Cisco Systems SFS 7008 manual InfiniBand Port LEDs, Interpreting the LIM Status LEDs

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Table 5-13:Interpreting the Chassis ID Status LEDs (see Figure 5-7)

Color

State

Indication

Green/Yellow

off

No module power, or LED failure.

 

 

 

Green

solid on

Chassis ID module is running with no errors detected.

 

 

 

Green

off

No power to the Chassis ID module, LED failure, or yellow

 

 

LED is On.

 

 

 

Yellow

solid on

Failure of the Chassis ID module. Operator attention required.

 

 

The “!” label indicates a failure.

 

 

 

Yellow

blinking

Identify a Chassis ID module. Assists in identifying a

 

 

particular Field Replaceable Unit on the chassis.

 

 

This state is initiated by the user.

 

 

This LED can be initiated manually by using the diag LED test.

 

 

Refer to the Command Line Reference Guide for more

 

 

information.

 

 

 

LIM Status LEDs

Location

The LIM Status LED is located at the far left of each LIM card (if you are facing the back of the chassis). Refer to Figure 5-5for a complete diagram of the back panel of the chassis.

LIM Status Indicator

Figure 5-8:LIM Status Indicator LEDs

Interpreting the LIM Status LEDs

Table 5-14:Interpreting the LIM Status LED

Color

State

Indication

Green and

off

No module power, or LED failure.

Yellow

 

 

 

 

 

Green

solid on

Line Interface module is running with no errors

 

 

detected.

 

 

 

Green

off

No power to the Line Interface module, LED

 

 

failure, or yellow LED is On.

 

 

 

Yellow

solid on

Failure of the Line Interface module. Operator

 

 

attention required.

 

 

The “!” label indicates a failure.

 

 

 

InfiniBand Port LEDs

The InfiniBand LED represents the logical link and the logical link activity.

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Contents Part Number OL-7725-01 Product ID Page Regulatory Notices Vii Managing Individual Components Monitoring the Topspin 270 System 107 Electrical Cautions FCC Statement Safety InformationViii General Cautions Contact InformationPage Hot Standby System ArchitectureHardware InfiniBand ConnectivityFlexibility Hi-AvailabilityFabric Diagram of the ChassisAbout the Topspin 270 Chassis Non-Blocking Architecture2Back Chassis View 3Chassis Slot Numbering in Front Non-port Side Chassis Slot NumberingLEDs DimensionsPower Supplies ConnectionsManagement Interface Modules Fan TraysNode Slot Fabric Controller ModulesNode and Core Slots Master/Slave and Standby RolesHow the Chassis ID is Used Rack AlarmLine Interface Modules LIM Chassis ID ModuleAdministrative Features Prepare the Site Read the Cautionary StatementsPrepare the Physical Environment for Topspin 270 System Rack Mount Installation Mount the Topspin 270 Chassis in a RackRequirements 2Unscrew Extra Rack Ears from the Chassis 3Chassis Set onto Shelf 5Use Appropriate Screws to Attach Rack Ears to Rails Install Optional HA ComponentsAttach a Serial Console Cable to a PC or Terminal Connect Management DevicesRecommended Management Configuration Power on the ChassisConnect an Ethernet Cable to the Ethernet Management Port 8Power Jack Locations Configure Basic ConnectivityAssigning an Address Dynamically Topspin-270config#interface mgmt-ethernetTopspin-270#copy running-config startup-config Assigning an Address StaticallyConnect Network Devices About ConnectorsManage the System Connecting InfiniBand DevicesOptional Launch the Chassis Manager Prepare Your DeviceLaunch Chassis Manager 10Web Browser Window Optional Install the Element Manager GUI About the Field Replaceable Units Power Supply ModulesAbout the Power Supply Modules About a Failed Power SupplyLocating the Power Supply Module Removing a Power Supply ModulePower Cord back Power Supply front 3Pulling the Power Supply Module from the Bay Installing a New Power Supply ModuleAbout a Failed Fan Tray Fan Tray ModulesAbout the Fan Tray Modules Removing a Fan Module5Loosening Captive Screws 7Pushing Fan Module into Slot Installing a Fan ModuleFabric Controllers About the Fabric ControllersRemoving a Fabric Controller 9Loosen Captive Screws Before Removing Upgrading the Controller Card Installing a Fabric ControllerLine Interface Management Modules LIM About LIM CardsRemoving a LIM Card 12Removing a Pinch-Type Connector 14Loosen the Captive Screws 17Closing the LIM Module Levers Installing a LIM ModuleAbout a Failed Management Interface Module Management Interface ModulesAbout Management Interface Modules Removing a Management Interface ModuleRemoving a Chassis ID Module Installing a Management Interface ModuleChassis ID Modules About Chassis ID Modules20Loosen the Captive Screws Installing a Replacement Chassis ID Module Upgrading a Topspin 270 with the CLI Upgrade all Cards in a ChassisUpgrading a Topspin 270 with Element Manager Select Maintenance File ManagementSelect Maintenance Boot Config Upgrading a Topspin 270 with the Chassis Manager Upgrading an Individual Controller CardUpgrading a Controller Card with the CLI Show the standby Controller card Upgrading a Node Card with the CLI Upgrading Individual Node CardsUpgrading a Node Card with Element Manager 5Copy the .img File to Server Switch6Watching the File Copy Progress 8Disable and Enable the Node Cards Upgrading Node Cards with the Chassis Manager Page Interpreting the Front Panel LEDs Monitoring the Topspin 270 SystemSystem-Wide Status LED Locating the System-Wide Status LEDInterpreting the System Status LED Locating the Power Supply LEDs Power Supply LEDs3Power Supply Identify LED Interpreting the Power Supply LEDsFan LEDs LocationInterpreting the Fan LEDs Interpreting the Fabric Controller LEDs Fabric Controller LEDsManagement Interface Module LEDs Interpreting the Back Panel LEDs6Management Interface Module LEDs Interpreting the Management Interface LEDsFan Tray Module Status LEDs Master Management Connection Status LED Chassis ID LEDsLIM Status LEDs InfiniBand Port LEDsInterpreting the LIM Status LEDs Monitoring the System with Chassis Manager Monitor the DeviceInterpreting the InfiniBand Port LEDs Device Rear View and the Device Front View appear 11Chassis Manager 270 Device Front View 12Chassis Manager Cards Window Monitor the Cards13Chassis Manager Ports Window Monitor the InfiniBand Ports14Chassis Manager Port Properties Dialog Box Monitor the Power SuppliesMonitor the Fans 15Chassis Manager Power Supplies Window17Chassis Manager Sensors Window Monitor the TemperatureInterpreting the Summary Tab Monitoring the System with Element ManagerInterpreting the Power Supplies Tab Interpreting the Fans TabInterpreting the Sensors Tab Monitor the Fans Monitor the Power SuppliesTopspin-270show power-supply Monitor the System With the CLIShow sensor Monitor the SensorsPage About Diagnostic Tests LED TestsSelf Tests Topspin-270#show diagnostic card Run Card TestsRun a Card Self-Test Example of completed test Topspin-270# more sysloghwiflog Run Chassis TestsRun a Chassis Standard Test Topspin-270config#diag chassis test standardRun Fan Tests Run a Self-Test on a FanTopspin-270#show diag post Enter the diag fan id command Run Power Supply Tests Run a LED Test on the Power SupplyTopspin-270#show diag fru-error Run a Self-Test on a Power Supply Topspin-270#show power-supplyTopspin-270#show diag power-supply Topspin-270#show diag fru-error Displaying Hardware Errors Topspin-270#show diagnostic postTopspin-270#more sysloghwiflog Topspin-270#show diagnostic fru-error Error Types101 102 Chassis and Management Interface Specifications and Compliance CertificationsAcoustics Electrical SpecificationsSafety EMC/ImmunityProduct Markings 106 Index

SFS 7008 specifications

The Cisco Systems SFS 7008 is a powerful storage solution designed to address the diverse and demanding needs of modern data environments. As organizations continue to generate and store vast amounts of data, the SFS 7008 delivers robust performance and scalability, making it a key player in high-performance computing (HPC) and enterprise data centers.

One of the main features of the SFS 7008 is its exceptional scalability. It supports a broad range of storage capacities, allowing organizations to easily expand their storage as their data requirements grow. This scalability ensures that businesses can adapt to changing workloads without significant disruption or the need for a costly overhaul of their storage infrastructure.

The SFS 7008 utilizes advanced technologies to optimize performance and efficiency. It employs a high-speed interconnect architecture that enables faster data transfer rates across multiple nodes. This feature is particularly beneficial for applications that require rapid access to large datasets, such as big data analytics and machine learning workloads. Moreover, the system supports multiple data protocols, including NFS, SMB, and iSCSI, making it versatile enough to handle various types of applications in diverse environments.

Another notable characteristic of the SFS 7008 is its data management capabilities. It features built-in tools that facilitate data replication, snapshotting, and backup, ensuring that organizations can maintain data integrity and availability at all times. These tools are essential for disaster recovery and provide peace of mind for businesses that rely on critical data for their operations.

Furthermore, the SFS 7008 is designed with security in mind. The system incorporates advanced security features that protect sensitive data from unauthorized access and breaches. These include encryption options and comprehensive access control mechanisms, allowing administrators to implement strict governance policies for data usage.

In summary, the Cisco Systems SFS 7008 stands out as a leading storage solution with its scalability, performance optimization, versatile protocol support, robust data management features, and enhanced security measures. As businesses continue to navigate the complexities of data management in today’s digital landscape, the SFS 7008 provides a reliable foundation for their storage needs, enabling them to harness the full potential of their data. This makes it an ideal choice for organizations seeking a future-proof storage solution.