Installation Guide
Table Of Contents
- Extreme Routing MLX Series Hardware Installation Guide
- Preface
- About This Document
- Product Overview
- ExtremeRouting MLX Series device overview
- MLX Series router applications
- Hardware features
- MLX Series router modules
- Management modules
- Interface modules
- 2x100GbE CFP2 optics based high density module
- PBIF Recovery
- 2x100GbE CFP2 P2010 specifications
- 2x100GbE CFP2 DDR3 SDRAM memory specifications
- BR-MLX-10GX20-X2 and BR-MLX-100GX2-CFP2-X2 Router Software
- BR-MLX-10GX20-X2 and BR-MLX-100GX2-CFP2-X2 scalability for IPv4 and IPv6 routes
- MLX Series 2x100G XPP ILKN monitoring
- MLX Series CPU threshold monitoring
- MLX Series BR-MLX-10Gx4-M IPsec and IKEv2
- MLX Series Encryption and Decryption of IPv4 Unicast Data and Control Packets
- MLX Series IKEv2 Authentication
- MLX Series IPsec and IKEv2 configuration
- MLX Series Configuring Global IKEv2 Options
- MLX Series Configuring the IKEv2 Proposal
- MLX Series Configuring the IKEv2 Policy
- MLX Series Configuring the IKEv2 Profile
- MLX Series Configuring the IKEv2 authentication proposal
- MLX Series Configuring the IPsec Proposal
- MLX Series Configuring the IPsec Profile
- MLX Series IKEv2 Show Commands
- MLX Series IKEv2 Clear Commands
- MLX-10GX4-IPSEC-M Forwarding
- MLX Series 2x100G XPP ILKN monitoring
- 10Gx24-port interface module
- MLX 24-port 10Gbps (BR-MLX-10Gx24-DM) Interface Modules
- 8x10GE-X interface modules
- Gen-1 10Gx2 and 10Gx4 Ethernet interface modules
- BR-MLX-10GX4-X and BR-MLX-10Gx4-X-ML interface module LEDs
- Gen-1.1 4-port 10 Gbps Ethernet interface modules
- 8-port 10 Gbps M and D interface modules
- 24-port 1 Gbps Ethernet copper RJ-45 interface module
- 24-port 1 Gbps fiber interface module
- 20-port 100/1000 Ethernet interface module
- 20-port 10/100/1000 Ethernet interface module
- NI-MLX-1Gx48-T-A interface module
- BR-MLX-40Gx4-M 4-port 40GbE module
- Auto-tuning links
- Forward Error Correction mode
- Switch fabric modules
- High-speed switch fabric modules
- CFP2 to QSFP28 conversion module
- Power supplies
- Rack mounting brackets
- Cooling system for MLX Series routers
- NIBI-16-FAN-EXH-A high-speed fan assemblies
- Rack mount kit
- Supported software features
- Installing an ExtremeRouting MLX Series device
- Pre-Installation notice for the ExtremeRouting MLX chassis bundles
- Installation precautions
- Installing 2x100GbE CFP2 interface modules
- Installing BR-MLX-10Gx24-DM interface modules
- Installing an MLXe-4 router
- Installing an MLX-8 router
- Installing an MLXe-16 router
- Mounting the MLX-4, MLX-8 or MLX-16 router in a 4-post rack or EIA rack
- Installing an MLXe-32 router
- Preparing the installation site
- MLXe-32 router shipping carton contents
- Unpacking your MLXe-32 router
- Installing an MLXe-32 router in an EIA rack
- Installing modules in the MLXe-32 router
- MLXe-32 router cable management
- Accessing modules for service
- Installing power supplies in an MLXe-32 router
- Connecting AC power
- Connecting DC power
- Removing the MLXe-32 router DC power supplies
- Final steps
- Attaching a management station
- Activating the power source
- Verifying proper operation
- Using Extreme Structured Cabling Components
- Cable cinch overview
- mRJ21 procedures
- RJ-45 procedures
- Cable cinch with one group of RJ-45 cables
- Cable cinch with two groups of RJ-45 cables
- Cable cinch with three groups of RJ-45 cables
- Cable cinch with four groups of RJ-45 cables
- Cable cinch with five groups of RJ-45 cables
- Cable cinch with six groups of RJ-45 cables
- Cable cinch with seven groups of RJ-45 cables
- Cable cinch with eight groups of RJ-45 cables
- Connecting a Router to a Network Device
- Managing Routers and Modules
- Managing the device
- Disabling and re-enabling power to interface modules
- Monitoring I2C failures on management modules
- Displaying device status and temperature readings
- Displaying the Syslog configuration and static and dynamic buffers
- Router Headless State by MP Presence from LP
- Rolling Reboot
- Line Module Configuration Deletion in Interactive Boot Mode
- Managing switch fabric modules
- Managing the cooling system
- Managing interface modules
- Configuring interface module boot parameters
- Synchronizing the software image between management modules and interface modules
- Changing the boot source
- Specifying an immediate boot
- Specifying an immediate boot from the auxiliary flash slots on the management module
- Specifying an immediate boot from management module flash memory
- Specifying an immediate boot from flash memory on the interface module
- Specifying an immediate boot from a TFTP server
- Specifying an immediate interactive boot
- Configuring an automatic boot
- Configuring an automatic boot from the auxiliary flash slot on the management module
- Configuring an automatic boot from flash memory on the management module
- Configuring an automatic boot from flash memory on the interface module
- Configuring an automatic boot from a TFTP server
- Configuring an automatic interactive boot
- Changing priority of slots for interface modules
- Disabling and re-enabling power to interface modules
- Configuring interface module boot parameters
- Monitoring Link Status
- Traffic Manager XPP link monitoring
- Using alarms to collect and monitor device status
- Displaying MR2 management module memory usage
- Enabling and disabling management module CPU usage calculations
- Displaying management module CPU usage
- Removing MAC address entries
- IPv6 ND Proxy
- DRBG Health Test on IPsec LP
- Managing the device
- Maintenance and Field Replacement
- Maintenance and field replacement overview
- Hardware maintenance schedule
- Replacing a management module
- Replacing an interface module
- Replacing a switch fabric module
- Replacing a fiber-optic transceiver
- Replacing a power supply
- Replacing fan assemblies
- Hardware Specifications
- ExtremeRouting MLX Series Chassis Bundles
- Regulatory Statements
- Caution and Danger Notices
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. The alarm history log keeps a record of hardware statuses even after the status has changed. The
alarm history log enables you to quickly determine trouble areas in a system. For example, by accessing the history, you can quickly
determine if a problem is occurring too frequently and might require action.
Each hardware status entry is called an alarm and is classied by severity assigned by the software. The software categorizes alarms in
the following levels:
• Critical - A condition that will cause damage to the system. A condition that causes a trac outage on multiple ports.
• Major - A condition that causes trac outage on single ports or might cause damage to the system.
• Minor - A condition that should be investigated but will not damage the system.
By default, all hardware status alarm levels of major severity and higher are logged, though you can
congure the status alarm levels sent
to both alarm logs (current and history). You can use the show alarm command to view the current status on a device, or a logged history
of hardware alarms. To change the levels of alarms sent to the alarm logs, refer to Conguring Alarm History Buer Size on page 228.
The alarms are specic to hardware status, whereas the syslog records information for software events. Alarms can also be congured on
very specic terms such as a failed temperature sensor on a single interface module.
To take advantage of this feature, you should rst set the alarm history buer size. This is optional, but you have the option to limit how
many entries are stored in the alarm history so you can free up space for other resources. Refer to Conguring Alarm History Buer Size
on page 228 for more information.
Next, you should congure the severity of alarms for each device you want logged. For detailed information, refer to Conguring alarm
logging on page 229. Once you have congured your alarm logging, you can display alarms in the current alarm log and alarm history
log using the show alarm command, as described in Displaying alarms on page 229.
Conguring Alarm History Buer Size
The history buer size is congurable. The default buer size is 400 entries, but it can be congured to list between 100 and 3000
entries using the alarm history command.
For example, to congure the alarm history log size to 100 entries, enter the following command:
device# alarm history 100
Syntax: [no] alarm history n
where n is the number of log entries you want to store in the alarm history log, between 100 and 3000.
To reset the alarm history back to the default buer size, use the alarm history command with the no operand. For example, to set the
buer size back to the default entry size from 100, enter the following command:
device# no alarm history 100
Using alarms to collect and monitor device status
Extreme Routing MLX Series Hardware Installation Guide
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