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Designing Cisco QoS Solutions |
| Course Status: | Released | Courseware Features |
| Course Language: | English | |
| Course Duration: | 2 Hours | |
| Deployment Options: | Online, Interactive CDs, |
Audience |
| System engineers, network designers, and network engineers responsible for designing enterprise-wide networks, which support a wide variety of large scale switching, routing, network management, and security infrastructures; individuals working towards the Cisco Certified Design Professional (CCDP) and Cisco Certified Internetwork Expert (CCIE) qualifications |
Prerequisites |
| A comprehensive knowledge of networking and internetworking design, demonstrating competencies equivalent to CCDA level and CCNP level in routing, switching, remote access technologies, access control and communications, security, and network management solutions, including a detailed working knowledge of current technologies, media, protocols, operating systems, and devices |
Course Aim |
| This learning path instructs network designers on how to perform the conceptual and intermediate
design of a network infrastructure that supports the desired network solutions over intelligent network services
to achieve effective performance, scalability, and availability. It will provide the learner with the fundamental
aspects of the network design including QoS, security, network management, fine-tuning routing protocols, switching
structures, and IP multicast. It is an online, self-guided path designed to correlate to Cisco's own instructor-led course Designing Cisco Network Services Architectures (ARCH 1.0). ARCH is part of the recommended training path for those students seeking the Cisco Certified Design Professional (CCDP) and Cisco Certified Internetwork Expert (CCIE) qualifications. |
Learning Objectives |
| To identify the components of QoS and design scalable network QoS solutions |
Topics Covered |
| Identifying QoS mechanisms Enterprise network requirements for QoS IntServ and DiffServ models and classification tools Congestion management and traffic conditioning Signaling and link efficiency mechanisms Designing QoS for enterprise networks QoS design guidelines Designing QoS for the enterprise network QoS implementation example Case study: QoS design implementation |
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