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System Basics: Chassis-Level Features Configuration Guide
The Junos OS enables you to configure chassis-level features that are platform-specific or PIC-specific. In addition, you can configure support for aggregated devices, chassis-level alarms, external clock synchronization, and other features at the [edit chassis] hierarchy level of the CLI. Use the topics on this page to configure essential chassis-level features for Juniper devices running Junos OS.
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- Overview
Router Chassis Configuration Overview Router Chassis Configuration Overview
Port-Mirroring Instances Overview
Fabric Fault Handling Overview
Interoperability of Type 3 FPCs and Type 4 FPCs with Type 5 FPCs
Fabric Plane Management on AS MLC Modular Carrier Card Overview
Router Chassis Clocking and Synchronization Configuration Overview Interface and Router Clock Sources Overview
Synchronous Ethernet on 10-Gigabit Ethernet MIC Overview
Ethernet Synchronization Message Channel Overview
Router Chassis Network Services Configuration Overview TX Matrix and TX Matrix Plus Router Configuration Overview TX Matrix Router and T640 Router Configuration Overview
TX Matrix Router Chassis and Interface Names
- Configuration
Configuring TX Matrix Chassis-Level Features Using the Junos OS to Configure a T640 Router Within a Routing Matrix
Configuring the Junos OS to Upgrade and Downgrade Switch Interface Boards on a TX Matrix Router
Example: Configuring Packet Forwarding Engine FIB Localization
Configuring TX Matrix Plus Chassis-Level Features Using the Junos OS to Configure a T1600 or T4000 Router Within a Routing Matrix
Configuring M Series Chassis-Level Features Configuring Port-Mirroring Instances on M320 Routers
Configuring Port-Mirroring Instances on M120 Routers
Configuring the Junos OS to Enable MTU Path Check for a Routing Instance on M Series Routers
Configuring the Junos OS to Enable an M160 Router to Operate in Packet Scheduling Mode
Configuring the Junos OS to Make an SFM Stay Offline
Configuring the Junos OS to Support FPC to FEB Connectivity on M120 Routers
Configuring the Junos OS to Support Eight Queues on IQ Interfaces for T Series and M320 Routers
Configuring MX Series Chassis-Level Features Configuring Port-Mirroring Instances on MX Series 3D Universal Edge Routers
Configuring PIC-Level Symmetrical Hashing for Load Balancing on 802.3ad LAGs for MX Series Routers
16-Port 10-Gigabit Ethernet MPC on MX Series Routers (16x10GE 3D MPC) Overview
Configuring the Number of Active Ports on a 16-Port 10-Gigabit Ethernet MPC on MX Series Routers
Configuring Tunnel Interfaces on an MX Series Router with a 16x10GE 3D MPC
MPC3E on MX Series Routers Overview
Configuring Tunnel Interfaces on MX Series Routers with the MPC3E
Configuring the Power-On Sequence for DPCs on MX Series Routers with the Enhanced AC PEM
Configuring Junos OS to Run a Specific Network Services Mode in MX Series Routers
Configuring T Series Chassis-Level Features Configuring the Power-On Sequence for FPCs on T640, T1600, and T4000 Routers
Configuring J Series Chassis-Level Features Configuring the Junos OS to Support the uPIM Mode on J Series Routers
Configuring the Junos OS to Set a PIM Offline on J Series Routers
Configuring the Junos OS to Disable Power Management on the J Series Chassis
Configuring PIC-Specific Features Configuring the Junos OS to Make a Flexible PIC Concentrator Stay Offline
Configuring the Junos OS to Enable SONET/SDH Framing for SONET/SDH PICs
Configuring Junos OS to Enable SONET/SDH Framing for ATM MICs
Configuring the Junos OS to Use ATM Cell-Relay Accumulation Mode on an ATM1 PIC
Configuring the Junos OS to Support the Sparse DLCI Mode on Channelized STM1 or Channelized DS3 PICs
Configuring the Junos OS to Enable a SONET PIC to Operate in Channelized (Multiplexed) Mode
Configuring the Junos OS to Support Channel Groups and Time Slots for Channelized E1 PICs
Ranges for Channelized E1 Interfaces Configuration
Configuring the Junos OS to Support ILMI for Cell Relay Encapsulation on an ATM2 IQ PIC
Configuring the Junos OS to Support the Link Services PIC
Multiclass Extension for Multiple Classes of Service Using MLPPP (RFC 2686)
Maximum Delay Buffer with q-pic-large-buffer Statement Enabled
Configuring Resynchronization of FPC Sequence Numbers when a new FPC is Brought Online Configuring Chassis Settings to Support Aggregated Devices Configuring Chassis Settings to Support Load Balancing Configuring ECMP Next Hops for RSVP and LDP LSPs for Load Balancing
Configuring Chassis Settings to Support Channelized Interfaces Configuring the Junos OS to Support Channelized DS3-to-DS0 Naming for Channel Groups and Time Slots
Ranges for Channelized DS3-to-DS0 Configuration
Configuring the Junos OS to Support Channelized STM1 Interface Virtual Tributary Mapping
Configuring the Junos OS to Enable Channelization on DS3/E3 MIC
Configuring Chassis Settings to Support Adaptive Services Interfaces Configuring the Junos OS to Enable Service Packages on Adaptive Services Interfaces
Configuring Chassis Settings to Support External Clock Synchronization Configuring Clock Synchronization Interface for MX Series Routers
Clock Sources for PTX Series Packet Transport Switches
Configuring an External Clock Synchronization Interface for PTX Series Packet Transport Switches
Example: Configuring Synchronous Ethernet on MX Series Routers
Configuring Chassis Setting to Support Precision Time Protocol Configuring Chassis Setting to Support Hybrid Mode Configuring Hybrid Mode and ESMC Quality Level Mapping
Example: Configuring Hybrid Mode and ESMC Quality Level Mapping
Configuring Chassis Settings to Support ATM Devices Configuring the Junos OS to Enable ATM2 Intelligent Queuing Layer 2 Circuit Transport Mode
Configuring the Junos OS to Enable Idle Cell Format and Payload Patterns for ATM Devices
Configuring Chassis Settings for Routing Engines and Packet Forwarding Engines Signaling Neighboring Routers of Fabric Down on T640 and T1600 Routers
Traffic Black Hole Caused by Fabric Degradation
Detection and Recovery of Fabric-Related Failures Caused by Traffic Black Holes on MX Series Routers
Corrective Actions for Fabric Failures on MX Series Routers
Detection and Corrective Actions of FPCs with Degraded Fabric on MX Series Routers
Disabling an FPC with Degraded Fabric Bandwidth
Configuring Redundancy Fabric Mode for Active Control Boards on MX Series Routers
Configuring the Junos OS to Enable a Routing Engine to Reboot on Hard Disk Errors
Associating Sampling Instances for Active Flow Monitoring with a Specific FPC, MPC, or DPC
Configuring Chassis Settings for the Craft Interface Configuring the Junos OS to Disable the Physical Operation of the Craft Interface
Configuring Chassis Settings for PEMs Configuring Chassis Settings for Alarms Configuring the Junos OS to Determine Conditions That Trigger Alarms on Different Interface Types
System-Wide Alarms and Alarms for Each Interface Type
Chassis Conditions That Trigger Alarms
Silencing External Devices Connected to Alarm Relay Contacts
Examples Example: Configuring Tunnel Interfaces on a Gigabit Ethernet 40-Port DPC
Example: Configuring J Series Services Router Switching Interfaces
Example: Configuring Tunnel Interfaces on a 10-Gigabit Ethernet 4-Port DPC
Example: Configuring Tunnel Interfaces on the MPC3E
Example: Configuring Centralized Clocking on the Enhanced MX Switch Control Board
Configuration Statements [edit chassis] Hierarchy Level
clock-class-to-quality-level-mapping
convert-clock-class-to-quality-level
degraded-fabric-detection-enable
degraded-fpc-bad-plane-threshold
feeds (T640, T1600, and T4000 Routers with Six-Input DC Power Supply)
fpc (M320, T320, T640 Routers)
fpc (MX Series 3D Universal Edge Routers)
fpc (TX Matrix and TX Matrix Plus Routers)
link-protection (Protocols LACP)
offline-on-fabric-bandwidth-reduction
on-disk-failure (Chassis Routing Engine)
pem (T640, T1600, and T4000 Routers with Six-Input DC Power Supply)
pic (M Series, MX Series, and T Series Routers)
pic (TX Matrix and TX Matrix Plus Routers)
- Administration
Administrative Commands request chassis redundancy feb slot
request chassis routing-engine master
request chassis sfm master switch
request chassis sib f13 train-link-receive slot
request chassis sib f13 train-link-transmit slot
request chassis sib optics lcc
request chassis sib optics sfc
request chassis sib train-link-receive slot
request chassis sib train-link-transmit slot
Monitoring Commands show chassis environment monitored
show chassis environment routing-engine
show chassis fan
show chassis fabric destinations
show chassis fabric plane-location
show chassis fabric redundancy-mode
show chassis fabric reachability
show chassis fabric degraded-fabric-reachability
show chassis fabric unreachable-destinations
show chassis fpc-feb-connectivity
show chassis in-service-upgrade
show chassis synchronization (MX Series Routers)
- Troubleshooting
Knowledge Base
