User's Manual
Table Of Contents
- Chapter 1 Introduction
- Features and Benefits
- Equipment Features
- SPEEDLAN K2's Polling Protocol -- How it Works in Star Networks
- SPEEDLAN 9000 Mesh Protocol -- How It Works in Non-Line-of-Sight Networks
- Chapter 2 Installing the SPEEDLAN 9101 & SPEEDLAN 9102 Hardware
- Rooftop and Tower Installations Warning
- Hardware Overview
- Drawings of Outdoor, Remote-Mounted Components
- The SPEEDLAN 9101 (with an Attached Standard Omni)
- The SPEEDLAN 9102 (with an External Antenna)
- Chapter 3 Using the SPEEDLAN 9000 Configurator
- Initial Configuration of the SPEEDLAN 9000
- Overview of the SPEEDLAN 9000 Configurator Main Menu
- Logging on to the SPEEDLAN 9000 Configurator
- Interfaces
- System
- Routing
- Wireless
- DHCP Server
- DHCP Relay
- NAT
- Diagnostics & Troubleshooting
- Administrative Access Pages
- Chapter 4 Using SPEEDView
- What is SPEEDView?
- System Requirements
- Installation Instructions
- Starting SPEEDView
- The Program Instructions
- The Main Tab
- Options Tab
- Admin Tab
- Chapter 5 Basics of IP Addressing
- Basics of IP Addressing
- Glossary for Standard Data Communications
- Glossary for Standard Data Communications
- Software License Agreement
SPEEDLAN 9000 Installation and Operation User Guide
3-36 Using the SPEEDLAN 9000 Configurator
(row headings)
(row headings)(row headings)
(row headings)
• Octets In: Total number of octets (bytes) received on the interface, including framing char-
acters.
• Unicast Packets In: This is the number of unicast packets coming into the interface.
• Errors In: The number of inbound packets that contained errors preventing them from
being deliverable to a higher-layer protocol.
• Octets Out: The total number of octets (bytes) transmitted out of the interface, including
framing characters.
• Unicast Packets Out: The number of subnetwork-unicast packets delivered to a higher-
layer protocol.
• Errors Out: The number of outbound packets that were chosen to be discarded, even
though they were deliverable. One possible reason for discarding such a packet could be
to free up buffer space.
(column headings)
(column headings)(column headings)
(column headings)
• Statistic: Type of statistic represented.
• Number: Represents the number of bytes, or number of errors.
• Since Load: The bytes or errors since this page was first loaded.
• Seconds: How many seconds ago this page was loaded.
• Per Second: Represents traffic information per second.
Click Refresh to automatically have the statistics continually updated every three seconds.
ARP Table
ARP is the abbreviation for Address Resolution Protocol, which maps an IP address to a machine's
hardware address. Network administrators use ARP to locate systems on the LAN that are configured
with incorrect IP addresses.
To open the ARP table, choose ARP Table from the Routing menu. The following page will appear.