Chapter 3 Configuring General Router Features

 

Manually Setting the Router Clock

 

 

F I N A L D R A F T — C i s c o C o n f i d e n t i a l

0

output errors, 0 underruns, 0 applique, 0 resets

0

output buffer failures, 0 output buffers swapped out

0

carrier transitions

Related Documents

Related Topic

Document Title

 

 

Additional information about configuring management

Cisco ASR 9000 Series Aggregation Services Router

interfaces

Interface and Hardware Component Configuration Guide

 

 

Manually Setting the Router Clock

Generally, if the system is synchronized by a valid outside timing mechanism, such as a Network Time Protocol (NTP) or VINES clock source, you need not set the software clock. Use the clock set command for initial configuration or if a network time source is not available.

The clock timezone command should be entered before the clock is set because it defines the difference between the system time and Coordinated Universal Time (UTC). When you set the time, you set the system time, and the router uses the clock timezone command setting to translate that time to UTC. The system internally keeps time in UTC. When you type the show clock command, the router displays the system time.

To manually set the router clock, complete the following steps:

SUMMARY STEPS

1.configure

2.clock timezone zone hours-offset

3.commit

4.end

5.clock set hh:mm:ss dd mm yyyy

6.clock update-calendar

7.show clock

 

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Cisco Systems A9KMOD80TR Manually Setting the Router Clock, Related Documents, Related Topic Document Title, Commit End

A9KMOD80TR, A9K24X10GETR, ASR 9000 specifications

Cisco Systems has long been a leader in networking technology, providing cutting-edge solutions for service providers and enterprise organizations alike. Among their standout products is the Cisco ASR 9000 Series Aggregation Services Routers, notably the A9K24X10GETR and the A9KMOD80TR models. These routers are engineered to deliver unmatched performance, scalability, and versatility for networks that require high bandwidth and low latency.

The Cisco ASR 9000 Series is built for the needs of today's complex service provider and enterprise networks. A significant feature of the A9K24X10GETR is its 24-port 10-Gigabit Ethernet module. This functionality allows for high-density connectivity, making it ideal for aggregating numerous connections to different parts of a network while maintaining optimal performance. Whether used for Internet service providers delivering high-speed connectivity or for enterprises looking to connect multiple branches, the A9K24X10GETR provides robust and reliable data transmission.

Further enhancing the capabilities of the ASR 9000 is the A9KMOD80TR module, which supports an extensive range of services. This module is designed to run a variety of technologies, including Layer 2 and Layer 3 services, MPLS (Multiprotocol Label Switching), and IPv6. Its ability to integrate seamlessly into existing infrastructures while providing the advanced features customers demand makes it an invaluable asset for network engineering teams.

Another cutting-edge technology present in the ASR 9000 Series is its support for eBGP (External Border Gateway Protocol), which plays a critical role in managing traffic across multiple networks. The routers are equipped with advanced telemetry features, empowering operators with real-time insights into network performance and health. Additionally, they come with integrated security features that protect against DDoS threats and other vulnerabilities.

In summary, Cisco's ASR 9000 Series, particularly the A9K24X10GETR and A9KMOD80TR, combines high-density connections, extensive service support, and advanced security and telemetry capabilities. These routers are perfect for demanding environments where reliable performance and adaptability are crucial. With their focus on innovation and performance, Cisco continues to shape the future of networking technology.