10-Gigabit Ethernet LAN/WAN PIC with XFP

Software features

Quality of service (QoS) per channel: weighted round-robin (WRR), random early detection

 

(RED), weighted random early detection (WRED)

 

Configurable WAN-PHY mode options:

 

loopback

 

mpls

 

path-trace

 

trigger

 

Flexible Ethernet Services Encapsulation

 

802.1q virtual LANs (VLANs)

 

Ethernet OAM 802.1ag continuity check

 

Ethernet OAM 802.3ah (remote loopback is not supported for this PIC)

 

VLAN stacking

 

Channels defined by two stacked VLAN tags

 

Multiple tag protocol identifiers (TPID) support

 

IP service for nonstandard TPID and stacked VLAN tags

 

MAC learning, accounting, and filtering

 

Virtual Router Redundancy Protocol (VRRP) support

Cables and connectors

You can install any transceiver supported by the PIC. For information about installing

 

and removing transceivers, see the PIC and Transceiver Installation Instructions.

 

Fiber-optic 10-gigabit small form-factor pluggable (XFP) transceivers:

 

Connector: Duplex LC/PC (Rx and Tx)

 

Optical interface support—See Table 28 on page 64

LEDs

Port LED, one for each port:

 

Off—Port is not enabled

Green—Port is online with no alarms or failures

Amber—Port is online with alarms for remote failures

Red—The router has detected a failure with alarms for local failures

10-Gigabit Ethernet LAN/WAN PIC with XFP 63

Page 63
Image 63
Juniper Networks T1600 manual Gigabit Ethernet LAN/WAN PIC with XFP

T1600 specifications

Juniper Networks T1600 is a robust, high-performance router designed for service provider and large enterprise networks. As part of Juniper's T series of routers, the T1600 is engineered to facilitate efficient and scalable network operations, making it ideal for environments requiring intensive data traffic management.

One of the T1600's standout features is its capacity to deliver a high level of performance while maintaining reliability. The router supports multiple interfaces, including Ethernet, MPLS, and IPv4/IPv6, allowing for flexible connectivity options tailored to a variety of deployment scenarios. With a forwarding capacity of up to 3.2 terabits per second, the T1600 ensures that network demands are met with ease, even during peak usage.

The T1600 is equipped with advanced technologies that enhance its operational capabilities. Its architecture is built on Juniper's proprietary Junos operating system, which provides a stable and secure platform for managing the various networking protocols. The software enables seamless integration of security, routing, and switching functionalities, reducing the complexity of network management.

Additionally, the router features IPv6 readiness, preparing networks for the next generation of internet traffic. This future-proofing addresses the inevitable exhaustion of IPv4 addresses and caters to the increasing demand for internet-connected devices globally.

Redundancy and fault tolerance are intrinsic to the T1600's design, ensuring continuous operation and minimal downtime. Its modular architecture allows for easy upgrades and replacement of components, facilitating maintenance without significantly impacting network performance.

The T1600 also supports advanced Quality of Service (QoS) features, enabling network administrators to prioritize traffic according to business needs. This capability is crucial for applications that require consistent performance, such as VoIP and video conferencing, where latency and jitter can severely impact user experience.

Scalability is another critical characteristic of the T1600. As network demands grow, organizations can add capacity incrementally, ensuring that infrastructure investments align with evolving requirements.

In summary, Juniper Networks T1600 is a high-capacity, reliable router featuring advanced routing capabilities, robust security, and exceptional redundancy. Its integration of cutting-edge technologies positions it as a powerful solution for enterprises and service providers striving to enhance their networking infrastructure for the future.