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... Multiple Spanning Tree 70 Bridge Protocol Data Unit (BPDU) Guard. . . . . . 71 BPDU Filtering 71 Link Aggregation Features 71 Link Aggregation 71 Link Aggregate Control Protocol (LACP 71 Routing Features 72 Address Resolution Protocol (ARP) Table Management 72 VLAN Routing 72 IP Configuration 72 Open Shortest Path First (OSPF 72 BOOTP/DHCP...
... Multiple Spanning Tree 70 Bridge Protocol Data Unit (BPDU) Guard. . . . . . 71 BPDU Filtering 71 Link Aggregation Features 71 Link Aggregation 71 Link Aggregate Control Protocol (LACP 71 Routing Features 72 Address Resolution Protocol (ARP) Table Management 72 VLAN Routing 72 IP Configuration 72 Open Shortest Path First (OSPF 72 BOOTP/DHCP...
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... How Do LAGs Interact with Other Features?. . . . 822 LAG Configuration Guidelines 823 Default Link Aggregation Values 823 Configuring Link Aggregation (Web 824 LAG Configuration 824 LACP Parameters 825 LAG Membership 827 LAG Hash Configuration 828 LAG Hash Summary 829 Configuring Link Aggregation (CLI 830 Configuring LAG Characteristics 830 Configuring Link Aggregation...
... How Do LAGs Interact with Other Features?. . . . 822 LAG Configuration Guidelines 823 Default Link Aggregation Values 823 Configuring Link Aggregation (Web 824 LAG Configuration 824 LACP Parameters 825 LAG Membership 827 LAG Hash Configuration 828 LAG Hash Summary 829 Configuring Link Aggregation (CLI 830 Configuring LAG Characteristics 830 Configuring Link Aggregation...
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... links, and continuously provides the maximum level of aggregation capability achievable between a given pair of systems. LACP automatically determines, configures, binds, and monitors the binding of STP. Link Aggregate Control Protocol (LACP) Link Aggregate Control Protocol (LACP) uses peer exchanges across links to determine, on page 819. Bridge Protocol Data Unit (BPDU) Guard...
... links, and continuously provides the maximum level of aggregation capability achievable between a given pair of systems. LACP automatically determines, configures, binds, and monitors the binding of STP. Link Aggregate Control Protocol (LACP) Link Aggregate Control Protocol (LACP) uses peer exchanges across links to determine, on page 819. Bridge Protocol Data Unit (BPDU) Guard...
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Default Settings (Continued) Feature Link Aggregation LACP System Priority Routing Mode OSPF Admin Mode OSPF Router ID IP Helper and UDP Relay RIP VRRP Tunnel and Loopback Interfaces IPv6 Routing DHCPv6 OSPFv3 ...
Default Settings (Continued) Feature Link Aggregation LACP System Priority Routing Mode OSPF Admin Mode OSPF Router ID IP Helper and UDP Relay RIP VRRP Tunnel and Loopback Interfaces IPv6 Routing DHCPv6 OSPFv3 ...
Page 820
... configured for the LAG. What Is the Difference Between Static and Dynamic Link Aggregation? Dynamic configuration is used when connecting a PowerConnect 7000 Series switch to handle traffic for link aggregation. LACP can detect physical link failures within the LAG and continue forwarding traffic through the other connected links within that the external...
... configured for the LAG. What Is the Difference Between Static and Dynamic Link Aggregation? Dynamic configuration is used when connecting a PowerConnect 7000 Series switch to handle traffic for link aggregation. LACP can detect physical link failures within the LAG and continue forwarding traffic through the other connected links within that the external...
Page 821
... The switch supports the following set of packet attributes to be used . • Non-Unicast traffic and Unicast traffic is LAG Hashing? PowerConnect 7000 Series switches support configuration of the LAG while preserving the per-flow packet order. The hashing algorithm is added to a LAG as ...a static member, it neither transmits nor receives LACP PDUs. The hashing algorithm uses various packet attributes to distribute traffic load among the physical ports of hashing algorithms for hash computation. more ...
... The switch supports the following set of packet attributes to be used . • Non-Unicast traffic and Unicast traffic is LAG Hashing? PowerConnect 7000 Series switches support configuration of the LAG while preserving the per-flow packet order. The hashing algorithm is added to a LAG as ...a static member, it neither transmits nor receives LACP PDUs. The hashing algorithm uses various packet attributes to distribute traffic load among the physical ports of hashing algorithms for hash computation. more ...
Page 823
... be added to a LAG must meet the following are the interface restrictions • The configured speed of only one LAG. MAC Address Table Defaults Parameter LACP system priority LACP port priority LACP timeout LAG hash algorithm type Default Value 1 1 Long Source IP and source TCP/UDP port Configuring Link Aggregation 823
... be added to a LAG must meet the following are the interface restrictions • The configured speed of only one LAG. MAC Address Table Defaults Parameter LACP system priority LACP port priority LACP timeout LAG hash algorithm type Default Value 1 1 Long Source IP and source TCP/UDP port Configuring Link Aggregation 823
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LACP Parameters Dynamic link aggregation is initiated and maintained by the periodic exchanges of LACP PDUs. Use the LACP Parameters page to configure LACP LAGs. To display the LACP Parameters page, click Switching → Link Aggregation → LACP Parameters in the navigation panel. LACP Parameters Configuring LACP Parameters for Multiple Ports To configure LACP settings: 1 Open the LACP Parameters page. 2 Click Show All. The LACP Parameters Table page displays. Configuring Link Aggregation 825 Figure 28-3.
LACP Parameters Dynamic link aggregation is initiated and maintained by the periodic exchanges of LACP PDUs. Use the LACP Parameters page to configure LACP LAGs. To display the LACP Parameters page, click Switching → Link Aggregation → LACP Parameters in the navigation panel. LACP Parameters Configuring LACP Parameters for Multiple Ports To configure LACP settings: 1 Open the LACP Parameters page. 2 Click Show All. The LACP Parameters Table page displays. Configuring Link Aggregation 825 Figure 28-3.
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Figure 28-4. LACP Parameters Table 3 Select the Edit check box associated with each port to configure. 4 Specify the LACP port priority and LACP timeout for each port. 5 Click Apply. 826 Configuring Link Aggregation
Figure 28-4. LACP Parameters Table 3 Select the Edit check box associated with each port to configure. 4 Specify the LACP port priority and LACP timeout for each port. 5 Click Apply. 826 Configuring Link Aggregation
Page 828
... to toggle the desired LAG port to L. Figure 28-6. LAG Hash Configuration 828 Configuring Link Aggregation Adding a LAG Port to a Dynamic LAG by Using LACP To add a dynamic LAG member: 1 Open the LAG Membership page. 2 Click in the navigation panel. You can be assigned to set the hash type for ...each LAG. The LAG port is added as a dynamic LAG member to an LACP. 3 Click Apply. LAG Hash Configuration Use the LAG hash algorithm to a LAG before it can set the traffic distribution mode on the LAG. NOTE: The...
... to toggle the desired LAG port to L. Figure 28-6. LAG Hash Configuration 828 Configuring Link Aggregation Adding a LAG Port to a Dynamic LAG by Using LACP To add a dynamic LAG member: 1 Open the LAG Membership page. 2 Click in the navigation panel. You can be assigned to set the hash type for ...each LAG. The LAG port is added as a dynamic LAG member to an LACP. 3 Click Apply. LAG Hash Configuration Use the LAG hash algorithm to a LAG before it can set the traffic distribution mode on the LAG. NOTE: The...
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Enter interface configuration mode for example gigabitethernet 1/0/3. Forces the port to the LAG specified with LACP. The interface variable includes the interface type and number, for the specified port. Add the port(s) to join a channel with the ... to add ports as dynamic members, or use on | auto} exit interface port-channel number Purpose Enter global configuration mode. Exit to join a channel without LACP. • auto - You can also specify a range of a valid port-channel for example, interface range port-channel 1-3,10 configures LAGs 1, 2, 3, and ...
Enter interface configuration mode for example gigabitethernet 1/0/3. Forces the port to the LAG specified with LACP. The interface variable includes the interface type and number, for the specified port. Add the port(s) to join a channel with the ... to add ports as dynamic members, or use on | auto} exit interface port-channel number Purpose Enter global configuration mode. Exit to join a channel without LACP. • auto - You can also specify a range of a valid port-channel for example, interface range port-channel 1-3,10 configures LAGs 1, 2, 3, and ...
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Specify whether to Privileged EXEC mode. Exit to wait a long or short time between LACP PDU transmissions. View LACP parameters for the switch. Configuring LACP Parameters Beginning in Privileged EXEC mode, use the following commands to configure with the interface ...Set the Link Aggregation Control Protocol priority for the specified LAG. Command configure lacp system-priority value interface port-channel number lacp port-priority value lacp timeout {long | short} exit show lacp interface Purpose Enter global configuration mode. Enter interface configuration mode for the ...
Specify whether to Privileged EXEC mode. Exit to wait a long or short time between LACP PDU transmissions. View LACP parameters for the switch. Configuring LACP Parameters Beginning in Privileged EXEC mode, use the following commands to configure with the interface ...Set the Link Aggregation Control Protocol priority for the specified LAG. Command configure lacp system-priority value interface port-channel number lacp port-priority value lacp timeout {long | short} exit show lacp interface Purpose Enter global configuration mode. Enter interface configuration mode for the ...
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... Algorithm Inactive: Gi1/0/1, 3 Gi1/0/2, Gi1/0/3, Gi1/0/6, Gi1/0/7 min-links --------1 834 Configuring Link Aggregation The LAG number is 1, and the member ports are to LAG 2 without LACP. console(config)#interface range gi1/0/1-3,gi1/0/6-7 2 Add the ports to be configured on a switch. Because LAGs involve physical links between two switches, the LAG settings...
... Algorithm Inactive: Gi1/0/1, 3 Gi1/0/2, Gi1/0/3, Gi1/0/6, Gi1/0/7 min-links --------1 834 Configuring Link Aggregation The LAG number is 1, and the member ports are to LAG 2 without LACP. console(config)#interface range gi1/0/1-3,gi1/0/6-7 2 Add the ports to be configured on a switch. Because LAGs involve physical links between two switches, the LAG settings...
Page 835
... Hash Algorithm Inactive: Gi1/0/10, 3 Gi1/0/11, Gi1/0/12, Gi1/0/14, Gi1/0/17 min-links --------1 Configuring Link Aggregation 835 console#show how to LAG 2 without LACP.
... Hash Algorithm Inactive: Gi1/0/10, 3 Gi1/0/11, Gi1/0/12, Gi1/0/14, Gi1/0/17 min-links --------1 Configuring Link Aggregation 835 console#show how to LAG 2 without LACP.
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... CLI configuration, 1059 defaults, 1047 features, 74 understanding, 1045 web-based configuration, 1049 IRDP, configuring, 901 iSCSI and CoS, 432 and Dell EqualLogic arrays, 433 assigning flows, 432 CLI configuration, 440 defaults, 435 examples, 442 flow detection, 432 information tracking, 433 servers and a... CDP, 55 CLI configuration, 678 configuring, 679 enabling, 679 example, 683 understanding, 659 web-based configuration, 663 J jumbo frames, 64 L LACP adding a LAG port, 828 CLI configuration, 833 web-based configuration, 825 LAG and STP, 822 CLI configuration, 830 defaults, 823 examples, 834...
... CLI configuration, 1059 defaults, 1047 features, 74 understanding, 1045 web-based configuration, 1049 IRDP, configuring, 901 iSCSI and CoS, 432 and Dell EqualLogic arrays, 433 assigning flows, 432 CLI configuration, 440 defaults, 435 examples, 442 flow detection, 432 information tracking, 433 servers and a... CDP, 55 CLI configuration, 678 configuring, 679 enabling, 679 example, 683 understanding, 659 web-based configuration, 663 J jumbo frames, 64 L LACP adding a LAG port, 828 CLI configuration, 833 web-based configuration, 825 LAG and STP, 822 CLI configuration, 830 defaults, 823 examples, 834...