Netgear XS728T – ProSAFE® 10 Gigabit Smart Managed Switch Guia Do Administrador
Switching
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XS728T ProSAFE 28-Port 10-Gigabit L2+ Smart Switch
•
Forwarding Interfaces: The resulting forwarding list is derived from combining all the
forwarding interfaces and removing the interfaces that are listed as the static filtering
interfaces.
forwarding interfaces and removing the interfaces that are listed as the static filtering
interfaces.
MFDB Statistics
To access the MFDB Statistics screen, click Switching
> Multicast > MFDB > MFDB
Statistics.
The MFDB Statistics screen displays the following:
•
Max MFDB Table Entries. The maximum number of entries that the MFDB table can
hold.
hold.
•
Current Entries. The current number of entries in the MFDB table.
Auto-Video Configuration
If the switch supports devices or applications running multicast traffic, the Auto-Video feature
simplifies IGMP snooping querier configuration, such as video surveillance cameras.
simplifies IGMP snooping querier configuration, such as video surveillance cameras.
To configure Auto-Video:
1.
Select Switching
> Multicast > Auto-Video Configuration.
2.
Globally enable or disable the Auto-Video administrative mode for the switch by selecting
Enable or Disable next to the Auto-Video Status radio button.
3.
Select the VLAN ID of the auto-video VLAN in the Auto-Video VLAN field.
4.
Click Apply to send the updated configuration to the switch.
Configuration changes take place immediately.
IGMP Snooping
Internet Group Management Protocol (IGMP) snooping is a feature that allows a switch to
forward Multicast traffic intelligently on the switch. Multicast IP traffic is traffic that is destined
to a host group. Class
forward Multicast traffic intelligently on the switch. Multicast IP traffic is traffic that is destined
to a host group. Class
D IP addresses identify host groups, which range from 224.0.0.0 to
239.255.255.255. Based on the IGMP query and report messages, the switch forwards traffic
only to the ports that request the multicast traffic. This action prevents the switch from
broadcasting the traffic to all ports and possibly affecting network performance.
only to the ports that request the multicast traffic. This action prevents the switch from
broadcasting the traffic to all ports and possibly affecting network performance.
A traditional ethernet network can be separated into different network segments to prevent
placing too many devices onto the same shared media. Bridges and switches connect these
segments. When a packet with a broadcast or Multicast destination address is received, the
switch forwards a copy into each of the remaining network segments in accordance with the
IEEE MAC Bridge standard. Eventually, the packet is made accessible to all nodes
connected to the network.
segments. When a packet with a broadcast or Multicast destination address is received, the
switch forwards a copy into each of the remaining network segments in accordance with the
IEEE MAC Bridge standard. Eventually, the packet is made accessible to all nodes
connected to the network.
This approach works well for broadcast packets that are intended to be seen or processed by
all connected nodes. In the case of multicast packets, however, this approach could lead to
less efficient use of network bandwidth, particularly when the packet is intended for only a
all connected nodes. In the case of multicast packets, however, this approach could lead to
less efficient use of network bandwidth, particularly when the packet is intended for only a