbif lp-reset-recovery no system-monitoring pbif lp-reset-recovery Command Default PBIF is locked up. Examples In the event PBIF is locked up, PBIF recovery is activated by default.
MLX Series router modules TABLE 11 2x100GbE CFP2 P2010 Specifications (continued) Component Gen 2 Cards 2x100GbE CFP2 Cards 512KB L2 cache 512KB L2 cache Security Engine Yes Yes, enhanced SEC2 Interface DDR Support DDR/DDR2 DDR2/DDR3 2x100GbE CFP2 DDR3 SDRAM memory specifications DDR3 SDRAM memory for the 2x100GbE CFP2 optics based high density blade, is shown in the following table.
MLX Series router modules show cam-partition usage The show cam-partition usage command displays the CAM partition usage. IP CAM region is divided into partition and subpartitions, with the super netting feature managing entries within these partitions and sub-partitions to achieve LPM (longest prefix match). Entries are shuffled across the sub-partition based on prefix length.
MLX Series router modules MLX Series 2x100G XPP ILKN monitoring The 2x100G XPP ILKN monitoring feature will monitor CRC errors in the Interlaken link / interface between XPP1 and XPP2 in 2 packet processors for the 2x100G Ibzian card. In 2x100G cards, CRC errors on the Interlaken link between iXPP1 and iXPP2 in the packet processor result in packet drops.
MLX Series router modules MLX Series sysmon np interlaken-monitor The global configuration command sysmon np interlaken-monitor {crc-port-shutdown | disable} is used to shut down available 100G ports if drops in the ILKN interface are more than the configured number of drops (crc-port-shutdown); or disable the feature (disable).
MLX Series router modules The show sysmon config CLI command will display the configuration details for ILKN CRC monitoring. Action is none by default. If sysmon np Interlaken-monitor crc-port-shutdown is configured, action will be displayed as DISABLE-PORTS. Mode will be displayed as POLLING by default and if the feature is disabled, then it will displayed as DISABLED. Poll period will display the value as 30 seconds, which is the global default configuration for this feature.
MLX Series router modules MLX Series CPU Threshold Monitoring sysmon task-threshold The threshold time is configured using the global configuration command sysmon task-threshold
MLX Series router modules MLX Series Encryption and Decryption of IPv4 Unicast Data and Control Packets Features include for encryption and decryption of IPv4 unicast data and control packets include IKEv2 on MP; IPSec FPGA protocol; IKEv2 protocol support; and PKI checks for certificate presence.
MLX Series router modules MLX Series IPsec and IKEv2 configuration Create a VTI interface by creating a tunnel interface and setting the mode of the tunnel to IPsec IPv4. To create a tunnel interface and set the mode of the tunnel to IPsec IPv4, perform the following task. 1. 2. 3. Create a VTI interface by completing the following steps: a) Create a VTI interface by entering the interface tunnel x command, where x is the tunnel number.
MLX Series router modules IKEv2 Option Description NOTE Not supported for NI R05.8.00 release. ikev2 fragmentation [ mtu-size ] (Optional) To support fragmentation of IKEv2 message into small parts to avoid UDP level fragmentation. Default it is disabled. It is at the global level because the routing can change, and we should be able to estimate what will be the maximum size for the router. Range should be between 68 to 1500. NOTE Not supported for Extreme NetIron software R05.8.00 release.
MLX Series router modules IKEv2 Option Description • aes-cbc-256 NOTE For the first release, only aes-cbc-128 and aes-cbc-256 will be supported. Support for other encryption for IKEv2 will be considered for inclusion in the next major release. integrity {sha1} {sha256} {sha384} {sha512} Integrity algorithm to be used to protect IKEv2 data. Multiple algorithms may be specified. The following are supported: • sha1 — specifies SHA-1 (HMAC variant) as the hash algorithm.
MLX Series router modules MLX Series Configuring the IKEv2 Profile An IKE profile is used in phase two of an initial exchange to determine the authentication profile to be applied for an incoming IKE session. During a session, it also determines the choice of local identifier. An IKE session has the following criteria: • Unique IKE profile, set of local-IP address, and remote-IP address. • Applies parameters to an incoming IPsec connection that is uniquely identified through its match identity criteria.
MLX Series router modules IKEv2 Option Description [no] initial-contact-payload (Optional) This host may have rebooted and peers may have SAs that are no longer valid. Use the value on to send an initial contact message to a peer, so that it will delete old SAs. Use the value off to disable this feature. Default is disabled.
MLX Series router modules MLX Series Configuring the IPsec Proposal Configure the IPsec proposal to specify the IPsec encryption parameters. The IPsec proposal contains the ESP and AH method to be used. This will be linked to an IPsec policy.
MLX Series router modules IKEv2 Option Description NOTE Range of interval: 10 - 1440 Proposal The IPsec proposal to be used with this IPsec profile. Multiple proposals can be specified. Replay-protection (Optional) Disable anti-replay checking for a particular IPsec Profile. By default it is disabled. NOTE The setting of this command must match the setting of ESN-enable under the IPsec proposal.
MLX Series router modules Local address/Mask Proposal : 0.0.0.0/0.0.0.0 : ike_proposal_red Name vrf Proposal : ikev2-default-policy : Default : ikev2-default-proposal show ikev2 profile: device# show ikev2 profile IKEv2 profile : ike_profile_blue Auth Profile : auth_blue Match criteria : IKE session vrf : default-vrf Local: address 1.2.10.1 Remote: address 1.2.10.2 Local identifier : address 1.2.10.1 Remote identifier : address 1.2.10.
MLX Series router modules Tunnel-id Local Remote Status vrf(i) vrf(f) -------------------------------------------------------------------------------Tnl 2 1.2.10.1/500 1.2.10.2/500 rdy|in-use Blue Default child sa: id 1 local selector 0.0.0.0/0 - 255.255.255.255/65535 remote selector 0.0.0.0/0 - 255.255.255.
MLX Series router modules 1:Tun1 Null 1:Tun1 Null in ESP 0xBD481319 AES-GCM-256 ACT TNL out ESP 0x9EAB77D6 AES-GCM-256 ACT TNL 1.2.10.2 1.2.10.2 device# Show ipsec sa address 1.2.10.2 detail Total ipsec SAs: 2 0: 1: interface : tnl 1 Local address: 1.2.45.1/500, Remote address: 1.2.45.2/500 Inside vrf: default-vrf Local identity (addr/mask/prot/port): address(0.0.0.0/0/0/0) Remote identity(addr/mask/prot/port): address(0.0.0.
MLX Series router modules show ipsec stat: device#show ipsec stat IPSecurity Statistics ipsecEspCurrentInboundSAs 1 ipsecEspTotalInboundSAs: ipsecEspCurrentOutboundSA 1 ipsecEspTotalOutboundSAs: IPSecurity Packet Statistics ipsecEspTotalInPkts: 0 ipsecEspTotalInPktsDrop: ipsecEspTotalOutPkts: 7 IPSecurity Error Statistics ipsecAuthenticationErrors 0 ipsecReplayErrors: 0 ipsecPolicyErrors: ipsecOtherReceiveErrors: 0 ipsecSendErrors: ipsecUnknownSpiErrors: 0 1 1 0 0 0 show ikev2 statistics: device#show i
MLX Series router modules • P2010 free scale processor and security engine, with free scale processor running at 1.2Ghz; 4GB DDR3 SDRAM; 512K flash memory boot code; and 64MB flash memory for application code. • 4x1GE SFP and 4x10GE SFP+ ports. • Support for 6 temperature sensors and 32 GPIO. NOTE Long Term Repeat rate (LTR) exceeds fifty. • Support for 4x10G SFM (only with HSFM), which results in LP entering an interactive state.
MLX Series router modules MLX Series sysmon np interlaken-monitor The global configuration command sysmon np interlaken-monitor {crc-port-shutdown | disable} is used to shut down available 100G ports if drops in the ILKN interface are more than the configured number of drops (crc-port-shutdown); or disable the feature (disable).
MLX Series router modules The show sysmon config CLI command will display the configuration details for ILKN CRC monitoring. Action is none by default. If sysmon np Interlaken-monitor crc-port-shutdown is configured, action will be displayed as DISABLE-PORTS. Mode will be displayed as POLLING by default and if the feature is disabled, then it will displayed as DISABLED. Poll period will display the value as 30 seconds, which is the global default configuration for this feature.
MLX Series router modules The following example demonstrates the CLI commands necessary to change the system-init tm-credit-size to credit_1024b for the 10Gx24-port interface module. device# config device(config)# system-init tm-credit-size credit_1024b device(config)# exit device# write memory device# reload MLX 24-port 10Gbps (BR-MLX-10Gx24-DM) Interface Modules The following figure shows the front panel of the BR-MLX-10Gx24-DM interface module.
MLX Series router modules FIGURE 8 8x10GE-X module faceplate 8x10GE-X modules support SFP+ optics only; they do not support SFP or XFP optics. For a list of supported SFP+ optics, refer to the latest version of the Extreme Optics Family Data Sheet. 8x10GE-X interface module LEDs The following table describes the module and port LED status for the 8x10GE-X interface module.
MLX Series router modules FIGURE 9 Gen-1 2-port and 4-port 10 Gbps Ethernet module front panels The front panel of the 2-port module includes two LEDs per port and two 10 Gpbs Ethernet XFP optics ports. The front panel of the 4-port module includes two LEDs per port and four 10 Gpbs Ethernet XFP optics ports. The table in the following section shows the meaning of each LED state.
MLX Series router modules Power supply requirements for Gen-1 2-port or 4-port 10 Gbps Ethernet interface modules For power supply requirements for Gen-1, 2-port or 4-port 10 Gbps Ethernet interface modules, refer to Hardware specifications for ExtremeRouting MLX Series routers on page 271. BR-MLX-10GX4-X and BR-MLX-10Gx4-X-ML interface module LEDs The following table describes the port LED status for the BR-MLX-10GX4-X and BR-MLX-10Gx4-X-ML interface module LEDs.
MLX Series router modules You must insert XFP-compliant fiber-optic transceivers in each port you intend to use. XFP-compliant transceivers provide an optical or physical medium-dependent (PMD) interface for single- or multi-mode fiber that can be used with either the LAN physical layer (PHY) or WAN physical layer (WAN PHY).
MLX Series router modules FIGURE 12 Port RX and TX, and LED designations for NI-MLX-10Gx8-M and NI-MLX-10Gx8-D modules NI-MLX-10Gx8-M and NI-MLX-10Gx8-D modules support the SFP+ optics; they do not support SFP optics. For a list of supported SFP+ optics, refer to the latest version of the Extreme Optics Family Data Sheet. NI-MLX-10Gx8-M and NI-MLX-10Gx8-D interface module LEDs The following table describes the module and port LED status for the NI-MLX-10Gx8-M and NI-MLX-10Gx8-D interface module.
MLX Series router modules Power supply requirements for NI-MLX-10Gx8-M and NI-MLX-10Gx8-D modules For power supply requirements for NI-MLX-10Gx8-M and NI-MLX-10Gx8-D modules, refer to Hardware specifications for ExtremeRouting MLX Series routers on page 271.
MLX Series router modules The following table describes the port LED status for the BR-MLX-1GCx24-X copper module. TABLE 18 BR-MLX-1GCx24-X copper module LEDs Position State Meaning LEDs located at top right and left edge of top row ports. Left LED for top port, right LED for bottom port) Solid green A link has been established. Green blinking The port is transmitting and receiving packets. Off No link exists and the port is not transmitting or receiving packets.
MLX Series router modules FIGURE 14 BR-MLX-1GFx24-X and BR-MLX-1GFx24-X-ML fiber interface module front panel The front panel includes the following features: • Arrow-shaped LEDs in center horizontal strip for all ports. LEDs to the left support the top ports, LEDs to the right (pointing down) support the bottom ports. • 24 1 Gbps fiber ports The following table describes the port status for the BR-MLX-1GFx24-X and BR-MLX-1GFx24-X fiber module.
MLX Series router modules TABLE 20 20-port 100/1000 Ethernet module LEDs Position State Meaning Below each Ethernet port. On or blinking The port is transmitting and receiving packets. (Left-side LED supports port in top row. Rightside LED supports port in bottom row.) Off for an extended period The port is not transmitting or receiving packets.
MLX Series router modules FIGURE 17 NI-MLX-1Gx48-T-A module front panel The eight mini-RJ21 connectors support six 1 Gbps Ethernet ports each. You can connect a patch panel with a mini-RJ21 connector to a mini-RJ21 connector on the interface module. The patch panel provides RJ-45 connectors. You can also use a cable with a miniRJ21 connector on one end that connects to the mini-RJ21 connector on the interface module. The other end of the cable splits into six cables with RJ-45 connectors on each cable.
MLX Series router modules To display information about NIBI-16-FAN-EXH-A modules installed in a 16-slot router, enter the show chassis command.
MLX Series router modules The following table describes the port and module LED status for the BR-MLX-40Gx4-M module. TABLE 22 BR-MLX-40Gx4-M module LEDs LED Position State Meaning Link or Active Above the ports On (solid) A link is established. Blinking The port is transmitting and/or receiving. Off A link is not established. On Module is powered on. Off Module is powered off.
MLX Series router modules NOTE The feature for auto-tuning links for burst CRC was introduced in release 5.7. Software sends a syslog/trap when auto-tuning is started and completed. This feature will utilize existing slow rate CRC auto tuning syslog and SFM logs.
MLX Series router modules The following example demonstrates the CLI command necessary to execute the sysmon tm auto-tune command for enabling high rate auto-tuning on TM for burst CRC. device# sysmon tm auto-tune The following example demonstrates the CLI command necessary to execute the no sysmon tm auto-tune command for disabling high rate auto-tuning on TM for burst CRC.
MLX Series router modules • hSFM links connected to 4x40G, 2x100 and 24x10 will have FEC enabled Forward Error Correction on Backplane Serdes Links The operating margin of the longer backplane traces in the MLX Series 16Ke and 32e chassis may be reduced due to signal attenuation. In the normal coding scheme (8b/10b), CRC errors are detected and the corrupt packets are dropped. The fabric is enabled in FEC mode by default on serdes links.
MLX Series router modules The following table shows the high speed switch fabric modules that are available for MLX Series routers. For a detailed compatibility matrix of which fabric modules can be used with which router configurations, refer to the Release Notes for your software release.
MLX Series router modules TABLE 25 Switch fabric module LEDs (continued) NOTE On devices supporting software version R05.3.00 and earlier, when you insert an SFM or during powering on the device, the Active LED was off for a short duration, up to 15 seconds because the monitoring of the Fabric module is stopped for this duration. After this delay, the LED indicated the monitoring status. In version R05.4.
MLX Series router modules FIGURE 21 CFP2 to QSFP28 conversion module A QSFP28 transceiver plugs into the conversion module, and a QSFP cable connects to the transceiver, as shown in the following illustration. FIGURE 22 Conversion module with QSFP28 transceiver and cable 1. 100 GbE CFP2 port 3. 100 GbE QSFP28 transceiver 2. CFP2 to QSFP28 conversion module 4. QSFP cable 100 GbE QSFP28 SR4 optics support Forward error correction (FEC).
MLX Series router modules TABLE 26 LED descriptions Color Status Recommended action Amber Conversion module and QSFP28 transceiver installed in 100 GbE port. Connect cable to transceiver from 100 GbE port to complete connection. Green Cable from is connected from QSFP28 transceiver to the remote end and the link is active.
MLX Series router modules • 16-slot router: Can accommodate eight 1200W or 1800W AC and DC power supplies. Because power is supplied over a common power bus, any power supply installed in addition to the minimum required provides backup for any power supply that fails. For power redundancy, you must purchase additional power supplies depending on how you populate your router. For determining the number of power supplies required for redundancy, refer to the "Hardware Specifications" in this documentation.
MLX Series router modules Rack mounting brackets All routers ship with pre-installed mounting brackets that allow you to front-mount the router in a standard 19-inch (EIA310-D) rack. For instructions about how to mount the router in a rack, refer to the installation chapter that is appropriate for your router model. You can also mid-mount your 4-, 8- or 16-slot router in a rack using the brackets that ship with the router.
MLX Series router modules FIGURE 23 Fan locations for MLXe-4 routers 1.
MLX Series router modules FIGURE 24 Fan locations for MLXe-8-routers 1.
MLX Series router modules FIGURE 25 Rear fan location for MLXe-16 routers 1.
MLX Series router modules FIGURE 26 Rear fan locations for MLXe-32-slot routers 1. Fan module 1 6. Fan module 6 2. Fan module 2 7. Fan module 7 3. Fan module 3 8. Fan module 8 4. Fan module 4 9. Fan module 9 5. Fan module 5 10. Fan module 10 At startup, the fans operate at high speed. After a period of time, the management module changes the fan speed to low. By default, the router polls the temperature sensor on each module every 60 seconds for a temperature reading.
Supported software features • Shut down a module to prevent damage If the temperature of a module exceeds specified high temperature thresholds, the system generates a Syslog message and SNMP trap. The system can also shut down the module if the temperature exceeds the highest threshold. You can change default low and high temperature thresholds for modules and fan speeds. Refer to Changing temperature thresholds for modules and fan speeds on page 211.
Installing an ExtremeRouting MLX Series device • • • • • • • • • • • • Pre-Installation notice for the ExtremeRouting MLX chassis bundles........................................................................................ 87 Installation precautions.................................................................................................................................................................................... 87 Installing 2x100GbE CFP2 interface modules................................
Installation precautions DANGER All fiber-optic interfaces use Class 1 lasers. CAUTION Do not install the device in an environment where the operating ambient temperature might exceed 40°C (104°F). CAUTION Make sure the airflow around the front, and back of the device is not restricted. CAUTION Do not drop any of the boards (cards) to be serviced or installed into the chassis as this may damage the board (card).
Installation precautions DANGER Faites attention de ne pas insérer vos doigts accidentellement dans le boîtier du ventilateur lorsque vous le retirez du châssis. Il est possible que le ventilateur tourne encore à grande vitesse. PELIGRO Procure no insertar los dedos accidentalmente en la bandeja del ventilador cuando esté desmontando el chasis. El ventilador podría estar girando a gran velocidad. DANGER This equipment is suitable for mounting on concrete or other noncombustible surfaces only.
Installation precautions CAUTION All devices with AC power sources are intended for installation in restricted access areas only. A restricted access area is a location where access can be gained only by trained service personnel through the use of a special tool, lock and key, or other means of security.
Installing 2x100GbE CFP2 interface modules CAUTION For an ExtremeRouting MLX-32 AC system, use a ground wire of at least 2 American Wire Gauge (AWG). The ground wire should have an agency-approved crimped connector (provided with the chassis) attached to one end, with the other end attached to building ground. The connector must be crimped with the proper tool, allowing it to be connected to both ground screws on the enclosure.
Installing BR-MLX-10Gx24-DM interface modules 2. Before you install your 2x100GbE CFP2 interface module into a working device, you must change the system tm-credit-size to 1024b (which readies the device to forward 100 Gbps traffic). Log into your system and enter the following commands in the configuration level of the CLI. Remember to write to memory and reload the device.
Installing an MLXe-4 router NOTE For maximum performance, you must operate your BR-MLX-10Gx24-DM interface module with high speed switch fabric modules in turbo mode. For information on switch fabric modules, refer to Managing switch fabric modules on page 209. Installation procedure When installing modules, wear an ESD wrist strap with a plug for connection to the ESD connector on the router chassis or other suitable ground.
Installing an MLXe-4 router NOTE This equipment is suitable for installation in a Network Telecommunication facility and where NEC requirements apply. Additionally, it may be installed in either a Common Bonding Network (CBN) or Isolated Bonding Network (IBN). It is not intended for Outside Plant (OSP) installations. Ensure that the proper cabling is installed at the site.
Installing an MLXe-4 router NOTE When connecting the device to the rack frame, use thread-forming screws and paint-piercing washers. 1. Determine the position of each router in the rack according to the weight of the router. For example, mount the router with the fewest modules near the top of the rack, a router with more modules near the middle of the rack, and fully populated routers near the bottom of the rack. 2.
Installing an MLXe-4 router 3. Mount the lowest router first. With one person on each side, lift the router and slip the widest part of each keyhole slot on the mounting bracket over the corresponding screw in the rack post, as shown in the following figure. FIGURE 27 Positioning the mounting screws in rack posts 1. Unequal flange equipment rack 2. Network equipment rack 2. Network equipment rack FIGURE 28 Positioning the mounting screws in rack posts 1.
Installing an MLXe-4 router FIGURE 29 installing the router in a rack 1. Screws on mounting posts 2. Front-mount position 3. Mid-mount position 4. Slide the router down so that the mounting screw heads are in the narrowest part of the keyhole slots. 5. Tighten the screws to secure the router in place. For extra support, use additional screws. NOTE For better grounding of the router to the rack, attach the router using star washers.
Installing an MLXe-4 router NOTE MLX Series modules are dedicated, which means that you must install them in MLX Series routers only. If you install a MLX Series module in a non- MLX Series router, or install a module intended for a non- MLX Series router in a MLX Series router, the router and module will not function properly.
Installing an MLXe-4 router Although the slot blanks differ in size, the procedure for removing them is identical. You will need a flat-blade screwdriver to remove slot blanks. Follow these steps to remove a slot blank. 1. Loosen the screws on either end of the slot blank by hand or with a flat-blade screwdriver. 2. Pull the slot blank out of the router, and store it in a safe place for future use. Follow these steps to install a module.
Installing an MLXe-4 router NOTE For the NEBS-compliant installation, AC power connections must use a surge protection device (SPD) to protect the AC power supplies from damage due to excessive power line surges. Follow these steps to connect the AC power cord. 1. Locate the power supply AC inlet on rear of chassis for the associated installed power supply. 2. Lift the cord retainer and connect the AC power cord to the AC inlet. 3. Snap the cord retainer over the power plug to hold it in place.
Installing an MLXe-4 router Follow these steps to connect a DC power source. 1. Use a #1 Phillips screwdriver to remove the two screws that hold the transparent cover over the power supply lugs, as shown in one of the two following figures (dependent on the power supply). FIGURE 31 The MLX Series DC 1200W power supply 1. Screws holding transparent cover 2. Power lug screws 2. Power lug screws FIGURE 32 The MLX Series DC 1800W power supply 1. 2.
Installing an MLXe-4 router 3. Crimp #8 AWG power supply wire into the power lugs and reconnect the lugs to the power supply unit, as shown in the following figure. For the NEBS-compliant installation of MLXe-4, MLXe-8 and MLXe-16 routers: CAUTION For an Extreme Networks AC system, use a ground wire of at least 6 American Wire Gauge (AWG). The ground wire should have an agency-approved crimped connector (provided with the chassis) attached to one end, with the other end attached to building ground.
Installing an MLX-8 router Installing an MLX-8 router This section describes how to install an MLX-8 router. NOTE Illustrations in this chapter may differ slightly from the actual equipment. Preparing the installation site Before installing the router, plan the location and orientation relative to other devices and equipment. For cooling purposes, allow a minimum of six inches of space between the sides, front, and the back of the router and walls or other obstructions.
Installing an MLX-8 router Front- or mid-mount your device in a standard rack Your MLXe-8 router ships from the factory with mounting brackets attached for front-mount installation in a standard 2-post rack. You can also use these brackets for a mid-mount installation by simply removing the brackets from the front edges of the device and reattaching them in the center sides of the device using the pre-drilled holes. Refer to Figure 35.
Installing an MLX-8 router 3. Mount the lowest router first. With one person on each side, lift the router and slip the widest part of each keyhole slot on the mounting bracket over the corresponding screw in the rack post, as shown in the following figure. FIGURE 35 Mounting the router in a rack 1. Screws in mounting posts 2. Front-mount position installation 3. Mid-mount installation 4. Slide the router down so that the mounting screw heads are in the narrowest part of the keyhole slots. 5.
Installing an MLX-8 router DANGER The intra-building port or ports of the equipment or subassembly is suitable for connection to intra-building or unexposed wiring or cabling only. The intra-building port or ports of the equipment or subassembly MUST NOT be metallically connected to interfaces that connect to the outside plant (OSP) or its wiring.
Installing an MLX-8 router Follow these steps to remove a slot blank. 1. Loosen the screws on either end of the slot blank by hand or with a flat-blade screwdriver. 2. Pull the slot blank out of the router, and store it in a safe place for future use. NOTE If you are hot-swapping a module, allow a minimum of two seconds after a module (or power supply or fan tray) has been removed before inserting a module in the same slot. Follow this procedure to install a module in the router.
Installing an MLX-8 router 3. Insert the power supply into the slot and slide it along the guides on each side of the slot, as shown in the following figure. CAUTION If you do not install a module or a power supply in a slot, you must keep the slot filler panel in place. If you run the chassis with an uncovered slot, the system will overheat. CAUTION Carefully follow the mechanical guides on each side of the power supply slot and make sure the power supply is properly inserted in the guides.
Installing an MLX-8 router 2. Lift the cord-retainer and connect the AC power cord to the associated power supply AC inlet. 3. Snap the cord-retainer over the power plug to hold it in place. Follow these steps to connect the AC power cord. DANGER If the installation requires a different power cord than the one supplied with the device, make sure you use a power cord displaying the mark of the safety agency that defines the regulations for power cords in your country.
Installing an MLX-8 router Follow these steps to connect a DC power source. 1. Use a #1 Phillips screwdriver to remove the two screws that hold the transparent cover over the power supply lugs, as shown in one of the two following figures (dependent on the power supply). FIGURE 37 The MLX Series DC 1200W power supply 1. Screws holding transparent cover 2. Power lug screws 2. Power lug screws FIGURE 38 The MLX Series DC 1800W power supply 1. 2.
Installing an MLX-8 router 3. Crimp #8 AWG power supply wire into the power lugs and reconnect the lugs to the power supply unit, as shown in the following figure. For the NEBS-compliant installation of MLXe-4, MLXe-8 and MLXe-16 routers: CAUTION For an Extreme Networks AC system, use a ground wire of at least 6 American Wire Gauge (AWG). The ground wire should have an agency-approved crimped connector (provided with the chassis) attached to one end, with the other end attached to building ground.
Installing an MLXe-16 router Installing an MLXe-16 router The following sections describe how to install an MLXe-16 router. NOTE Illustrations may differ slightly from the actual equipment. Preparing the installation site Before installing the router, plan the location and orientation relative to other devices and equipment. For cooling purposes, allow a minimum of six inches of space between the sides, front, and the back of the router and walls or other obstructions.
Installing an MLXe-16 router Installing an MLXe-16 router in an EIA rack DANGER Make sure the rack housing the device is adequately secured to prevent it from becoming unstable or falling over. DANGER Mount the devices you install in a rack as low as possible. Place the heaviest device at the bottom and progressively place lighter devices above. You can install your router in a standard rack in either a front- or mid-mount position using the factory-installed mounting brackets.
Installing an MLXe-16 router 2. Position four mounting screws for each router using the spacing of the keyhole slots (the ones with the narrow portion pointing up) on the mounting brackets as a guide, as shown in the following figure. When tightening the mounting screws, leave approximately 1/4 inch of clearance between the back of the screw head and the rack posts. FIGURE 40 Positioning the mounting screws in the rack posts 1. 3. Unequal flange equipment rack 2.
Installing an MLXe-16 router 5. Tighten the screws to secure the router in place. For extra support, use additional screws. NOTE For better grounding of the router to the rack, attach the router using star washers. You should also use star washers with any single-hole grounding lugs to keep the lugs from rotating. NOTE When making the primary ground connection, use a star washer to prevent lug rotation. Repeat step 2 through step 5 to mount each router in the rack.
Installing an MLXe-16 router NOTE MLX Series router modules are dedicated, which means that you must install them in MLX Series routers only. If you install a MLX Series module in another Extreme router or install a module intended for another Extreme router in an MLX Series router, the router and module may not function properly.
Installing an MLXe-16 router Installing power supplies in the MLXe-16 router DANGER High Touch Current. Earth connection essential before connecting supply. Follow these steps to install a power supply in an MLXe-16 router. 1. Remove the power supply slot blank. 2. Remove the power supply from the packaging. 3. Insert the power supply into the slot, using the guides on either side of the slot. Refer to the following figure.
Installing an MLXe-16 router Connecting AC power NOTE For the NEBS-compliant installation, AC power connections must use a surge protection device (SPD) to protect the AC power supplies from damage due to excessive power line surges. AC power is supplied through a power cord connected to the power supply in the MLXe-16 router. Follow these steps to connect AC power: 1. Locate the power supply AC inlet at the bottom rear of chassis for the associated installed power supply. 2.
Installing an MLXe-16 router Follow these steps to connect a DC power source. 1. Use a #1 Phillips screwdriver to remove the two screws that hold the transparent cover over the power supply lugs, as shown in one of the two following figures (dependent on the power supply). FIGURE 43 The MLX Series DC 1200W power supply 1. Screws holding transparent cover 2. Power lug screws 2. Power lug screws FIGURE 44 The MLX Series DC 1800W power supply 1. 2.
Installing an MLXe-16 router 3. Crimp #8 AWG power supply wire into the power lugs and reconnect the lugs to the power supply unit, as shown in the following figure. For the NEBS-compliant installation of MLXe-4, MLXe-8 and MLXe-16 routers: CAUTION For an Extreme Networks AC system, use a ground wire of at least 6 American Wire Gauge (AWG). The ground wire should have an agency-approved crimped connector (provided with the chassis) attached to one end, with the other end attached to building ground.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack EIA rack or 4-Post Rack Mount Kit contents You can mount MLX Series routers in a EIA rack or 4-post rack using the optional EIA rack/4-post rack mount kits available from Extreme Networks. The following table lists these kits and their contents.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack NOTE Because of the weight of fully loaded routers, it is recommended that you mount the router in an EIA rack before installing modules and power supplies. You can install up to six MLX-4 routers in an EIA rack using the RMK-CAB-MLXE-4 4-Post Rack Mount Kit. You can install up to four MLXe-8 routers in an EIA rack using the RMK-CAB-MLXE-8 4-Post Rack Mount Kit.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack 3. Attach the front mounting brackets to the chassis using eight 6-32 flat head screws. Brackets are marked with A or B. As you face the front of the EIA rack, A brackets must be installed on the left side, and B brackets are installed on the right side. Do not mix A and B brackets. Refer to the following figure. The process is identical for 4slot and 8-slot routers.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack 4. Attach the side plates A and B to the rear of the router, using eight 6-32 flat-head screws, as shown in the following figure. FIGURE 47 Attach side plates to the rear of the router (MLXe-4 router shown) NOTE There are two sizes of side plates to accommodate EIA racks with depths of 27-28 inches, and depths of 29-31 inches. Be sure to select the side plate that is appropriate for your EIA rack. 5.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack 6. Install the side duct to the mounting shelf, using the tab and slot features at the base of the duct assembly. Refer to Figure 49.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack 7. Select the rail extender that is appropriate for the depth of your EIA rack and attach it to the front of the top rail. Install the top rail to the EIA rack rails using four 10-32 screws. Attach the top rail to the duct assembly using two 6-32 flat-head screws, as shown in the following figure.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack 8. Install the router in the EIA rack. The router slides into the rack on top of the mounting shelf. Secure the router to the rack rails using eight 10-32 screws. Refer to the following figure (MLXe-4 router shown).
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack 9. Install the transport brackets to the EIA rack rails and to the side plates on the router, using six 10-32 screws, as shown in the following figure. NOTE The transport brackets provide extra stability, and must be installed if you plan to ship the device while it is mounted in the EIA rack. Before you install the transport brackets, you must first remove any installed fans.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack 2. Attach the EIA rack mounting brackets to the front of the router using the 12 8-32 flat head screws, as shown in the following figure.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack 3. Attach the side plates to the router using 8 4-40 flat head screws. Refer to the following figure. FIGURE 54 Attach the side plates to the rear sides of the device 4. Attach the telescoping rails to the mounting posts in the EIA rack. Refer to the following figure.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack 5. Install the router in the EIA rack using 8 10-32 screws, as shown in the following figure.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack 6. Secure the transport brackets to the rear of the router using 10 10-32 screws, and to the EIA rack mounting posts using 6 10-32 screws, as shown in the following figure. NOTE The transport brackets provide extra stability, and must be installed if you plan to ship the device while it is mounted in the EIA rack. Before you install the transport brackets, you must first remove any installed fans.
Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack 7. Attach the air block bracket to the front of the EIA rack. Refer to the following figure.
Installing an MLXe-32 router 8. Attach the cable management comb as shown in the following figure. For cable management instructions, refer to MLXe-32 router cable management on page 156. FIGURE 59 Attach the cable management comb NOTE Repeat these steps for each router you install in the EIA rack. Installing an MLXe-32 router This section describes how to install an MLXe-32 router. NOTE Illustrations in this chapter may differ slightly from the actual equipment.
Installing an MLXe-32 router NOTE Make sure your site provides 200-240 AC power. Ensure that the proper power and network cabling is installed at the site. For information on cabling, refer to MLXe-32 router cable management on page 156, Installing power supplies in an MLXe-32 router on page 166, and Attaching a management station on page 171.
Installing an MLXe-32 router 2. Use a power drill with Phillips and large flat-blade screwdriver attachments to remove the bolts and screws that hold the front shipping crate panel in place, as shown in the following figure. Remove the front panel and set it aside. FIGURE 60 Removing bolts and screws and the front panel of the shipping crate 3. Remove the remaining bolts and screws that attach the bottom of the crate to the pallet. 4.
Installing an MLXe-32 router Because of the weight of a fully loaded MLXe-32 router, it is recommended that you install the router in a rack before installing any modules and power supplies. You can install one 32-slot router in a standard 19-inch 2-post or 4-post EIA rack, in either a front-mount position or a mid-mount position. You must provide eight standard #12-24 pan-head screws to secure the router in the rack. You will need a #2 Phillips screwdriver to perform this task.
Installing an MLXe-32 router Preparing the installation site Before installation, plan the location and orientation of the device relative to other equipment in the rack. For cooling purposes, allow a minimum of six inches of space between the front and back of the device, and walls or other obstructions. Because you will need to use a mechanical lift to move and install the device, make sure you allow enough space to operate the lift.
Installing an MLXe-32 router Once you have completed the preliminary installation preparations (refer to Preliminary EIA rack mount installation steps on page 138), complete the following steps to install your router in a 2-post EIA rack. 1. Unpack the Open Frame EIA 310-D Rack Mount Kit. The following table provides you with a list of the kit components, and the following figure shows you the contents.
Installing an MLXe-32 router 3. Align the holes in the saddle with the holes on the mounting posts and attach the saddle using a minimum of eight standard pan head screws that were provided in the kit, either #12-24, #10-32, or M6, as appropriated for your rack (four screws on each post, in the three top holes and one bottom hole). See Figure 63. NOTE Additional screws may be used for more support. FIGURE 62 Align the saddle in the rack 1. 140 Saddle 2.
Installing an MLXe-32 router FIGURE 63 Saddle installation 1. Front (port side) of rack mounting post 2. Rear side of rack mounting post 2. Using at least two people, slide router gently onto saddle and into the rack FIGURE 64 Slide the device into the rack 1. 4.
Installing an MLXe-32 router 5. Visually inspect the alignment of the router. If the router is installed properly, the mounting screws on both sides rack should be aligned with the mounting screws on the opposite side and the router should be level. FIGURE 65 Secure the router to the rack 1. Router installed in open frame rack 2. Rack mounting poles 3. Router mounting brackets 6. Remove the strap securing the router to the mechanical lift. 7.
Installing an MLXe-32 router 10. Visually inspect the alignment of the router. If the router is installed properly in the rack, the mounting screws on one side of the rack should align with the mounting screws on the opposite side and the router should be level. Add all remaining screws. NOTE For better grounding of the router to the rack, attach the router using star washers. You should also use star washers with any single-hole grounding lugs to keep the lugs from rotating.
Installing an MLXe-32 router Once you have completed the preliminary installation preparations (refer to Preliminary EIA rack mount installation steps on page 138), follow these steps to mount your 32-slot router in a 4-post EIA rack. 1. Remove the factory-installed mounting brackets from the router chassis. 2. Attach the front right and left mounting brackets to the chassis using 10 8-32 Phillips flat head screws (provided). Refer to the following figure.
Installing an MLXe-32 router 4. Attach the side rails to the front and back of the rack, using M6 screws. Refer to the following figure. NOTE The narrow telescoping ends of the side rails should attached at the back of the rack. FIGURE 67 Attach the telescoping side rails to the rack.
Installing an MLXe-32 router 5. Use the mechanical lift to position the chassis as close to the rack as possible. Slide the chassis off the lift and onto the side rails and gently guide the chassis into the rack. Refer to the following figure.
Installing an MLXe-32 router 6. Once the chassis is securely inserted in the rack, fasten the mounting ears to the front rails of the rack using 10-32x.63 Phillips Square cone screws. Refer to the following figure. FIGURE 69 Secure chassis in rack Your rack installation is complete. Installing the rack mount kit on a 32-slot router in a four-post flush-mount EIA rack You can mount the MLXe-32 routers in a four-post EIA rack using the optional four-post flush-mount rack-mount kit RMK-4POST-MLXE-32.
Installing an MLXe-32 router The contents of this kit are listed in the following table. TABLE 34 Four-post flush-mount rack-mount kit contents Part number Description Quantity 49-1000166-XX 27-31" rail, left 1 49-1000167-XX 27-31" rail, right 1 42-1000901-XX Rack mount bracket, left 1 42-1000902-XX Rack mount bracket, right 1 52-1000278-01 8-32 Phillips flat-head screws, black 10 42-0200036-XX 52-0000211-01 Alignment Washer Notes Attaches the rack mount brackets to the chassis.
Installing an MLXe-32 router The cable management on this chassis has been removed for clarity to show the installation of the new rack ears and the installation of the device into the rack. The cable management should remain on the chassis during the assembly process. 7. Remove the factory-installed mounting brackets from the router. 8. Attach the front right and left mounting brackets to the chassis using the 10 8-32 Phillips flat-head screws (refer to the following figure).
Installing an MLXe-32 router 10. Attach the rails to the front and back of the rack, using screws provided in the kit (refer to the following figure). NOTE The narrow telescoping ends of the rails should attached at the back of the rack. FIGURE 71 Attaching the telescoping side rails to the rack.
Installing an MLXe-32 router 11. Use the mechanical lift to position the chassis as close to the rack as possible. Slide the chassis off the lift and onto the side rails and gently guide the chassis into the rack (see the following figure). DANGER Do not attempt to lift an ExtremeRouting MLX-32 chassis. It is extremely heavy. REMOVE THE POWER SUPPLIES AND INTERFACE MODULES FIRST (management, switch fabric, and all line cards). Use a mechanical lifting device to lift the chassis.
Installing an MLXe-32 router 12. Once the chassis is securely inserted in the rack, fasten the mounting brackets to the front rails of the rack using 10-32 screws (eight screws per side) and either clip nuts or floating nuts, whichever is appropriate for your rack type (see the following figure). FIGURE 73 Securing the chassis in rack Your rack installation is complete. Installing modules in the MLXe-32 router The MLXe-32 router ships with empty module slots and upper and lower shipping panels installed.
Installing an MLXe-32 router DANGER The intra-building port or ports of the equipment or subassembly is suitable for connection to intra-building or unexposed wiring or cabling only. The intra-building port or ports of the equipment or subassembly MUST NOT be metallically connected to interfaces that connect to the outside plant (OSP) or its wiring.
Installing an MLXe-32 router Follow these steps to install a module in the MLX Series router. 1. If you are installing a module into a slot which may have been configured for a different module type, first remove the old configuration information by following these steps: a) Use the show running-config command in config mode to determine the current configuration of the slot. device(config)# show running-config Current configuration: ! ver V5.0.
Installing an MLXe-32 router 7. Enter the write memory command to ensure that the slot will be correctly configured for the new module after a reboot. device(config)# write memory Write startup-config done. FIGURE 74 Installing a module in an MLXe-32 router Power supply requirements for NI-MLX-1Gx48-T-A modules You can install up to twenty NI-MLX-1Gx48-T-A modules and populate the remaining slots with other modules, which requires four 2400W power supplies.
Installing an MLXe-32 router FIGURE 75 insertion and extraction tool 1. Hooked tab 2. Stepped tab Use the tool to grasp the plug of the modular connector at its narrow end (the end closest to the attached cable), and insert the connector into the proper interface module. Grasping the plug at the wide end during insertion may result in the tool being difficult to release and remove. When using the tool to extract the plug of a modular connector, cover the entire length of the plug with the tool.
Installing an MLXe-32 router FIGURE 76 MLXe-32 router cable routing diagram CAUTION Be sure not to exceed the minimum recommended bend radius for the cables: 2" for MRJ-21 cables, and 1.5" for Category 5 (RJ-45) and fiber-optic cables. CAUTION Before plugging a cable into any port, be sure to discharge the voltage stored on the cable by touching the electrical contacts to ground surface.
Installing an MLXe-32 router Cable routing for the upper-left quadrant Route cabling from slots in numerical order starting with the cables for slot #1. 1. Route cables for slots #1 and #2 directly to the left through the side comb, as shown in the following figure. FIGURE 77 Routing upper-left quadrant cables 158 1. Upper left quadrant 3. Side combs (18) 2. Cables from slot #1 4.
Installing an MLXe-32 router FIGURE 78 Routing upper-left quadrant cables up 1. Upper left quadrant 3. Comb C (slot #7 and #8 cables) 2. Comb B (slot #5 and #6 cables) 4. Comb A (slot #3 and #4 cables) 2. Route cables from slots #3 and #4 up through comb A, as showin in the previous figure. 3. Route cables from slots #5 and #6 up through comb B. 4. Route cables from slots #7 and #8 up through comb C.
Installing an MLXe-32 router Cable routing for the upper-right quadrant Route cables from slots in numerical order starting with the cables for slot #15. 1. Route cables from slots #15 and #16 directly to the right through the side comb, as shown in the following figure. FIGURE 79 Routing Upper-right quadrant cables to the right 160 1. Upper right quadrant 3. Side combs (18) 2. Cables from slot #15 4.
Installing an MLXe-32 router FIGURE 80 Routing upper-right quadrant cables up 1. Upper right quadrant 3. Comb C (slot #9 and #10 cables) 2. Comb B (slot #11 and #12 cables) 4. Comb A (slot #13 and #14 cables) 2. Route cables from slots #13 and #14 up through comb A, as shown in the previous figure. 3. Route cables from slots #11 and #12 up through comb B. 4. Route cables from slots #9 and #10 up through comb C.
Installing an MLXe-32 router Cable routing for the lower-left quadrant 1. Route cables from slots #18 and #17 directly to the left through the side comb, as shown in the following figure. FIGURE 81 Routing lower-left quadrant cables 162 1. Lower left quadrant 3. Cables from slot #17 2. Cables from slot #18 4.
Installing an MLXe-32 router FIGURE 82 Routing lower-left quadrant cables 1. Lower left quadrant 3. Comb A (slot #19 and #20 cables) 2. Comb B (slot #21 and #22 cables) 4. Comb C (slot #23 and #24 cables) 2. Route cables from slots #20 and #19 down through comb A, as shown in the previous figure. 3. Route cables from slots #22 and #21 down through comb B. 4. Route cables from slots #24 and #23 down through comb C.
Installing an MLXe-32 router Cable routing for the lower-right quadrant 1. Route cables from slots #32 and #31 directly to the right through the side comb, as shown in the following figure. FIGURE 83 Routing the lower-right quadrant cables 164 1. Lower right quadrant 3. Cables from slot #31 2. Cables from slot #32 4.
Installing an MLXe-32 router FIGURE 84 Routing lower-right quadrant cables 1. Lower right quadrant 3. Comb A (slot #29 and #30 cables) 2. Comb B (slot #27 and #28 cables) 4. Comb C (slot #25 and #26 cables) 2. Route cables from slots #30 and #29 down through comb A, as shown in the previous figure. 3. Route cables from slots #28 and #27 down through comb B. 4. Route cables from slots #26 and #25 down through comb C.
Installing an MLXe-32 router FIGURE 85 Accessing modules by shifting cable bundles 1. Cable bundles Cable management notes The following rules apply when setting up cable management for a heavily- or fully-loaded system: • All cables must be firmly connected, supported, and contained. • Use cable cinches, spaced approximately every 24 inches, to secure all of the cables for each module into a single bundle. This is especially important at the ends nearest the module connections.
Installing an MLXe-32 router 2. Remove the power supply from the packaging. 3. Insert the power supply into the slot, using the guides on each side of the slot, as shown in the following figure. FIGURE 86 Installing a power supply in an MLXe-32 router 1. Power supply indicators 6. Lift up latch handle to lock 2. AC power input LED (AC OK) 7. Power supply blank cover 3. DC power output LED (DC OK) 8. Power supply blank cover 4. Alarm LED (ALM) 9. Power supply 5.
Installing an MLXe-32 router 7. Install a blank power supply faceplate into each empty slot. For information about connecting power to the router, refer to Connecting AC power on page 168. For information about powering on the system, refer to Activating the power source on page 172. Connecting AC power NOTE For the NEBS-compliant installation, AC power connections must use a surge protection device (SPD) to protect the AC power supplies from damage due to excessive power line surges.
Installing an MLXe-32 router Follow these steps to connect a DC power source. 1. Use a #1 Phillips screwdriver to remove the screw that secures the safety cover, as shown in the following figure. Remove the safety cover. FIGURE 88 Removing the safety cover (2400W power supply and 3000W power supply displayed) 2. Use a #2 Phillips screwdriver to unscrew the power lugs. Refer to the following figure. FIGURE 89 Removing the power lugs (2400W power supply and 3000W power supply displayed) 1.
Installing an MLXe-32 router 3. Crimp the correct AWG power supply wire into the power lugs. For 2400W power supplies: #4 AWG power supply wire. For 3000W power supplies: #2 AWG power supply wire. Refer to the following figure. CAUTION For an ExtremeRouting MLX-32 AC system, use a ground wire of at least 2 American Wire Gauge (AWG). The ground wire should have an agency-approved crimped connector (provided with the chassis) attached to one end, with the other end attached to building ground.
Attaching a management station Final steps Complete these steps in the order in which they are listed: • Perform the step Attaching a management station on page 171. • Perform the step Activating the power source on page 172. • Perform the step Verifying proper operation on page 172. Attaching a management station You can manage your MLX Series router in the following ways: • Connect a PC or terminal to the console port on the management module.
Activating the power source Activating the power source When you complete the hardware installation, you are ready to activate the power source. 1. Verify that all modules and power supplies are properly installed and all empty slots are covered by slot blanks. CAUTION If you do not install a module or a power supply in a slot, you must keep the slot filler panel in place. If you run the chassis with an uncovered slot, the system will overheat. 2.
Verifying proper operation TABLE 35 Router LED states and actions LED label Desired state Meaning Abnormal state Meaning or action Active The Active LED on one of the installed management modules should be on. The module is functioning as the active management module. Off Neither of the management modules is managing the switch fabric and interface modules. A problem may have occurred during initialization. Check your attached PC or terminal for possible error messages.
Verifying proper operation TABLE 35 Router LED states and actions (continued) LED label Desired state Meaning Abnormal state Meaning or action • Verify that the connection to the other router has been properly made. Also, make certain that the other router is powered on and operating correctly. • Try using a different cable. Interface module Pwr 174 On The module is receiving power. Off The module is not receiving power.
Verifying proper operation TABLE 35 Router LED states and actions (continued) LED label Desired state Meaning Abnormal state Meaning or action presence of all power sources. • If you are using AC power supplies, see the entry for the AC power supply LED in this table for more information. Mgmt Act During initialization: steady blinking.After initialization: occasional blinking. The active management module processor and the interface module processor are communicating. Off for an extended period.
Verifying proper operation TABLE 35 Router LED states and actions (continued) LED label Desired state Meaning Abnormal state Meaning or action one interface module to another. You must replace the switch fabric module. Refer to Replacing a switch fabric module on page 248. AC power supplies AC OK Green (steady) The power supply is receiving power from the AC power source.
Verifying proper operation TABLE 35 Router LED states and actions (continued) LED label Desired state Meaning Abnormal state Meaning or action that is rated for the outlet. • Make sure that the power source has power. DC OUT Green (steady) The power supply is providing DC power to the router. Off The power supply is not supplying power to the router. If the DC IN LED is green, then there is a problem with the power supply and it must be replaced.
Verifying proper operation TABLE 35 Router LED states and actions (continued) LED label Desired state Meaning Abnormal state Meaning or action • If the LED is amber, you must replace the fan module. NOTE If a problem persists after taking the actions described in this table, contact technical support.
Verifying proper operation 2. Check the settings in your terminal emulation program. In addition to the session settings listed in Attaching a PC or terminal to the console port or Ethernet port on page 171, make sure the terminal emulation session is running on the same serial port you attached to the console port. When you see this prompt (MLX-16# or MLX-32#), you are connected to the system and can display module status using the CLI. Enter the show module command at any CLI level.
Verifying proper operation Forced card deletion This feature allows you to remove a module configuration from the running configuration in interactive mode, while a different module is inserted. Users should copy the configuration of the existing module (if applicable) before performing the following steps. 1. (Optional) Copy the running configuration of the existing module interfaces to a text editor, if the new module requires the existing configuration.
Verifying proper operation 8. Enter the write memory command to save the new configuration.
Verifying proper operation F3: NI-X-HSF Switch Fabric Module S1: BR-MLX-40Gx4-M 4-port 40GbE Module S2: NI-MLX-10Gx8-M 8-port 10GbE (M) Module S3: NI-MLX-10Gx8-D 8-port 10GbE (D) Module S4: NI-MLX-10Gx8-M 8-port 10GbE (M) Module S5: NI-MLX-10Gx8-M 8-port 10GbE (M) Module S6: NI-MLX-1Gx20-GC 20-port 10/100/1000 Copper Module S7: NI-MLX-10Gx8-M 8-port 10GbE (M) Module S8: BR-MLX-40Gx4-M 4-port 40GbE Module device#show running-config | include module module 1 br-mlx-4-port-40g-m module 2 ni-mlx-8-port-10g-m m
Using Extreme Structured Cabling Components • • • Cable cinch overview.....................................................................................................................................................................................183 mRJ21 procedures........................................................................................................................................................................................184 RJ-45 procedures....................................
mRJ21 procedures mRJ21 procedures The following procedure demonstrates securing up to eight mRJ21 cables into the cable cinch. When securing fewer than the maximum cables, follow the procedure to secure the desired number of cables and simply wrap the remaining Velcro strap around the cable cinch. Use the additional slots in the clip to secure groups of cables as required.
mRJ21 procedures FIGURE 93 Three mRJ21 cables Cable cinch with four mRJ21 cables Four mRJ21 cables may be secured as shown in the following figure. FIGURE 94 Four mRJ21 cables Cable cinch with five mRJ21 cables Five mRJ21 cables may be secured as shown in the following figure.
mRJ21 procedures FIGURE 95 Five mRJ21 cables Cable cinch with six mRJ21 cables Six mRJ21 cables may be secured as shown in the following figure. FIGURE 96 Six mRJ21 cables Cable cinch with seven mRJ21 cables Seven mRJ21 cables may be secured as shown in the following figure.
RJ-45 procedures FIGURE 97 Seven mRJ21 cables Cable cinch with eight mRJ21 cables Eight mRJ21 cables may be secured as shown in the following figure. FIGURE 98 Eight mRJ21 cables RJ-45 procedures Use the following guidelines when using the cable cinch clips with RJ-45 cables.
RJ-45 procedures Cable cinch with one group of RJ-45 cables RJ-45 cables may be secured in groups of six. To secure up to six RJ-45 cables in one group, place the Velcro strap through slot one and use the front left recesses as shown in the following figure. FIGURE 99 One group of RJ-45 cables Cable cinch with two groups of RJ-45 cables 12 RJ-45 cables, in two groups, may be secured as shown in the following figure.
RJ-45 procedures Cable cinch with three groups of RJ-45 cables 18 RJ-45 cables, in three groups, may be secured as shown in the following figure. FIGURE 101 18 RJ-45 cables in three groups Cable cinch with four groups of RJ-45 cables 24 RJ-45 cables, in four groups, may be secured as shown in the following figure.
RJ-45 procedures Cable cinch with five groups of RJ-45 cables 30 RJ-45 cables, in five groups, may be secured as shown in the following figure. FIGURE 103 30 RJ-45 cables in five groups Cable cinch with six groups of RJ-45 cables 36 RJ-45 cables, in six groups, may be secured as shown in the following figure.
RJ-45 procedures Cable cinch with seven groups of RJ-45 cables 42 RJ-45 cables, in seven groups, may be secured as shown in the following figure. FIGURE 105 42 RJ-45 cables in seven groups Cable cinch with eight groups of RJ-45 cables 48 RJ-45 cables, in eight groups, may be secured as shown in the following figure.
Extreme Routing MLX Series Hardware Installation Guide 9035627-01
Connecting a Router to a Network Device • • • • • Assigning permanent passwords.............................................................................................................................................................193 Configuring IP addresses............................................................................................................................................................................ 194 Understanding management port functions...............................
Configuring IP addresses 3. Enter the enable super-user-password command to set the super-user password. device(config)# enable super-user-password mustang NOTE You must set the super-user password before you can set other types of passwords. 4. Enter the following commands to set the port configuration and read-only passwords. device(config)# device(config)# enable port-config-password mustang enable read-only-password mustang NOTE If you forget your super-user password, refer to the release notes.
Configuring IP addresses Assigning an IP address to a management interface Instead of assigning a global IP address to the router for system management purposes, you must assign an IP address to the active management module. If the active management module becomes unavailable and the redundant module becomes the active module, the IP address is automatically assigned to the new active management module. For example, to assign the IP address 10.0.1.1 to the management module, use these steps. 1.
Understanding management port functions 2. Enter the following command at the Privileged EXEC level prompt, then press Enter . This command erases the factory test configuration if it is still present. device# erase startup-config After you enter this command, you will need to restart the system. CAUTION Use the erase startup-config command only for new systems. If you enter this command on a system you have already configured, the command erases the configuration.
Connecting the router to a network device • If you configure the redistribution of static or directly connected routes for a particular routing protocol, the protocol redistributes routes associated with the interface module ports, but not the routes associated with the management port. To display configuration information and statistics about the management port, enter the show interface management 1 command at any CLI level.
Connecting the router to a network device Cabling a fiber-optic transceiver Follow these steps to cable a fiber-optic transceiver. 1. Remove the protective covering from the fiber-optic port connectors and store the covering for future use. 2. Before cabling a fiber-optic transceiver, it is strongly recommended that you clean the cable connectors and the port connectors. For more information, refer to Cleaning fiber-optic ports and connectors on page 198. 3.
Connecting the router to a network device TABLE 37 Network connection-related LED states (continued) LED Desired state Meaning Abnormal state Meaning or action Link On A link is established with the remote port. Off A link is not established with the remote port. Try the following: Active On or blinking The port is transmitting and receiving user packets. Off for an extended period.
Testing network connectivity TABLE 37 Network connection-related LED states (continued) LED Desired state Meaning Abnormal state Meaning or action established with the remote port. If not, take the actions described in the Meaning or Action column for the Link LED. • Verify that the port has not been disabled through a configuration change. You can use the CLI. If you have configured an IP address on the device, you also can use the Web management interface or Extreme Network Advisor.
Managing Routers and Modules • • • • • • • • • • • • • Managing the device..................................................................................................................................................................................... 201 Managing switch fabric modules............................................................................................................................................................. 209 Managing the cooling system................................
Managing the device • slot-number - disables power to the interface module in the specified slot. You can specify 1-4 for 4-slot routers, 1-8 for 8slot routers, 1-16 for 16-slot routers, and 1-32 for 32-slot routers. NOTE There is a 10 second delay between the power-off lp command and the power-on lp command. Wait 10 seconds between commands.
Managing the device • MUX tap number: – – 0-7 - there are total of 8 MUX taps connected to a MUX device. 15 - MUX tap is non applicable • Device ID • Device address • Description of the load If the GIEI severity changes from the time the GIEI is set to major, the first Syslog message in the static section of the log is updated to reflect this change. A copy of this updated message is generated in the dynamic section of the log and a copy is sent to SNMP log server.
Managing the device If the system detects a major I2C failure, the system prevents the management module from accessing devices through the l2C serial bus. The output from the show chassis command and the show temperature command reflect this action, as shown in these examples. device# show chassis *** Note: *** *** Global I2C Error Indicator is set (severity: Major). *** *** All I2C access are skipped.
Managing the device LP4 Sensor1: 39.0C LP4 Sensor2: 49.250C LP4 Sensor3: UNUSED LP4 Sensor4: 38.5C LP4 Sensor5: 47.750C LP4 Sensor6: UNUSED Fans are in auto mode. Temperature Monitoring Poll Period is 60 seconds The following table describes the show chassis command output. TABLE 38 show chassis command output Field Description Powers Power num , part num The Powernum is the power supply number as positioned in the device.
Managing the device TABLE 38 show chassis command output (continued) Field Description Status The fan status of a fan can be OK or Failed: Speed • OK - The fan is functioning properly and is keeping the temperature of each module within an acceptable range. • Failed - The fan is not working or the fan control module cannot control the fan. Fan speed can be one of four settings: • Low - The fan is functioning at 50 percent of capacity. • Medium - The fan is functioning at 75 percent of capacity.
Managing the device TABLE 39 Syslog buffer configuration (continued) Field Description level The message levels that are enabled. Each letter represents a message type and is identified by the key (level code) below the value. If you disable logging of a message level, the code for that level is not listed. messages logged The total number of messages that have been logged since the software was loaded. level code The message levels represented by the one-letter codes.
Managing the device To know the presence of MP by LP, accounting of IPC and keep-alive messages from the MP are performed in the LP. The current state of MP presence is displayed when you enter the ipc show mp-presence state CLI command in LP. The command output is as follows: LP-2#ipc show mp-presence state MP-PRESENCE is in MP_ALIVE The following table lists all the MP-Presence states maintained by LP.
Managing switch fabric modules FPGA Image Mismatch A version mismatch between FPGA applications and hardware results in system failure and continuous reboot on every module initialization failure. The Rolling Reboot feature places the line card into the interactive or down state mode on detection of an FPGA version mismatch. This feature will detect the incompatibility between application FPGA version and Hardware FPGA version and put the card into down state if there is mismatch.
Managing the cooling system NOTE Changes to the switch fabric operating mode do not take effect until after a system reload. The switch fabric modes have the following restrictions: • The system blocks discovery of any standard switch fabric (G1) module if you have issued the system-init block-g1-sfm command. Refer to Blocking discovery of G1 switch fabric modules on page 210.
Managing the cooling system • Interval at which the system polls the temperature sensors on the module for a reading NOTE Auto control of fan speed is not monitored when cards are in interactive mode. Set fan speed to high to prevent over-temp condition. NOTE Adjusting fan controls out of the default setting can negatively affect the efficient cooling of blades and may cause a blade to overheat and shutdown.
Managing the cooling system Default temperature thresholds for the MLX Seriesdevices are described in the following table.
Managing the cooling system For information about checking the current low and high temperature threshold settings for modules and fan speeds, refer to Displaying temperature thresholds for modules and fan speeds on page 213. NOTE Adjusting fan controls out of the default setting can negatively affect the efficient cooling of blades and may cause a blade to overheat and shutdown. You can change the default low and high temperature thresholds for a particular module and fan speed.
Managing the cooling system Fan Speed Low: -1 - 60 Fan Speed Med: 57 - 70 Fan Speed Med-Hi: 67 - 80 Fan Speed Hi: 77 - 85 state = 0 (FAN_STATE_LOW) max_ts_shut_off_count = 1 shut_off_count = 0 0 0 0 0 0 0 0 === Thermal Sensor Control Block Fan Speed Low: -1 - 30 Fan Speed Med: 27 - 40 Fan Speed Med-Hi: 37 - 50 Fan Speed Hi: 47 - 75 state = 2 (FAN_STATE_MED_HI) max_ts_shut_off_count = 1 shut_off_count = 0 0 0 0 0 0 0 0 === Thermal Sensor Control Block Fan Speed Low: -1 - 50 Fan Speed Med: 46 - 55 Fan Speed
Managing the cooling system TABLE 43 Temperature threshold information for modules and fan speeds (continued) This field... Displays... Fan Speed Low or Med or Med-Hi or Hi The current setting of the low and high temperature thresholds for the low, medium, medium-high, and high fan speeds. NOTE As indicated in Table 44, the low fan speed for each module does not have a default low temperature threshold value, nor can you configure this value.
Managing the cooling system TABLE 44 Associations between show chassis, show fan threshold, and fan-threshold commands (continued) show chassis command output (sensors) show fan-threshold command output (thermal block) fan-threshold command configuration LP2 Sensor 5 reading THERMAL_SENSOR_TEST_RULE_LP_XPP2 N/A (Must not be changed) LP2 Sensor 6 reading UNUSED UNUSED LP2 Sensor 7 reading UNUSED UNUSED LP2 Sensor 1 reading THERMAL_SENSOR_TEST_RULE_LP_2 fan-threshold lp2 LP2 Sensor 2 reading
Managing the cooling system For example, to set the speed of fan 0 to medium-high, enter the following command. device# set-fan-speed med-high For the fan-speed parameter, you can specify the following: Syntax: set fan speed [ auto | high |low |med | med-high] • auto - The system is adjusted by the monitoring system. • high - The system sets the fan speed to high. • low - The system sets the fan speed to low. • med - The system sets the fan speed to medium.
Managing interface modules Displaying temperature warnings If the temperature of a module exceeds the high temperature threshold for any of the fan speeds, the system sends a warning message to the system log and an SNMP trap. (For more information about the low and high temperature thresholds, refer to Changing temperature thresholds for modules and fan speeds on page 211.) This section describes how to view the system log.
Managing interface modules Configuring interface module boot parameters Ethernet interface modules contain independent copies of system software and boot after the management module boots. By default, the following boot-related events occur: • The router synchronizes, or prompts you to synchronize, the software image on the interface modules with the software on the management module.
Managing interface modules Syntax: lp cont boot sync slot-number Syntax: lp cont boot no sync slot-number Specifying an immediate synchronization To immediately synchronize software images between the management module and one or all interface modules, enter the following command at the Privileged EXEC level. device# lp sync all Syntax: lp sync [ all|slot-number] • The all keyword indicates that the immediate synchronization applies to all interface modules in the router.
Managing interface modules The CLI command for specifying an immediate boot for one interface module is the same as that for specifying an automatic boot for one or all modules. The only difference is the CLI level from which you execute the command. You must specify the command for an immediate boot in the Privileged EXEC level and the command for an automatic boot in the global CONFIG level. The following sections explain how to specify an immediate boot and an automatic boot.
Managing interface modules • The slot-number parameter specifies the slot number that contains the interface module that will undergo an immediate boot.You can specify 1 - 4 for 4-slot devices, 1 - 8 for 8-slot devices, 1 - 16 for 16-slot devices, or 1 - 32 for 32-slot devices. Specifying an immediate boot from a TFTP server To specify an immediate boot for the interface module installed in slot 1 from a TFTP server, enter the following command at the Privileged EXEC level of the CLI.
Managing interface modules • The all | slot-number parameter specifies that the automatic boot applies to all interface modules in the device or to an interface module in the specified device slot number only. You can specify 1 - 4 for 4-slot devices, 1 - 8 for 8-slot devices, 1 - 16 for 16-slot devices, or 1 - 32 for 32-slot devices.
Managing interface modules The all | slot-number parameter specifies that the automatic boot applies to all interface modules in the router, or to an interface module in the specified slot number. You can specify 1 - 4 for 4-slot routers, 1 - 8 for 8-slot routers, 1 - 16 for 16-slot routers, or 1 - 32 for 32-slot routers. After you enter this command, the system enters monitor mode on the interface module.
Monitoring Link Status To re-enable power to the interface module in slot 1, enter the following command at the Privileged EXEC level of the CLI. device# power-on lp 1 To re-enable power on all interface modules, enter the following command. device# power-on lp all In this output example, there is one interface module in slot 3 and slot 3 is powered on. device# power-on lp all Slot 3 is powering on.
Traffic Manager XPP link monitoring The sfm-number variable specifies an SFM that you want to display link information for. The all option displays link information for all SFMs in the chassis. The errors option only displays information for SFM links that are in the DOWN state. The output of this command can also be filtered using an output modifier.
Traffic Manager XPP link monitoring • 24x10GbE • 4x40GbE • 2x100GbE Enabling TM-XPP link monitoring To enable TM XPP link monitoring, enter the sysmon tm nif-check command as shown in the following section. sysmon tm nif-check Syntax sysmon tm nif-check threshold count polling period [no] sysmon tm nif-check threshold count polling period Two recovery actions are possible which are listed below: sysmon tmnif-check action disable-ports NOTE disable-ports is default action.
Using alarms to collect and monitor device status History Release version Command history R05.7.00b This command was introduced. Using alarms to collect and monitor device status Beginning in the Extreme NetIron software R05.3.00, the software keeps two logs; one of hardware status currently available to the system, and another of hardware status history. The current alarm log keeps only entries for current information; when a hardware status is no longer valid, the entry is cleared.
Using alarms to collect and monitor device status Configuring alarm logging You can configure the system to log only specific level alarms for specific devices using the alarm command. The configuration setting applies to both logs, the current and history alarm logs. The level you set is the minimum level of alarms that will be logged. For example, if you set the configuration to log a minimum of minor level events, all minor, major and critical events will be logged.
Using alarms to collect and monitor device status Jan Jan Jan Jan Jan Jan Jan Jan Jan Jan 3 3 3 3 3 3 3 3 3 3 15:02:21 15:02:21 15:02:21 15:02:21 15:02:21 15:02:21 15:02:21 15:02:22 15:02:22 15:02:22 | | | | | | | | | | Major Major Major Major Major Major Major Major Major Major | | | | | | | | | | LP LP LP LP LP LP LP LP LP LP 1 1 1 1 1 1 1 1 1 1 | | | | | | | | | | Optic Optic Optic Optic Optic Optic Optic Optic Optic Optic 7 8 10 11 12 13 14 16 17 18 - Not Not Not Not Not Not Not Not Not Not
Using alarms to collect and monitor device status TABLE 47 Displaying alarm log information (continued) Description To display all alarms in the alarm log related to a specific SFM(where n, is SFM slot 1-8 for MLX/ XMR) and all alarms for it’s subsystems.
Displaying MR2 management module memory usage Clearing the alarm history log Use the clear alarm command to remove some or all of the current alarms. Once the alarm is cleared, it is removed from the current alarm database and is no longer available even though the condition might still exist. The alarm is kept in the history log. If you clear all alarms, a single entry is added to the history that indicates all alarms have been cleared.
Enabling and disabling management module CPU usage calculations Enabling and disabling management module CPU usage calculations You can enable the router to perform usage averaging calculations on tasks handled by CPU on the management module. You can then display usage averages for all tasks performed by the CPU on the management module for an interval of up to one hour. You can display these statistics using the show cpu command. NOTE Typically, these statistics are used for debugging purposes.
Displaying management module CPU usage bgp bgp_io ospf ospf_r_calc isis isis_spf mcast msdp vrrp ripng ospf6 ospf6_rt mcast6 bfd l4 stp gvrp_mgr snmp rmon web lacp dot1x dot1ag hw_access ospf_msg_task telnet_0 telnet_1 0 0 737 0 38 0 18 134 0 0 66 0 7 0 98 0 0 0 13 86 0 0 7 1049 0 0 44 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Syntax: show cpu Displaying management module CPU usage You can display the tasks handled by the management module and the amount of the management module CPU used by
Removing MAC address entries hw_access 5 telnet_0 5 susp run 0000c658 0000c658 20996638 209db638 16384 32768 0 0 0 0 1 1 Syntax: show tasks Examine the CPU Usage (%) field to determine the percentage of management module CPU used by each task. NOTE The total CPU usage may not add up to 100 percent. The total may not include resources used by the management processes. A problem could exist If the CPU usage is distributed unevenly to one task, other than the idle task, for a prolonged period.
IPv6 ND Proxy IPv6 ND Proxy Enabling the ND proxy feature causes the router to reply on behalf of the target host (if the target host exists). For nodes on different segments, the NS request for resolving the neighbor may not reach another host. The reply will contain the linklocal address of the router interface which is sending the reply, instead of the link-local address of the target host.
IPv6 ND Proxy IPv6 ND Proxy Configuration Tasks The IPv6 ND Proxy is configured through the tasks of turning on the proxy capability for the node (ipv6 nd proxy), and defining the IPv6 destination network (ipv6 route). This configuration requires defining the outgoing interface as ethernet (with the slot or port), or ve (with the ve-id).
IPv6 ND Proxy 2. ipv6 route [ethernet| ve] [ slot/port | ve_id ] The following step examples show typical ipv6 route configuration command sequences executed from the configuration command level.
IPv6 ND Proxy ipv6 nd proxy Configures a single IPv6 subnet prefix to support multiple physical links in IPv6 Neighbor Discovery. Syntax ipv6 nd proxy no ipv6 nd proxy Command Default This feature is disabled. Modes The ipv6 nd proxy is configurable under the global configuration mode. Usage Guidelines The IPv6 ND proxy command turns on the IPv6 ND proxy capability for the node, and is run at the configuration level. Use the no form of this command to remove the ND proxy configuration.
IPv6 ND Proxy ipv6 nd local-proxy Configures an IPv6 interface to support IPv6 ND local proxy. ipv6 nd local-proxy no ipv6 nd local-proxy This feature is disabled. The ipv6 nd proxy is configurable under the global configuration mode. The IPv6 ND local-proxy command is supported over the VE interface. It is not supported for the VEoVPLS interface. Use the no form of this command to remove the IPv6 ND local-proxy configuration.
IPv6 ND Proxy ipv6 route Configures a static IPv6 route for an interface.
IPv6 ND Proxy 6to4_tnl tunnel-id Specifies IPv6 to IPv4 tunnel number to be used as next hop. ipv6_tnl tunnel-id Specifies IPv6 tunnel to be used as next hop. name string Optional name (ASCII string) assigned to the route metric Specifies a value that the Layer 3 switch uses to compare this route to other static routes in the IPv6 static route table that have the same destination. The metric applies only to routes that the Layer 3 switch has already placed in the IPv6 static route table.
DRBG Health Test on IPsec LP Examples To configure the IPv6 ND proxy static route by specifying the destination prefix and the outgoing interface: NOTE As per the topology mentioned in the packet flow, if the IPv6 ND proxy is configured on R2, then this static route can be configured on R1 with the destination prefix being 2002::/64. The static route can also be configured with outgoing interface as ve, such as ve 10.
DRBG Health Test on IPsec LP NOTE The DRBG mechanism functions are not distributed. CTR_DRBG is not used on IPsec LP.
Maintenance and Field Replacement • • • • • • • • Maintenance and field replacement overview.....................................................................................................................................245 Hardware maintenance schedule.............................................................................................................................................................245 Replacing a management module...............................................................
Replacing a management module NOTE The management, interface, and switch fabric modules are dedicated, which means that you must install them in Extreme routers only. If you install these modules in another Extreme device or you install a module intended for another Extreme device in a Extreme router, the device and modules will not function properly.
Replacing an interface module 3. Reattach the cover plate using the two screws and screwdriver. FIGURE 108 Inserting a compact flash card in the MR2 management module Replacing an interface module You can remove or replace interface modules while the router is powered on and running. For more information on module slot locations, refer to Product Overview on page 21.
Replacing a switch fabric module For 16-slot routers, if you insert a module into a slot where the fan speed for a previous module was manually configured, you will need to change the fan speed back to auto. For example, if the fan speed was manually configured to "slow", and you are installing a module that requires more cooling power, the "slow" setting will cause the module to overheat. To configure the fan speed to auto, enter the set fan speed auto command.
Replacing a power supply DANGER All fiber-optic interfaces use Class 1 lasers. DANGER Laser Radiation. Do Not View Directly with Optical Instruments. Class 1M Laser Products. Before removing a fiber-optic transceiver, have the following items available: • The protective covering that you removed from the fiber-optic transceiver port when you initially installed the module • An ESD wrist strap with a plug for connection to the ESD connector on the router chassis.
Replacing a power supply This command displays status information for the fans and power supplies, and temperature readings for various components in the device. The power supplies are numbered in the display. Refer to Displaying device status and temperature readings on page 204 for more information. If a power supply has failed, the display indicates "Installed (Failed)" and identifies the slot in which the failed power supply is installed.
Replacing a power supply 1 ) 0 0 2 ) 0 0 3 ) 0 0 4 ) 0 0 5 ) 0 0 6 ) 0 0 7 ) 0 0 8 ) 0 0 9 ) 0 0 10) 0 0 11) 0 0 12) 0 0 13) 0 0 14) 0 0 15) 0 0 16) 0 0 17) 0 0 18) 0 0 19) 0 0 20) 0 0 21) 0 0 22) 0 0 23) 0 0 24) 0 0 25) 0 0 26) 0 0 27) 0 0 28) 0 0 29) 0 0 30) 0 0 31) 0 0 32) 0 0 Monitoring Threshold: 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 32 flaps/hour In the example above, the configured power supply monitoring thr
Replacing a power supply Compiled on Jul device# 9 2012 at 09:52:52 labeled as xmr05400b396 The show power-supply-monitoring command displays the last 32 recorded failure timestamps for a power supply. The displayed failure timestamp is the number of seconds since the last system reboot. The current configured power supply monitoring threshold value is also displayed at the end of the output.
Replacing a power supply Syntax: power-on [ power-supply decimal ] The decimal variable specifies a power supply index number. Replacing a power supply To replace a power supply, have the following items available: • A new power supply (AC or DC), which you can order from Extreme Networks. • A small flat-blade or Phillips screwdriver (MLXe-4 and MLXe-32 modules) CAUTION Remove the power cord from a power supply before you install it in or remove it from the device.
Replacing a power supply 3. Remove the power supply from the device: • For a 4-slot device: Use the screwdriver to loosen the two screws on both sides of the power supply faceplate. Then pull the ejectors forward until the power supply disconnects from the backplane. • For an 8-slot or 16-slot device: Pull up on the plunger on the faceplate and pull the handle toward you until the power supply is released.
Replacing fan assemblies 4. Insert the new power supply into the empty power supply slot, using the guides provided on either side of the slot. CAUTION Carefully follow the mechanical guides on each side of the power supply slot and make sure the power supply is properly inserted in the guides. Never insert the power supply upside down. 5. After you insert the power supply, push gently on the power supply faceplate until the power supply is fully seated. 6.
Replacing fan assemblies Before replacing a fan assembly, have the following items available: • A new fan assembly, which you can order from Extreme Networks. • A small flat-blade screwdriver • An ESD wrist strap with a plug for connection to the ESD connector on the front of the device. DANGER For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor. Use the following steps to replace a fan assembly. 256 1.
Replacing fan assemblies 3. Remove the fan assembly by grasping the handle on the faceplate and pulling the assembly toward you as shown in Replacing the rear fan assemblies in 16-slot routers on page 258. Pulling the fan assembly unseats the fan connector from the device. DANGER The ExtremeRouting MLX-32 fan assembly is heavy and will be off-balance as you remove it. Use both hands on the handle. DANGER Be careful not to accidently insert your fingers into the fan tray while removing it from the chassis.
Replacing fan assemblies 3 Fan module 3 8 Fan module 8 4 Fan module 4 9 Fan module 9 5 Fan module 5 10 Fan module 10 4. Insert the new fan assembly into the fan slot and push the assembly in until the faceplate is flush with the router. Pushing the fan assembly in seats the fan connector in the router connector. 5. Secure the fan assembly to the router by replacing and tightening the four screws (on the upper eight fan assemblies) and the two screws (on the lower two fan assemblies). 6.
Replacing fan assemblies 3. Remove the fan by inserting your fingers underneath the fan assembly and pulling the assembly toward you as shown in the following figure. Pulling the fan assembly unseats the fan connector from the router connector. DANGER Be careful not to accidently insert your fingers into the fan tray while removing it from the chassis. The fan may still be spinning at a high speed. FIGURE 112 Replacing a fan assembly in a MLX-16 router 4.
Replacing fan assemblies DANGER For safety reasons, the ESD wrist strap should contain a series 1 megaohm resistor. NOTE If you did not remove the extra shipment screws from the router during installation, you will not be able to remove the fan tray assembly. You will need to remove the router from the rack to remove the shipping screws, (refer to the installation chapter appropriate for your router model) before you can remove the fan tray assembly.
Replacing fan assemblies 2. To remove the fan tray assembly from the router, push down on the latch release with your thumb, grasp the handle, and pull it toward you as shown in the following two figures. Pulling the assembly unseats the fan tray assembly connector from a router connector. DANGER Be careful not to accidently insert your fingers into the fan tray while removing it from the chassis. The fan may still be spinning at a high speed.
Replacing fan assemblies Replacing the air filters It is strongly recommended that routers be installed in environments that have minimal dust and airborne contaminants. If routers are installed in environments where dust or other airborne contaminants may be present, air filters should be inspected and replaced as needed. Maintaining clean air filters ensures optimal airflow through the devices. You can replace the air filters while a router is powered on and running.
Replacing fan assemblies 3. Insert a new filter, being careful that it aligns within the narrow channel. 4. Repeat steps 2 and 3 to replace the second filter. 5. Replace the air inlet cover and tighten the four captive screws to secure the air filter to the router. FIGURE 116 Air filter removal and replacement for 32-slot routers 1 Direction of airflow in device Replacing the air filter in MLX-4 and MLX-8 routers Follow these steps to replace the air filter in MLX Series 4-slot and 8-slot routers.
Replacing fan assemblies 2. Pull the filter tray away from the router as shown in one of the following two figures. FIGURE 117 Replacing an air filter in the MLX-4 router. 1 Air filter 2 Air filter tray FIGURE 118 Air filter removal and replacement for the MLX-8 router. 264 1 Air filter 2 Air filter tray 3. Remove the old air filter from the tray and discard it. 4. Insert the replacement air filter into the air filter tray. 5.
Replacing fan assemblies Replacing the air filter in MLX-16 routers Follow these steps to replace the air filter in a MLX Series 16-slot router. 1. Loosen the two screws in the front of the filter. 2. Pull the filter out of the router as shown in the following figure. FIGURE 119 Replacing the air filter in the MLX-16 routers 3. Remove the old filter from the chassis and discard the used filter. 4. Insert a new air filter into the filter slot and tighten the two screws.
Replacing fan assemblies Removing a fan assembly from the chassis To remove a fan assembly from the chassis that is receiving power, complete the following steps: 1. Put on the ESD wrist strap and ground yourself by inserting the plug into the ESD connector on the router. 2. Depending on your router model ( MLXe-32) use the appropriate screwdriver to remove the screws that secure the fan assembly faceplate to the rear of the router.
Replacing fan assemblies 2. If present, remove and discard the tape that stabilizes louvers in some fan assembly models. When present, the tape is located on the right and left sides of the fan assembly.
Replacing fan assemblies 3. Remove the fan assembly handle by detaching the two screws from the inside of the fan assembly faceplate using a Phillips screwdriver, as shown in the following figure. FIGURE 122 Handle removal 4. 268 Orient the upward deflector on the fan assembly faceplate so that the exhaust will flow upward and the holes in the upward deflector align with the holes where the screws secure the handle to the fan assembly faceplate. Refer to the previous figure.
Replacing fan assemblies 5. Place the handle over the upward deflector aligning the handle with the screw holes, and secure the handle to the upward deflector and fan assembly faceplate with the two screws, as shown in the following figure. FIGURE 123 Upward deflector oriented correctly between the handle and fan assembly faceplate 6. Re-attach the fan assembly faceplate to the fan assembly by securing three screws on each side. NOTE Replacing the tape is not required.
Extreme Routing MLX Series Hardware Installation Guide 9035627-01
Hardware Specifications • • Hardware specifications for ExtremeRouting MLX Series routers.............................................................................................271 Port specifications for all router models................................................................................................................................................
Hardware specifications for ExtremeRouting MLX Series routers The following table lists power consumption, in watts, for MLX Series router components.
Hardware specifications for ExtremeRouting MLX Series routers The following table lists power consumption information for MLX Series routers with all base components installed, and with only the specified interface modules installed.
Hardware specifications for ExtremeRouting MLX Series routers TABLE 50 MLX Series routers physical dimensions Router model MLX Series-4 MLX Series-8 MLX Series-16 MLX Series-32 Height Width Depth Depth with Fan FRU Weight Weight (empty) (fully loaded) 22.13 cm 43.69 cm 58.42 cm 63.5 cm 27.40 kg 52.84 kg (8.714 in.) (17.20 in.) (23.0 in.) (25.0 in.) (60.4 lbs) (116.5 lbs.) 31.01 cm 43.69 cm 60.96 cm 66.04 cm 35.47 kg 77.72 kg (12.21 in.) (17.20 in.) (24.0 in.) (26.0 in.
Port specifications for all router models Electromagnetic approvals • FCC Part 15, Subpart B (Class A) • EN 55022 (CE mark) (Class A) • EN 55024 (CE mark) (Immunity) for Information Technology Equipment • ICES-003 (Canada) (Class A) • AS/NZ 55022 (Australia) (Class A) • VCCI (Japan) (Class A) • EN 61000-3-2 • EN 61000-3-3 • EN 61000-6-1 Port specifications for all router models This section describes port specifications for all router models.
Port specifications for all router models 1 Reserved 6 Reserved 2 TXD (output) 7 Reserved 3 RXD (input) 8 Reserved 4 Reserved 9 Reserved 5 GND Most PC serial ports require a cable with a female DB-9 connector. Terminal connections will vary, requiring a cable with either a DB-9 or DB-25 connector, male or female. Serial cable options between the router and a PC or terminal are shown in the following table. NOTE As shown in the figures in this section, some wires should not be connected.
ExtremeRouting MLX Series Chassis Bundles The following tables describe the ExtremeRouting MLX Series chassis bundles and their components. TABLE 56 MLXe-4 chassis bundles Part number Hardware BR-MLXE-4-AC Bundle contents: • 1 MLX-4 chassis • 2 high speed switch fabric modules(NI-X-4-HSF) • 1 1200W AC power supply(NI-X-ACPWR) • 4 exhaust fan assembly kits(BR-MLXE-4-FAN) • 1 air filter(BR-MLXE-4-FLTR) Management modules must be ordered separately. Power cord is not included.
TABLE 56 MLXe-4 chassis bundles (continued) Part number Hardware • 1 1200W AC power supply(NI-X-ACPWR) • 4 exhaust fan assembly kits(BR-MLXE-4-FAN) • 1 air filter (BR-MLXE-4-FLTR) Power cord is not included. BR-MLXE-4-MR-X-DC Bundle contents: • 1 MLXe-4 AC chassis • 1 MR management module (NI-XMR-MR) • 2 high speed switch fabric modules(NI-X-4-HSF) • 1 1200W DC power supply(NI-X-DCPWR) • 4 exhaust fan assembly kits(BR-MLXE-4-FAN) • 1 air filter(BR-MLXE-4-FLTR) Power cord is not included.
TABLE 57 MLX-8 chassis bundles Part number Hardware BR-MLXE-8-AC Bundle contents: • 1 MLX-8 chassis • 2 high speed switch fabric modules(NI-X-16-8-HSF) • 2 1200W AC power supplies(NI-X-ACPWR) • 2 exhaust fan assembly kits(BR-MLXE-8-FAN) • 1 air filter (BR-MLXE-8-FLTR) Management modules must be ordered separately. Power cord is not included.
TABLE 57 MLX-8 chassis bundles (continued) Part number Hardware • 2 1200W DC power supply(NI-X-DCPWR) • 2 exhaust fan assembly kits(BR-MLXE-8-FAN) • 1 air filter(BR-MLXE-8-FLTR) Power cord is not included.
TABLE 58 MLX Series-16 chassis bundles (continued) Part number Hardware • 1 air filter(BR-MLXE-16-FLTR) Management modules must be ordered separately. Power cord is not included. BR-MLXE-16-DC Bundle contents: • 1 MLX-16 chassis • 3 high speed switch fabric modules(NI-X-16-8-HSF) • 4 1200W DC power supplies(NI-X-DCPWR) • 2 exhaust fan assembly kits(BR-MLXE-16-FAN) • 1 air filter(BR-MLXE-16-FLTR) Management modules must be ordered separately. Power cord is not included.
TABLE 58 MLX Series-16 chassis bundles (continued) Part number Hardware BR-MLXE-16-MR2-M-AC Bundle contents: • 1 MLXe-16 AC chassis • 1 MR2 (M) management module(BR-MLX-MR2-M) • 3 high speed switch fabric modules(NI-X-4-HSF) • 4 1800W AC power supplies(BR-MLXE-ACPWR-1800) • 2 exhaust fan assembly kits(BR-MLXE-16-FAN) • 1 air filter (BR-MLXE-16-FLTR) Power cord is not included.
TABLE 59 MLX Series chassis spares (continued) Part Number Hardware Installation guide BR-MLXE-32-S 1 MLX-32 spare chassis ExtremeRouting MLX Series and ExtremeRouting XMR/MLX Hardware Installation Guides TABLE 60 MLX-32 chassis bundles Part number Hardware BR-MLXE-32-AC Bundle contents: • 1 MLX-32 chassis • 7 high speed switch fabric modules(NI-X-32-HSF) • 4 2400W AC power supplies(NIBI-32-ACPWR-A) • 2 power supply fans(NIBI-32-PSFAN) • 8 exhaust fan assembly kits(BR-MLXE-32-FAN) • 2 ai
TABLE 60 MLX-32 chassis bundles (continued) Part number Hardware • Cable management system Power cord is not included. BR-MLXE-32-MR-X-AC Bundle contents: • 1 MLXe-32 AC chassis • 1 MR management module(BR-MLX-32-MR) • 7 high speed switch fabric modules(NI-X-32-HSF) • 4 2400W AC power supplies(NIBI-32-ACPWR-A) • 2 power supply fans(NIBI-32-PSFAN) • 8 exhaust fan assembly kits(BR-MLXE-32-FAN) • 2 air filters(BR-MLXE-32-FLTR) • Cable management system Power cord is not included.
TABLE 60 MLX-32 chassis bundles (continued) Part number Hardware • 1 MR2 (X) management module(BR-MLX-32-MR2-X) • 7 high speed switch fabric modules(NI-X-32-HSF) • 4 3000W AC power supplies(BR-MLXE-32-ACPWR-3000) • 2 power supply fans (NIBI-32-PSFAN) • 8 exhaust fan assembly kits(BR-MLXE-32-FAN) • 2 air filters(BR-MLXE-32-FLTR) • Cable management system Power cord is not included.
Extreme Routing MLX Series Hardware Installation Guide 9035627-01
Regulatory Statements • • • • • • • • • • BSMI statement (Taiwan).............................................................................................................................................................................287 Canadian requirements................................................................................................................................................................................ 287 China CC statement.................................................
China CC statement China CC statement Europe and Australia (CISPR 22 Class A Warning) This is a Class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.
KCC statement (Republic of Korea) FCC warning (US only) This equipment has been tested and complies with the limits for a Class A computing 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.
VCCI statement VCCI statement This is a Class A product based on the standard of the Voluntary Control Council for Interference by Information Technology Equipment (VCCI). If this equipment is used in a domestic environment, radio disturbance might arise. When such trouble occurs, the user might be required to take corrective actions. Japan power cord English translation of above statement ATTENTION: Never use the power cord packed with your equipment for other products.
EMC, safety, and environmental regulatory compliance information • EN 61000-6-1 Regulatory compliance (safety) • CAN/CSA-C22.2 No. 60950/UL 60950 • EN 60825 Safety of Laser Products • EN 60950/IEC 60950 Safety of Information Technology Equipment Regulatory compliance (environmental) • 2014/35/EU and 2014/30/EU • 2011/65/EU - Restriction of the use of certain hazardous substance in electrical and electronic equipment (EU RoHS). • 2012/19/EU - Waste electrical and electronic equipment (EU WEEE).
Extreme Routing MLX Series Hardware Installation Guide 9035627-01
Caution and Danger Notices • • Cautions..............................................................................................................................................................................................................293 Danger Notices................................................................................................................................................................................................
Cautions CAUTION Changes or modifications made to this device that are not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. VORSICHT Falls dieses Gerät verändert oder modifiziert wird, ohne die ausdrückliche Genehmigung der für die Einhaltung der Anforderungen verantwortlichen Partei einzuholen, kann dem Benutzer der weitere Betrieb des Gerätes untersagt werden.
Cautions CAUTION Ensure that the device does not overload the power circuits, wiring, and over-current protection. To determine the possibility of overloading the supply circuits, add the ampere (amp) ratings of all devices installed on the same circuit as the device. Compare this total with the rating limit for the circuit. The maximum ampere ratings are usually printed on the devices near the input power connectors.
Cautions CAUTION All devices with AC power sources are intended for installation in restricted access areas only. A restricted access area is a location where access can be gained only by trained service personnel through the use of a special tool, lock and key, or other means of security. VORSICHT Alle Geräte mit Wechselstromquellen sind nur zur Installation in Sperrbereichen bestimmt.
Cautions am Produkt muss es sich um einen zulässigen Kupferdraht (12 AWG gekennzeichnet mit VW-1), der für mindestens 90° C ausgelegt ist, handeln. MISE EN GARDE Pour le circuit d'alimentation C.C.(références du bloc d'alimentation C.C. RPS9-DC), assurez-vous de la présence d'un 20 ampères, minimum -48 V C.C., double coupure, sur l'entrée vers le bloc d'alimentation. Les câbles d'alimentation pour le produit doivent être en fils de cuivre, 3.
Cautions CAUTION For the DC input circuit to the system of an ExtremeRouting MLX-32 (3000W supply) make sure there is a 80 amp circuit breaker, minimum -48Vdc, double pole, on the input lugs to the power supply. The input wiring for connection to the product should be Listed copper wire, 2 AWG, marked VW-1, and rated minimum 90° C.
Cautions PRECAUCIÓN Para un sistema de CA Extreme Networks, utilice un conductor de tierra de al menos 6 CAE (Calibre de Alambre Estadounidense, American Wire Gauge o AWG en sus siglas en inglés). El conductor de tierra debe tener un conector rizado homologado (suministrado con el chasis) acoplado a un extremo, y el otro extremo debe estar conectado a la tierra del edificio. El conector debe rizarse con la herramienta apropiada, de manera que se conecte a los dos tornillos de tierra del recinto.
Cautions CAUTION Carefully follow the mechanical guides on each side of the power supply slot and make sure the power supply is properly inserted in the guides. Never insert the power supply upside down. VORSICHT Beachten Sie mechanischen Führungen an jeder Seite des Netzteils, das ordnungegemäß in die Führungen gesteckt werden muss. Das Netzteil darf niemals umgedreht eingesteckt werden.
Danger Notices Danger Notices A Danger statement indicates conditions or situations that can be potentially lethal or extremely hazardous to you. Safety labels are also attached directly to products to warn of these conditions or situations. Ein Gefahrenhinweis warnt vor Bedingungen oder Situationen die tödlich sein können oder Sie extrem gefährden können. Sicherheitsetiketten sind direkt auf den jeweiligen Produkten angebracht um vor diesen Bedingungen und Situationen zu warnen.
Danger Notices DANGER Débranchez le cordon d'alimentation de toutes les sources d'alimentation pour couper complètement l'alimentation du dispositif. PELIGRO Para desconectar completamente la corriente del instrumento, desconecte el cordón de corriente de todas las fuentes de corriente.
Danger Notices PELIGRO Verifique que circuitos de la fuente de corriente están conectados a tierra correctamente; luego use el cordón de potencia suministrado con el instrumento para conectarlo a la fuente de corriente DANGER Make sure to choose the appropriate circuit device depending on the number of AC power supplies installed in the chassis. The minimum current draw for the system is one AC power supply.
Danger Notices Dangers related to equipment weight DANGER Make sure the rack housing the device is adequately secured to prevent it from becoming unstable or falling over. GEFAHR Stellen Sie sicher, dass das Gestell für die Unterbringung des Geräts auf angemessene Weise gesichert ist, so dass das Gestell oder der Schrank nicht wackeln oder umfallen kann. DANGER Vérifiez que le bâti abritant le dispositif est bien fixé afin qu'il ne devienne pas instable ou qu'il ne risque pas de tomber.
Danger Notices DANGER The ExtremeRouting MLX-32 fan assembly is heavy and will be off-balance as you remove it. Use both hands on the handle. GEFAHR Die ExtremeRouting MLX-32-Ventilatoreinheit ist schwer und kommt aus dem Gleichgewicht, wenn sie entfernt wird. Den Griff mit beiden Händen anfassen. DANGER Le module de ventilation du ExtremeRouting MLX-32 est lourd et peut déséquilibrer lors de la dépose. Tenir la poignée à l'aide des deux mains.
