Alcatel-Lucent 6648, 6624 manual Stacking Resiliency and Redundancy, Slot Numbers within a Stack

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Stack Overview

Managing OmniSwitch 6600 Series Stacks

 

 

 

 

Stacking Resiliency and Redundancy

The figure on page 3-3shows a sample way to connect switches in a four-switch stack to ensure dual- redundant connections. Except for the bottommost switch in the stack, Port 52 is connected to Port 51 on the switch below it with a 30 centimeter stacking cable. On the bottommost switch Port 52 is connected to Port 51 on the topmost switch in the stack with a 1 meter redundant stacking cable. If a stacking connec- tion goes down data can still flow between all the switches in the stack. In addition, if a switch goes down traffic can still flow between the switches that are still operating.

Note. See “Redundant Stack Connection” on page 3-13for more information.

Slot Numbers within a Stack

By default, the slot number for OmniSwitch 6600 series switches is 8. In a stand-alone configuration you would enter 8 when a Command Line Interface (CLI) command requires a slot number. For example, to create VLAN 10 on port 1 on an OmniSwitch 6600 series with the default slot number you would enter

vlan 10 port default 8/1

In a stack, each switch must have a unique slot number, which is configured by the user. (See “Managing Switches in a Stack” on page 3-16for more information.) This slot number can be any whole number between 1 and 8.

For example, if you have assigned slot number 2 to a switch you would enter

vlan 10 port default 2/1

The slot number for each switch is stored in the root /flash directory in the boot.slot.cfg file. This file must exist on every switch in a stack or the stack will not be able to operate correctly. If you accidently delete this file the switch will revert to the default slot number of 8 and will operate in standby mode. To restore the slot number and rejoin the switch to the stack you must physically change the slot by following the steps described in Chapter 2, “OmniSwitch 6600 Series Chassis and Hardware Components,” and reboot the switch.

Note. In a stack consisting of three or more switches a switch that had a primary or secondary CMM role will rejoin the stack in an idle mode.

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OmniSwitch 6600 Series Hardware Users Guide April 2004

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Contents OmniSwitch 6624/6648 Hardware Users Guide OmniSwitch 6600 Series Hardware Users Guide April Contents Contents Blank Cover Panels Index-1 Supported Platforms Unsupported PlatformsWhen Should I Read this Manual? What is in this Manual?What is Not in this Manual? Who Should Read this Manual?Stage 1 Using the Switch for the First Time Stage 2 Gaining Familiarity with Basic Switch FunctionsHow is the Information Organized? Documentation RoadmapStage 3 Integrating the Switch Into a Network AnytimeOmniSwitch 6600 Series Getting Started Guide Related DocumentationTechnical Support OmniSwitch 6600 Series Stand-Alone and Stacked Configurations Stacked ConfigurationsStand-Alone Availability Features Smart Continuous SwitchingSoftware Rollback Hot SwappingHardware Monitoring Automatic MonitoringOmniSwitch 6600 Series Fabric Capacities Port and Fabric CapacitiesUser-Driven Monitoring OS6624/6600-U24 ThroughputApplication Examples Single Office Building with 1000 UsersMedium Campus with 1500 Users OmniPCXApplication Examples OmniSwitch 6600 Series Chassis and Hardware Components OmniSwitch 6600 Series Chassis and Hardware Components OmniSwitch OmniSwitch 6624 Front PanelConsole Port 10/100 Ethernet PortsOS6624 Specifications 10/100 Ethernet Port SpecificationsOmniSwitch 6600-U24 OmniSwitch 6600-U24 Front Panel Console Port Gigabit Ethernet Uplink Module SlotOS6600-U24 Specifications Mbps Ethernet SFP Port Specifications SFPOmniSwitch 6648 Front Panel TM OmniSwitchOS6648 Specifications Status LEDs Front Panel LED Descriptions OS6648 ShownOmniSwitch 6600 Series Rear Panel Redundant Power Supply BayPower Connector Socket Inline Power Connector Rear PanelMounting the Switch OmniSwitch 6600 Series Chassis Top ViewAirflow Considerations Installation Options Installing the Switch on a Tabletop or BenchAttaching the Switch to the Rack Attaching a Rack-Mount FlangeRack Mounting Stacked Configurations Power Cords SpecificationsPower Cord Types Grounding the ChassisBack Up Power Supply Power Supply RedundancyBack Up Power Supply Front Panel Back Up Power Supply SpecificationsOmniSwitch 6600 Series Redundant AC Circuit Example Back Up Factory-Installed Primary Power SupplyAC Circuit Back Up Factory-Installed Primary Power Supply Redundant AC Circuit RecommendationInstalling a Back Up Power Supply Orienting the Back Up Power SupplyHot Swapping Inserting the Back Up Power Supply Tightening the Captive ScrewsRemoving a Back Up Power Supply Removing the Back Up Power SupplyLoosening the Captive Screws Viewing Primary and Back Up Power Supply Status Blank Cover Panel RequirementViewing Power Supply Status for Stacked Configurations Slot Number is SpecifiedNo Slot Number is Specified Gigabit Ethernet Uplink Modules OS6600-GNI-U2OS6600-GNI-U2 Gigabit Ethernet Uplink Front Panel MiniGBIC SlotsOS6600-GNI-U2 Uplink Module Specifications OS6600-GNI-C2 Uplink Module Specifications OS6600-GNI-C2OS6600-GNI-C2 Gigabit Ethernet Uplink Front Panel Copper Gigabit Ethernet PortsStacking Module Specifications Hssdc Stacking ConnectorsStacking Module Stacking Module Front PanelInstalling Uplink and Stacking Modules Inserting the Uplink or Stacking ModuleInstalling Uplink and Stacking Modules Removing Uplink and Stacking Modules Removing the Module Mini Gigabit Interface Converters MiniGBICs Mini Gigabit Interface Converter MiniGBICMiniGBIC Specifications MiniGBIC-SX Technical SpecificationsMiniGBIC-LX Technical Specifications MiniGBIC-LH-70 Technical SpecificationsInstalling MiniGBICs Inserting the MiniGBIC OS6648 ShownInstalled MiniGBIC OS6648 Shown Removing MiniGBICsMbps SFPs OS6600-U24 SFP ModuleMbps SFP Specifications SFP-100-LC-MM Technical SpecificationsSFP-100-LC-SM15 Technical Specifications SFP-100-LC-SM40 Technical SpecificationsSFP-100-MTRJ-MM Technical Specifications MtrjInstalling SFPs OS6600-U24 Inserting the SFPRemoving SFPs OS6600-U24 Temperature Management Viewing Chassis Temperature StatusViewing Temperature Status for Stacked Configurations Temperature Errors Viewing Fan Status for Stacked Configurations Viewing Fan StatusNo Slot Number is Specified Chassis Airflow Right Side Air Intake VentLeft Side Fan Exhaust Vents Air Exhaust. The airflowBlank Cover Panels Effects of Missing Blank Panels on Chassis AirflowRS232 Console Port Female DB9 Connector Pinout Pinouts10/100 Ethernet Port RJ-45 Pinout Copper Gigabit Ethernet Port RJ-45 PinoutRJ-45 Console Port Connector Pinout TXDSerial Connection Default Settings Modifying the Serial Connection SettingsConsole Port Serial Connection to the Console PortAdditional table output not shown Viewing Basic Chassis Information Hardware InformationSlot and Component Information Power on Detailed Slot and Component InformationGbic IBM Basic Primary Slot and Component Information Basic Chassis Information Managing MAC Addresses on the Switch OmniSwitch 6600 Series MAC Range SpecificationsMAC Range Guidelines Determining Current MAC Address Allocation on the Switch Base Chassis MAC Address in Stacked ConfigurationsBase Chassis MAC Address as Unique Identifier Viewing the Base Chassis MAC AddressManaging OmniSwitch 6600 Series Stacks This ChapterSpecifications and Default Values Parameter Description Configuration Steps Default ValueStack Composed of Four OmniSwitch 6648 Switches Stack OverviewStacking Resiliency and Redundancy Slot Numbers within a StackCMM Roles in a Stack CMM Role RedundancySwitch Primary CMM CommandsChassis Management and Monitoring Commands File Management CommandsSwitch Logging and Monitoring Commands Memory Monitoring CommandsSetting Up a Stacked Configuration Assigning Slot NumbersContinue to Connecting Cables to Stacking Ports on SEL Button LocationStack of Four Switches with Unique Slot Numbers Slot Numbering ExampleValid Slot Assignments Connecting Cables to Stacking Ports Attaching the Stacking Cable to a Stacking PortConnecting the Switches in the Stack Recommended Redundant Connection Between SwitchesConnection Failure Between Switches 1 Redundant Stack ConnectionStacking Cable Redundancy Example No Connection FailureBooting the Stack Verifying Slot Number AssignmentsVerifying Primary and Secondary Status for the Stack Idle Status Managing Switches in a Stack Reloading a Switch with a Primary or Secondary CMM RoleReloading the Switch with the Primary CMM Role Reloading the Switch with the Secondary CMM RoleSynchronizing Switches in a Stack Restoring Switch RedundancyChanging the Secondary CMM Role to Primary Module Behavior During TakeoverResetting All Switches in a Stack Managing and Monitoring OmniSwitch 6600 Series Stacks Monitoring StacksMonitoring Stack Topology Secondary Active Monitoring Stacks Regulatory Compliance and Safety Information Declaration of Conformity CE MarkSafety Standards Safety and Environmental StandardsStandards Compliance EMC StandardsFCC Class A, Part Canada Class a StatementCISPR22 Class a warning Vcci Class a Warning for Taiwan and Other Chinese MarketsTranslated Safety Warnings Chassis Lifting WarningBlank Panels Warning Electrical Storm WarningInstallation Warning Invisible Laser Radiation WarningLithium Battery Warning Operating Voltage WarningPower Disconnection Warning Proper Earthing Requirement WarningRead Important Safety Information Warning Restricted Access Location WarningWrist Strap Warning Commit file command Commit system commandCopy flash-synchro command NumericsReload all command Reload command Show chassis command Show cmm command Show fan commandTakeover command Temp-threshold command
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