T2600G/L2/STP: Unterschied zwischen den Versionen

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Spanning Tree
; Spanning Tree
 
STP (Spanning Tree Protocol) is a Layer 2 protocol that prevents loops in the network. It helps to ensure a loop-free topology both initially or after topology changes by changing the state of ports. STP can protect the network from broadcast storms and the damage to MAC address.
STP (Spanning Tree Protocol) is a Layer 2 protocol that prevents loops in the network. It helps to ensure a loop-free topology both initially or after topology changes by changing the state of ports. STP can protect the network from broadcast storms and the damage to MAC address.
RSTP (Rapid Spanning Tree Protocol) and MSTP (Multiple Spanning Tree Protocol) are technological improvements on STP. RSTP provides a much faster speed of spanning tree convergence than STP. MSTP can also provides a faster spanning tree convergence speed and in addition can work with VLANs. With MSTP, different VLANs map to different spanning trees (MST instances) and the traffic is separated into different spanning trees so that MSTP can implement load balancing
RSTP (Rapid Spanning Tree Protocol) and MSTP (Multiple Spanning Tree Protocol) are technological improvements on STP. RSTP provides a much faster speed of spanning tree convergence than STP. MSTP can also provides a faster spanning tree convergence speed and in addition can work with VLANs. With MSTP, different VLANs map to different spanning trees (MST instances) and the traffic is separated into different spanning trees so that MSTP can implement load balancing

Version vom 15. Februar 2023, 16:26 Uhr

Unix Beschreibung
STP (Spanning Tree Protocol) Schleifen im Netz verhindern
  • Layer-2-Protokoll
  • Broadcast-Stürme vermeiden
  • Beschädigung von MAC-Adressen
  • Ändert Status von Switch-Ports
    • Beim Start
    • Nach Änderungen der Topologie
RSTP (Rapid Spanning Tree Protocol) Höhere Konvergenzgeschwindigkeit
MSTP (Multiple Spanning Tree Protocol) Höhere Konvergenzgeschwindigkeit
  • VLANs werden verschiedenen Spanning Trees (MST-Instanzen) zugeordnet
  • Verkehr wird in verschiedene Spanning Trees aufgeteilt
  • Lastausgleich
Spanning Tree

STP (Spanning Tree Protocol) is a Layer 2 protocol that prevents loops in the network. It helps to ensure a loop-free topology both initially or after topology changes by changing the state of ports. STP can protect the network from broadcast storms and the damage to MAC address. RSTP (Rapid Spanning Tree Protocol) and MSTP (Multiple Spanning Tree Protocol) are technological improvements on STP. RSTP provides a much faster speed of spanning tree convergence than STP. MSTP can also provides a faster spanning tree convergence speed and in addition can work with VLANs. With MSTP, different VLANs map to different spanning trees (MST instances) and the traffic is separated into different spanning trees so that MSTP can implement load balancing To configure STP/RSTP:

Step1:

   Enable Spanning Tree globally, choose the mode as STP or RSTP, and configure the global parameters.

Step2:

   Go to the Spanning Tree > Port Config page, enable spanning tree for ports, and configure the other port parameters. 

To configure MSTP:

Step1:

   Enable Spanning Tree globally, choose the mode as STP or RSTP, and configure the global parameters.

Step2:

   Go to Spanning Tree > Port Config page, enable spanning tree for ports, and configure the other port parameters. 

Step3:

   Go to Spanning Tree > MSTP Instance, configure the region and instance parameters.

Global Config

Here you can enable the spanning tree function globally and choose the spanning tree mode.

Spanning Tree

   Enable or disable the spanning tree function globally.

Mode

   Select the spanning tree mode.

STP

   Set the spanning tree mode as STP. It is the basic spanning tree protocol based on IEEE 802.1d.

RSTP

   Set the spanning tree mode as RSTP. RSTP has the same function as STP, but it can speed up the spanning tree convergence.

MSTP

   Set the spanning tree mode as MSTP. MSTP can work with VLANs and implement load balancing.

Parameters Config

Here you can configure the global parameters for spanning tree.

CIST Priority

   Specify the CIST priority for the switch. CIST priority is a parameter used to determine the root bridge for spanning tree. The switch with the lower value has the higher priority.
   In STP/RSTP, CIST priority is the priority of the switch in spanning tree. The switch with the highest priority will be elected as the root bridge.
   In MSTP, CISP priority is the priority of the switch in CIST. The switch with the higher priority will be elected as the root bridge in CIST.

Hello Time

   Specify the interval between BPDUs' sending. It works with the MAX Age to test the link failures and maintain the spanning tree.

Max Age

   Specify the maximum time that the switch can wait without receiving a BPDU before attempting to regenerate a new spanning tree.

Forward Delay

   Specify the interval between the port state transition from listening to learning. It is used to prevent the network from causing temporary loops during the regeneration of spanning tree. The interval between the port state transition from learning to forwarding is also the Forward Delay.

Tx Hold Count

   Specify the maximum number of BPDU that can be sent in a second.

Max Hops

   Specify the maximum BPDU counts that can be forwarded in a MST region. A switch receives BPDU, then decrements the hop count by one and generates BPDUs with the new value. When the hop reaches zero, the switch will discard the BPDU. This value can control the scale of the spanning tree in the MST region.