Cisco Systems SFS 3012 manual IB Switch Card LEDs, IB Port LEDs

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IB Switch Card LEDs

Each InfiniBand switch card includes two LEDs (one green and one yellow) at one side of the interface-end of the card. Figure 5-4displays the IB switch card LEDs.

Figure 5-4:InfiniBand Switch Card LEDs

Table 5-7explains IB switch card LED indications.

Table 5-7:InfiniBand Switch Card LED Indications

LED State

Indication

green off, yellow off

No power to the switch card.

 

 

green solid, yellow off

Switch card runs with no errors.

 

 

yellow solid, green off

Switch card problem that requires user intervention.

 

 

IB Port LEDs

Two port LEDs (both green) appear next to each IB port on the switch card. Figure 5-5displays the

InfiniBand interface LEDs.

logical link status physical link status

Figure 5-5:The InfiniBand interface LEDs

Both the top and bottom InfiniBand port LEDs are solid green. The top LED indicates a logical link has taken place. (A logical link is established when the subnet manager makes a sweep. A logical link must be established if you are to use the port.) The bottom LED indicates a physical link has occurred. (A physical link requires that the drivers on the attached InfiniBand host have been installed and are running).

Table 5-8explains IB port LED indications.

Table 5-8:Management Ethernet LED Indications

LED State

Indication

bottom LED off

No Rx-Character detected.

 

 

bottom LED on

Valid Rx-Character detected.

 

 

bottom LED on, top LED on

Link is OK.

 

 

bottom LED on, top LED on

Logical link error.

 

 

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Contents Part Number OL-7722-01 Product ID Page Contents Regulatory Notices Vii Install and Boot the Topspin Specifications and Compliance Page FCC Statement Safety Information Regulatory NoticesElectrical Cautions Viii General Cautions Laser CautionsContact Information Laser SpecsProduct Registration Thank YOU for Purchasing Your Topspin ProductXii Standard Product Agreement Xiv Page Xvi Xvii Xviii Topspin 360 Overview IntroductionFeatures PerformanceUnified Fabric Transparent TopologyRedundancy and High-Availability ScalabilityPage Topspin 360 Components Install a Controller Card Controller Cards2Inserting the Controller Card 3Closing the Ejector Lever Ethernet and Fibre Channel Gateways Replacing and Updating Your GatewaysInfiniBand Switch Cards Install an Ethernet or Fibre Channel GatewayInstall InfiniBand Switch Cards 7Inserting a Switch Card8Closing Switch Ejector Levers Power Supply Modules Remove InfiniBand Switch CardsInstall Power Supply Modules 10Power Supply ModulesRemoving a Power Supply Install Blower TraysBlower Trays Removing Blower Trays Page Page Install and Boot the Topspin Prepare the Site for the TopspinInstall Topspin 360 Components Rack the TopspinRead the Cautionary Statements Prepare the Physical Environment for Topspin1Positioning the Side Flanges 3Rail Positioning 4Attaching Rails from the Front 5Attaching Rails from the Back 6Positioning the Chassis on the Rails Attach a Serial Console Cable to a PC or Terminal 8Securing the Chassis to the RailsBoot your Topspin 360 and Configure Basic Connectivity Assign a Static IP AddressEnter the interface mgmt-ethernet command Obtain an IP Address with DhcpConnect InfiniBand Hosts 9Fully Installed IB Cable with Pinch Connector 11Removing a Pinch Connector 12Removing a Pull Connector Manage the TopspinViewing and Updating the Software Image on the Chassis View the Software Image Version with the CLIAn installed image file will have a slash / in the name View the Software Image Version with the GUIUpgrade the Software Image with the CLI 14View Current Image of an Individual CardUpgrade the Software Image with the GUI 15Copy an Image File to the Switch 16Specify the Boot Configuration Delete an Image with the CLISelect Maintenance File Management Delete an Image with the GUIPage Topspin 360 Field Replaceable Units Expansion ModulesInstalling an InfiniBand Switch Card Configuring a New InfiniBand Switch CardUpdate the switch card firmware. Enter the install command Power Modules Removing an InfiniBand Switch CardInstalling a Power Supply 2Power Supply Module Positioning Installing a Blower Tray Replacing Blower TraysRemoving a Blower Tray Page Topspin 360 LEDs Topspin 360 System LED Activity IndicationPower Supply LEDs 1Power Supply LEDsBlower Tray LEDs 2Blower Tray LEDsController Card LEDs LED State IndicationIB Switch Card LEDs IB Port LEDsFibre Channel Gateway LEDs FC Port LEDsEthernet Gateway LEDs Ethernet Port LEDsSpecifications and Compliance General SpecificationsElectrical Specifications Certifications/RegulatoryLaser Specs Topspin P/N Application Optical Parameters Page Index
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SFS 3012 specifications

Cisco Systems SFS 3012 is a network switch designed to enhance the performance of data centers and enterprise networks. With its innovative architecture and advanced features, it caters to the increasing demands for high bandwidth and low-latency networking environments. This model leverages Cisco's expertise in networking technology to deliver reliable and scalable solutions for organizations.

One of the main features of the SFS 3012 is its ability to support high-speed data transfer with 10 Gigabit Ethernet (10GbE) ports. This provides significant improvement in data throughput, enabling faster communication between servers and network devices. With twelve 10GbE ports, the SFS 3012 is capable of handling intensive workloads, making it ideal for cloud computing and big data applications.

The SFS 3012 employs various networking technologies that enhance its operational efficiency. It supports data center bridging (DCB), which optimizes traffic flow and ensures low-latency communication for storage and server traffic. This feature is particularly beneficial in virtualization environments where multiple virtual machines operate simultaneously.

Additionally, the switch utilizes Cisco's innovative virtual extensible LAN (VXLAN) technology, enabling the creation of scalable, isolated virtual networks. This is crucial for enhancing network segmentation and security in multi-tenant data center environments. The ability to create virtual networks without the constraint of physical boundaries allows organizations to scale their networks seamlessly according to their needs.

Security is another critical characteristic of the SFS 3012. It implements advanced security protocols to protect the integrity of data transmissions. Features such as access control lists (ACLs), port security, and authentication protocols help safeguard sensitive information from unauthorized access.

Moreover, the SFS 3012 is designed with energy efficiency in mind. It incorporates features that minimize power consumption, helping organizations reduce their operational costs while also supporting sustainability initiatives.

In conclusion, the Cisco Systems SFS 3012 is a powerful network switch ideal for modern, demanding networking environments. With its high-speed connectivity, advanced networking features, strong security measures, and energy efficiency, it provides an effective solution for organizations looking to enhance their infrastructure and performance. As businesses increasingly embrace digital transformation, devices like the SFS 3012 will play a crucial role in supporting their growth and innovation.