Enterasys ssr-atm29-02 ユーザーガイド
CoreWatch Users Guide
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Chapter 8: Configuring IP Interfaces for the SSR
The 32-bits of an IP address are grouped into four eight-bit octets, which are separated by
decimal points. Each bit in an octet has a binary weight (128, 64, 32, 16, 8, 4, 2, 1). Each
octet is represented in decimal format and ranges in value from 0 to 255.
decimal points. Each bit in an octet has a binary weight (128, 64, 32, 16, 8, 4, 2, 1). Each
octet is represented in decimal format and ranges in value from 0 to 255.
There are two forms of IP addresses. One form is the dotted-quad and subnetwork mask
format, which is x.y.z.w n.n.n.x. The other form is the Classless Inter-Domain Routing
(CIDR) format, which is x.y.z.w/xx. Configuration Expert supports the dotted-quad and
subnetwork mask format, but the CLI supports both formats. An IP address of all zeroes
(0.0.0.0 0.0.0.0) means this machine on this network. An IP address of all ones (1.1.1.1
1.1.1.1) is a broadcast IP address or all hosts on all networks. Broadcast IP addresses are
used to inform a router to send a packet to all hosts on a network.
format, which is x.y.z.w n.n.n.x. The other form is the Classless Inter-Domain Routing
(CIDR) format, which is x.y.z.w/xx. Configuration Expert supports the dotted-quad and
subnetwork mask format, but the CLI supports both formats. An IP address of all zeroes
(0.0.0.0 0.0.0.0) means this machine on this network. An IP address of all ones (1.1.1.1
1.1.1.1) is a broadcast IP address or all hosts on all networks. Broadcast IP addresses are
used to inform a router to send a packet to all hosts on a network.
Traditional IP addresses are divided into network classes, and the left-most (high-order)
bit indicates the network class. The following table describes the classes used for unicast
and multicast IP addresses. As the table shows, you can determine which class an address
belongs to by examining the decimal value of the first octet. For example, you can
determine that 129.84.6.0 is a class B IP address because the first octet of the address has a
decimal value of 129.
bit indicates the network class. The following table describes the classes used for unicast
and multicast IP addresses. As the table shows, you can determine which class an address
belongs to by examining the decimal value of the first octet. For example, you can
determine that 129.84.6.0 is a class B IP address because the first octet of the address has a
decimal value of 129.
Using a netmask, the host part of the IP addresses can be divided into smaller networks.
These smaller networks are called subnetworks (or subnets) and provide a more efficient
way of allocating IP addresses. IP addresses broken down into subnets have the following
format: | Network | Subnet | Host |. For example, 129.84.1.0, 129.84.2.0, 129.84.3.0, and
129.84.4.0 are all subnetworks on network 129.84.0.0.
These smaller networks are called subnetworks (or subnets) and provide a more efficient
way of allocating IP addresses. IP addresses broken down into subnets have the following
format: | Network | Subnet | Host |. For example, 129.84.1.0, 129.84.2.0, 129.84.3.0, and
129.84.4.0 are all subnetworks on network 129.84.0.0.
Creating IP Interfaces
Create IP interfaces if you plan to configure the SSR for IP-based unicast or multicast
network traffic.
network traffic.
Table 13. IP Address Classes
IP Address
Class
Used for
Address Range
First Octet in
Decimal
High-Order
Bits
A
Some large
organizations
organizations
1.0.0.0 to
126.0.0.0
1 to 126
0
B
Medium-size
organizations
organizations
128.1.0.0 to
191.254.0.0
128 to 191
10
C
Small organizations
192.0.1.0 to
223.255.254.0
192 to 223
110
D
Multicast groups
224.0.0.0 to
239.255.255.255
224 to 239
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