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- About This Document
Device Status Query- Hardware Management
- Stack Configuration
- Using the Stack Assistant Tool to Quickly Obtain Information
- Overview of Stacks
- Stack Modes
- Understanding Stacks
- Stack Support and Version Requirements
- Stack Configuration and Deployment Recommendations
- Recommended Stack Deployment Scenarios
- Stack Version and Model Requirements
- S2700 Service Port Stacking Support
- S3700 Service Port Stacking Support
- S5700EI and S5700SI Stack Card Stacking Support
- S5700LI and S5700S-LI Service Port Stacking Support
- S5700HI and S5710HI Service Port Stacking Support
- S5720HI and S5730HI Service Port Stacking Support
- S5710-C-LI Stack Card Stacking Support
- S5710-X-LI Service Port Stacking Support
- S5710EI Service Port Stacking Support
- S5720EI Stack Card Stacking Support
- S5720EI Service Port Stacking Support
- S5720LI and S5720S-LI Service Port Stacking Support
- S5720SI, S5720S-SI, and S5720I-SI Service Port Stacking Support
- S5730SI Stack Card Stacking Support
- S5730SI Service Port Stacking Support
- S5730S-EI Stack Card Stacking Support
- S5730S-EI Service Port Stacking Support
- S6700EI Service Port Stacking Support
- S6720HI Service Port Stacking Support
- S6720EI and S6720S-EI Service Port Stacking Support
- S6720LI and S6720S-LI Service Port Stacking Support
- S6720SI and S6720S-SI Service Port Stacking Support
- Default Settings for Stacks
- Establishing a Stack Through Stack Card Connections
- Establishing a Stack Through Service Port Connections Using Ordinary Stack Cables
- Establishing a Stack Through Service Port Connections Using Dedicated Stack Cables (Zero-Configuration Stacking)
- Configuring Enhanced Stacking Functions
- Maintaining Stacks
- Monitoring the Stack Status
- Displaying Stack IDs Through Service Port Indicators
- Enabling and Disabling Stacking
- Deleting a Stack Member Port
- Changing a Stack Member Port
- Clearing Stack Configuration
- Restarting a Stack Member
- Replacing a Stack Member
- Loading a Patch for a Stack
- Performing a Master/Standby Switchover
- Upgrading Stack Software
- Splitting a Stack
- Configuration Examples for Stacks
- Example for Establishing a Stack Using Stack Card Connections
- Example for Establishing a Stack Through Service Port Connections Using Ordinary Stack Cables
- Example for Establishing a Stack Through Service Port Connections Using Dedicated Stack Cables
- Example for Configuring MAD in Direct Mode
- Example for Configuring MAD in Relay Mode
- Example for Configuring Stack Eth-Trunks
- Example for Adding a Member Switch to a Stack (Stack Card Connection)
- Example for Adding a Member Switch to a Stack (Service Port Connection Using Ordinary Stack Cables)
- Example for Adding a Member Switch to a Stack (Service Port Connection Using Dedicated Stack Cables)
- Example for Upgrading a Stack (Smooth Upgrade)
- FAQ About Stacks
- SVF Configuration
- Using the SVF Assistant Tool to Quickly Obtain Information
- Overview of SVF
- SVF Roles
- SVF Networking
- SVF Setup Process
- SVF Management and Maintenance
- AS Service Configuration
- Licensing Requirements and Limitations for SVF
- Default Settings for SVF
- SVF Configuration Roadmap
- Setting Up an SVF System (The Parent Is Directly Connected to ASs)
- Setting Up an SVF System (The Parent Is Connected to ASs Through a Layer 2 Network)
- Setting Up an SVF System (AP Access)
- Configuring Services for an AS
- Displaying Services Configured for ASs
- Maintaining an SVF System
- Splitting an SVF System
- Configuration Examples for SVF
- Example for Configuring SVF to Deploy a Wired Campus Network Access Layer (S12700 as the Parent)
- Example for Configuring SVF to Deploy a Wired Campus Network Access Layer (S6720EI as the Parent)
- Example for Configuring SVF to Deploy a Wired and Wireless Converged Campus Network Access Layer (S12700 as the Parent)
- Example for Configuring SVF to Deploy a Wired and Wireless Converged Campus Network Access Layer (S5720HI as the Parent)
- Example for Configuring an SVF System Across a Layer 2 Network on a Wired Campus Network Access Layer (S12700 as the Parent)
- Cloud-based Management Configuration
- Overview of Cloud-based Management
- Understanding Cloud-based Management
- Basic Concepts of Cloud-based Management
- Process of Implementing Cloud-based Management on Switches
- Obtaining the Device Management Mode and Cloud Management Platform's Address Information Through a DHCP Server
- Obtaining the Cloud Management Platform's Address Information Through the Registration Query Center
- Process of Registering a Stack with the Cloud Management Platform
- Application Scenarios for Cloud-based Management
- Licensing Requirements and Limitations for Cloud-based Management
- Default Settings for Cloud-based Management
- Configuring Cloud-based Management
- Maintaining Cloud-based Management
- PoE Configuration
- Overview of PoE
- Understanding PoE
- Application Scenarios for PoE
- Licensing Requirements and Limitations for PoE
- Default Settings for PoE
- Configuring PoE
- Enabling the PoE Function
- (Optional) Configuring LLDP Power Capacity Negotiation
- (Optional) Configure the Single-Class Power Supply Mode for a PoE Interface
- (Optional) Configuring the PoE Power Supply Delay
- Configuring PoE Power Management
- (Optional) Configuring the Device to Allow High Inrush Current During Power-On
- Configuring PoE Power-on and Power-off Management
- Verifying the PoE Configuration
- Example for Configuring PoE
- Monitoring Interface Configuration
- OPS Configuration
- Overview of OPS
- Understanding OPS
- Application Scenarios for OPS
- OPS APIs Supported by a Device
- Licensing Requirements and Limitations for OPS
- Default Settings for OPS
- Configuring OPS
- Maintaining OPS
- Configuration Examples for OPS
- Example for Using a User-defined Command to Monitor Changes of Important Routes
- Example for Providing a Warning Message According to User Input
- Example for Using the User-defined Environment Variable to Monitor Stack Status Change
- Example for Providing a Warning Message by Saving and Restoring a Script Variable
- Example for Configuring an Interface Description Based on LLDP Neighbor Status
- OPS API List
- Command Line Event Subscription
- Timer Event Subscription
- Route Change Event Subscription
- Log Event Subscription
- Trap Event Subscription
- LLDP Neighbor Change Event Subscription
- Stack Status Change Event Subscription
- Interface Statistics Collection Event Subscription
- Multi-Condition Combination
- Combined Event Trigger
- Obtaining Environment Variable
- Opening CLI Channel
- Executing CLI Command
- Closing CLI Channel
- Obtaining Device Information Through SNMP (get)
- Obtaining Device Information Through SNMP (getnext)
- Recording Log
- Displaying Prompt Information to a Terminal
- Reading User Input from a Terminal
- Saving Script Variable
- Restoring Script Variable
- Supporting Resident Script
- Returning Event Execution Results
- Appendix: Python Standard Libraries Supported by Devices
- Energy-Saving Management Configuration
- Information Center Configuration
- Overview of the Information Center
- Understanding the Information Center
- Application Scenarios for the Information Center
- Licensing Requirements and Limitations for the Information Center
- Configuring Log Output
- Enabling the Information Center
- (Optional) Renaming Information Channels
- (Optional) Configuring Log Filtering
- (Optional) Setting the Timestamp Format of Logs
- (Optional) Disabling the Log Counter Function
- (Optional) Configuring the Suppression of the Log Processing Rate
- (Optional) Enabling Suppression of Statistics About Consecutive Repeated Logs
- Configuring the Device to Output Logs to the Log Buffer
- Configuring the Device to Output Logs to Log Files
- Configuring the Device to Output Logs to the Console
- Configuring the Device to Output Logs to a Terminal
- Configuring the Device to Output Logs to a Log Host
- Verifying the Log Output Configuration
- Configuring Trap Output
- Enabling the Information Center
- (Optional) Renaming Information Channels
- (Optional) Configuring Trap Filtering
- (Optional) Setting the Timestamp Format of Traps
- Configuring the Device to Output Traps to the Trap Buffer
- Configuring the Device to Output Traps to a Log File
- Configuring the Device to Output Traps to the Console
- Configuring the Device to Output Traps to a Terminal
- Configuring the Device to Output Traps to a Log Host
- Configuring the Device to Output Traps to an SNMP Agent
- Verifying the Trap Output Configuration
- Configuring Debugging Message Output
- Enabling the Information Center
- (Optional) Renaming Information Channels
- (Optional) Setting the Timestamp Format of Debugging Messages
- Configuring the Device to Output Debugging Messages to the Log File
- Configuring the Device to Output Debugging Messages to the Console
- Configuring the Device to Output Debugging Messages to the Terminal
- Configuring the Device to Output Debugging Messages to the Log Host
- Verifying the Debugging Message Output Configuration
- Maintaining the Information Center
- Configuration Examples for the Information Center
- Fault Management Configuration
- NTP Configuration
- Overview of NTP
- Understanding NTP
- Application Scenarios for NTP
- Licensing Requirements and Limitations for NTP
- Configuring Basic NTP Functions
- Configuring the Client Clock
- Configuring the Local Source Interface for Sending and Receiving NTP Packets
- Limiting the Number of Local Dynamic Sessions
- Configuring NTP Access Control
- Maintaining NTP
- Configuration Examples for NTP
- Synchronous Ethernet Configuration
- Overview of Synchronous Ethernet
- Understanding Synchronous Ethernet
- Application Scenarios for Synchronous Ethernet
- Licensing Requirements and Limitations for Synchronous Ethernet
- Summary of Synchronous Ethernet Configuration Tasks
- Configuring a Clock Source
- Configuring the Clock Source Selection Mode
- (Optional) Configuring Attributes of a Clock Source
- Example for Configuring Synchronous Ethernet
- PTP Configuration
- Overview of PTP
- Understanding PTP
- Application Scenarios for PTP
- Summary of PTP Configuration Tasks
- Licensing Requirements and Limitations for PTP
- Default Settings for PTP
- Configuring 1588v2 on an OC
- Configuring 1588v2 on a BC
- Configuring 1588v2 on a TC
- Configuring 1588v2 on a TCandBC
- Configuring G.8275.1
- Configuring a G.8275.1 Clock Source
- Configuring G.8275.1 Globally
- Configuring G.8275.1 on an Interface
- (Optional) Configuring G.8275.1 Message Attributes
- Configuring an Encapsulation Mode for G.8275.1 Messages
- (Optional) Statically Specifying the Interface Status of a Clock Device
- Verifying the PTP Configuration
- Maintaining PTP
- Configuration Examples for PTP