|
|
For additional session groups, please select from the pull down menu:
Virtual Private Networks
| VVT-2002 |
Design Guidelines for Voice/Video Enabled SOHO/Telecommuter Solutions |
|
Tuesday 1:30 pm - 3:30 pm; Thursday 10:00 am - 12:00 pm
|
This session will cover best-practice design guidelines to assist an organization in deploying a secure voice and data teleworker solution. It is common for today's networks to transport voice over IP (VoIP) across private WANs. Organizations can extend virtual private network (VPN) technology to a teleworker's home, extending their IP-based voice and data network across unsecure service provider networks.The session covers planning and design, solution benefits, best practices, and caveats to ensure a successful deployment. Also covered will be how to design for appropriate quality of service (QoS) to best maintain performance, and how to provide enterprise security in a home office with wireless access and family Internet users.
Attendees should have a basic understanding of IP Telephony, QoS, and IPSec. This session does not provide introductory information on these topics.
Associated Sessions:
VVT-2000 Choosing the Correct Voice and Video Signaling Strategy for Your Organization Part 1
VVT-2001 Choosing the Correct Voice and Video Signaling Strategy for Your Organization Part 2
VVT-2011 Designing Voice- and Video-Enabled IPSec VPNs
|
| VVT-2011 |
Designing Voice/Video Enabled IPSec VPNs |
|
Tuesday 10:00 am - 12:00 pm; Thursday 4:00 pm - 6:00 pm
|
This session will cover best-practice design guidelines to assist the enterprise customer with a successful voice-over-IP (VoIP) over IPSecurity (IPSec) virtual private network (VPN) deployment. The agenda includes planning and design issues as they relate to VoIP, quality of service (QoS), IPSec, and service provider considerations. Configuration examples will be included for the typical deployment models, including site to site and small office and home office, using access methods of Frame Relay, Internet T1s, cable, and DSL. Head-end redundancy and availability will be examined with IPSec only, as well as with IPSec and generic routing encapsulation (GRE) tunnels. Issues related to traffic load balancing will also be reviewed.Performance data from internal testing will be used to help attendees select the appropriate products for the desired link speed and number of users. A section on verification and troubleshooting techniques is included, as well as a review of common pitfalls and lessons learned from customer and internal Cisco deployments.
Attendees should have a basic understanding of IP Telephony, QoS, and IPSec. This session does not provide introductory information on these topics. This session is designed to be particularly useful for enterprise customers who plan to deploy voice and video over an IPSec VPN.
Associated Sessions:
VVT-2002 Design Guidelines for Voice- and Video-Enabled SOHO and Telecommuter Solutions
VVT-2003 Emergency Services and IP Telephony
VVT-2012 Securing IP Telephony
|
| RST-3061 |
Troubleshooting MPLS VPNs |
|
Wednesday 10:00 am - 12:00 pm; Thursday 10:00 am - 12:00 pm
|
This session looks to go into significant depth into how to analyse the operation of MPLS based VPN services. The session will cover the IOS (tm) commands used to configure MPLS VPNs and go onto look at to analyse the routers and other components used in the construction of a MPLS VPN network.
The Session will also consider all the various Debug commands that can be used to fault find and troubleshoot these networks.
This session is desgined for engineers involved in the deployment and support of MPLS networks offering VPN services, or for those using and MPLS VPN service offering.
Associated Sessions:
Other MPLS sessions associated with this session include : -
RST-1061 - Introduction to MPLS
RST-2062 - Deploying MPLS Traffic Engineering
RST-2061 - Deploying MPLS VPNs
|
Back to top
|
 |
|
