gn-gsv2401m web managed switching hub user...
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GN-GSV2401M Web Managed SWITCHING HUB USER GUIDE
Gigabyte Ethernet Management Switching Hub with 24 10/100 Mbps Fast
Ethernet Ports plus 2 Gigabit Ports
Copyright ©2003 Gigabyte Technology Co., Ltd. All Rights Reserved.
FCC Warning This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limitations are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: • Reorient or relocate the receiving antenna. • Increase the separation between the equipment and receiver. • Connect the equipment into a different outlet from the one the receiver is
connected to. • Consult your local distributors or an experienced radio/TV technician for help. • Shielded interface cables must be used in order to comply with emission limits. Changes or modifications to the equipment, which are not approved by the party responsible for compliance, could affect the user’s authority to operate the equipment.
CE Mark Warning This is a Class A product. The product may cause radio interference in a domestic environment or residential area. If interference does occur, the user may need to take appropriate actions to counteract this interference. Copyright © 2003 All Rights Reserved. This publication, including all photographs, illustrations and software, is protected under international copyright laws, with all rights reserved. Neither this manual, nor any of the material contained herein, may be reproduced without the express written consent of the manufacturer. Disclaimer The information in this document is subject to change without notice. The anufacturer makes no representations or warranties with respect to the contents hereof and specifically disclaims any implied warranties of merchantability of fitness for any particular purpose. Furthermore, the manufacturer reserves the right to revise this publication and to make changes from time to time in the content hereof without obligation of the manufacturer to notify any person of such revision or changes. Gigabyte has an on-going policy of upgrading its products and it may be possible that information in this document is not up-to-date. Please check with your local distributors for the latest information. No part of this document can be copied or reproduced in any form without written consent from the company.
Trademarks All trade names and trademarks are the properties of their res pective companies and are acknowledged.
Contents
CHAPTER 1 GETTING STARTED ............................................................................ 1
1.1 UNPACKING INFORMATION, CHECKING YOUR ITEMS..................................................2 1.2 HOW TO USE THIS GUIDE.............................................................................................3
CHAPTER 2 INTRODUCTION TO THE GIGABYTE 2+24 PORTS 10/100/1000MBPS MANAGEMENT SWITCHING HUB............................................ 4
2.1 GENERAL DESCRIPTION ..............................................................................................5 2.3 THE FRONT PANEL ......................................................................................................7 2.3 THE FRONT PANEL ......................................................................................................7 2.4 THE REAR PANEL ........................................................................................................9
CHAPTER 3 INSTALLING AND USING THE SWITCHING HUB .................... 10
3.1 INSTALLATION ...........................................................................................................11 3.2 WEB-BASED MANAGEMENT FUNCTION ..................................................................12
3.2.1 Port Status ........................................................................................................ 14 3.2.2 Port Statistics ................................................................................................... 15 3.2.3 Administrator ................................................................................................... 16 3.2.4 TFTP Update Firmware ................................................................................... 47 3.2.5 Configuration Backup...................................................................................... 48 3.2.6 Reset System..................................................................................................... 49 3.2.7 Reboot .............................................................................................................. 49
3.3 LOCAL CONSOLE MANAGEMENT...............................................................................50 3.3.1 Main Menu ....................................................................................................... 55 3.3.2 Switch Static Configuration ............................................................................. 57 3.3.3 Protocol Related Configuration ....................................................................... 86 3.3.4 Status and Counters ....................................................................................... 105 3.3.5 Reboot Switch ................................................................................................. 109 3.3.6 TFTP Update Fireware ...................................................................................111
CHAPTER 4 PRODUCT SPECIFICATIONS.........................................................114
4.1 PRODUCT SPECIFICATIONS FOR 10/100BASE-X PORT ............................................115 4.2 PRODUCT SPECIFICATIONS FOR 10/100/1000 BASEX............................................115 4.3 PRODUCT SPECIFICATIONS FOR SWITCHING FUNCTIONS .........................................115 4.4 PRODUCT SPECIFICATION FOR MANAGEMENT FUNCTIONS ......................................116 4.5 PHYSICAL SPECIFICATION .......................................................................................116
APPENDIX A CONFIGURATION OF THE PCS...................................................117
THE SETTINGS UNDER WINDOWS2000 .........................................................................117 SETUP UNDER THE WINDOWS 95/98/ME.......................................................................120 SETUP UNDER WINDOWS XP ........................................................................................123
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Chapter 1 Getting Started
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1.1 Unpacking Information, Checking Your Items Thank you for purchasing this powerful, high-performance Gigabyte 24+2 ports 10/100/1000 Mbps Gigabyte Management Switching Hub. Before getting started, please check the package to make sure all the following items are included. The package should include the following: • Gigabyte GN-GSV2401M Switching Hub • AC power cord • User’s Guide for the Gigabyte Switching Hub • Mounting Kit containing: - Rubber feet for placing the switching hub on a table or flat surface - Two mounting brackets - Screws for attaching the brackets to the switching hub - Power cables
If you are missing any of the items listed above, please contact your local distributor or authorized reseller.
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1.2 How to use this Guide The Gigabyte GN-GSV2401M User’s Guide is divided into the follow chapters:
• Chapter 2, Introduction contains a general description and key functions of the 24+2 ports 10/100/1000 Mbps Gigabyte Management Switching Hub.
• Chapter 3, Installation explains the set -up procedures to make the gigabyte switching hub operational.
• Chapter 4, Product Specifications contains information about the technical aspects of the gigabyte switching hub.
• Appendices, including Contact Information and Warranty Statement. Read only if necessary.
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Chapter 2 Introduction to the Gigabyte 2+24 Ports
10/100/1000Mbps Management Switching Hub
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2.1 General Description The Gigabyte GN-GSV2401M is a powerful, high-performance, Fast Ethernet switching hub, which acts as traffic controller for 24 local routes and 2 highways to connect your networks to other outside networks. With all 24 ports capable of 10 or 100 Mbps auto-negotiation operation (NWay) and 2 Gigabit Ethernet uplink ports, the switching hub can automatically negotiate with the connected partners for the network speed and duplex mode. It is ideal for micro-segmenting large networks into smaller, connected subnets for improved performance, enabling bandwidth-demanding multimedia, imaging and database applications. Moreover, the 10/100Mbps auto-sensing ability provides an easy way to migrate 10Mbps to 100 Mbps network with ease. Compared to the shared 10Mbps or 100Mbps networks, the switching hub delivers a dedicated 10/100Mbps connection to every attached client with no bandwidth congestion issues and the most cost-effective way to invest in your network’s performance in the long run. Store-and-forward switching mode guarantees low latency, plus eliminates all network errors, including runt and CRC error packets . To work under fullduplex mode, transmission and reception of the frames can occur simultaneously without causing collisions, as well as doubling the network bandwidth. The switching hub is plug-and-play without needing any software to configure, and is also fully compliant with all kinds of network protocols. Moreover, the abundant diagnostic LEDs on the front-panel provide the operating status of individual ports and the entire system.
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2.2 Key Features The Gigabyte Switching Hub provides the following key features:
• Twenty-four non-blocking 10/100 Mbps Auto-negotiation Ethernet ports • Two non-blocking 10/100/1000 Mbps Auto-negotiation Ethernet ports • Full or Half duplex transfer mode for each port • Complies with the Flow Control support for Full-duplex specifications of the
IEEE802.3x standard • Complies with Port-Based VLAN, tag based VLAN with either IVL or SVL
support specifications of the IEEE802.1q standard • Complies with Two-Level priority Queuing support specifications of the
IEEE802.1p standard • Supports static Port Trunking • Supports Store-and-Forward switching scheme • Prevents Head of Line (HOL) blocking • Supports 14K Mac address table, 4K VLAN table entries • RS-232 port interface for Console management & System configuration • Controls Ingress & Engress rate • 802.1D Spanning Tree Support • SNMP/MIB-II Management Database Support • Bandwidth (Rate) Control Support • IGMP Snooping Support • Web-based Management Support
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2.3 The Front Panel The front panel of the Gigabyte Switching hub is shown below.
Reset button Pressing the reset button will reboot the entire system. Gigabit Port The 2 gigabit ports are used to connect to a PC or can be used to expand your network by simply connecting to a 1000 Mbps switch or Hub. Ethernet Port There are 24 Fast Ethernet ports, each capable of being connected to network devices, such as PCs and printer servers, at 10/100 Mbps. LEDs n POWER On When the Power LED light is on, the GN-GSV2401M is receiving power. Off When the Power LED light is off, the power cord is improperly connected. Ports 1-24 LEDs Port LED indicators shows the operating status of each port. n LNK/ACT/SPEED LED
Every port has a Link/Activity/Speed LED. Green light The connection speed is operating at 100Mbps. Orange light The connection speed is operating at 10Mbps. Blinking The port is transmitting or receiving data on the 10/100Mbps
Ethetnet network. A steady light (link state) indicates that the port has good linkage to its associated device. If the port is connected but the Link/Activity/Speed LED does not light up, please check the following items: 1. The switching hub and the connected devices’ power are on. 2. The port’s cable is firmly seated in its connectors in the switching hub and in
the associated device. 3. The connecting cable is functional and the correct type. 4. The connecting device, including any network adapter, is functioning
properly.
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n FDX/COL LED
Green light A steady green light indicates the port is operating in full-duplex mode.
Dark light A dark light indicates the port is operating in half-duplex mode. Blinking A collision is detected. Two Gigabit Ports LEDs n LNK/ACT LED
Green light The port is successfully connected to a network. Blinking The port is actively operating. n10/100/1000 LED
Green light The connection speed is operating at 1000Mbps. Orange light The connection speed is operating at 100Mbps. Dark light The connection speed is operating at 10Mbps. n FDX/COL LED
Green light A steady green light indicates the port is operating in full-duplex mode.
Dark light A dark light indicates the port is operating in half-duplex mode. Blinking A collision is detected.
Serial Port RS-232 Serial port (console port) for setting up and managing the Switch via a connection to a console terminal or PC using a terminal emulation program. (Please see Chapter 4.4 Management Functions for more details)
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2.4 The Rear Panel
On/Off switch After plugging in the power source with the power cable, you may turn the switch to “I” for on and “O” for off. Power socket for connecting the power For compatibility with electric service in most areas of the world, the switching hub’s power supply automatically adjusts to line power in the range 100-220 VAC and 50~60 Hz. Plug the female end of the power cord firmly into the receptacle on the rear panel of the switching hub. Plug the other end of the power cord into an electric service outlet. The device is now ready to be turned on.
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Chapter 3 Installing and Using the Switching Hub
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3.1 Installation The site where you place the GN-GSV2401M may greatly affect its performance. When installing, take the following into your consideration:
• Install the GN-GSV2401M in a fairly cool and dry place. See Physical Specification for the acceptable temperature and humidity operating ranges.
• Install the GN-GSV2401M in a site free from strong electromagnetic field generators (such as motors), viberation, dust and direct exposure to sunlight.
• Leave at least 10cm (about 4 inches) of space at the front and rear of the hub for ventilation.
• Install the GN-GSV2401M on the sturdy, level surface that can support its weight, or in a standard-size equipment rack.
Connecting Network Cable The GN-GSV2401M supports 10/100/1000Mbps Gigabit Ethernet. It runs full/half duplex transfer mode for 10/100Mbps and full duplex transfer mode for 1000Mbps. Each port on the GN-GSV2401M supports Auto-MDI/MDI-X. Auto-MDI/MDI-X is a feature that eliminates the need for worring about using either a standard or crossover cable – you can use either one – and allows any port to be an uplink port. Power On The GN-GSV2401M can be used with AC power supply 100~220V AC, 50~60Hz. The power switch is located at the rear of the unit adjacent to the AC power connector and the system fan. The switch’s power supply will adjust to the local power source automatically and may be turned on without having any or all LAN segment cables connected.
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3.2 Web-Based Management Function The GN-GSV2401M provides Web based configuration.You can manage and monitor the switch through your Internet Explorer browser or Netscape Communicator. Before you manage and monitor the switch, you will need to assign a Static IP Address to the computer that you are using to configure the switch on the same subnet. For instance, the default IP address of the switch is 192.168.223.100 and the subnet mask 255.255.255.0. You can enter IP address 192.168.223.20 (assuming that it is not already assigned to another network device), subnet mask 255.255.255.0 to your computer. Note: If you need the instructions on how to do this, please refer to Appendix
A, “Configuration of the PCs” The default values of the Web based configuration as follows: IP Address: 192.168.223.100 Subnet Mask:255.255.255.0 User Name: admin Password: 123 Login You can browse http://192.168.223.100, type user name and password as above.
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Web Management Home Page
This is a Home Page. The main features include: Port Status, Port Statistics, Administrator, TFTP Update Firmware, Configuration Backup, Reset System and Reboot.
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3.2.1 Port Status From here, you can observe every port status that depended on user setting and the negotiation result.
State Display port statuses disable or enable. “unlink” will be treated as “off ”.
Link Status Down is “No Link”, UP is “Link”. Auto Negotiation Display the auto negotiation mode: auto / force / nway-force. Speed status Display 1000Mbps or 100Mbps or 10Mbps speed, port 1- 24 are 10/100Mbps, Port 25-26 are 10/100/1000Mbps. Duplex status Display full-duplex or half-duplex mode. Flow Control Full: Display the flow control status is enable or disable in full mode. Half: Display the backpressure is enable or disable in half mode.
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Rate Control Display the rate control setting. Ingr: Display the port effective ingress rate of user setting. Egr:Display the port effective egress rate of user setting. Priority Display the port static priority status is High or Low or disable. Port Security Display the port security is enable or disable. Config Display the state of user setting. Atual Display the negotiation result. 3.2.2 Port Statistics The following information provides a view of the current status of the unit. You can click the “Reset” button to clean all count.
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3.2.3 Administrator The Administrator function gives you access to IP Address, Switch Settings, Console Port Info, Port Controls, Trunking, Filter Database , VLAN Configuration, Spanning Tree, Port Sniffer, SNMP, Security Manager, 802.1x Configuration. IP Address User can configure the IP Settings and fill in the new value, then click “Apply” button. Once you have changed the IP address, please reset the switch and use new IP address to browser this web management.
DHCP “Disable”:You may configure the IP address of the switch manually. “Enable”:The IP address of the switch will obtain an IP address from a DHCP
server. If the “Enable” is selected, user can get the IP Address information through the console management function.
IP Address & Subnet Mask The values are the switch’s IP Address and Subnet Mask. The default values are 192.168.223.100 for the IP Address and 255.255.255.0 for the Subnet Mask.
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Switch Settings n Basic
This page will show you the device information, including Description, MAC address, Firmware version, ASIC version, PCBA version, Serial number.
Description Display the name of device type.
MAC Address The unique hardware address assigned by manufacturer (default)
Firmware Version Display the switch’s firmware version.
ASIC Version Display the switch’s Hardware version.
PCBA version Display the board number.
Serial number Display the serial number assigned by manufacturer.
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n Module Info This page will show you the information of the module card.
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n Advanced
v Miscellaneous Setting
MAC Address Age-out Time Type the number of seconds that an inactive MAC address remains in the switch's address table. The valid range is 300~765 seconds. Default is 300 seconds.
Max bridge transmit delay bound control Limit the packets queuing time in switch. If enable, the packets queued exceed will be drop. This valid value are 1sec, 2 sec, 4 sec and off. Enable Low Queue Delay Bound Limit the low priority packets queuing time in switch. If the low priority packet stays in switch exceed Max Delay Time, it will be sent. The valid range is 1~255 ms. NOTE: Make sure of “Max bridge transit delay bound control” is
enabled before enable Delay Bound, because Enable Delay Bound must be work under “Max bridge transit delay bound control is enabled” situation.
Broadcast Storm Filter To configure broadcast storm control, enable it and set the upper threshold for individual ports. The threshold is the percentage of the
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port's total bandwidth used by broadcast traffic. When broadcast traffic for a port rises above the threshold you set, broadcast storm control becomes active. The valid threshold value are 5%, 10%, 15%, 20%, 25% and off.
v Priority Queue Service Settings
First Come First Service The sequence of packets sent is depend on arrive order.
All High before Low The high priority packets sent before low priority packets. WRR Weighted Round Robin. Select the preference given to packets in the switch's high-priority queue. These options represent the number of high priority packets sent before one low priority packet is sent. For example, 5 High : 2 Low means that the switch sends 5 high priority packets before sending 2 low priority packet. Qos Policy:High Priorit Levels 0~7 priority level can map to high or low queue.
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n Misc Config
Collisions Retry Forever “Disable”: In half duplex, if happen collision will retry 48 times and then drop
frame. “Enable”: In half duplex, if happen collision will retry forever.
Hash Algorithm Under this option two settings are possible: CRC-Hash or DirectMap. The default value is CRC-Hash. IFG Compensation It means Interframe Gap (96 bits) compensation between two continue frames according to IEEE 802.3ad. “Enable” the IFG compensation will improve the collision case, “Disable” IFG compensation might get more throughput, but can't improve the collision case.
802.1x Protocol Enable or disable 802.1x protocol.
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Console Port Info Console is a standard UART interface to communicate with Serial Port. User can use windows HyperTerminal program to link the switch. Connect To->Configure Bits per seconds: 9600 Data bits: 8 Parity: none Stop Bits: 1 Flow control: none
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Port Controls The Port Controls allows you to change every port status.
State User can disable or enable this port control. Auto Negotiation User can set auto negotiation mode is Auto, Nway (specify the speed/duplex on this port and enable auto-negotiation), Force of per port. Speed User can set 100Mbps or 10Mbps speed on Port1~Port24 and set 1000Mbps, 100Mbps or 10Mbps speed on Port25~Port26 (depend on module card mode). Duplex User can set full-duplex or half -duplex mode of per port. Flows control: Full User can set flow control function is enable or disable in full mode. Half User can set backpressure is enable or disable in half mode. Rate Control VT6526, port1 ~ port 24, supports by-port ingress and egress rate control. For example, assume port 1 is 10Mbps, users can set it’s effective egress rate is 1Mbps, ingress rate is 500Kbps. VT6526 will perform flow control or backpressure
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to confine the ingress rate to meet the specified rate. Ingress Type the port effective ingress rate. The valid range is 0 ~ 1000. The unit is 100K 0: disable rate control. 1 ~ 1000: valid rate value Egress Type the port effective egress rate. The valid range is 0~1000. The unit is 100K. 0: disable rate control. 1 ~ 1000: valid rate value. Priority This static priority based on port, if you set the port is high priority, income frame from this port always high priority frame. Port Security A port in security mode will be “locked” without permission of address learning. Only the incoming packets with SMAC already existing in the address table can be forwarded normally. User can disable the port from learning any new MAC addresses, then use the static MAC addresses screen to define a list of MAC addresses that can use the secure port. Enter the desired settings and then click “Apply” button to save the new settings to the switch.
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Trunking The Link Aggregation Control Protocol (LACP) provides a standardized means for exchanging information between Partner Systems on a link to allow their Link Aggregation Control instances to reach agreement on the identity of the Link Aggregation Group to which the link belongs, move the link to that Link Aggregation Group, and enable its transmission and reception functions in an orderly manner. In conclusion, Link aggregation lets you group up to eight consecutive ports into a single dedicated connection. This feature can expand bandwidth to a device on the network. LACP operation requires full-duplex mode, more detail information refers to IEEE 802.3ad. n Aggregator Setting
System Priority A value used to identify the active LACP. The switch with the lowest value has the highest priority and is selected as the active LACP.
Group ID There are seven trunk groups to provided configure. Choose the "group id" and click "Get".
LACP If enable, the group is LACP static trunking group. If disable, the group is local static trunking group. All ports support LACP dynamic trunking group. If connecting to the device that also supports LACP, the LACP dynamic trunking group will be created automatically.
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Work ports Allow max four ports can be aggregated at the same time. If LACP static trunking group, the exceed ports is standby and able to aggregate if work ports fail. If local static trunking group, the number must be as same as the group member ports.
Select the ports to join the trunking group. Allow max four ports can be aggregated at the same time.
If LACP enable, you can configure LACP Active/Passive status in each ports on State Activity page.
Enter the desired settings and then click “Apply” button to save the new settings to the switch. n Aggregator Information
When you are setting LACP aggregator, you can see relation information in here.
This page is no group active. LACP don’t working.
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This page is Static Trunking groups.
This page is Actor and Partner trunking one group.
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n State Activity
Active (select) The port automatically sends LACP protocol packets. Passive (no select) The port does not automatically sends LACP protocol packets, and responds only if it receives LACP protocol packets from the opposite device. 1. A link having either two active LACP ports or one active port can perform
dynamic LACP trunking. A link has two passive LACP ports will not perform dynamic LACP trunking because both ports are waiting for and LACP protocol packet from the opposite device.
2. If you are active LACP’s actor, when you are select trunking port, the
active status will be created automatically.
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Filter Database n Forwarding and Filtering
The GN-GSV2401M support IP multicast, you can enable IGMP protocol on web management’s switch setting advanced page, then display the IGMP snooping information in this page, you can view difference multicast group ,VID and member port in here, IP multicast addresses range from 224.0.0.0 through 239.255.255.255.
The Internet Group Management Protocol (IGMP) is an internal protocol of the Internet Protocol (IP) suite.
IP manages multicast traffic by using switches, routers, and hosts that support IGMP. Enabling IGMP allows the ports to detect IGMP queries and report packets and manage IP multicast traffic through the switch. IGMP have three fundamental types of message as follows: Message Description Query A message sent from the querier (IGMP router or switch)
asking for a response from each host belonging to the multicast group.
Report A message sent by a host to the querier to indicate that the host wants to be or is a member of a given group indicated in the report message.
Leave Group A message sent by a host to the querier to indicate that the host has quit to be a member of a specific multicast group.
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n Static MAC Addresses
When you add a static MAC address, it remains in the switch's address table, regardless of whether the device is physically connected to the switch. This saves the switch from having to re-learn a device's MAC address when the disconnected or powered-off device is active on the network again.
1. In the MAC address box, enter the MAC address to and from which the port should permanently forward traffic, regardless of the device’s network activity.
2. In the Port Number box, enter a port number. 3. If tag-based (IEEE 802.1Q) VLANs are set up on the switch, static
addresses are associated with individual VLANs. Type the VID (tag-based VLANs) to associate with the MAC address.
4. Click add.
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n MAC Filtering
MAC address filtering allows the switch to drop unwanted traffic. Traffic is filtered based on the destination addresses.
1. In the MAC Address box, enter the MAC address that wants to filter. 2. If tag-based (802.1Q) VLAN are set up on the switch, in the VLAN ID box,
type the VID to associate with the MAC address. 3. Click the Add.
4. Choose the MAC address that you want to delete and then click the
Delete.
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VLAN Configuration A Virtual LAN (VLAN) is a logical network grouping that limits the broadcast domain. It allows you to isolate network traffic so only members of the VLAN receive traffic from the same VLAN members. Basically, creating a VLAN from a switch is logically equivalent of reconnecting a group of network devices to another Layer 2 switch. However, all the network devices are still plug into the same switch physically. The GN-GSV2401M support port-based, 802.1Q (tagged-based) and protocol-base VLAN in web management page. In the default configuration,VLAN support is disable.
NOTE: Change VLAN mode for every time, you have to reboot the switch for
valid value. Support Port-based VLAN Packets can go among only members of the same VLAN group. Note all unselected ports are treated as belonging to another single VLAN. If the port-based VLAN enabled, the VLAN-tagging is ignored.
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Support Tag-based VLAN (IEEE 802.1Q VLAN) Tagged-based VLAN is an IEEE 802.1Q specification standard. Therefore, it is possible to create a VLAN across devices from different switch venders. IEEE 802.1Q VLAN uses a technique to insert a “tag” into the Ethernet frames. Tag contains a VLAN Identifier (VID) that indicates the VLAN numbers. Support Protocol-based VLAN In order for an end station to send packets to different VLANs, it itself has to be either capable of tagging packets it sends with VLAN tags or attached to a VLAN-aware bridge that is capable of classifying and tagging the packet with different VLAN ID based on not only default PVID but also other information about the packet, such as the protocol. GN-GSV2401M will support protocol-based VLAN classification by means of both built-in knowledge of layer 2 packet formats used by selected popular protocols, such as Novell IPX and AppleTalk’s EtherTalk, and some degree of programmable protocol matching capability.
n Port-based VLAN
1. Click Add to create a new VLAN group. 2. Enter the VLAN name, group ID and select the members for the new
VLAN. 3. Click Apply. 4. If there are many groups that over the limit of one page, you can click the
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“NextPage” to view other VLAN groups.
NOTE: If the trunk groups exist, you can see it (ex:TRK1,TRK2… ..) in select menu of ports, and you can configure it is the member of the VLAN or not.
n 802.1Q VLAN
User can create Tag-based VLAN, and enable or disable GVRP protocol. There are 256 VLAN groups to provide configure. Enable 802.1Q VLAN, the all ports on the switch belong to default VLAN, VID is 1. The default VLAN can’t be delete.
GVRP (GARP [Generic Attribute Registration Protocol] VLAN Registration Protocol) GVRP allows automatic VLAN configuration between the switch and nodes. If the switch is connected to a device with GVRP enabled, you can send a GVRP request using the VID of a VLAN defined on the switch, the switch will automatically add that device to the existing VLAN. v Basic
Create a VLAN and add tagged member ports to it. From the main Tag-based (IEEE 802.1Q) VLAN page, click Basic Settings.
1. Type a name for the new VLAN. 2. Type a VID (between 2-4094). The default is 1. 3. Choose the protocol type.
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4. From the Available ports box, select ports to add to the switch and click “Add >>”. If the trunk groups exist, you can see it in here (ex:TRK1,TRK2… ), and you can configure it is the member of the VLAN or not.
5. Click Next. Then you can view the page as follow.
6. Tag: outgoing frames with VLAN-Tagged.
Untag: outgoing frames without VLAN-Tagged.
v Port VID
Configure port VID settings From the main Tag-based (IEEE 802.1Q) VLAN page, click Port VID Settings.
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Port VID (PVID) Set the port VLAN ID that will be assigned to untagged traffic on a given port. This feature is useful for accommodating devices that you want to participate in the VLAN but that don’t support tagging. Each port allows user to set one PVID, the range is 1~255, default PVID is 1. The PVID must as same as the VLAN ID that the port belong to VLAN group, or the untagged traffic will be dropped. Ingress Filtering Ingress filtering lets frames belonging to a specific VLAN to be forwarded if the port belongs to that VLAN. GN-GSV2401M have two ingress filtering rule as follows: Ingress Filtering Rule 1:Forward only packets with VID matching this
port's configured VID. Ingress Filtering Rule 2:Drop Untagged Frame.
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Spanning Tree The Spanning-Tree Protocol (STP) is a standardized method (IEEE 802.1D ) for avoiding loops in switched networks. When STP enabled, to ensure that only one path at a time is active between any two nodes on the network. You can enable Spanning-Tree Protocol on web management’s switch setting advanced item, select enable Spanning-Tree protocol. We are recommended that you enable STP on all switches ensures a single active path on the network. n System Configuration
v Configuration Spanning Tree Parameters
You can setting new value for STP parameter, then click “Apply” button to modify.
Priority
A value used to identify the root bridge. The bridge with the lowest value has the highest priority and is selected as the root. Enter a number 1 through 65535.
Max Age The number of seconds a bridge waits without receiving Spanning-Tree Protocol configuration messages before at tempting a reconfiguration. Enter a number 6 through 40.
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Hello Time The number of seconds a bridge waits without receiving Spanning-Tree Protocol configuration messages. Enter a number 1 through 10. Forward_Delay_Time The number of seconds a port waits before changing from its Spanning-Tree Protocol learning and listening states to the forwarding state. Enter a number 4 through 30.
v Root Bridge Information You can view spanning tree information about the Root Bridge.
n Perport Configuration
v Configuration Spanning Tree Port Parameters
The parameter can be configured on each port , and then click “Apply” button to modify.
Path cost Specifies the path cost of the port that switch uses to determine which port are the forwarding ports the lowest number is forwarding ports, the
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rage is 1-65535 and default value base on IEEE802.1D. 10Mb/s = 50-600 100Mb/s = 10-60 1000Mb/s = 3-10
Port Priority You can make it more or less likely to become the root port, the rage is 0
-255, default setting is 128 the lowest number has the highest priority.
v STP Port Status
You can view spanning tree status about the switch.
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Port Sniffer The Port Sniffer is a method for monitor traffic in switched networks. Traffic through ports can be monitored by one specific port. That is, traffic goes in or out monitored ports will be duplicated into sniffer port. Roving Analysis State Set sniffer mode: Disable\Rx\Tx\Both. Analysis Port It’s mean sniffer port can be used to see all monitor port traffic. You can connect sniffer port to lan analysier or netxray. Monitored Port All monitor port traffic will be copied to sinffer port. You can select max 25 monitor ports in the switch. User can choose which port want to monitored in only one sniffer mode. If you want to disable the function, you must select monitor port to none.
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SNMP Any Network Management running the simple Network Management Protocol (SNMP) can management the switch, provided the Management Information Base (MIB) is installed correctly on the management station. The SNMP is a Protocol that governs the transfer of information between management and agent. The GN-GSV2401M support SNMP V1.
n System Options
You can define management stations as trap managers and to enter SNMP community strings. User can also define a name, location, and contact person for the switch. Fill in the system options data, then click “Apply” to update the settings. Name Enter a name to be used for the switch. Location Enter the location of the switch.
Contact Enter the name of a person or organization.
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n Community Strings
Community strings serve as passwords and can be entered as one of the following: RO Read only. Enables requests accompanied by this string to display MIB-object information. RW Read write. Enables requests accompanied by this string to display MIB-object information and to set MIB objects.
n Trap Managers
A trap manager is a management station that receives traps, the system alerts generated by the switch. If no trap manager is defined, no traps are issued. Create a trap manager by entering the IP address of the station and a community string.
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Security Manager Use this page, user can change web management user name and password. User name Type the new user name. Password Type the new password. Reconfirm password Retype the new password.
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802.1x Configuration n System Configuration
802.1x makes use of the physical access characteristics of IEEE802 LAN infrastructures in order to provide a means of authenticating and authorizing devices attached to a LAN port that has point-to-point connection characteristics, and of preventing access to that port in cases in which the authentication and authorization process fails.
To enable 802.1x, you still to fill in the authentication server information : Radius Server IP Address The IP address of the authentication server. Server Port The UDP port number used by the authentication server to authenticate.
Accounting Port The UDP port number used by the authentication server to retrieve accounting information. Shared Key A key shared between this switch and authentication server.
NAS Identifier A string used to identify this switch.
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n Perport Configuration In this page, you can select the specific port and configure the authorization state.
Each port can select four kinds of authorization state :
Fu: force the specific port to be unauthorized.
Fa: force the specific port to be authorized.
Au: the state of the specific port was determinied by the outcome of the
authentication.
No: the specific port didn't support 802.1x function.
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n Misc Configuration In this page, you can change the default configuration for the 802.1x standard.
Quiet Period used to define periods of time during which it will not attempt to acquire a supplicant(Default time is 60 seconds). Tx Period used to determine when an EAPOL PDU is to be transmitted (Default value is 30 seconds). Supplicant Timeout used to determine timeout conditions in the exchanges between the supplicant and authentication server (Default value is 30 seconds). Server Timeout used to determine timeout conditions in the exchanges between the authenticator and authentication server (Default value is 30 seconds). ReAuthMax used to determine the number of reauthentication attempts that are permitted before the specific port becomes unauthorized (Default value is 2 times). Reauth Period used to determine a nonzero number of seconds between periodic reauthentication of the supplications(Default value is 3600 seconds).
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3.2.4 TFTP Update Firmware The following menu options provide some system control functions to allow a user to update firmware and remote boot switch system: * Install TFTP Turbo98 and execution. * Copy firmware update version image.bin to TFTP Turbo98 directory. * In web management select administrator— TFTP update firmware. * Download new image.bin file then in web management press <update
firmware>. * After update finished, press <reboot> to restart switch.
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3.2.5 Configuration Backup n TFTP Restore Configuration
Use this page to set tftp server address. You can restore EEPROM value from here, but you must put back image in tftp server, switch will download back flash image.
n TFTP Backup Configuration
Use this page to set tftp server ip address. You can save current EEPROM value from here, then go to the TFTP restore configuration page to restore the eeprom value.
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3.2.6 Reset System From here, you can reset Switch to default configuration.
3.2.7 Reboot Reboot the Switch in software reset.
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3.3 Local Console Management You can manage the Switch locally using HyperTerminal; simply connect the Switch to a PC or workstation through the serial port. The Console program (and Telnet) and the Web-based management module are different ways to access the same internal switching software and configure it. Thus, all settings encountered in console program are the same as those found in the Web-based management. The serial port settings need to be configured before connecting to the Switch. In order to change the settings of your port, run the HyperTerminal program. This program comes packaged with Windows, but it may not be installed on your computer. It should be located as is shown below (varies according to operating systems). If it is not, consult your Windows’ documentation for instructions on installing HyperTerminal. To enable communications with the Switch, the serial cable must be connected between the Switch and the computer. Make sure both the Switch and the computer are powered down. Next, plug one end of the serial cable into the console port of the GN-GSV2401M and the other end of the serial cable into the COM1 port on the back panel of your computer. Now start your computer and turn on the GN-GSV2401M power. After the power is turned on, please select All Programs from the Start menu. Then choose Accessories, followed by Communications. In the Communications sub-menu select HyperTerminal.
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Please enter a name which you like for this connection, then press “OK”.
In the bottom drop down box labeled Connect using:, click the arrow and choose the COM port that the GN-GSV2401M will be connected to. In the example below, COM1 is the port selected. Press the “OK” button.
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The console port is set for the following configuration: • Baud rate: 9,600 • Data width: 8 bits • Parity: none • Stop bits: 1 • Flow Control: None
Make sure the terminal or PC you are using to make this connection is configured to match these settings and then press “OK”.
You will now be taken to the Set-Up page of the Gigabyte GN-GSV2401M Switching Hub, from where you can configure the GN-GSV2401M.
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Login Enter the required password in the Log-in screen to access the command console. The password can be changed from Misc Configuration under the Switch Configuration menu. You can press the “Tab” key or “Enter” key to next item. The default username is “admin” and password is “123”.
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3.3.1 Main Menu The main menu allows you access to all the GN-GSV2401M settings. To access each setting press the “Tab” key to select the desired setting and then press “Enter”. To return to the previous selection press “BkSpc” key.
Description of each Main Menu function: Switch Static Configuration The Switch Static Configuration menu gives you access to Port Configuration, Trunk Configuration, VLAN Configuration, Misc Configuration, Administration Configuration, Port Mirroring Configuration, Priority Configuration and MAC Address Configuration. Protocol Related Configuration The Protocol Related Configuration menu gives you configure the protocol functions, including STP, SNMP, GVRP, IGMP, LACP and 802.1x. Status and Counters The Status and Counters will show you the current status and statistics information of the switch. Reboot Switch The Reboot Switch function lets you reboot the Gigabyte GN-GSV2401M.
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TFTP Update Firmware The GN-GSV2401M provides you the TFTP function to download image to update the latest Fireware. Logout The Logout function allows you to logout of the Gigabyte GN-GSV2401M.
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3.3.2 Switch Static Configuration The Switch Static Configuration menu gives you access to Port Configuration, Trunk Configuration, VLAN Configuration, Misc Configuration, Administration Configuration, Port Mirroring Configuration, Priority Configuration and MAC Address Configuration. Press “Tab” key to select Switch Static Configuration from the Main Menu and press “Enter”.
Port Configuration Enables any port, enables/disables flow control, and sets communication mode to auto-negotiation, full duplex, or half duplex. Trunk Configuration Specifies ports to group into aggregate trunks. VLAN Configuration The VLAN Configuration menu allows changes to be made to VLAN settings. Misc Configuration The Misc Configuration menu allows you to edit UserInfo, Retry Forever, Auto-aging, Mac Hash Algo settings.
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Administration Configuration The Administrator Configuration gives you configure the default settings of the device. You can Change Username, Change Password, Device information and IP Configuration. Port Mirroring Configuration The Port Mirroring Configuration provides you a method for monitor traffic in switched networks. Priority Configuration The Priority Configuration allows you to set the priority for each port, including two types: Port Static Priority and 802.1p Priority. MAC Address Configuration The MAC Address Configuration gives you access to Static MAC Address and Filtering MAC Address.
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3.3.2.1 Port Configuration The Port Configuration menu is displayed after selecting it from the Switch Static Configuration menu. Settings for each port can be adjusted in this menu. To access each port use the “Tab” key to select the desired port you wish to customize. Enter the desired settings and then “<save>” the new settings.
InRate(100K/unit) User can set input rate control, per unit is 100K. The valid range is 0~1000. “0”:disable rate control. “1~1000”:valid rate value. OutRate(100K/unit) User can set output rate control, per unit is 100K. The valid range is 0~1000. “0”:disable rate control. “1~1000”:valid rate value. Enabled User can disable or enable this port control. “Yes” that mean the port is enable, “No” that mean the port is disable. Auto User can set auto negotiation mode is Auto, Nway_Force, Force of per port. Spd/Dpx User can set 100Mbps or 10Mbps speed on port 1~port 24, set 1000Mbps,
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100Mbps or 10Mbps speed on port25~port26 (depend on module card mode), and set full-duplex or half-duplex mode. Flow Control: Full User can set full flow control function (pause) is enable or disable. Half User can set half flow control function (backpressure) is enable or disable. NOTE: 1. Pressing <Save> only can save one page configuration. 2. If the static trunk groups exist, you can see it (ex: TRK1, TRK2… ) after port
26, and you can configure all of the items as above.
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3.3.2.2 Trunk Configuration The Port Trunk Configuration Menu is displayed after selecting it from the Switch Static Configuration menu. Settings for each port can be adjusted in this menu. Port trunk groups are used to combine a number of ports together to make a single high-bandwidth data pipeline. Select Trunk Configuration from the Main Menu and press enter.
Changing Port Trunking settings: To access each setting use the “Tab” key to select the desired port you wish to customize. Enter the desired settings and then “<save>” the new settings. The GN-GSV2401M can utilize up to 7 trunk groups. With up to 4 ports in each group, a potential bit rate of 800 Mbps can be achieved. Note: 1. If the two Gigabit Ethernet ports are used as a trunk group and either port is
disconnected, packets intended for the disconnected port will be dropped. 2. If VLAN group exist, all of the members of static trunk group must be in same
VLAN group.
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3.3.2.3 VLAN Configuration The VLAN Configuration menu allows users to configure the Gigabyte GN-GSV2401M into their networks. VLANs can be assigned to different ports. Only one untagged VLAN can be assigned to one port alternatively multiple tagged VLANs can be assigned to the same port. The VLAN Configuration Menu is displayed after selecting it from the Switch Static Configuration menu. Settings for each port can be adjusted in this menu. Ports can be combined to create high speed trunks. Select VLAN Configuration from the Main Menu and press Enter.
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There are two most popular VLAN implementation, IEEE 802.1q Tagged VLAN and Port-based VLAN. GN-GSV2401M supports both VLAN implementation. The biggest difference between both VLAN implementations is Tagged VLAN can cross Layer-2 switch but Port-based VLAN can not. IEEE802.1q VLAN IEEE 802 Local Area Networks (LANs) of all types may be connected together with Media Access Control (MAC) Bridges, as specified in ISO/IEC 15802-3. This standard defines the operation of Virtual LAN (VLAN) Bridges that permit the definition, operation and administration of Virtual LAN topologies within a Bridged LAN infrastructure. There are two key components to understanding IEEE 802.1Q VLANs - Port VLAN ID numbers (PVID) and VLAN ID numbers (VID). Although both variables are assigned to a switch port, there are important differences between them. For instance, a user can only assign one PVID to each switch port. When packets have to be forwarded to another switch port or somewhere else on the network, the PVID defines the relevant VLAN recipient. On the other hand, a user can define a port as a member of multiple VLANs (VIDs) thus allowing the connected segment to receive packets from many VLANs on the network. These two variables control a port’s ability to transmit and receive VLAN traffic. The difference between them provides network segmentation, while still allowing resources to be shared across more than one VLAN. Take for example a packet that is transmitted by a machine on Port 1 that is a member of VLAN 2 and has the Port VLAN ID number 2 (PVID=2). If the destination lies on another port (found through a normal forwarding table lookup), the switch then looks to see if the other port (Port 10) is a member of VLAN 2 (and can therefore receive VLAN 2 packets). If port 10 is not a member of VLAN 2, then the packet will be dropped by the switch and will not reach it’s destination. If Port 10 is a member of VLAN 2, the packet will go through. This selective forwarding feature based on VLAN criteria is how VLANs segment networks. The key point being that Port 1 will only transmit on VLAN 2, because it’s Port VLAN ID number is 2 (PVID=2).
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v VLAN Configuration You can assign the PVID for any ports in a domain.
PVID (Port VID : 1~255) Type the PVID.
NonMember Drop It matches that Ingress Filtering Rule 1 on web. Forward only packets with VID matching this port’s configured VID. Press “Space” key to choose forward or drop the frame that VID not matching this port’s configured VID.
UnTagged Drop It matches that Ingress Filtering Rule 2 on web. Drop untagged frame. Press “Space” key to choose drop or forward the untagged frame.
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v Create a VLAN Group Enter a VLAN Name and a VLAN ID, and then you can configure the VLAN tagging which indicates whether or not VLAN tags will be included on frames passing through this port.
v Edit/Delete a VLAN Group
You can modify or delete the settings for an existing VLAN.
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Port-Based VLAN Port-based VLANs are VLANs where the packet forwarding decision is based on the destination MAC address and its associated port. You must define outgoing ports allowed for each port when using port-based VLANs. Note that VLAN only governs the outgoing traffic, in the other word, it is unidirectional. Therefore, if you wish to allow two subscriber ports to talk to each other, e.g., between conference rooms in a hotel, you must define the egress (outgoing port) for both ports. An egress port is an outgoing port, that is, a port through which a data packet leaves. v VLAN Configuration
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v Create a VLAN Group Up to 26 port-based VLAN groups can be designated for the GN-GSV2401M. Individual ports can exit in two or more VLANs simultaneously, so VLAN groups can overlap or intersect.
v Edit/Delete a VLAN Group
You can modify or delete the settings for an existing VLAN.
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n Group Sorted Mode User can select VLAN groups sorted mode: (1) sorted by name (2) sorted by VID. In the Edit/Delete a VLAN group page will display the result.
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3.3.2.4 Miscellaneous Configuration The MISC Configuration menu allows the user access to MAC Age Interval, Broadcast Storm Filtering, Max bridge transmit delay bound, Port Security, Collisions Retry Forever, Hash Algorithm and IFG Compensation. The Misc Configuration Menu is displayed after selecting it from the Switch Static Configuration menu. Settings for each port can be adjusted in this menu. Select Misc Configuration from the Main Menu and press enter.
To access each setting use the “Tab” key to select the desired setting and then press “Enter”. Enter the desired settings and then press “Enter” to save the new settings.
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Description of each Misc Configuration function: n MAC Age Interval
The time the Gigabyte GN-GSV2401M will retain a MAC address that has had no buffer memory activity. The valid range is 300~765 seconds. Default is 300 seconds.
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n Broadcast Storm Filtering To configure broadcast storm control, set the upper threshold for individual ports. The threshold is the percentage of the port's total bandwidth used by broadcast traffic. When broadcast traffic for a port rises above the threshold you set, broadcast storm control becomes active. The valid threshold value are 5%, 10%, 15%, 20%, 25% and NO.
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n MAX BRIDGE TRANSMIT DELAY BOUND
v Max bridge transmit delay bound
Limit the packets queuing time in switch. If enable, the packets queued exceed will be drop. Press “Space” key to set the time. This valid value are 1sec, 2sec, 4sec and off. Default is off.
v Low Queue Delay Bound
Limit the low priority packets queuing time in switch. If enable, the low priority packet stays in switch exceed Low Queue Max Delay Time, it will be sent. Press “Space ” key to enable or disable this function.
v Low Queue Max Delay Time
To set the time that low priority packets queuing in switch. Default Max Delay Time is 255ms. The valid range is 1~255 ms.
NOTE: Make sure of “Max bridge transit delay bound control” is enabled before
enable Low Queue Delay Bound, because Low Queue Delay Bound must be work under “Max bridge transit delay bound control” is enabled situation.
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n Port Security A port in security mode will be “locked” without permission of address learning. Only the incoming packets with SMAC already existing in the address table can be forwarded normally. User can disable the port from learning any new MAC addresses, then use the static MAC addresses screen to define a list of MAC addresses that can use the secure port.
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n Collisions Retry Forever Enable or Disable the Collisions Retry Forever function. “Disable”: In half duplex, if happen collision will retry 48 times and then drop
frame. “Enable”: In half duplex, if happen collision will retry forever.
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n Hash Algorithm Under this option two settings are possible: CRC-Hash or DirectMap. The default value is CRC-Hash.
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n IFG Compensation It means Interframe Gap (96 bits) compensation between two continue frames according to IEEE 802.3ad.
“Enable” the IFG compensation will improve the collision case, “Disable” IFG compensation might get more throughput, but can't improve the collision case.
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3.3.2.5 Administration Configuration The Administration Configuration menu allows the user to Change Username, Change Password, edit the Device Information and IP Configuration. The Administration Configuration is deplayed after selecting it from the Switch Static Configuration menu. Settings for each port can be adjusted in this menu. Select Administration Configuration from the Main Menu and press Enter.
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n Change Username Use this page, you can change the username. Enter the user name. (It is a text string with a maximum of 10 alphanmeric characters)
n Change Password You can change the login password, please enter the old password, a new password an then enter the new password again. (It is a text string with a maximum of 10 alphanumeric characters.)
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n Device Information From this page, you can configure the device information.
n IP Configuration User can configure the IP setting and fill in the new value.
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3.3.2.6 Port Mirroring Configuration The Port Mirroring is a method for monitor traffic in switched network. Traffic through ports can be monitored by one specific port. That is traffic goes in or out monitored ports will be duplicated into monitoring port. The Port Mirroring Configuration is deplayed after selecting it from the Switch Static Configuration menu. Settings for each port can be adjusted in this menu. Select Port Mirroring Configuration from the Main Menu and press Enter.
Sniffer Mode Under the option four settings can be possible:Disable, Rx, Tx and Both. Monitoring port It’s mean sniffer port can be used to see all monitor port traffic. Monitored port The port you want to monitor. All monitor port will be copied to sniffer port. You can select max 25 monitor ports in the switch. User can choose which port want to monitored in only one sniffer mode. “V” is the member, “-” not the member. Note: Only one sniffer mode in switch at the same time.
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3.3.2.7 Priority Configuration The Priority Configuration menu allows the user access to Port Static Priority and 802.1p priority. The Priority Configuration Menu is displayed after selecting it from the Switch Static Configuration menu. Settings for each port can be adjusted in this menu. Select Priority Configuration from the Main Menu and press enter.
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n Port Static Priority The static priority based on port, if you set the port is high priority, income frame from this port always high priority frame.
n 802.1p Priority
There are 0~7 priority level can map to high or low queue.
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3.3.2.8 MAC Address Configuration The MAC Address Configuration menu allows the user access to Static MAC Address and Filtering MAC Address. The MAC Address Configuration Menu is displayed after selecting it from the Switch Static Configuration menu. Settings for each port can be adjusted in this menu. Select MAC Address Configuration from the Main Menu and press enter.
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n Static MAC Address When you add a static MAC address, it remains in the switch’s address table, regardless of whether the device is physically connected to the switch. This saves the switch from having to re-learn a device’s MAC address when the disconnected or powered-off decive is active on the network again.
³ Add Static MAC Address
MAC Address Enter the MAC address to and from which the port should permanently forward traffic, regardless of the device’s network activity.
Vlan ID If tag-based (802.1Q) VLAN are set up on the switch, static addresses are associated with individual VLANs. Type the VID to associate with the MAC address.
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n Filtering MAC Address MAC address filtering allows the switch to drop unwanted traffic. Traffic is filtered based on the destination addresses.
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3.3.3 Protocol Related Configuration The Protocol Related Configuraton menu gives you to configure the Protocol, including STP, SNMP, GVRP, IGMP, LACP and 802.1x. Select one protocol you want to configure from the menu and then press Enter.
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3.3.3.1 STP The Spanning-Tree Protocol (STP) is a standardized method (IEEE 802.1D ) for avoiding loops in switched networks. When STP enabled, to ensure that only one path at a time is active between any two nodes on the network. The Spanning-Tree Protocol (STP) menu is displayed after selecting it from the Protocol Related Configuration menu.
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n STP Enable You can enable or disable Spanning-Tree Protocol. We are recommended that you enable STP on all switches ensures a single active path on the network.
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n System Configuration You can view spanning tree information about the Root Bridge on the panel of the left-hand. On the panel of right-hand, user can set new value for STP parameter.
Priority A value used to identify the root bridge. The bridge with the lowest value has the highest priority and is selected as the root. Enter a number 1 through 65535.
Max Age The number of seconds a bridge waits without receiving Spanning-Tree Protocol configuration messages before attempting a reconfiguration. Enter a number 6 through 40.
Hello Time
The number of seconds a bridge waits without receiving Spanning-Tree Protocol configuration messages. Enter a number 1 through 10.
Forward_Delay_Time The number of seconds a port waits before changing from its Spanning-Tree Protocol learning and listening states to the forwarding state. Enter a number 4 through 30.
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n Perport Configuration To access each setting use the “Tab” key to select the desired port you wish to customize. Enter the desired settings and then “<save>” the new settings.
PortState Display spanning tree status about the switch for per port is forwarding or blocking.
PathCost Specifies the path cost of the port that switch uses to determine which port are the forwarding ports.
Priority This is mean port priority, you can make it more or less likely to become the root port.
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3.3.3.2 SNMP The SNMP Configuration allows you to define management stations as trap managers and to enter SNMP community strings. User can also define a name, location, and contact person for the switch. The SNMP Configuration menu is displayed after selecting it from the Protocol Related Configuration menu.
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n System Options To access each setting use the “Tab” key to select the desired setting and then press “Enter”. Enter the desired settings and then press “Enter” to save the new settings.
Description of each System Options Configuration function:
System Name Type a name to be used for the switch.
System Contact Type the name of contact person or organization.
System Location Type the location of the switch.
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n Community Strings Community strings serve as passwords. Community Name The name of current strings.
Write Access Enable the rights is read only or read write. “Restricted”:Read only, enables requests accompanied by this string to
display MIB-object information. “Unrestricted”:Read write, enables requests accompanied by this string to
display MIB-object information and to set MIB objects.
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n Trap Manager A trap manager is a management station that receives traps, the system alerts generated by the switch. If no trap manager is defined, no traps are issued. Create a trap manager by entering the IP address of the station and a community string.
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3.3.3.3 GVRP GVRP(GARP [Generic Attribute Registration Protocol] VLAN Registration Protocol) allows automatic VLAN configuration between the switch and nodes. If the switch is connected to a device with GVRP enabled, you can send a GVRP request using the VID of a VLAN defined on the switch, the switch will automatically add that device to the existing VLAN. This page allows you to enable or disable the GVRP Configuration function.
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3.3.3.4 IGMP The Internet Group Management Protocol (IGMP) is an internal protocol of the Internet Protocol (IP) suite. IP manages multicast traffic by using switches, routers, and hosts that support IGMP. Enabling IGMP allows the ports to detect IGMP queries and report packets and manage IP multicast traffic through the switch. IGMP have three fundamental types of message as follows:
Message Description Query A message sent from the querier (IGMP router or switch)
asking for a response from each host belonging to the multicast group.
Report A message sent by a host to the querier to indicate that the host wants to be or is a member of a given group indicated in the report message.
Leave Group A message sent by a host to the querier to indicate that the host has quit to be a member of a specific multicast group.
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3.3.3.5 LACP The Link Aggregation Control Protocol (LACP) provides a standardized means for exchanging information between Partner Systems on a link to allow their Link Aggregation Control instances to reach agreement on the identity of the Link Aggregation Group to which the link belongs, move the link to that Link Aggregation Group, and enable its transmission and reception functions in an orderly manner. In conclusion, Link aggregation lets you group up to eight consecutive ports into a single dedicated connection. This feature can expand bandwidth to a device on the network. LACP operation requires full-duplex mode, more detail information refers to IEEE 802.3ad. The LACP Configuration allows you to configure the Working Port Setting, State Activity and view all LACP Status.
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n Working Ports Setting From this page, you can set the actually work ports in trunk group.
Group Display the trunk group ID.
LACP Display the trunk group’s LACP status.
LACP Work Port Num The max number of ports can be aggregated at the same time. If LACP static trunking group, the exceed ports is standby and able to aggregate if work ports fail. If local static trunking group, the number must be the same as group ports.
NOTE: Before set this page, you have to set trunk group on the page of
Trunk Configuration first.
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n State Activity
Active The port automatically sends LACP protocol packets.
Passive The port does not automatically send LACP protocol packets, and responds only if it receives LACP protocol packets from the opposite device.
If user set LACP mode in the trunk group, all of the member ports of this trunk group will set "Active" automatic.
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n LACP Status When you setting trunking group, you can see relation information in here.
Static trunk group
LACP Trunk Group
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3.3.3.6 802.1x Protocol The 802.1x Protocol menu gives you access to 802.1x Model, System Configuration, Perport Configuration and Misc Configuration.
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n 802.1x Model From this page, the user can enable or disable the 802.1x protocol function.
n System Configuration
802.1x makes use of the physical access characteristics of IEEE802 LAN infrastructures in order to provide a means of authenticating and authorizing devices attached to a LAN port that has point-to-point connection characteristics, and of preventing access to that port in cases in which the authentication and authorization process fails.
Radius Server IP Address The IP address of the authentication server.
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Server Port The UDP port number used by the authentication server to authenticate. Accounting Port The UDP port number used by the authentication server to retrieve accounting information. Shared Key A key shared between this switch and authentication server. NAS Identifier A string used to identify this switch.
n Perport Configuration
In this page, you can select the specific port and configure the authorization state. Each port can select four kinds of authorization state : Fu: force the specific port to be unauthorized. Fa: force the specific port to be authorized.
Au: the state of the specific port was determinied by the outcome of the
authentication.
No: the specific port didn't support 802.1x function.
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n Misc Configuration In this page, you can change the default configuration for the 802.1x standard : Quiet Period used to define periods of time during which it will not attempt to acquire a supplicant(Default time is 60 seconds). Tx Period used to determine when an EAPOL PDU is to be transmitted(Default value is 30 seconds). Supplicant Timeout used to determine timeout conditions in the exchanges between the supplicant and authentication server (Default value is 30 seconds). Server Timeout used to determine timeout conditions in the exchanges between the authenticator and authentication server(Default value is 30 seconds). ReAuthMax used to determine the number of reauthentication attempts that are permitted before the specific port becomes unauthorized(Default value is 2 times). Reauth Period used to determine a nonzero number of seconds between periodic reauthentication of the supplications(Default value is 3600 seconds).
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3.3.4 Status and Counters The Status and Counters menu allows the user to view every port the current status, statistics and system information.
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n Port Status This page display every port status
Link Status Display the port is link or no link. InRate Display the input rate control (100K/unit) setting value.
OutRate Display the output rate control (100K/unit) setting value.
Enabled Display the port is enabled or disable depended on user setting. Enable will be display “Yes”, disable will be display “No”. If the port is unlink will be treated as “No”. Auto Display the port is link on which Nway mode: Auto , Nway_Force , Force. Spd/Dpx Display the port speed and duplex.
FlowCtrl In auto / Nway force mode, display the flow control status is enable or disable after negotiation. In force mode, display the flow control status is enable or disable depending on user setting.
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n Port Counters The following information provides a view of the current status of the unit.
n System Information
MAC Address The unique hardware address assigned by manufacturer. Firmware Version Display the switch’s firmware version.
ASIC Version Display the switch’s Hardware version.
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PCBA version Display the board number. Serial number Display the serial number assigned by manufacturer. Module 1 Type Display the module 1 type :1000Tx or 100Fx ext. Depend on module card mode.
Module 1 information Display the information saved in eeprom of module1.
Module 2 Type Display the module 2 type :1000Tx or 100Fx ext. Depend on module card mode.
Module 2 information Display the information saved in eeprom of module2.
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3.3.5 Reboot Switch To access the Restart screen functions, use the “Tab” key to select the desired function and then press “Enter”. Select either “Default” or “Restart”. Selecting the “Default” function will return all settings and values to the default setup. Selecting the “Restart” function will restart the Gigabyte GN-GSV2401M. The Restart function is accessed from the Switch Static Configuration menu.
Default The Default option will reset the Gigabyte GN-GSV2401M to the original factory settings. After finished load default setting, switch will reboot automatically. Restart The Restart option will restart the Gigabyte GN-GSV2401M.
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After a successful reboot the System Diagnosis menu will reappear.
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3.3.6 TFTP Update Fireware The GN-GSV2401M provide user to update firmware or restore EEPROM value or upload current EEPROM value.
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n TFTP Update Firmware This page provides user use TFTP to update firmware. When save successfully and the image file download finished. Please Restart switch.
n TFTP Restore Configuration This page user can restore EEPROM value, save image file before, form TFTP server. When save successfully and the image file download finished. Please Restart switch.
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n TFTP Backup Configuration This page user can save current EEPROM value to image file. Then go to the update configure page to restore the EEPROM value. When save successfully and the image file download finished. Please Restart switch.
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Chapter 4 Product Specifications
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Standards: IEEE802.3, IEEE802.3u, IEEE802.3x, IEEE802.3z, and IEEE802.3ab Interface: Twenty-four 10/100 Mbps NWay ports Two 1000 Base ports NWay Protocal support: Network speed: 10M, 100M and 1000 Mbps Duplex mode: Full and Half (10M/100Mbps) Full (1000 Mbps)
4.1 Product Specifications for 10/100BASE-X port Functions
• Fully compliant with IEEE802.3 10BASE-T, and IEEE802.3u 100BASE-TX • All ports support Auto-negotiation • IEEE802.3x compliant Flow Control support for Full-duplex • Collision-based and carrier-based backpressure support for halfduplex 4.2 Product Specifications for 10/100/1000 BASEX
port Functions • Fully compliant with IEEE802.3z 1000BASE-SX, and IEEE802.3ab
1000BASE-T • All ports support Auto-negotiation • Full/Half duplex support • IEEE802.3x compliant Flow Control support for Full-duplex ports 4.3 Product Specifications for Switching
Functions • IEEE802.1q port-based vlan, tag-based vlan with either IVL or SVL support • IEEE802.1p two-level priority queuing support • static port trunking support • store-and-forward packet switching support • by-port egress/ingress rate control • head of line (hol) blocking prevention support • 14k mac address table, 4k vlan table entries support • three scheduling schemes: fcfs, strictly priority scheduling and weighted round
robin scheduling to support
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4.4 Product Specification for Management Functions
• RS-232 port interface for Console management & System configuration Console Program The 24 port switch has an RS-232 console port for direct console management
(RS-232 DB-9), DTE/male connector) When connecting a terminal directly to the switching hub, use either a null modem cable or a null modem adapter on a serial (straightthrough) cable.
4.5 Physical Specification Power Supply : 110 ~ 220 V Operation Environment : Operation Temperature : 0 ~ 40 ?C
Storage Temperature : -20 ~ 65 ?C Dimension (W x L x H) : 440mm x 250mm x 45mm Weight : Gross Weight 3500 ± 5 g
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Appendix A Configuration of the PCs
The Settings Under Windows2000 Step 1. Click “Start” in the desktop of the Windows to select “Settings”, and
then click “Control Panel”.
Step 2. Double click the “Network and Dial-up Connections”.
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Step 3. Double click the “LAN CONNECTION”.
Step 4. Click “Properties” in the box under LAN CONNECTION Status.
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Step 5. Double click “Internet Protocol (TCP/IP)”.
Step 6. Please assign a static IP address and the same subnet as Access Point to the computer (e.g, IP address is 192.168.223.156 and Subnet Mask is 255.255.255.0), and then click the “OK” button to return to Local Area Connection Properties. Click the “OK” button again to complete the PC configuration.
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Setup Under the Windows 95/98/Me Step 1. Click “Start” at the desktop of the Windows, and select “Settings”, and
then the “Control Panel”.
Step 2. Double click “Network”.
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Step 3. Under Network, double click the “Configuration”, and choose your appropriate setting “TCP/IP -> and your network card” below.
Step 4. Select the “IP Address” tab. Please assign a static IP address and the
same subnet as Access Point to the computer (e.g, IP address is 192.168.223.156 and Subnet Mask is 255.255.255.0),and then click the “OK” button.
Please choose the TCP/IP and the name of your network card.
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Step 5. Click the “OK” button again. Windows will ask you to restart your PC. Please click the “Yes” button. If Windows does not ask you to restart , please restart your computer anyway.
Note: The Windows may ask you for the original Windows installation disk or
additional files. Please insert your Windows CD-ROM into your CD-ROM drive and check the correct location, e.g., D: \win98, D: \win9x, etc. (If “D” is your CD-ROM drive).
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Setup Under Windows XP Step 1. Click the “Start” at the desktop of the Windows, and select the “Control
Panel”.
Step 2. Double click the “Network Connections”.
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Step 3. Double click the “Local Area Connection”.
Step 4. Click the “Properties” in the box under Local Area Connection Status.
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Step 5. Double click the “Internet Protocol(TCP/IP)”.
Step 6. Please assign a static IP address and the same subnet as Access Point
to the computer (e.g, IP address is 192.168.223.156 and Subnet Mask is 255.255.255.0), and then click the “OK” button to return to Local Area Connection Properties. Click the “OK” button again to complete the PC configuration.
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Limited Warranty 1-Year Warranty Gigabyte warrants to the original consumer/purchaser that the adapter product free from defects in material and workmanship for no limited time from the original manufactory shipment date. This warranty does not cover the product if it is damaged in the process of being installed or improperly used. Gigabyte may replace or repair the adapter product with either new or reconditioned parts. Repaired or replaced adapter products will be returned to you at the same revision level as received or higher at Gigabyte’s option. Gigabyte reverses the right to replace discounted adapter products with an equivalent generation adapter product.
KEEP THIS STUB FOR YOUR PURCHASING RECORD
Customer: Phone No: Address: Email: Model: Serial: Date of Purchase: Place of Purchase: From Whom: Distributor:
Customer Satisfaction
GIGA-BYTE TECHNOLOGY CO., LTD. No.6, Bau Chiang Road, Hsin-Tien, Taipei Hsien, Taiwan, R.O.C.
Tel: 886-2-89124888 Fax:886-2-89124007
http://www.gigabyte.com.tw
Technical Support E-mail: [email protected]
TEL: 886-2-89124888
www.gigabyte.com.tw
25A08-0401M-F00