Juniper CBL-TXP-006M データシート
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Table 1: Juniper Networks T Series Scaling Characteristics
PlatfOrm
thrOughPut
maximum
fOrwarDing rate
fOrwarDing rate
rack SPace
10-gigabit ethernet
DenSity
DenSity
fully reDunDant
harDware
harDware
multichaSSiS
caPable
caPable
T320
320 gbps
385 Mpps
1/3 rack
(19 in)
(19 in)
16
Yes
No
T640
640 gbps
770 Mpps
1/2 rack
(19 in)
(19 in)
32
Yes
Yes
T1600
1.6 Tbps
1.92 Billion pps
1/2 rack
(19 in)
(19 in)
80 (line rate)
160 (oversubscribed)
Yes
Yes
TX Matrix with
4 x T640
4 x T640
2.5 Tbps
3 Billion pps
3 racks
128
Yes
Yes
TX Matrix Plus
with 4 x T1600
with 4 x T1600
6.4 Tbps
7.68 Billion pps
3 racks (1 x 23 in
for TX Matrix Plus,
2 x 19 in for T1600)
for TX Matrix Plus,
2 x 19 in for T1600)
320 (line rate)
640 (oversubscribed)
Yes
Yes
T Series routers enable service providers to deliver stringent QoS
and meet SLAs for multiservice transit and IP services. In addition,
Juniper’s industry-leading IP/MPLS capabilities guarantee that the
service level and performance of critical services are maintained,
while extending the effective lifespan of legacy network assets.
The T Series is ideal for creating routed infrastructures that must
scale to meet constantly growing Internet traffic for all varieties
of applications. Furthermore, capacity-based power consumption
for all T Series routers is the lowest in the industry. The following
table illustrates the scaling characteristics of the T Series family.
and meet SLAs for multiservice transit and IP services. In addition,
Juniper’s industry-leading IP/MPLS capabilities guarantee that the
service level and performance of critical services are maintained,
while extending the effective lifespan of legacy network assets.
The T Series is ideal for creating routed infrastructures that must
scale to meet constantly growing Internet traffic for all varieties
of applications. Furthermore, capacity-based power consumption
for all T Series routers is the lowest in the industry. The following
table illustrates the scaling characteristics of the T Series family.
JcS1200
The Juniper Networks JCS1200 Control System is the industry’s
first purpose-built, control plane scaling platform, providing
high-power processing with a multi-CPU, multi-core server-class
computing environment. With scalable memory and storage
media, JCS1200 provides up to 12 routing engines in a compact
one-quarter rack chassis.
first purpose-built, control plane scaling platform, providing
high-power processing with a multi-CPU, multi-core server-class
computing environment. With scalable memory and storage
media, JCS1200 provides up to 12 routing engines in a compact
one-quarter rack chassis.
JCS1200 helps operators consolidate networks (corporate and
residential) and nodes (core and aggregation) onto a single
simplified infrastructure. Key applications for the JCS1200,
when used in conjunction with T Series routers, include network
virtualization, and scalable, high-performance route reflectors.
The result is high CapEx and OpEx savings, secure administrative
isolation between services, the rapid introduction of new services,
and unprecedented operational flexibility.
residential) and nodes (core and aggregation) onto a single
simplified infrastructure. Key applications for the JCS1200,
when used in conjunction with T Series routers, include network
virtualization, and scalable, high-performance route reflectors.
The result is high CapEx and OpEx savings, secure administrative
isolation between services, the rapid introduction of new services,
and unprecedented operational flexibility.
t320 router
The Juniper Networks T320 Core Router is designed for use
where rack space is at a premium and a wide range of interface
speeds are needed. The T320 consumes one-third of a standard
19 inch equipment rack and uses less power for efficient small
core applications. Yet the T320 router still offers unprecedented
density compared to competing high-end platforms, while
providing double the power efficiency.
where rack space is at a premium and a wide range of interface
speeds are needed. The T320 consumes one-third of a standard
19 inch equipment rack and uses less power for efficient small
core applications. Yet the T320 router still offers unprecedented
density compared to competing high-end platforms, while
providing double the power efficiency.
Each T320 router can support up to sixteen 10-gbps ports
(OC-192c/ STM-64 or 10-gigabit Ethernet) while allowing lower
speed connectivity down to channelized increments within the same
chassis. Power consumption is very low, requiring only 60 A at –48
VDC with 2,880 watts maximum and lower for typical configurations.
(OC-192c/ STM-64 or 10-gigabit Ethernet) while allowing lower
speed connectivity down to channelized increments within the same
chassis. Power consumption is very low, requiring only 60 A at –48
VDC with 2,880 watts maximum and lower for typical configurations.
Combined with its 320-gbps throughput and its 385-Mpps
forwarding rate, the T320 delivers non-blocking, any-to-any
connectivity and uncompromising performance with numerous
features enabled across multiple interfaces. Its density, speed,
and size make it ideal for small to medium cores, as well as
for aggregating access routers, peering, and metro Ethernet
applications.
forwarding rate, the T320 delivers non-blocking, any-to-any
connectivity and uncompromising performance with numerous
features enabled across multiple interfaces. Its density, speed,
and size make it ideal for small to medium cores, as well as
for aggregating access routers, peering, and metro Ethernet
applications.
t640 routing node
At 19 inches wide and a half-rack in height, the Juniper Networks
T640 Core Router addresses the need for highly scalable, high-
performance core routing at a fraction of the size of competitive
offerings. Each of the eight slots in the T640 delivers 40 gbps
with the ability to scale well beyond that capacity, fulfilling the
need for the high-bandwidth services of today and tomorrow.
T640 Core Router addresses the need for highly scalable, high-
performance core routing at a fraction of the size of competitive
offerings. Each of the eight slots in the T640 delivers 40 gbps
with the ability to scale well beyond that capacity, fulfilling the
need for the high-bandwidth services of today and tomorrow.
The T640 supports up to 8 OC-768c/STM-256 ports, 32 10-gbps
ports (10-gigabit Ethernet or OC-192/STM-64), 128 OC-48c/
STM-16 ports, and an industry-leading 320 gigabit Ethernet
ports. It delivers up to 640 gbps of capacity with the ability to
forward up to 770 million packets per second (Mpps). The T640
also supports lower speed interfaces for organizations looking
to combine high-speed core routing with dedicated access
aggregation in a single platform.
ports (10-gigabit Ethernet or OC-192/STM-64), 128 OC-48c/
STM-16 ports, and an industry-leading 320 gigabit Ethernet
ports. It delivers up to 640 gbps of capacity with the ability to
forward up to 770 million packets per second (Mpps). The T640
also supports lower speed interfaces for organizations looking
to combine high-speed core routing with dedicated access
aggregation in a single platform.
t1600 routing Platform
Also at 19 inches wide and a half-rack in height, the multichassis-
capable Juniper Networks T1600 Core Router addresses the need
for highly scalable, high-performance core routing at a fraction
of the size of competitive offerings. The T1600 delivers up to 1.6
Tbps of capacity (100 gbps/slot) with the ability to forward up to
1.92 billion pps.
capable Juniper Networks T1600 Core Router addresses the need
for highly scalable, high-performance core routing at a fraction
of the size of competitive offerings. The T1600 delivers up to 1.6
Tbps of capacity (100 gbps/slot) with the ability to forward up to
1.92 billion pps.
Juniper provides unique capabilities for upgrading T Series routers
to accommodate the changing requirements of service providers.
For example, the T640 can grow in-service into a T1600 by only
replacing the power module and switch fabric. Following such an
upgrade, the T1600 provides more than double the capacity of
T640, while only using fractionally more power.
to accommodate the changing requirements of service providers.
For example, the T640 can grow in-service into a T1600 by only
replacing the power module and switch fabric. Following such an
upgrade, the T1600 provides more than double the capacity of
T640, while only using fractionally more power.