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You are here : Product
> IAS > Corecess 6800 - Intelligent Access Server
 
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 Overview |
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The Corecess 6800 is an IP-based Intelligent
Access Server (IAS) that can be used by service provider
companies eager to offer broadband multi-services
on the last mile access network on copper-based local
loop.
Corecess 6800 is built to provide intelligent
IP services as the networks evolve. It delivers various
DSL interfaces and advanced IP services including;
IP VPN routing, subscriber management, IP QoS. With
these service features, companies can greatly increase
their revenues and maximize their profit.
Corecess 6800 intelligently and economically
combines three devices in one. As compared to the
legacy DSL systems, the Corecess 6800 system combines
the functionalities of legacy DSLAM, NAS, and Router
into one compact system. This design makes the Corecess
6800 the most economical and the most suitable solution
for the next generation broadband access platforms.
It provides among other advantages; easy maintenance
and easy installation, which in turn reduce operating
cost and network down time.
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| Key
Features & Benefits |
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Internet Access
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High-performance IP routing by
routing architecture performed in hardware. |
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Static IP routing for manually building
a routing table of network path information. |
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Support for all commonly deployed
and industry standard IP unicast routing protocols
(RIPv1, RIPv2, OSPF, BGP-4) for load balancing
and constructing scalable LANs. |
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Inter-VLAN IP routing for full Layer
3 routing between two or more VLANs. |
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Equal cost routing for load balancing and redundancy. |
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Route local traffics and then, relieves the
burden to backbone network. |
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MPLS LER/LSR functions support by RSVP-TE, LDP
signaling and hardware-based label switching engine. |
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Subscriber
Management
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Aggregates broadband traffics. |
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Provide PPPoE Encapsulation method. |
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Subscriber authentication by CHAP,
PAP of PPP acting RADIUS client. |
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IP management for subscriber by
local pooling or Radius server inter-working. |
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IP management through Dynamic Host Configuration
Protocol (DHCP) server. |
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Time-based, Volume-based billing capability. |
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Per-port or Per-subscriber based billing capability. |
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Network Timing Protocol (NTP) provides an accurate
and consistent timestamp to all switches within
the intranet for billing accuracy. |
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Advanced Quality
of Service for Ў°Triple PlayЎ± service support
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User can configure Corecess 6800
to optimally handle different types of traffic:
voice, video, or high-priority data. |
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Extensive flow and packet classification
and processing through deep packet classification
using source/destination MAC address, source/destination
IP address, Layer 4 TCP/UDP port number and application
specific fields. |
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802.1p class of service (CoS) and
Differentiated Services Code Point field (DSCP)
classification via marking and reclassification
on a per packet basis. |
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Quality of service ACLs on all ports
to ensure proper marking on a per packet basis. |
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Several kinds of Access Control Lists (ACLs)
makes reliable network. |
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Sophisticated traffic shaping, policing, rate
limiting and packet modifications for each application
service characteristics. |
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Weighted Random Early Detection (WRED) for avoidance
of congestion at the egress queues before a disruption
occurs. |
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Strict priority queuing to guarantee that the
highest priority packets will always get serviced
ahead of all other traffic. |
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No performance penalty for highly granular quality
of service functionality. |
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VPN
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Provide L2TP VPDN as a LAC for
PPP subscribers. |
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Support hardware based IPsec network-based
VPRN. |
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IKE protocol fully supported. |
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Support hardware based Layer 2-MPLS
martini VLL (Planned future
software support). |
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Support hardware based Layer 3-MPLS VPRN by
RSVP-TE. |
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Support hardware based Layer 3-MPLS VPRN by
BGP (Planned future software
support). |
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Security
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Hardware based IP VPN (IPsec) support. |
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ACLs on all VLANs to prevent unauthorized
data flows to be bridged within VLANs. |
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Private VLAN edge provides security
and isolation between ports on a switch, ensuring
that voice traffic travels directly from its entry
point to the aggregation device through a virtual
path and cannot be directed to a different port. |
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MAC-based port-level security prevents
unauthorized stations from accessing the switch.
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DHCP filtering also prevents unauthorized stations
from accessing the switch. |
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Multilevel security on console access prevents
unauthorized users from altering the switch configuration. |
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RADIUS authentication to enable centralized
control of the switch and restrict unauthorized
users from altering the configuration. |
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Multicast
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Support high-performance IP multicast
and PPPoE multicast by multicasting architecture
performed in hardware. |
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Internet Group Management Protocol
(IGMP) and IGMP snooping provides for fast client
joins and leaves of multicast streams and limits
bandwidth-intensive video traffic to only the
requestors. |
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Distance Vector Multicast Routing
Protocol (DVMRP) tunneling for interconnecting
two multicast-enabled networks across non-multicast
networks. |
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Protocol-Independent Multicast (PIM)
for IP multicast routing within a network that
enables the network to receive the multicast feed
requested and for switches not participating in
the multicast to be pruned - support for PIM sparse
mode (PIM-SM), PIM dense mode (PIM-DM), and PIM
sparse-dense mode. (Planned
future software support) |
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Scalability
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Highly scalable in port density
and speed. (See Ordering Guide) |
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Reliability
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Centralized main processor, uplink,
Annex-C clock and power resource redundancy. |
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IPSec card redundancy for reliable
secure VPN services. |
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Service redundancy by PPP session
redundancy control for no service discontinuity
by the system fault. |
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Accounting data redundancy to maximize
network providerЎЇs profit. |
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Powerful Manageability
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Built-in Web-based Management Software
provides an easy-to-use Web-based management interface
through a standard web browser. (Web Console)
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Simple Network Management Protocol
(SNMP) v1 and v2c, and Telnet interface support
delivers comprehensive in-band management, and
a command-line interface (CLI)-based management
console provides detailed out-of-band management.
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CLI provides easy-of-use user interface
and command set |
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Through ViewlinX™ network management
software user can manage Corecess 6800 in detail
like as in-band and out-band management. |
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Through Corecess 1500™ (A Corecess Operation
Support System (OSS)), Corecess 6800 is manageable
end-to-end QoS policies (planned
future software support). (Service Level
Agreement (SLA) supporting) |
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VLAN trunks can be created from any port using
either standards-based 802.1Q tagging or VLAN
management command. |
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Embedded Remote Monitoring (RMON) software agent
supports four RMON groups (History, Statistics,
Alarms and Events) for enhanced traffic management,
monitoring, and analysis. |
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Trivial File Transfer Protocol (TFTP) reduces
the cost of administering software upgrades by
downloading from a centralized location. |
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Multifunction LEDs per port for port status,
half-duplex/full-duplex, 10BaseT/100BaseTX indication,
as well as switch-level status LEDs for system,
redundant power supply provides a comprehensive
and convenient visual management system. |
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Easy Deployment
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Auto-sensing on each non-GBIC port
detects the speed of the attached device and automatically
configures the port for 10-, 100-, or 1000-Mbps
operation, easing the deployment of the switch
in mixed 10, 100BaseT environments. |
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Auto-negotiating on all ports automatically
selects half- or full-duplex transmission mode
to optimize bandwidth. |
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Dynamic Host Configuration Protocol
(DHCP) relay allows a broadcast DHCP request to
be forwarded to the network DHCP server. |
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IEEE 802.3z-compliant 1000BaseSX,
1000BaseLX/LH, physical interface support through
a field-replaceable GBIC module provides customers
unprecedented flexibility in switch deployment. |
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The default configuration stored in Flash ensures
that the switch can be quickly connected to the
network and can pass traffic with minimal user
intervention. |
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| Hardware |
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| Technical
Specifications |
Description |
Specification |
| Performance |
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MPC (Main Process Card):
3.2 Gbps non-blocking
switching fabric.
(Up
to 6.4 Gbps when cascading).
3.2
Gbps maximum forwarding bandwidth at Layer
2 and Layer 3
1.8
Mpps forwarding rate for 64-byte packets
64 MB packet
buffer
512
MB DRAM and Boot Memory and 1 GB HDD
(For
save system software and data).
Configurable
up to 49,152 MAC addresses (Depending Memory) |
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ALC-24A/ALC-24B/ALC-24C/ALC-24F/SLC-24:
32 MB DRAM
and 2 MB Flash Memory |
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Connectors and Cabling |
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ADSL and SHDSL interface:
Telco-50 (CHAMP) connector for lines and
V.35 connector for WAN interface; Operable
over UTP, CPEV, TIV, SH and Interphone Cable. |
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Gigabit Ethernet ports: GBIC-based
ports; Dual SC fiber connectors, single-mode
or multimode fiber; Fiber optic cable with
SC connectors |
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10/100BaseT ports (Auto Sensing):
RJ-45 connectors; two-pair Category 3, 4,
or 5 unshielded twisted-pair (UTP) cabling
(Category 3,4 supports only 10Mbps) |
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Fast Ethernet fiber ports: LC or SC or
Single Fiber SC connectors; Fiber optic
cable with SC connectors |
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Clock management ports: RJ-45 type. |
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Management console port: 8-pin RJ-45 connector,
Serial cable with RJ-45-to-DB9 adaptor for
PC connections. |
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| Power
Connectors |
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Customers can provide power
to a switch by using Power Supply. The connectors
are located at the back of the switch. |
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The power supply is an auto-ranging unit. |
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DC inlet (Terminal Type) used for DC power
supply. (Located in rear side) |
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AC/DC Power Converter needs when using
AC power. (See Ordering Guide) |
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The power supply supports input voltages
between 100 and 240 VAC. |
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Use the supplied AC power cord to connect
the AC power connector to an AC power outlet.
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Use two-power supply for power redundancy.
(AC/DC Power Converter) |
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| Fault Tolerance |
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Redundant MPC and Power supplies
(AC/DC Power Converter only) |
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Hot-swappable media modules |
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| Mean Time Between
Failure (MTBF) |
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ALC-24A without IPC: 129347
hours |
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ALC-24A with IPC: 107034 hours |
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ALC-24C without IPC: 119639 hours |
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ALC-24C with IPC: 100300 hours |
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VLC-24 without IPC: 134520 hours |
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VLC-24 with IPC: 110552 hours |
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SLC-24 without IPC: 125522 hours |
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SLC-24 with IPC: 104402 hours |
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| Power
Specifications |
Description |
Specification |
| Power
consumption |
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1015 W (maximum) 3,000 BTUs
per hour |
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AC input voltage/frequency |
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100 to 240 VAC (auto-ranging),
50 to 60 Hz |
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| DC
Input Voltages |
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| Physical
and Environmental Specifications |
Description |
Specification |
| Dimensions
and (H x W x D) |
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19 inch Rack Mountable. |
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53.5 x 44 x 33 cm. (21.1 x 17.3 x 13 in)
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12 rack-unit (RU) high |
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Weight |
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43 kg (94.8 lb) fully configured,
16 kg (35.3 lb) (Backplane only), 1.5 kg
(3.3lb) (Interface card). |
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| LED |
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System status (MPC): MASTER/SLAVE,
PWR (Power) and RUN |
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Gigabit port Ethernet: LNK (Link) and
ACT (Active) |
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Ethernet port status: ACT (Activity) and
100Mbps |
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ADSL port status: PWR (Power) and ALM
(Alarm) and ADSL Link |
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SHDSL port status: PWR (Power) and ALM
(Alarm) and ADSL Link |
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| Operating temperature |
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0 to 50ЎЖC (32 to 122ЎЖF) |
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| Storage temperature |
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-30 to 75ЎЖC (-22 to 167ЎЖF)
(estimated) |
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| Operating relative
humidity |
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5 to 90% (non-condensing)
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| Operating altitude |
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Up to 3,000 m (9,842 ft)
(estimated) |
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| Storage altitude |
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Up to 4,000 m (13,123 ft)
(estimated) |
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Not intended for use on top
of desktops or in open office environments |
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| Regulatory
Certifications and Approvals |
Description |
Specification |
| Standards |
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ADSL line interface:
ANSI T1.413 issue2
ITU-T
G.992.1 (G.dmt), G.992.2 (G.lite) Annex
A/B/C
Line
Code: DMT
Connector
Loops: 1 pair (2 wire mode)
Data
Rate:
Annex
A
Up
to 8 Mbps (Downstream speed range at S=1)
Up
to 11 Mbps (Downstream speed range at S=1/2,
Fast
ADSL)
Up
to 1 Mbps (Upstream speed range)
Annex
B
Up
to 8 Mbps (Downstream speed range at S=1)
Up
to 1 Mbps (Upstream speed range)
Annex
C
Up
to 8 Mbps (Downstream speed range at S=1,
DBM)
Up
to 1 Mbps (Upstream speed range, DBM) |
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SHDSL line interface:
ITU-T
G.991.2 (G.SHDSL)
Line
Code: TC-PAM
Data
Rate: Up to 2.3 Mbps (Up/Down stream) (2
wire mode)
Up
to 4.6 Mbps (Up/Down stream) (4 wire mode)
Distance: Non
attenuation of 3 Km, up to 8 Km @ 26AWG |
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IEEE 802.1q VLAN (VLAN tagging) |
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IEEE 802.3 10BaseT specification |
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IEEE 802.3u 100BaseTX specification |
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IEEE 802.3x full duplex on 10BaseT, 100BaseTX,
and 1000BaseT ports (Flow Control) |
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1000BaseX (GBIC) |
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1000BaseSX |
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1000BaseLX/LH |
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RMON I standards (4 Groups: statistics,
history, alarm, events) |
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Extended RMON |
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SNMPv1 and SNMPv2c |
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Safety Certifications |
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UL (planned) |
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CE (planned) |
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FCC Part 15 (planned) |
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FCC Part 68 (planned) |
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VCCI (planned) |
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CCC (planned) |
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A-tick (planned) |
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| Software |
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| Software
Management |
Description |
Specification |
| System
Configuration |
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Command Line Interface (CLI):
Same as in/out-band management |
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Local: RS-232 console port (For out-band
management) |
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Remote: Telnet and Web (For in-band or
out-band management) |
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Management and Security |
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MPC:
Management protocol: SNMP, RMON and MIB-II
Remote software upgrade using TFTP or via
Network Management Software
System log file (Useful for configuration
and error information)
Command log file (Useful for operation history)
Remote Access List: List of the hosts that
can connect with the system
Password Authentication (PAP/CHAP) |
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CPE Management:
Port Filtering: Port blocking
Max CPE: Restriction of maximum CPE at each
DSL ports
MAC Filtering: Limitation of number of MAC
addresses or source MAC address per port
IP Filtering
DHCP Filtering: Prevent damage cause by
unauthorized private DHCP Server operating
NetBeui and NetBIOS Filtering
Static IP chain: Prohibits illegal IP address
usage of subscribers
Access Control List |
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| Reliability |
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Physical: CPU, Uplink, IPsec
card, Annex-C clock, Power redundancy |
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Logical: Session and accounting information
redundancy |
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| VLAN |
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Supports port, overlapping
and IEEE 802.1q VLAN tagging |
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Multicast per VLAN |
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386 tag VLAN per chassis |
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| Routing |
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Wire speed packet forwarding
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Wire speed packet filtering |
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Static Routing |
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Standard protocols: RIP v1/v2, OSPF, BGP-4
and IS-IS* (IS-IS: Future software release) |
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Maximum routing entry (memory dependable) |
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| Subscriber Management |
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PPPoE encapsulation |
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Authentication by CHAP, PAP of PPP as
a Radius client |
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IP management by local pooling, Radius
server inter-working |
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DHCP Server and Relay |
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Time-based, Volume-based, Per-port, Per-PPP
session based billing as a Radius client |
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NTP (Network Time Protocol) for billing. |
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64K PPP session support per chassis |
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4096 PPP session per Line card |
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Flexible configurable maximum PPP session
per port up to 128 |
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| QoS |
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Layer 4-7 application-flow
switching and QoS |
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Rate Limiting: Up to 1,024 flow support
(Granularity: Minimum 100Kbps) |
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Traffic Shaping: Up to 2,000 flow support
(Granularity: Minimum 64Kbps) |
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DiffServ: Up to 1,000 flow support |
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Multi-Field Packet Classification |
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802.1p Marking and Reclassification |
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ToS Making and Reclassification |
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Diff-Serv Differentiated Services Code
Point field (DSCP) Marking and Reclassification |
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Congestion Control: Weighted Random Early
Detection (WRED) |
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Scheduling: Weighted Fair Queuing (WFQ) |
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| VPN |
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64K L2TP VPDN support for
PPP subscribers as a LAC |
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IPsec, IKE protocol fully support
Up to 1,024,00 encrypt/decrypt
session support
AH, ESP
of tunnel and transparent mode
DES,
3DES, ARC4 encryption
SHA,
MD5 Hashing and authentication
LZS
and MPPC compression
Public-key
support includes RSA, DSA, SSL,
IKE
and Diffie-Hellmann |
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Layer 2 MPLS martini-draft VLL support(2003.Q2) |
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Layer 3 MPLS RSVP-TE VPRN support |
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Layer 3 MPLS BGP VPRN support(2003.Q2) |
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| Multicast and
Multicast Routing |
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IGMP snooping |
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IGMP v2.0 |
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DVMRP |
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PIM-DM |
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PIM-SM (2003 Q2) |
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5,120 Maximum Multicast Group per chassis |
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128 Maximum Multicast Group per Line card |
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102,400 Maximum Leaves totally |
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| MPLS |
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LER and LSR feature support |
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MPLS RSVP-TE and LDP label distribution
and signaling |
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MPLS traffic engineering |
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| Security |
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Customer Security: Port Filtering,
NetBEUI/NetBIOS Filtering |
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Network Protection: Restrict Number of
CPEs per Port, DHCP filtering, Static IP
chain, Dynamic IP chain |
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| EMS |
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Equipment Management System:
Java based equipment management system |
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Operating System: Solaris, Linux, Windows
(98/2000/XP) which supporting JAVA VM |
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| IETF Standards |
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RFC 768 UDP |
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RFC 791 IP |
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RFC 792 ICMP |
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RFC 826 ARP |
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RFC 768 UDP |
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RFC 783 TFTPv2 |
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RFC 793 TCP |
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RFC 826 ARP |
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RFC 854 Telnet |
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RFC 951 BootP |
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RFC 1058 RIP v1 |
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RFC 1075 DVMRP |
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RFC 1112 Host Extensions for IP Multicasting
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RFC 1157 SNMPv1 |
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RFC 1245 OSPF Protocol Analysis |
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RFC 1246 Experience with the OSPF Protocol
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RFC 1256 ICMP Router Discover Message
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RFC 1265 BGP Protocol Analysis |
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RFC 1266 Experience with the BGP Protocol
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RFC 1332 PPP IPCP |
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RFC 1349 Type of Service in the Internet
Protocol Suite |
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RFC 1403 BGP OSPF Interaction |
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RFC 1483 Multiprotocol Encapsulation over
ATM Adaptation Layer 5 |
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RFC 1519 CIDR: an Address Assignment and
Aggregation Strategy |
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RFC 1542 Clarifications and Extensions
for the Bootstrap Protocol |
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RFC 1552 PPP IPXCP |
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RFC 1570 PPP LCP Extensions |
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RFC 1587 OSPF NSSA Option |
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RFC 1638 PPP BCP |
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RFC 1657 Definitions of Managed Objects
for BGP-4 using SMIv2 |
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RFC 1661 PPP |
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RFC 1662 PPP in HDLC-like Framing |
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RFC 1723 RIP v2 |
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RFC 1771 BGP-4 |
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RFC 1745 BGP-4/IDRP for IP and OSPF Interaction
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RFC 1765 OSPF Database Overflow |
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RFC 1771 BGP-4 |
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RFC 1772 Application of BGP in the Internet
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RFC 1773 Experience with the BGP-4 Protocol
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RFC 1774 BGP-4 Protocol Analysis |
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RFC 1793 Extending OSPF to Support Demand
Circuits |
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RFC 1812 Router Requirements |
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RFC 1962 PPP CCP |
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RFC 1966 BGP Route Reflection Alternative
to full mesh IBGP |
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RFC 1974 PPP Stac LZS Compression Protocol
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RFC 1990 PPP ML P |
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RFC 1994 PPP CHAP |
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RFC 1997 BGP Communities Attribute |
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RFC 1998 BGP Community Attribute in Multi-home
Routing |
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RFC 2082 RIP-2 MD5 Authentication |
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RFC 2118 Microsoft Point-To-Point Compression
protocol |
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RFC 2131 DHCP |
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RFC 2138 RADIUS |
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RFC 2139 RADIUS Accounting |
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RFC 2178 OSPF |
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RFC 2194 Review of Roaming Implementation*
(PDSN) |
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RFC 2205 RSVP |
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RFC 2236 Internet Group Management Protocol,
Version 2 |
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RFC 2290 Mobile Ipv4 Configuration Option
for PPP IPCP* (PDSN) |
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RFC 2328 OSPFv2 |
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RFC 2236 IGMP-2 |
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RFC 2338 VRRP |
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RFC 2362 PIM-SM |
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RFC 2370 OSPF Opaque LSA Option |
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RFC 2385 Protection of BGP Sessions via
the TCP MD5 Signature Option |
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RFC 2391 LSNAT Load Sharing using IP Network
Address Translation |
|
RFC 2406 IP Encapsulation Security Payload
(ESP) |
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RFC 2409 IKE |
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RFC 2439 BGP Flap Damping |
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RFC 2453 RIPv2 |
|
RFC 2474 Definition of the Differentiated
Services Field (DS Field) in the IPv4 and
IPv6 Headers |
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RFC 2475 An Architecture for Differentiated
Services |
|
RFC 2516 A Method for Transmitting PPP
Over Ethernet (PPPoE) |
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RFC 2519 A Framework for Inter-Domain
Route Aggregation |
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RFC 2573 SNMP Applications |
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RFC 2661 L2TP |
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RFC 2796 BGP Route Reflection Alternative
to full mesh IBGP |
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RFC 2842 Capabilities Advertisement with
BGP-4 |
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RFC 2858 Multi-protocol Extensions for
BGP-4 |
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RFC 2865 Remote Authentication Dial In
User Service (RADIUS) |
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RFC 2866 RADIUS Accounting |
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RFC 2918 Route Refresh Capability for
BGP-4 |
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RFC 3065 Autonomous System Confederations
for BGP |
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RFC 3137 OSPF Stub Router Advertisement
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RFC 3209 RSVP-TE |
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| Management Standards
and Management MIB |
| |
CORECESS-BASIC-MIB |
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CORECESS-SMI |
|
CORECESS 6800 MIB |
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RFC 1213 MIB-II |
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RFC 1253 OSPF-MIB |
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RFC 1354 IP Forwarding MIB |
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RFC 1724 RIP v2 MIB |
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RFC 1850 OSPF2 MIB |
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RFC 1471 PPP-LCP-MIB |
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RFC 1472 PPP-SEC-MIB |
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RFC 1473 PPP-IP-NCP-MIB |
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RFC 1474 PPP-BRIDGE-NCP-MIB |
|
RFC 1493 BRIDGE-MIB |
|
RFC 1657 BGP4-MIB |
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RFC 1757 RMON-MIB |
|
RFC 1771 BGP4-MIB |
|
RFC 1907 SNMPv2-MIB |
|
RFC 2011 IP-MIB |
|
RFC 2012 UDP-MIB |
|
RFC 2096 IP-FORWARD-MIB |
|
RFC 2233 IF-MIB |
|
RFC 2328 OSPF-MIB |
|
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| |
| Ordering
Information |
|
| Corecess
6800 Base Configuration |
| 6800-CHS |
2+16 slot chassis
(2-slot for Processor modules with 1+1 protection
and 16-slot for modules);
Chassis, Backplane, One Fan Trays, Rack Mount
Kit, Console cable included; Two DC -48V power
inlet only |
| Corecess
6800 Processor Modules |
| 6800-MPC |
Main Processor card for Corecess
6800,1 in-clock and 1 out-clock synchronizing
port for Annex C application, 2 Gigabit Ethernet
ports for uplink and cascade;
Management Interface (One Ethernet and One RS
232), switching and L2/3/4/ packet processing
features included; |
| Modules
for the Corecess 6800 |
6800-IPC
|
IPsec Processor card |
| 6800-ALC-24A |
24-port ADSL Line card for
Annex A |
| 6800-ALC-24B |
24-port ADSL Line card for
Annex B |
| 6800-ALC-24C |
24-port ADSL Line card for
Annex A & C |
| 6800-ALC-24F |
24-port ADSL Line card for
Annex A, Fast ADSL |
| 6800-SLC-24 |
24-port SHDSL Line card |
| Optical
Coupler for the Corecess 6800 |
| 6800-OPC |
Optical coupler for the Corecess
6800 |
| FAN
Trays for the Corecess 6800 |
| 6800-FAN |
Spare Fan tray for the Corecess
6800 |
| Power
supplies for the Corecess 6800 |
| 6800-PWR-CON |
AC/DC Power Converter for
the Corecess 6800 and Corecess 6804 |
| 6800-PWR-PDP |
Power Distribution Panel for
the Corecess 6800 and Corecess 6804 |
| Manuals
for the Corecess 6800 |
| Corecess 6800-Man-Kor |
Manual in Korean for the Corecess
6800 |
| Corecess 6800-Man-Eng |
Manual in English for the
Corecess 6800 |
| GBIC
Port Adapters |
| GBIC SX |
Gigabit GBIC Adapter SX Short
Distance SC Type Multi mode fiber for GBC port;
Distance-220m (62.5um MMF)/500m (50um MMF) |
| GBIC LX |
Gigabit GBIC Adapter LX Long
Distance SC Type Single mode fiber for GBC port;
Distance-550m (62.5um & 50um MMF)/10Km (9um
SMF) |
| GBIC-LH-40K |
Gigabit GBIC Adapter Extra-long
Distance SC Type Single mode fiber for GBC port;
Distance-40Km (9um SMF) |
| GBIC-LH-80K |
Gigabit GBIC Adapter Extra-long
Distance SC Type Single mode fiber for GBC port;
Distance-80Km (9um SMF) |
| AC
Power Codes |
| CAB-COS-US |
AC Power Supply Cord, US (type
B) |
| CAB-COS-AU |
AC Power Supply Cord, Australia
(Type I) |
| CAB-COS-EU |
AC Power Supply Cord, Europe
(Type F) - Germany, Spain, Sweden, Finland etc. |
| CAB-COS-JP |
AC Power Supply Cord, Japan
(Type B) |
| CAB-COS-UK |
AC Power Supply Cord, UK and
HK (Type G) |
| CAB-COS-KR |
AC Power Supply Cord, Korea
(Type F) |
| CAB-COS-US1 |
AC Power Supply Cord for modem,
US (type A) |
| CAB-COS-AU1 |
AC Power Supply Cord for modem,
Australia (Type I, same shape but different size
and spec) |
| CAB-COS-EU1 |
AC Power Supply Cord for modem,
Europe (Type C but different that of Korea C type)
- exclude UK, Italy |
| CAB-COS-JP1 |
AC Power Supply Cord for modem,
Japan (Type A but different that of US because
of different Pin Size) |
| CAB-COS-UK1 |
AC Power Supply Cord, UK (Type
G but different spec of general G type) |
| CAB-COS-KR1 |
AC Power Supply Cord for modem,
Korea (Type C) |
| Splitters
for the DSLAMs (DSLlinX series DSLAM, Corecess
6800, Corecess 6804) |
| MSCA-SP24 |
24 Port ADSL Splitter Card |
| MS432CA-SLF |
18 Card Splitter shelf |
| MS96CA-SLF |
4 Card Splitter shelf |
| MS48CA-SLF |
2 Card Splitter shelf |
| Cable
Assemblies for the DSLAM and DSLAM Splitters |
| MS432CA-MCBL30 |
Telco-RJ11 cable 3M |
| MS432CA-SCBL10 |
Single cable 1M |
| MS432CA-SCBL20 |
Single cable 2M |
| MS432CA-SCBL30 |
Single cable 3M |
| MS432CA-SCBL40 |
Single cable 4M |
| MS432CA-SCON |
Single cable connector |
| MS432CA-YCBL10 |
Y cable 1M |
| MS432CA-YCBL20 |
Y cable 2M |
| MS432CA-YCBL30 |
Y cable 3M |
| MS432CA-YCBL40 |
Y cable 4M |
| MS432CA-YCBL50 |
Y cable 5M |
| MS432CA-TCBL20 |
T cable 2M |
| MS432CA-TCBL30 |
T cable 3M |
| MS432CA-TCBL40 |
T cable 4M |
| MS432CA-ICBL20 |
I cable 2M |
| MS432CA-ICBL30 |
I cable 3M |
| MS432CA-ICBL40 |
I cable 4M |
Product
note (Corecess 6800):
1. See the Manuals section and Accessories section
for product manual, GBIC port adapter, clock distributor
for Annex C application, splitter and cable assemblies,
optical coupler, spare FAN tray, and power options
for AC application.
2. The Corecess 6800 base configuration does not
include modules. Modules must be ordered separately.
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