User's Manual
Table Of Contents
- Chapter 1 Introduction
- Features and Benefits
- Features
- Chapter 2 Quick Start
- System Description
- Package Contents
- Installation Steps
- Installation Diagram
- Polarizations on a Grid Antenna
- Chapter 3 Hardware
- Drawings of Components
- Restoring Factory Default Settings on the SPEEDLAN
- Upgrading the Firmware
- Chapter 4 Overview of Configurator
- Installation and Setup
- Toolbar and Menus
- Chapter 5 Configuring SPEEDLAN
- General Setup
- Interface & Advanced Interface Setup
- The Setup Buttons
- Chapter 6 Bridging Setup
- Bridge Setup
- Chapter 7 Setting Up the IP Addresses (IP Host Setup)
- Part I - Quick Overview of IP Addressing
- Part II - Setting Up the IP Address
- Part III - Setting Up NAT
- Chapter 8 IP-Router Setup
- IP Routing Setup
- Chapter 9 SNMP Setup
- SNMP Setup
- Chapter 10 System Access Setup
- System Access Setup
- Chapter 11 SNMP Monitoring
SPEEDLAN Installation and Operation User Guide
7-6 Setting Up the IP Addresses (IP Host Setup)
Default Subnet masks
• Class A: 255.0.0.0
• Class B: 255.255.0.0
• Class C: 255.255.255.0
Note: Subnet mask is bolded.
What is a Subnet?
Subnetting allows you to create multiple networks within one Class A, B, or C network. Each data
link (octet) contains its own unique identifier also known as the subnet. Also, each node on the same
data link must belong on the same subnet as well.
What is a Subnet Mask?
A subnet mask allows you to mask section(s) (depending on the class specified) of the octets in the
network address. Each octet used in the subnet mask is assigned to a data link. The leftover octet(s)
are assigned to the remaining nodes.
For more information on subnetting, see the example below and Diagram of Subnetting a Network,
page 7-7.
Example of Subnetting:
For example, a Class C network (255.255.255.0) contains three masked octets (255.255.255). The
last octet (0) is leftover for remaining nodes (i.e., computers).
If Router D is reading IP Addresses 195.172.3.1 (let's call this IP Address 1) and 195.172.3.64 (let's
call this IP Address 2) on this Class C network, it would send IP Address 1 to Subnet A and IP Address
2 to Subnet B. The remaining nodes in each subnet (A through D) on this network can contain up to
254 pieces of network equipment (computers, printers, fax machines, bridges or routers, etc.).