Dell 5324 manual Lag

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w w w . d e l l . c o m s u p p o r t . d e l l . c o m

The default path costs assigned to an interface vary according to the selected method:

Interface

Long

Short

LAG

20,000

4

1000 Mbps

20,000

4

100 Mbps

200,000

19

10 Mbps

2,000,000

100

BPDU Handling — Determines how BPDU packets are managed when STP is disabled on the port/ device. BPDUs are used to transmit spanning tree information. The possible field values are:

Filtering — Filters BPDU packets when spanning tree is disabled on an interface. This is the default value.

Flooding — Floods BPDU packets when spanning tree is disabled on an interface.

Priority (0-61440) — Specifies the bridge priority value. When switches or bridges are running STP, each is assigned a priority. After exchanging BPDUs, the device with the lowest priority value becomes the Root Bridge. The default value is 32768. The port priority value is provided in increments of 4096. For example, 4096, 8192, 12288, etc.

Hello Time (1-10) — Specifies the device Hello Time. The Hello Time indicates the amount of time in seconds a root bridge waits between configuration messages. The default is 2 seconds.

Max Age (6-40) — Specifies the device Maximum Age Time. The Maximum Age Time indicates the amount of time in seconds a bridge waits before sending configuration messages. The default max age is 20 seconds.

Forward Delay (4-30) — Specifies the device forward delay time. The Forward Delay Time indicates the amount of time in seconds a bridge remains in a listening and learning state before forwarding packets. The default is 10 seconds.

Bridge ID — Identifies the Bridge priority and MAC address.

Root Bridge ID — Identifies the Root Bridge priority and MAC address.

Root Port — Indicates the port number that offers the lowest cost path from this bridge to the Root Bridge. It is significant when the Bridge is not the Root.

Root Path Cost — The cost of the path from this bridge to the root.

Topology Changes Counts — Specifies the total amount of STP state changes that have occurred.

Last Topology Change — Indicates the amount of time that has elapsed since the bridge was initialized or reset, and the last topographic change occurred. The time is displayed in a D/H/M/S format, for example, 2D/5H/10M/4S.

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Contents User’s Guide Addendum W . d e l l . c o m s u p p o r t . d e l l . c o m New Features Configuring Lldp Lldp PropertiesConfiguring Lldp Using CLI Commands Lldp hold-multiplier numberDefining Lldp Port Settings Port SettingsClear lldp rx interface W . d e l l . c o m s u p p o r t . d e l l . c o m Viewing Advertised Information Advertised InformationDisplays Lldp information Vlan ID Viewing the Lldp Neighbor Information Neighbors InformationSwitch# show lldp neighbors Defining Snmp Parameters Defining Snmp Global ParametersEnabling Snmp Notifications Using CLI Commands Enabling Authentication NotificationsEnabling Snmp Notifications Snmp Notification Commands CLI Command Description Defining Snmp View Settings SNMPv3 View Settings Adding a ViewDefining Snmp Views Using CLI Commands Displaying the View TableConsole # show snmp views Defining Snmp Access Control 13. Access Control GroupDisplaying the Access Table Defining Snmp GroupsDefining Snmp Access Control Using CLI Commands Removing Snmp GroupsAssigning Snmp User Security 16. SNMPv3 User Security ModelAdding Users to a Group Displaying the User Security Model TableSnmp User CLI Commands Deleting an User Security Model Table EntryDefining Communities 19. Snmp Community20. Add Snmp Community 21. Community Table Following is an example of the CLI commands Defining SNMPv3 Notification Filters Adding Snmp FiltersDisplaying the Filter Table Removing a FilterSnmp Notification Filter CLI Commands Defining Snmp Notification Recipients25. Notification Recipients Adding a New Trap Recipients Displaying Notification Recipients TablesDeleting Notification Recipients 26. Notification Recipients TablesNoauth auth priv udp-port HTTP/HTTPS Upload/Download Downloading FilesPage Console# copy running-configtftp//11.1.1.2/pp.txt Uploading Files 28. File Upload to Server11. File Upload CLI Commands Copying Files 29. Copy FilesDelete startup-config Defining STP Global Settings Defining STP Root GuardLAG Enables spanning tree functionality Displays spanning tree configuration Dsbl Dscr Defining STP Port Settings 31. STP Port SettingsClick Apply Changes. STP is enabled on the port Spanning-tree cost cost STP Defining STP LAG Settings 32. STP LAG Settings15. STP LAG Settings CLI Commands Description Spanning-tree Configuring Multiple Spanning Tree 33. Mstp Settings Enters MST Configuration mode Defining Mstp Interface Settings AbortPage Mstp Interface Table page opens Configuring QinQ 37. Vlan MembershipClick Vlan Port Table opens 40. Vlan Port Table Console# show interfaces switchport ethernet 1/e5 Mac based VLANs Configuring Load Balancing LAG Configuration page contains the following fieldsPage Interface port-channel Description string Following is an example of the CLI commands
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5324 specifications

The Dell 5324 is a high-performance network switch that is designed to meet the demands of modern enterprise networking. This switch represents a blend of advanced features aimed at enhancing network efficiency, reliability, and scalability, which are crucial for businesses looking to optimize their infrastructure.

One of the standout features of the Dell 5324 is its Layer 3 routing capabilities. It supports static routing and various dynamic routing protocols, including RIP, OSPF, and BGP, allowing for efficient data transfer across complex networks. This capability is particularly beneficial for organizations that require robust inter-VLAN routing and seamless connectivity with multiple network segments.

The Dell 5324 comes equipped with 24 Gigabit Ethernet ports, which provide ample connectivity options for devices within the network. Additionally, it includes four 10 Gigabit SFP+ ports, enabling users to integrate high-speed uplinks easily. This flexibility allows businesses to expand their network as demand grows without the need for a completely new setup.

Power over Ethernet (PoE) support is another significant advantage of the Dell 5324, as it enables the switch to deliver both data and power to connected devices through a single Ethernet cable. This feature is particularly useful for powering IP phones, security cameras, and Wi-Fi access points, simplifying the overall cabling and ensuring a neater installation.

Furthermore, the Dell 5324 offers advanced security features that help protect the network from unauthorized access and potential threats. It includes features such as 802.1X port-based authentication, MAC address filtering, and VLAN segmentation, ensuring that only authorized devices can connect to the network.

The user-friendly web-based interface alongside command-line interface (CLI) access enhances manageability, allowing network administrators to monitor performance, configure settings, and troubleshoot issues with ease. In addition, the switch supports network automation protocols, which can streamline management tasks and improve efficiency.

The industrial-grade design of the Dell 5324 ensures its reliability in various environments, making it a suitable choice for data centers and enterprise networks alike. With its combination of performance, scalability, and security features, the Dell 5324 stands out as a capable solution for organizations looking to improve their network infrastructure. Its capabilities make it a versatile addition for businesses aiming for a robust and future-ready networking environment.
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