Netgear GSM7252PS - ProSafe 52 Ports Gigabit Ethernet L2 Managed Stackable Switch User Manual
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Brand: NETGEAR
Category: Network Router , Switch
Type: Operation & user’s manual
Model: NETGEAR GSM7228PS , NETGEAR GSM7252PS - ProSafe 52 Ports Gigabit Ethernet L2 Managed Stackable Switch
Pages: 628
Chapter 4. Routing | 229
ProSafe® Gigabit L3 Managed Stackable Switches Software Administration Manual
Secondary IP Address
To display the Secondary IP Address page, click Routing IP Advanced Secondary IP.
1. Use Interface to select the interface for which data is to be displayed or configured.
2. Use Secondary IP Address to add a secondary IP address to the selected interface.
3. Use Secondary IP Subnet Mask to enter the subnet mask for the interface. This is also
referred to as the subnet/network mask, and defines the portion of the interface's IP Address
that is used to identify the attached network. This value is read only once configured.
4. Click ADD to add a Secondary IP Address for the selected interface.
5. Click DELETE to delete the Secondary IP Address from the selected interface.
Table 12.
Field Description
VLAN ID The VLAN ID associated with the displayed or
configured interface.
Primary IP Address The Primary IP Address for the Interface.
IPv6
IPv6 is the next generation of the Internet Protocol. With 128-bit addresses, versus 32-bit
addresses for IPv4, IPv6 solves the address depletion issues seen with IPv4 and removes
the requirement for Network Address Translation (NAT), which is used in IPv4 networks to
reduce the number of globally unique IP addresses required for a given network. Its
aggregate addresses can dramatically reduce the size of the global routing table through well
known address combinations. Security is more integrated and network configuration is
simplified yet more flexible.
IPv6 can coexists with IPv4. As with IPv4, IPv6 routing can be enabled on physical and VLAN
interfaces. Each L3 routing interface can be used for IPv4, IPv6, or both. IP protocols running
over L3 (for example, UDP and TCP) do not change with IPv6. For this reason, a single CPU
stack is used for transport of both IPv4 and IPv6, and a single sockets interface provides