Allied Telesis X600-24TS, x600-48Ts, x600-24Ts/XP manual Stack Formation, Role of the Stack Master

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Chapter 2: Virtual Chassis Stacking

Stack Formation

The Role of the Stack Master

A virtual chassis stack (VCS) always contains a master plus a number of stack members. To be part of a stack, a switch must connect to other potential stack members via dedicated stacking ports on the VCS Stacking module located in the rear of the switch.

Once the switches have been physically connected to form a stack, powering all the members on automatically sets off a number of processes that enable the stack members to detect the presence of the other stack members and form themselves into a VCS.

In addition to being a member of its VCS stack, the stack master manages functions such as software version control and distribution, routing processing, and network management.

Selecting the Stack Master

The stack members are able to automatically select which switch will become the stack master. This selection is based on two components:

1.The stack member’s priority setting.

2.The stack member’s MAC address.

For both components, the lower the number the higher the priority. To set the stack priority, run the STACK PRIORITY command. Note that changes to these settings will not take effect until the next master re-election. To display these components run the SHOW STACK command.

The master is the switch with the lowest ‘priority setting’, or if no ‘priority settings’ are configured, the switch with the lowest MAC address will become the stack master. When a stack member is initially booted, its priority value defaults to 128. Therefore if all switches retain their defaults, then the stack master will be determined by MAC address comparison.

The stack also assigns a Stack Member-ID number to each member. This number provides a unique reference number for switches within the stack; it plays no part in selecting the stack master. The Stack Member-ID is the entity used as the first digit of the three component port identifier numbers. For example, port number 2.0.14 has the Stack Member-ID of 2.

Note

This last point is an important one to remember when using configuration scripts. You should ensure that you modify your configuration scripts to match any changes you have made to the Stack Member-ID assignments.

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Contents Installation Guide Page Electrical Safety and Emissions Standards Translated Safety Statements Contents Overview Preparation Installing the AT-StackXG Module X600-24Ts-POE Switch List of FiguresFigures List of Tables Tables Preface Product Documentation Starting a Management Session Safety Symbols Used in this Document Symbol Meaning DescriptionWhere to Find Web-based Guides Management Software Updates Contacting Allied TelesisOverview ChapterIntroduction Switch Descriptions LEDsX600-24Ts/XP Switch Shows the x600-24Ts/XP switch front and rear panelShows the x600-48Ts switch front and rear panel X600-48Ts/XP Switch X600-44Ts/XPX600-24Ts-POE Switch X600-24Ts-POE+ Switch Connector Type Speed Duplex Mode Maximum Distance 10/100/1000Base-T PortsCable Type Auto-MDI Port PinoutsSFP Transceiver Slots XFP Transceiver Slots Combo Ports Models Ports and SlotsSD Card Slot Port LEDs 10/100/1000 Base-T LEDsLED SFP LEDs x600-24 Port Switch SFP LEDs x600-48 Port Switch SFP Slot LED Descriptions XFP Transceiver Slot LEDsXFP Slot LED System Status LEDs State DescriptionNon PoE Switch Stack LEDs Stack LEDsMstr Secure Digital SD LED Defined in TableTerminal Port Power Over Ethernet PoE and PoE+ PoE PoE+ Enhanced PoE Differences between PoE, PoE+ and Enhanced PoE Overview Implementation 10/100BASE-TX Redundant Power Supplies AT-RPS3204 Redundant Power Supply UnitAT-LBM Loop Back Module VCS Stacking Module AC Power Connector Overview Virtual Chassis Stacking Features of VCStacking Physical Stack VCStackTM IntroductionVCS Stacking Modules, Cables, and Connections VCStack Recovery States Ring ConfigurationEvent on Master Node Reaction on Reaction on Stack Resiliency Link Configurations via Switch Ports Resilient Stacked Topology Stack Formation Role of the Stack MasterCommon Stack Configuration Stack Member Identification Stack Member Failure Recovery Running QoS within a VCS stackVCS Failure Recovery Fallback ActionStack Maintenance Adding a Stack MemberVirtual Chassis Stacking Installing the Hardware Reviewing Safety Precautions X600 Layer 3 Gigabit Ethernet Switch Installation Guide Installing the Hardware Unpacking a Switch Installing the Power Cord Retaining Clip Installing the Switches in an Equipment Rack ActactivityMounting the Switch in a Rack Resetting the Switch 24Ts/XPVC Stacking Module Installation Installing AT-StackXG Module Securing the AT-StackXG Stacking Module Software Reference Installing the Hardware Cabling the Network Ports Twisted Pair and Fiber Optic Specifications Twisted Pair Cable SpecificationsTransceiver Specifications SFP/XFPInstalling SFP/XFP Transceivers Installing an SFP Transceiver1331 1334 Installing an XFP Transceiver Installing an XFP TransceiverCabling the Network Ports Cabling the 10/100/1000Base-T and Fiber Optic Ports Powering on a Switch Connecting the AC Power CordStarting a Local Management Session Cabling the Network Ports Warranty Registration Cabling the Network Ports Troubleshooting Power LED is Off Twisted Pair Port Link LED is Off SFP or XFP LED is Off Transceiver is Installed but the Status is Not Present System Fault LED is Blinking System Fault LED is Steadily On Cannot Establish a Local Out-of-Band Management Session Switch Functions Intermittently Issues with Virtual Stacking Chassis Configuration Physical Specifications Technical SpecificationsAppendix a Environmental Specifications Power SpecificationsCertifications Pin Signal RJ-45 Twisted Pair Port PinoutsPinout Pair AT-RPS3104 17-pin Connector Pinouts RJ-45 Style Serial Terminal Port PinoutsPin Definition AT-RPS3204 21-pin D-combo Port and Connector Pinouts Pin Appendix a Technical Specifications 112

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