McDATA 4314 manual Domain ID, Principal Priority, and Domain ID Lock

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Multiple Chassis Fabrics

Domain ID, Principal Priority, and Domain ID Lock

The following switch configuration settings affect multiple chassis fabrics:

Domain ID

Principal priority

Domain ID lock

The domain ID is a unique number from 1–239 that identifies each switch in a fabric. The principal priority is a number (1–255) that determines the principal switch which manages domain ID assignments for the fabric. The switch with the highest principal priority (1 is high, 255 is low) becomes the principal switch. If the principal priority is the same for all switches in a fabric, the switch with the lowest WWN becomes the principal switch.

The domain ID lock allows (False) or prevents (True) the reassignment of the domain ID on that switch. Switches come from the factory with the domain ID set to 1, the domain ID lock set to False, and the principal priority set to

254.Refer to the EFCM Basic Management Guide for information about changing the domain ID and domain ID lock using EFCM BASIC. Refer to the Set Config command in the McDATA 4314 Command Line Interface Guide for information about changing the default domain ID, domain ID lock, and principal priority parameters.

An unresolved domain ID conflict means that the switch with the higher WWN will isolate as a separate fabric, and the Logged-In LEDs on both switches will flash green to show the affected ports. If you connect a new switch to an existing fabric with its domain ID unlocked, and a domain ID conflict occurs, the new switch will isolate as a separate fabric. However, you can remedy this by resetting the new switch or taking it offline then back online. The principal switch will reassign the domain ID and the switch will join the fabric.

NOTE: Domain ID reassignment is not reflected in zoning that is defined by domain ID/port number pair or Fibre Channel address. You must reconfigure zones that are affected by domain ID reassignment. To prevent zoning definitions from becoming invalid under these conditions, lock the domain IDs using EFCM BASIC or the Set Config Switch command.

Planning

2-7

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Contents McDATA Fibre Channel Switch Module Installation Guide Copyright 2005 McDATA Corporation. All rights reserved Contents Chapter Installation Chapter TroubleshootingAppendix a Specifications Contents McDATA 4314 Fibre Channel Switch Module Installation Guide Figures Figures Viii Tables Tables Related Documentation How to Use this ManualPreface Who Should Use this ManualPreface General Description McDATA 4314 Switch ModuleMaintenance Button Switch Module Controls and LEDsFibre Channel Ports Switch Module LEDsExternal Port LEDs Port Logged-In LED Green TransceiversPort Types Ethernet PortMcDATA Embedded Web Server Switch Module ManagementCommand Line Interface Simple Network Management ProtocolFile Transfer Protocol Devices PlanningSoft Zones Device AccessAccess Control List Hard Zones Performance DistanceBandwidth Latency Optimizing Device Performance Multiple Chassis FabricsDomain ID, Principal Priority, and Domain ID Lock Switch Module Services Fabric Security Connection Security Device Security User Account Security Fabric ManagementInstallation Site RequirementsFabric Management Workstation Site Requirements Installing a Switch Install SFP TransceiversEnvironmental Conditions Mounting the Switch Module in the Server Chassis Mount the Switch Module in the Server ChassisIndirect Ethernet Direct Ethernet RJ-45 Connection Connect the Management Workstation to the Switch ModuleFor a Windows platform Install Efcm BasicStart Efcm Basic Configure the Switch Module Cable Devices to the Switch Install Firmware Using Efcm Basic to Install FirmwareUsing the CLI to Install Firmware Password required for johndoe. Password User johndoe logged McDATA 4314 Fibre Channel Switch Module Installation Guide Troubleshooting Input Power LED Is ExtinguishedSystem Fault LED is Illuminated EPort Isolation Logged-In LED IndicationsExcessive Port Errors Recovering a Switch Module Maintenance Exit Maintenance Copy Log Files Maintenance Image UnpackMaintenance Reset Network Config Maintenance Reset User Accounts to DefaultMaintenance Remake Filesystem Maintenance Reset SwitchMaintenance Update Boot Loader McDATA 4314 Fibre Channel Switch Module Installation Guide Fabric Specifications SpecificationsLED indicators Maintainability SpecificationsFabric Management Specifications Dimensional SpecificationsElectrical Specifications Environmental Specifications Certification Description Regulatory CertificationsMcDATA 4314 Fibre Channel Switch Module Installation Guide Glossary Administrative StateMcDATA 4314 Fibre Channel Switch Module Installation Guide Fdmi MIB Protocol McDATA 4314 Fibre Channel Switch Module Installation Guide Numerics IndexLED Reset 1-2,4-7services 2-8specifications A-1 McDATA 4314 Fibre Channel Switch Module Installation Guide

4314 specifications

The McDATA 4314 is a highly regarded Fibre Channel switch designed for enterprise storage area networks (SANs). This switch is particularly known for its reliability, high performance, and scalability. As part of McDATA's extensive range of networking products, the 4314 stands out for its ability to meet the demands of modern data centers, providing seamless connectivity for numerous storage and server devices.

One of the main features of the McDATA 4314 is its robust architecture, which supports up to 32 ports. This enables a flexible configuration that can easily scale as the needs of the organization grow. The switch is characterized by its ability to handle both FC-AL and FC-SW protocols, thus providing compatibility with a wide range of existing Fibre Channel devices. This versatility makes it ideal for organizations looking to enhance their existing infrastructure without the need for a complete overhaul.

In terms of performance, the McDATA 4314 supports high bandwidth requirements, with each port capable of delivering up to 4 Gbps. This high throughput is critical for data-intensive applications, ensuring low latency access to data stored on SAN devices. Additionally, the switch incorporates advanced technologies such as dynamic load balancing and intelligent pathing, which further optimize traffic flow and enhance overall system performance.

Security is a key consideration in any data center environment, and the McDATA 4314 addresses this with features such as zoning and masking. These capabilities ensure that only authorized devices can access specific data, safeguarding sensitive information from potential breaches. Moreover, the switch supports management protocols like SNMP (Simple Network Management Protocol), allowing for seamless integration into existing network management systems and enabling administrators to monitor performance and troubleshoot efficiently.

In terms of characteristics, the McDATA 4314 is designed for high availability, with redundant components that minimize downtime in critical environments. Furthermore, its compact form factor allows for efficient rack space utilization, making it a practical choice for organizations with space constraints.

Overall, the McDATA 4314 Fibre Channel switch provides a combination of performance, reliability, and scalability, making it an ideal choice for enterprise environments. Its advanced features and robust design ensure that organizations can maintain high levels of performance while effectively managing their storage networks. Whether supporting virtualized environments or managing extensive data storage, the McDATA 4314 is a valuable asset for any data center infrastructure.
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