Multi-service IP DSLAM, 1U, AC or DC power input, and two slide-in slots for various DSL line cards. 12-port ADSL/ADSL2/ADSL2+ line card with a splitter built-in for MTU application 8-port G.SHDSL or 16-port G.SHDSL.bis with M-pair bonding line card for business applications with long reach One or two Fast Ethernet uplink interfaces 802.1p QoS, priority queuing, 802.1q VLAN tagging and multicasting support 802.1x authentication, MAC/Packet filtering and ACL filtering support Manageable with the Windowsbased Element Management System (EMS)
Advanced Asymmetrical and Symmetrical High Bandwidth Services

Benefits

Comprehensive Broadband IP DSLAM Services
IP-based DSLAM terminates all ATM circuits and converts traffics directly to deliver the most popular broadband IP services. It also provides a distinctive advantage over typical ATM-based DSL access system since IP is the natural approach for data transmission. It offers better bandwidth utilization, ease of use and low-cost advantages. With the highly compact design (1U height), simple installation and easy adaptation to lease line services or local POTS/ISDN splitter requirements, the IES-1000 can be deployed using indoor or outdoor enclosures with different modules simultaneously, such as ADSL2/2+ (AAM1212-51/53), G.SHDSL (SAM1008) and G.SHDSL.bis (SAM1216-22) services.
Robust ADSL2+ Solution for Multiple Tenant Unit (MTU) Services
With ADSL2+ IP DSLAM, service providers can offer residential and business user access to high-bandwidth, on-demand services such as streaming video, online gaming, multimedia applications and multiple video channels on a single network connection. The IES-1000 also offers medium/small businesses and home offices IP connectivity, VPNs, VLANs, high-quality video conferencing, long-reach Ethernet and legacy service interconnection, as well as asymmetric connectivity as fast as 24Mbps. The IES-1000 DSL solution for POTS/ISDN is a sophisticated ADSL2+ device wielding full compliance to existing standards, the latest DSL technology, compactness, low power consumption, integration with existing platforms and network manageability. The combination of a superior line code, modern signal processing techniques and state-ofthe-art ASIC design add up to a compact, energy-saving ADSL2+ modem with excellent performance, transparent backward ADSL/ADSL2 compatibility, robust interference resistance and flexible configurability.
Lease Line G.SHDSL Service for Enterprise
1U IP DSLAM with AC/DC Power ies-1000
With G.SHDSL technology, the IES-1000 is also applicable for lease line replacement. Using the TC-PAM modulation technique, the IES-1000 is compatible with other existing transmission technologies, allowing service providers to deploy at locations where broadband services already exist.
M-Pair Bonding G.SHDSL.bis Solution
The IES-1000 supports the new-generation G.SHDSL.bis service at up to 4096kbps symmetrically in a single pair to serve end customers, and it comes with two 100Mbps Ethernet interfaces toward Ethernet aggregation network. One IES-1000 can accommodate two SAM1216-22 modules to support up to 32 SHDSL connections. In addition, the SAM1216-22 supports ITU G.991.2 m-pair bonding in a physical layer manner. The m-pair bonding can be 2 or 4 pairs and the aggregated maximum payload rate is around 16Mbps.
Extensive Management Capabilities

The entire IES-1000 system can be administrated remotely with the Windows-based NetAtlas Access EMS (Element Management System) based on the SNMP-manageable SNMPc platform. NetAtlas Access EMS provides powerful advanced remote management capabilities that help service providers minimize daily operational costs. Its loop-back design helps isolating network problems while the new firmware and IP Express configuration features allow changes to be done remotely, eliminating the need for truck rolls in order to provision new customers or to reconfigure services for existing customers.

Specifications

System Specifications
Delivery of Ethernet in the first mile using legacy LAN technologies End-to-end provisioning by offering DSL circuit configuration through NetAtlas Access EMS Support expandable configuration with plugand-play line cards SNMP v1, v2 manageable Web management FTP/TFTP for firmware upload Console port configuration (RS-232) Telnet configuration and monitoring Spanning tree algorithm (802.1D) for loop free connection 802.1Q VLAN aware bridging - IGMP snooping supports multicast traffic - QoS support with 802.1p - DHCP relay agent option 82 - Port isolation - 256 static VLAN entries (full-range VLAN ID 1 ~ 4094) - 4 K MAC address entries Packet prioritizing per 802.1p (QoS) - Static configurationdefault priority setting - 4 priority queues per PVC (up to 4 PVCs) Multicast - IPv4 multicast forwarding (through L2 MAC) - Static multicast membership configuration - IGMP v1, v2 snooping & IGMP proxy mode support - Shared VLAN multicast - 256 multicast groups and each group can contain 18 members - IGMP filtering profile - IGMP count limiting - MVLAN - DSL port multicast bandwidth control Management support - CLI-based management from console/Ethernet port - SNMPV1,v2 and telnet through Inband Ethernet interface and NetAtlas Access, PCbased EMS management support - Web-based management through Inband Ethernet interface - Secured Host: configure remote host IP addresses for management - UNIX syslog - F/W upgrade, configuration backup & restore via FTP and Web - Text-based configuration file support - Port configuration - Alarm/Status Surveillance - Performance monitoring - Security and Memory Backup - Self diagnostics - Remote reset - EMS Management support MIB - SNMP MIB II (RFC1213) - SNMP v1 - SNMP v2 - RFC1493 Bridge MIB - RFC1643 Ethernet MIB - RFC1757 Four group of RMON - RFC2674 - RFC2662 ADSL line MIB - RFC4319 (formerly RFC3276) SHDSL Line MIB

Hardware Specifications

IES-1000M
19 1U rack mountable, 2 card slots chassis 2 line cards to accommodate different types of DSL services as well as Ethernet traffic Fully hot-swappable design Support 8 to 32 ports in MDU/central office environment Temperature monitoring and alarm Auto-shutdown for over temperature Surge protection to prevent lightning damage

AAM1212-51

One Telco 50 connectors for 12-port ADSL/ADSL2/ADSL2+ and splitter card over POTS One mini RJ11 console port for local management Two 10/100Base-TX for uplink DELT (Dual Ended Loop Test) SELT (Single End Loop Test) Power enhancement or ADSL power saving mode Rate adaptation Status LEDs: System Status, Ethernet 1 and 2 Link Status, Ethernet 1 and 2 Active Status, ADSL ports status, Alarm ADSL Compliance - DMT T1.413, issue 2 - G.DMT (ITU G.992.1) - G.LITE (ITU G.992.2) - G.HS (ITU G.994.1) - Auto-negotiating rate adaptation - ADSL2: G.992.3 Annex A, G.992.3 Annex L (READSL), Annex M - ADSL2+: G.992.5 Annex A, Annex M

AAM1212-53

One Telco 50 connectors for 12-port ADSL/ADSL2/ADSL2+ and splitter card over ISDN One mini RJ11 console port for local management Two 10/100Base-TX for uplink DELT (Dual Ended Loop Test) SELT (Single End Loop Tets) Power enhancement or ADSL power saving mode Rate adaptation Status LEDs: System Status, Ethernet 1 and 2 Link Status, Ethernet 1 and 2 Active Status, ADSL ports status, Alarm ADSL Compliance - DMT T1.413, issue 2 - G.DMT (ITU G.992.1) - G.LITE (ITU G.992.2) - G.HS (ITU G.994.1) - Auto-negotiating rate adaptation - ADSL2: G.992.3 Annex B - ADSL2+: G.992.5 Annex B
Status LEDs: System Status, Ethernet Link Status, Ethernet Active Status, G.SHDSL.bis ports status, Alarm Line coding: TC-PAM Transmit power: up to 16.8 dBm Density: 16 ports per chip SHDSL payload format: ATM Rate Adaptation Mode: fixed, line probing Up to 4096 kbps in single pair, m-pairs (2/4 pairs mode) bonding support up to 16.384 Mbps Annex A and annex B PSD mask SHDSL line profile SHDSL alarm profile Power backoff Standard Compliant - ETSI SDSL (ETSI TS V 1.2.1) - ITU G.shdsl (ITU-T G.991.2 (2001)) - ITU G.shdls.bis (ITU-T G.991.2 (2004)) - RFC4319 (formerly RFC3276) SHDSL Line MIB
Environmental Specifications
Operating Temperature: 0C ~ 50C Storage temperature: -40C ~ 70C Operating Humidity: 10% ~ 90% (non-condensing) Storage Humidity: 10% ~ 95% (non-condensing) Power supply (AC/DC) - AC Power: 100 ~ 240 VAC, 50 ~ 60 Hz - DC Power: -36 ~ -72 V DC Power consumption - AAM1212-51: 25 W - AAM1212-53: 25 W - SAM1008: 8.59 W - SAM1216-22: 25 W

Certification

Safety - UL 60950-1 - CSA 60950-1 - EN60950-1 - IEC 60950-1 EMC - FCC Part 15B Class A - EN55022 Class A - EN55024 Class A - ETSI Reliability - ETSI Telecom - ITU-T K20

Physical Specifications

SAM1008
One console port: Mini-RJ-11 (4P4C) One Ethernet port: RJ45 10/100 Mbps 8-port G.SHDSL- RJ-11 connector Status LEDs: System Status, Ethernet Link Status, Ethernet Active Status, G.SHDSL ports status, Alarm Compliant with ITU-T G.991.2 TC-PAM modulation Transmission rate: 192 k ~ 2.3 Mbps, 64 kbps increments over single copper pair All front access Hot-swappable
Dimensions: 440 (W) x 320 (D) x 46 (H) mm Weight: 3.7 Kg
Dimensions: 170 (W) x 320 (D) x 35 (H) mm Weight: 0.9 Kg

SAM1216-22

One Telco 50 connectors for 16-port G.SHDSL.bis One mini RJ11 console port for local management Two 10/100Base-TX for uplink In-band Ethernet management
ADSL2+ Line Card aam1212-51/53
G.SHDSL Line Card sam1008
G.SHDSL.bis Line Card sam1216-22
IES Series IP DSLAM Family Matrix
Model System Overview Dimensions W x D x H (mm) Splitter Rack Mountable Total Slot No Max DSL line card slot Max DSL Port No. Management & Switching card redundancy Power Input Power redundancy Hot Swappable Interfaces Uplink Subtending ADSL2/2+ line card SHDSL line card G.SHDSL.bis VDSL2 line card QoS Function 802.1p priority queuing 802.1q tag-based VLAN SPQ/WRR ATM QoS to 802.1p priority mapping DSCP to 802.1p mapping Security Function IEEE 802.1x Multiple PVC per port Q in Q (VLAN stacking) DHCP snooping DHCP relay option 82 MAC/Packet Filtering MAC count filtering Packet Filtering IEEE 802.3ad Link Aggregation ACL/Filtering Source MAC address filtering PPPoE filtering ACL filtering Layer 1~4 filtering ARP broadcast filtering NetBIOS filtering DHCP broadcast filtering IGMP filtering Multicast Function Snooping IGMP v1, v2 GVRP Static Multicast Group VLAN Multicast VLAN Multicast VLAN registration (MVR) Proxy Filtering Profile Yes Yes (future) Yes Yes Yes Yes (future) Yes (future) Yes Yes (future) Yes Yes Yes Yes (future) Yes (future) Yes NA Yes Yes Yes Yes NA Yes NA Yes Yes Yes Yes NA Yes NA Yes Yes Yes Yes NA Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes (future) Yes Yes Yes Yes Yes Yes Yes (future) Yes Yes Yes Yes Yes Yes NA Yes Yes Yes Yes Yes Yes NA Yes Yes Yes Yes Yes Yes NA Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes 8 Yes (future) NA Yes Yes Yes Yes NA Yes 8 Yes (future) NA Yes Yes Yes Yes NA Yes 8 NA NA Yes Yes Yes Yes Yes Yes 8 NA NA Yes Yes Yes Yes Yes Yes 8 NA NA Yes Yes Yes Yes Yes Yes 8 Yes Yes Yes Yes Yes Yes Yes Yes 8 Yes Yes Yes Yes Yes Yes Yes 4 queue 256VLAN SPQ Yes Yes (future) 4 queue 256VLAN SPQ Yes Yes (future) 8 queue 4KVLAN SPQ Yes NA 8 queue 4KVLAN SPQ Yes NA 8 queue 4KVLAN SPQ Yes NA 8 queue 4KVLAN SPQ, WRR Yes Yes 8 queue 4KVLAN SPQ, WRR Yes Yes 2FE Yes Yes Yes NA NA Two 100Base-TX/ 1000Base-T or two mini GBIC Yes Yes NA NA NA 4GE Yes Yes Yes Yes NA 4GE Yes Yes Yes Yes NA 4GE Yes Yes Yes Yes NA 4GE Yes Yes Yes Yes Yes 4GE Yes Yes Yes Yes Yes 440 x 320 x 44.5 Built in 19" 1U 24 AC or DC NA Yes 440 x 251 x 66 Built in 19" 1.5U NA NA 48 AC or DC NA NA 443 x 268 x 178 Separated 19" 4U 120 NA DC NA Yes 443 x 268 x 178 Separated 19" 4U 120 NA AC NA Yes 443 x 268 x 483 Separated 19" 10U 360 Yes DC Yes Yes 440 x 250 x 152 Separated 19" 4U 192 NA DC Yes Yes 440 x 289 x 249 Separated 19" 6.5U 384 Yes DC Yes Yes IES-1000 IES-1248 IES-2000 IES-2500 IES-3000 IES-5005 IES-5000

Network Management SNMP v1, v2 SNMP v3 Web management CLI management EMS management Yes No Yes Yes NetAtlas PC/UNIX version Yes No Yes Yes NetAtlas PC/UNIX version Yes NA Yes Yes NetAtlas PC/UNIX version Yes NA Yes Yes NetAtlas PC/UNIX version Yes NA Yes Yes NetAtlas PC/UNIX version Yes Yes Yes Yes NetAtlas PC/UNIX version Yes Yes Yes Yes NetAtlas PC/UNIX version
For more product information, visit us on the web www.ZyXEL.com
Copyright 2006 ZyXEL Communications Corp. All rights reserved. ZyXEL, ZyXEL logo are registered trademarks of ZyXEL Communications Corp. All other brands, product names, or trademarks mentioned are the property of their respective owners. All specifications are subject to change without notice.

65-100-100305G

10/100 Mbps Auto-negotiating Ethernet Port
This 10/100 Mbps auto-negotiating Ethernet port connects the IES-1000 to an Ethernet network. With Ethernet as the backbone, you can create a network that provides G.SHDSL and or ADSL service to hundreds of subscribers.
G.SHDSL Compliance (SAM1008)
ITU-T G.991.2 G.hs (ITU-T G.994.1) Rate adaptation support
ADSL Compliance (AAM1008)
Multi-Mode ADSL standard 1-1
Getting To Know The IES-1000
IES-1000 Users Guide G.dmt (ITU-T G.992.1) G.lite (ITU-T G.992.2) G.hs (ITU-T G.994.1) ANSI T1.413 issue 2

Rate adaptation support

Port Bonding (SAM1008)
The port bonding feature allows you to combine two to four G.SHDSL connections between two IES-1000s into a single logical connection. This can give increased bandwidth for LAN-to-LAN applications.

Bridging

IEEE 802.1D transparent bridging Up to 4096 MAC entries address table Port-based VLAN (Virtual Local Area Network)

IEEE 802.1Q Tagged VLAN

Your IES-1000 uses the IEEE 802.1Q Tagged VLAN (Virtual Local Area Network), which allows your device to deliver tagged/untagged frames to and from its ports. The IES-1000 supports up to 255 VLANs and up to 4094 VLAN IDs.

IEEE 802.1p Priority

Your IES-1000 uses IEEE 802.1p Priority to assign priority levels to individual ports.

Fast Mode

The fast mode makes use of the tag subset of the IEEE 802.1Q standard to identify the source port of a frame and speed traffic through a service gateway.
MAC (Media Access Control) Filtering
Use MAC filter commands to filter incoming frames based on MAC (Media Access Control) address(es) that you specify. You may enable/disable specific ports. You may specify up to five MAC addresses per port.

Secured Host

Allow up to ten remote hosts to access your IES-1000 via IP addresses you specify.

System Error Logging

The system error log will record error logs locally to the IES-1000 memory. These logs may be viewed again after a warm restart.

UNIX Syslog Logging

Use UNIX syslog commands to send logs to your UNIX server.

Protocol

Multiple Protocols over AAL5 (RFC 1483) Getting to Know the IES-1000

Management

Remote configuration backup/restore and firmware upgrade SNMP manageable Text-based management locally via console port and remotely via telnet Web configurator with online help

Security

Password protection for system management VLAN

This chapter gives a brief introduction to the IES-1000 hardware.
Additional Installation Requirements
WAN service provided by a local phone company
A computer with Ethernet 10Base-T or 100Base-TX NIC (Network Interface Card)
A computer with terminal emulation software configured to the following parameters: VT100 terminal emulation 9600 bps No parity, 8 data bits, 1 stop bit No flow control

Front Panel

The following figure shows the front panel of the IES-1000 with a SAM1008 network module installed on the left and an AAM1008 network module on the right.

Figure 2-1 Front Panel

Network Module Front Panel LEDs
The following table describes the LED indicators on the front panel of a SAM1008 or AAM1008 network module. Table 2-1 Network Module LED Descriptions
LED ALM COLOR Red STATUS DESCRIPTION Blinking The modules thermal sensor has failed. (SAM1008) On Off SYS Green Blinking On Off The module has overheated. The module is functioning within normal temperature parameters. The system is initializing. The module is on and functioning properly. The system is not receiving power, is not ready or has a malfunction.

Hardware Overview

IES-1000 Users Guide Table 2-1 Network Module LED Descriptions
LED SHDSL (1-8) or ADSL (1-8) LAN Green COLOR Green STATUS On Off Blinking On Off Yellow Blinking On Off The DSL link is up. The DSL link is down. The system is transmitting/receiving to/from a 10 Mbps Ethernet network. The link to a 10 Mbps Ethernet network is up. The link to a 10 Mbps Ethernet network is down. The system is transmitting/receiving to/from a 100 Mbps Ethernet network. The link to a 100 Mbps Ethernet network is up. The link to a 100 Mbps Ethernet network is down. DESCRIPTION

Front Panel Ports

Table 2-2 Front Panel Ports of the SAM1008 Network Module
PORT DESCRIPTION The LAN port is a 10/100 Mbps auto-sensing Ethernet port that connects to a router. These RJ-11 ports (labeled 1-8) connect to subscriber G.SHDSL equipment. The CONSOLE port is an RJ-11 port used for configuring the IES-1000. This port connects to a local computer.
The following tables describe front panel ports.

LAN SHDSL 1-8 CONSOLE

192.168.1.1> help version

yields

version - show system software version
The system responds with a description of the version command.
Always remember to save your configuration using the following syntax:
192.168.1.1> config save
This command saves all system configurations into nonvolatile memory. You must use this command to save any configurations that you make, otherwise the IES-1000 will return to its default settings when it is restarted. Do not turn off your IES-1000 while saving your configuration.

Commonly Used Commands

This section shows you commonly used commands.

Syntax:

Uptime Command

192.168.1.1> uptime

This command shows the elapsed time the system has been running since the last reboot.

Version Command

192.168.1.1> version
This command shows the system firmware version and date

Restart Command

192.168.1.1> restart
This command instructs the system to perform a warm start, that is, restarting the system without turning the power off and on.

Passwd Command

192.168.1.1> passwd
This command changes the management password. The management password is used for authentication at console or Telnet login. This command is only allowed for local console management sessions. The management password must be from 1 to 8 characters long and any character is accepted. The factory default password is 1234. It is very important that you remember your password. If you forget it, refer to the Troubleshooting section for help.

Config Print Command

192.168.1.1> config print
This command lists all current system configuration settings.

Exit Command

192.168.1.1> exit
This command terminates the console or telnet management session.

Sys Commands

Info Command

192.168.1.1 sys> info

This command displays system related information.

Set Name Command

192.168.1.1 sys> set name <name>
This command allows you to set the name of your IES-1000. The previous setting will be cleared if the command is entered with the <name> parameter omitted.

Set Contact Command

192.168.1.1 sys> set contact [<name>]
This command allows you to set the name of the contact person for your IES-1000. The previous setting will be cleared if the command is entered with the name omitted.

192.168.1.1 gshdsl> show profile <name>
where <name> = A profile name. The show profile command displays the settings of a G.SHDSL profile. An example is shown next.
192.168.1.1 gshdsl> show profile debug profile name _ _ _ Cmin _ Cmax _ Debug = 192 2048
This display shows that the debug profiles maximum transmission rate is set to 2048 Kbps and the minimum transmission rate is set to 192 Kbps.

6.6.14

Show Profiles Command
192.168.1.1 gshdsl> show profiles
The show profiles command displays the settings of all the G.SHDSL profiles.

6.6.15

Set Port Command
192.168.1.1 gshdsl> set port <port #> <profile name>
The number of the port to which you want to assign a profile. The profile that defines the minimum and maximum transfer rates for this port.

<profile name> =

Enter the list ports command to view the status of all ports.

6.6.16

Set Ports Command
192.168.1.1 gshdsl> set ports <profile name>
The profile that defines the minimum and maximum transfer rates for this port.
This CI command is like the Set Port Command described in section 6.6.15 except that this command configures all G.SHDSL ports to have a specified profile. Enter the list ports command to view the status of all ports.

6.6.17

Set PVC Command
192.168.1.1 gshdsl> set pvc <port #> <multiplexing mode> <tx vpi> <tx vci> [<rx vpi> <rx vci>]
<port #> <multiplexing mode> <tx vpi> <tx vci> <rx vpi> <rx vci> = = = = = =
A port number, from 1 to 8. Either llc or vc" The VPI setting of the G.SHDSL port for use with a TX based network. The VCI setting for the G.SHDSL port for use with a TX based network. The VPI setting for the G.SHDSL port for use with Rx based networks. The VCI setting for the G.SHDSL port for use with Rx based networks.
The <rx vpi> and <rx vci> settings will be equal to those of <tx vpi> and <tx vci> if the rx settings are not configured. The set pvc command allows the configuration of a PVC (permanent virtual circuit) for an individual G.SHDSL port.

6.6.18

Set PVCs Command
192.168.1.1 gshdsl> set pvcs <multiplexing mode> <tx vpi> <tx vci> [<rx vpi> <rx vci>]
<multiplexing mode>= <tx vpi> =
Either llc or vc. The VPI setting of the G.SHDSL ports for use with a TX based network. 6-9
<tx vci> <rx vpi> <rx vpi> = = =
The VCI setting for the G.SHDSL ports for use with a TX based network. The VPI setting for the G.SHDSL ports for use with Rx based networks. The VCI setting for the G.SHDSL ports for use with Rx based networks.
The <rx vpi> and <rx vci> settings will be equal to those of <tx vpi> and <tx vci> if the rx settings are not configured. The set pvcs command allows you to configure a single PVC for all of the G.SHDSL ports at once.

192.168.1.1 adsl> lineinfo 7 Current Operating Modes: Data Mode: ATM Service Type in operation: G.DMT
Number of Channels (Down/up stream): 1/1 Downstream Framing Structure Active down/up stream rate option TRELLIS operation mode is Current Connection detail: Down/up stream interleaved Delay : 4/ 4 ms : 3 : 1/1 : ON
Downstream Parity byte assigned to fast/interleaved : 0/ 2 Upstream Parity byte assigned to fast/interleaved : 0/ 2 : 0/ 1 : 0/ 1
Downstream Symbols assigned to fast/interleaved Upstream Symbols assigned to fast/interleaved
Down/up stream Depth value Total Transceiver Output Power Current ATUR Information: Country code 0 Provider Code 01020304 Capabilities: g.dmt POTS overlap (Annex A) : : 2/ 2 8dB
The results contain the operating modes, interleave delay, parity byte assignment and parity bytes per codeword, symbols per codeword and interleave depth. Current ATUR Information contains data acquired from the ATUR (stands for ADSL Termination Unit Remote, in this case the subscribers ADSL modem or router) during negotiation/provisioning message interchanges. It includes the Vendor ID and Version Number obtained from Vendor ID fields (g.994.1) or R-MSGS1(T1.413) and country code from Vendor ID (g.994.1). Information obtained prior to training to steady state transition will not be valid or will be old information. Annex A refers to POTS.
192.168.1.1 adsl> lineperf <port number>
where <port number> = A port number, from 1 to 8. The lineperf command shows the line performance counters of an ADSL port. An example is shown next.
192.168.1.1 adsl> lineperf 7 nfebe-I/nfebe-ni ncrc-I/ncrc-ni nfecc-I/nfecc-ni nfec-I/nfec-ni nblks-ds/nblks-us nsec-ds/nsec-us n-eb-ds/n-eb-us n-bbe-ds/n-bbe-us n-es-ds/n-es-us n-ses-ds/n-ses-us : 0/0 : 0/0 : 0/0 : 0/0 : 120878/120878 : 2060/2060 : 0/0 : 0/0 : 0/0 : 0/0
non-ses-blks-ds/non-ses-blks-us : 120878/120878 n-uas-ds/n-uas-us : 0/0
fe_loss_seconds/ne_loss_seconds : 0/0 fe_fec_seconds/ne_fec_seconds fast_trains fast_trains_fail : 0/0 : 0 : 0
These counts contain line performance data that has been accumulated since the system started. In the list above the definitions of near end/far end will always be relative to the ATU-C (ADSL Termination Unit-Central Office). Downstream (ds) refers to data from the ATU-C and upstream (us) refers to data from the ATU-R.

7.5.18

192.168.1.1 adsl> set ports <profile name> <oper mode> ADSL Commands 7-11
IES-1000 Users Guide where <profile name> = <oper mode> = The profile that will define the settings of this port. Operational mode. Choose from glite, gdmt, t1413 or auto for Annex A. Choose from anxb or auto for Annex B.
The set ports command assigns a specific profile to all of the ADSL ports and sets all of the ports to one mode, or standard. The profile defines the maximum and minimum upstream/downstream rates, the target upstream/downstream signal noise margins, and the maximum and minimum upstream/downstream acceptable noise margins of all the ADSL ports. The mode parameter specifies the standard that this port is allowed. When set to auto, the AAM1008 follows whatever mode is set on the other end of the line. When the mode is set to auto and the negotiated mode is G.lite, if the configured rates exceed those allowed by G.lite, the actual rates are governed by G.lite, regardless of the configured numbers.

7.5.19

Show Port Command
show port <port number> where <port number> = A port number, from 1 to 8. The show port command shows the line status (up or down), the actual upstream/downstream rates and mode of an individual ADSL port.

7.5.20

Show Ports Command
192.168.1.1 adsl> show ports The show ports command shows the line status (up or down), the actual upstream/downstream rates and the mode of all ADSL ports.

7.5.21

192.168.1.1 adsl> set pvc <port number> <multiplexing mode> <tx vpi> <tx vci> [<rx vpi> <rx vci>] where <port number> 7-12 = A port number, from 1 to 8. ADSL Commands
IES-1000 Users Guide <multiplexing mode> = <tx vpi> <tx vci> <rx vpi> <rx vci> = = = = Either llc or vc" The VPI setting of the ADSL port for use with a Tx based network The VCI setting for the ADSL port for use with a Tx based network The VPI setting for the ADSL port for use with Rx based networks The VCI setting for the ADSL port for use with Rx based networks
The <rx vpi> and <rx vci> settings will be equal to those of <tx vpi> and <tx vci> if the rx settings are not configured. The set pvc command allows the configuration of a PVC (permanent virtual circuit) for an individual ADSL port.

7.5.22

192.168.1.1 adsl> set pvcs <multiplexing mode> <tx vpi> <tx vci> [<rx vpi> <rx vci>] where multiplexing mode = either llc or vc <tx vpi> <tx vci> <rx vpi> <rx vpi> = The VPI setting of the ADSL ports for use with a Tx based network = The VCI setting for the ADSL ports for use with a Tx based network = The VPI setting for the ADSL ports for use with Rx based networks = The VCI setting for the ADSL ports for use with Rx based networks

Chapter 9 Bridge Commands
This chapter discusses the bridge subsystem. It allows you to configure and monitor the bridging, configure MAC filters, port-based VLANs and tagged frame functions of the IES-1000. The IES-1000 supports IEEE 802.1D transparent bridging; but not the static filtering feature or spanning tree protocol. The bridge learns the source MAC addresses of sender hosts by inspecting incoming Ethernet frames and recording the learned MAC addresses with their incoming port numbers into its filtering database. Based on the database, the bridge forwards each incoming frame to its destination port.
Traditionally, IP packets are transmitted in one of either two ways - Unicast (1 sender to 1 recipient) or Broadcast (1 sender to everybody on the network). Multicast delivers IP packets to just a group of hosts on the network. IGMP (Internet Group Multicast Protocol) is a session-layer protocol used to establish membership in a multicast group - it is not used to carry user data. Refer to RFC 1112 and RFC 2236 for information on IGMP versions 1 and 2 respectively. A layer-2 switch can passively snoop on IGMP Query, Report and Leave (IGMP version 2) packets transferred between IP multicast routers/switches and IP multicast hosts to learn the IP multicast group membership. It checks IGMP packets passing through it, picks out the group registration information, and configures multicasting accordingly. Without IGMP snooping, multicast traffic is treated in the same manner as broadcast traffic, that is, it is forwarded to all ports. With IGMP snooping, group multicast traffic is only forwarded to ports that are members of that group. IGMP Snooping generates no additional network traffic, allowing you to significantly reduce multicast traffic passing through your switch.

Bridge Port Numbers

The bridge subsystem of the IES-1000 defines its own numbering convention for ports. The bridge has a total of nine ports: bridge port 1 stands for the Ethernet port, bridge port 2 stands for DSL port 1, bridge port 3 stands for DSL port 2, and so on. Be sure you have clarified the relation between bridge ports and DSL ports.

This command removes a configured source MAC address from a port specified by you.

Filter Commands

Filter Command
192.168.1.1 bridge> filter
This command displays the filtering database.

Mfilter Command

192.168.1.1 bridge> mfilter
This command displays the multicast filtering database. The mfilter command is what allows you to monitor the IES-1000s IGMP snooping activities. The following is an example of a multicast filtering database.
239.255.255.250 224.000.001.022 235.001.001.006 229.055.150.208 224.000.001.060 235.209.237.084
7f-ff-fa 00-01-16 01-01-06 37-96-d0 00-01-3c 51-ed-54

Member Ports

1, 2 1, 3, 4 1, 2, 5, 7,8 1, 9 1, 3, 5, 6 1, 4, 6, 9
Total 6 entries. IGMP version 2 Query Received 343 Max Response Time 100 * 1/10 seconds Query Interval 125 seconds where ID GDA MAC Member Ports = = = =
The location of the entry in the multicast filtering database. Group Destination Address. The IP address of a multicast group destination. The last 3 bytes of the multicast MAC that the GDA is mapped to. The ports that belong to this multicast group. 1= Ethernet, 2= DSL port 1, 3=DSL port 2 and so on. Bridge Commands
IGMP version Query Received = =
The version of IGMP being used in the network. The number of query packets received by the IES-1000. The longest period of time used to respond to a query packets, measured in tenths of a second. The time period between query packets.
Max Response Time = Query Interval =

Filterage Command

192.168.1.1 bridge> filterage [age]
The aging out timer period in seconds.
This command sets or shows the aging out timer period of the filtering database. It is recommended that you use the default setting. If the time interval is set too short, it could increase broadcast traffic and reduce the available bandwidth.

Flush Command

192.168.1.1 bridge> flush [port]
This command flushes out the filtering database of the specified bridge port. If the <port> field is omitted, this command will flush out the filtering databases of all ports.

Figure 9-1 Default VLAN Settings

Portfilter Command

192.168.1.1 bridge> portfilter [<source port> all|<dest ports>]
<source port> all <dest ports> = = =
An incoming bridge port number. All bridge ports are allowed outgoing ports. The outgoing bridge ports. Separate by a space if there is more than one port.
This command sets or displays the port-based VLAN configuration. An example is shown next.
192.168.1.1 > bridge 192.168.1.1 bridge> portfilter Port 1 (ethernet): Port 2 (dsl1): Port 3 (dsl2): Port 4 (dsl3): Port 5 (dsl4): Port 6 (dsl5): Port 7 (dsl6): Port 8 (dsl7): Port 9 (dsl8): all
The above shows the current configuration of the port-based VLAN. It is the same as the default settings. An example with an altered configuration is shown next.
192.168.1.1 > bridge 192.168.1.1 bridge> portfilter 3 192.168.1.1 bridge> portfilter 2
IES-1000 Users Guide This example sets the allowed outgoing bridge ports of port 2 (DSL port 1) to port 1 (Ethernet port) and port 3 (DSL port 2). The allowed outgoing bridge ports of port 3 (DSL port 2) are set to port 1 (Ethernet port) and port 2 (DSL port1). This way, DSL ports 2 and 3 can communicate with each other and the Ethernet port. You can see the effects of this example by using the following command:
192.168.1.1 bridge> portfilter Port 1 (ethernet): Port 2 (dsl1): Port 3 (dsl2): Port 4 (dsl3): Port 5 (dsl4): Port 6 (dsl5): Port 7 (dsl6): Port 8 (dsl7): Port 9 (dsl8): all 1 1
The following figures illustrate the above example. Notice that ports 2 (DSL port 1) and 3 (DSL port 2) are able to communicate with each other, as well as with the Ethernet. All of the other ports will only be able to communicate with the Ethernet port. The following figure illustrates the
192.168.1.1 bridge> portfilter 3
command line. Port 2 (DSL port 1) is able to send to both the Ethernet port and port 3 (DSL port 2).
Figure 9-2 Example of Modified VLAN Port 2 The following figure illustrates the
192.168.1.1 bridge> portfilter 2
command line. Port 3 (DSL port 2) is able to send to both the Ethernet port and port 2 (DSL port 1).
Figure 9-3 Example of Modified VLAN Port 3 The following figure illustrates that port 1 (the Ethernet port) is linked to ports 2 (DSL port 1) and 3 (DSL port 2). Ports 2 (DSL port1) and 3 (DSL port 2) are also linked to each other. Or, in other words, the following figure is a result of the following commands:

Step 1.

Use the IEEE 802.1Q tagged VLAN commands to configure tag-based VLAN for the subscribers. Use the svlan setentry command to configure a VLAN ID for each subscriber. For a typical setup, use fixed for the administration control for the DSL port (numbered 2-9) and the uplink port (number 1). Select untag for the tag control for the DSL port and tag for the uplink port. Ignore any messages telling you to use the enable vlan command in order to enable GVRP. Use the enable vlan command when you are finished configuring the VLAN (see the last step).
Use the pvid command to set the VLAN ID you created for a port to that specific port in the PVID table. Repeat these steps for the rest of the DSL ports.

Example:

1. 2. 3. 4. 5. 192.168.1.1> vlan1q 192.168.1.1 vlan1q> svlan setentry fixed untag 192.168.1.1 vlan1q> svlan setentry fixed tag 192.168.1.1 vlan1q> pvid 192.168.1.1 vlan1q> svlan setentry fixed untag
IEEE 802.1QTagged VLAN Commands
6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. Step 2. 192.168.1.1 vlan1q> svlan setentry fixed tag 192.168.1.1 vlan1q> pvid 192.168.1.1 vlan1q> svlan setentry fixed untag 192.168.1.1 vlan1q> svlan setentry fixed tag 192.168.1.1 vlan1q> pvid 192.168.1.1 vlan1q> svlan setentry fixed untag 192.168.1.1 vlan1q> svlan setentry fixed tag 192.168.1.1 vlan1q> pvid 192.168.1.1 vlan1q> svlan setentry fixed untag 192.168.1.1 vlan1q> svlan setentry fixed tag 192.168.1.1 vlan1q> pvid 192.168.1.1 vlan1q> svlan setentry fixed untag 192.168.1.1 vlan1q> svlan setentry fixed untag 192.168.1.1 vlan1q> pvid 9 18
Configure your management VLAN. Use the svlan setentry command to configure a VLAN ID for your device (the management or CPU VLAN. Use the svlan cpu command to register your device as a member of the management VLAN.
192.168.1.1 vlan1q> svlan setentry fixed tag 192.168.1.1 vlan1q> svlan cpu 2

1. 2. Step 2.

Perform the procedure below to complete the VLAN setup after you have configured all the network modules in the chassis. Note that this must be the last step before you lose the connection to the network module. a. Telnet to the operational IP address of a network module. b. Use the svlan delentry command to remove the default VLAN ID (1). c. Use the vlan enable command to activate the VLAN after you have finished all of your configuration.

1. 2. 192.168.1.1 vlan1q> svlan delentry 1 192.168.1.1 vlan1q> vlan enable
IEEE 802.1Q Tagged VLAN Commands
Bridge port 1 stands for the Ethernet port, bridge port 2 stands for DSL port 1, bridge port 3 stands for DSL port 2, and so on. IEEE 802.1Q Tagged VLAN Commands 10-3

10.6.1

VLAN Enable Command
The default for the IEEE 802.1Q Tagged VLAN is disable. Enable the IEEE 802.1Q Tagged VLAN by following the example shown next. Syntax:
192.168.1.1 vlan1q> vlan enable

10.6.2

VLAN Disable Command
You can disable the IEEE 802.1Q Tagged VLAN by using the VLAN Disable command.
192.168.1.1 vlan1q> vlan disable
This command disables the IEEE 802.1Q Tagged VLAN.

10.6.3

PVID Command
192.168.1.1 vlan1q> pvid [<port #> <vlan id>]
<port #> <vlan id> = =
A bridge port number. Valid parameter range = [1 - 9]. The VLAN ID. Valid parameter range = [1 - 4094].
This command sets the VLAN ID to a specific port in the PVID table. To display the PVID table simply enter this command without parameters, as shown next.
192.168.1.1 vlan1q> pvid
pvid port# --------192.168.1.1 vlan1q>
Figure 10-1 Example: PVID Command Display Make sure you set all bonded ports to have the same PVID.

10.6.4

SVLAN CPU Command
192.168.1.1 vlan1q> svlan cpu [<vid>]
A VLAN ID. Valid parameter range = [1 4094].
This command registers your CPU as a port member of the static VLAN with <vid>. To display the CPU static VLAN identification, simply enter this command without parameters, as shown next.
192.168.1.1 vlan1q> svlan cpu

10.6.5

SVLAN List Command
192.168.1.1 vlan1q> svlan list
IES-1000 Users Guide This command displays the static VLAN registration table. The following figure is an example of what is displayed when you use this command.
vid -------1 port# ------3 ad_control -----------fixed normal normal normal fixed normal normal normal fixed tag_control -----------Tag UnTag UnTag UnTag UnTag UnTag UnTag UnTag UnTag
Figure 10-2 Example: SVLAN List Command Display For more information about the Svlan List command display, refer to the Svlan Setentry command (shown next).

10.6.6

SVLAN Setentry Command
192.168.1.1 vlan1q> svlan setentry <vid> <port#> <ad_control> <tag_control>
<vid> <port#> <ad_control> = = =
A VLAN ID. Valid parameter range = [1 4094]. A bridge port number. Valid parameter range = [1 9]. Registrar administration control flag. Valid parameters = [fixed, forbidden, normal]. Select fixed to register a <port #> to the static VLAN table with <vid>. Select normal to confirm registration of the <port #> to the static VLAN table with <vid>. Select forbidden to block a <port #> from joining the static VLAN table with <vid>.

13.4.2

Trap Add Command
trap add <community> <IP addr>

<community> =

The password used by the network module to authenticate itself to the trap Remote Management
IES-1000 Users Guide server.

<IP addr> =

The IP address of the trap server.
This command adds a trap server.

13.4.3

Trap Delete Command
trap delete <community> <IP addr>
This command deletes a trap destination. The parameters are the same as the trap add command.

13.4.4

Trap Flush Command

trap flush

This command deletes all trap destinations.

13.4.5

Trap List Command

trap list

This command lists all the trap destinations.
Chapter 14 Configuration Backup/Restore
This chapter describes the process for backing up your user settings (configuration) from the network module onto your computer and how to restore them to the network module. The network modules use FTP for configuration backup/restore through their built-in FTP servers. You can use any FTP client (for example, ftp.exe in Windows) to backup/restore the network modules configuration.
Configuration Files of the Network Module
The network module uses configuration files to store the users settings, so they can be applied the next time the network module is booted. The network module has the following two configuration files: init = The system configuration file for the network module. The configuration file for the console, Telnet and FTP password. password =

Configuration Backup

You can backup all or some configuration files from the network module to your computer. Backup the system configuration by following the example shown next. Connect to the network module with your favorite FTP client. The command for the network module is generally
C:\> ftp <network module IP address>
at the computer command prompt. Enter the User name (just press [ENTER]).

User: <ENTER>

Enter the management password (1234 by default).

Password: Logged in

Get the configuration files from the network module

ftp> get init

Quit FTP.

ftp> quit

Configuration Restore
You can restore configuration files from your computer to the network module. Restore the system configuration by following the example shown next. Configuration Backup/Restore 14-1
IES-1000 Users Guide Do not turn off the network module during the restore process, as it may corrupt the firmware and make your network module unusable. Connect to the network module with your favorite FTP client. The command for the network module is generally

IES-1000 Users Guide Table 16-9 Troubleshooting Telnet
STEPS 5 CORRECTIVE ACTION Make sure that the network modules IP settings are configured properly (refer to Chapter 12 ). If these steps fail to correct the problem, contact the distributor.
Mbps Ethernet 10/100M Auto-Sensing Ethernet 100 Mbps Ethernet A AC INPUT Access Delete Command Access Flush Command Access List Command Actual Rate Actual Speed ADSL Over ISDN Over POTS ADSL Compliance ADSL Configuration ADSL Ports (AAM1008) ADSL Standards Aggregates Traffic Airflow ALM Annex A Annex B Applications auto B BOOTP/TFTP Bridge Commands Bridge Port Numbers Bridging Index 15-2 9-1 9-1 1-2 2-3 13-3 13-3 13-4 7-1 6-1 xiii, 7-11 xiii, 7-11 xiii, 7-11 1-1 7-1 3-2 6-2, 7-1, 7-2 1-4 2-3 2-1 7-6, 7-11 xiii, 7-11 1-4 7-11, 7-12 2-2 8-1 2-2 C CE Mark Warning Central Side Port Bonding Command Certifications channel attenuation Chassis CI Commands Command Line Interface Command Structure Community Config Command Config Print Command Config Save Command Configuration Backing up Restoring Configuration Backup/Restore Configured Speed Configured Vs. Actual Rate Configuring the Tagged VLAN Connections ADSL Port G.SHDSL Port Console Connection Console Port Copyright Customer Support D Default IP Address Default Profile Settings 12-2 6-2, 7-2 A 2-3 2-3 5-1 2-3, 3-1 ii v 14-1 14-1 14-1 6-1 7-1 10-2 iii 6-10 iii 7-7 1-1 5-1 5-1 5-2 13-3 12-2 5-3 5-2, 6-2, 7-3, 9-2
IES-1000 Users Guide Default Route Default Settings Defaults Delete Port Bonding Command Delete Profile Command Device Command Dimensions Disable Port Command Disable Ports Command Disclaimer Display All G.SHDSL Line Information Downstream (ds) DVLAN Getentry Command DVLAN List Command DVLAN Table E Enable Command Enable Port Command Enable Ports Command Errlog Clear Command Errlog Display Command Ethernet Port Commands Ethernet Port Default Settings Ethertype Command Exit Command F Factory Default Settings Fast Mode FCC Rules FCC Warning! Federal Communications Commission (FCC) Interference Statement B 3-1 1-2 iii iii iii 12-5 6-3, 7-4 6-3, 7-4 5-7 5-7 8-1 3-2 9-5 5-4 12-1 7-2 3-2 6-11 6-7, 7-9 9-2 1-3 6-3, 7-3 6-3, 7-3 ii 6-10 7-7 10-10 10-9 10-1, 10-2 Filter Command Filterage Command Filtering Databases Firmware Recovery Remote Upload Firmware Upload File Types FTP Impact to the IES-1000 Protocols Timing Flush Command FPVID Command Front Panel Front Panel Ports FTP FTP Firmware Upload Fuse Rating G G.991.2 G.dmt G.hs G.lite G.SHDSL Commands G.SHDSL Compliance G.SHDSL Ports (SAM1008) G.SHDSL Standards GARP gdmt General IP Commands GetNext 6-1 7-1, 8-1, 9-1 6-1 7-1, 7-11, 7-12, 8-1, 9-1 6-1 1-1 3-1 6-1, 8-2 10-2 7-11, 7-12 12-2, 14-1 13-2, 13-4 Index 15-1 15-1 15-1 15-1 15-1 9-5 9-9 2-1 2-2 15-1 15-1 1-4 15-1, 15-2 15-1 9-4 9-5 10-1