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Allied Telesis www.alliedtelesis.com
Datasheet | integrated Multiservice Access Platform
iMAP 9700
integrated Multiservice Access Platform
As the service provider network is evolving to all
IP/Ethernet, the iMAP is leading the field with the
world's first true carrier-grade IP access platform.
Its unique carrier-class IP/Ethernet capabilities are
suitable for any service provider building an IP
access network for current and future services.
Founded on the premise that IP/Ethernet solutions
are the basis of any viable next-generation
netw
or
k,Allied Telesis provides industry leading
capabilities that position the iMAP as the future
of access for IOCs, ILECs,IXC, PTTs, ISPs,PUDs,
education, Federal and highly reliable military
solutions. Leveraging the cost benefits of Ethernet,
the Allied Telesis iMAP is the definitive IP access
platform that addresses the migration to carrier-
grade Ethernet.The iMAP is equivalent to an IP
DSLAM, IP BLC, IP transpor
t and IP FTTH in one
integrated platform that provides services from
POTS to 10Gbps Ethernet.
The iMAP 9700 flagship provides the scalability to
10Gbps with industry-leading densities unmatched
b
y the competition. For next-generation access
networks, the ability to offer POTS, xDSL,FTTx
and Ethernet in a single integrated platform will
define the migration to an IP/MPLS data core.
Future VoIP services will seamlessly be supported
with the access infr
astr
ucture available from Allied
T
elesis toda
y.
Any Service,Any Access,
One Platf
orm
iMAP access solutions support 10Mb, 100Mb
and Gigabit Ethernet services as well as POTS,
xDSL,
GEPON and T1/E1 private circuits.
Video Optimization
By leveraging bandwidth-efficient IP multicast and
IGMP,and with advanced features including IP filter-
ing, DHCP relay and Layer 4 IP flow metering, all
iMAP solutions are optimized for video services
delivery where QoS capability and security is critical.
Modular Scalability
iMAP access solutions ensure network scalability
in an oper
ationally-efficient manner. Low to
medium density applications can take advantage
of the iMAP 9700 systems without sacrificing
features or subscriber-interface options.
High-density applications can use the iMAP
9400/9700 platforms. Other advantages include
utilizing common control and network transport
modules across both 9400 and 9700 iMAP
systems.
Network Resiliency
iMAP access solutions are built around a
fault-tolerant switch core designed to operate
with 99.999% network availability. Combined
with Allied Telesis' Ethernet Protection Switched
Rings (EPSR) transport technology, iMAP is
designed to be a fundamental building block of
an
y carrier-grade IP access or transport network.
Service Differentiation
QoS schemes for iMAP access solutions are
designed to ensure that application performance
and a
vailability are not impacted with netw
or
k
growth. Features such as IPDiffServ and 802.1p/q
enable tiered data services for both residential
and b
usiness/enter
pr
ise users.
Manageability
iMAP access solutions are designed to be managed
and pro
visioned remotel
y using
Allied
T
elesis'
AlliedView™ Network Management Software
(NMS),
a comprehensive network management
platf
or
m designed to increase netw
or
k uptime and
throughput while reducing operating expense.
iMAP 9700 Chassis Configuration
Modular 9RU system
•
2 control module slot
• 2 network transport slots
• 17 (16 in CFC duplex mode) line card slots
iMAP 9700 service and
access options:
• Up to 170 Active Ethernet FTTx
• Up to 170 10/100TX Ethernet ports
• Up to 136 GbE circuits
• Up to 408 POTS
• Up to 408 ADSL2+
• Up to 192 POTS with 72 ADSL2+ combo
• Up to 136 T1/E1 circuit emulation service
• Up to 408 G.SHDSL
• Up to 1088 GEPON (32:1 split)
• Up to 408
VDSL2
iMAP 9700 Key Features
• Carrier-class IP/Ethernet access
• Video-optimized for IP Triple Play services
• Environmentally-hardened
• Common iMAP line cards
• Line card hot swapping
• Simultaneous fiber and copper access
• Full front access
• Redundant common control and network
transport interfaces
• ETSI and ANSI compliant
• Fault tolerant design with no single point of failure