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Cisco CCNP Certification Training ONT 1.0: Optimizing Converged Cisco Networks
 With Netwind Learning Center certification training for the CCNP ONT Course you will learn
about converged network requirements within the Cisco conceptual network models, the basic principles of VoIP networks and conversion to them, call control mechanisms, and how voice is
digitized for data transport You will also learn about how voice is encapsulated, bandwidth requirements and overhead, and how voice is implemented in an enterprise. The ONT training
also covers the converged network issues and how QoS optimizes performance, its models and methods of implementation and how classification and marking are used to define a QOS
service class, and configure and use NBAR for Cisco MQC class-based classification and marking operations. The Cisco CCNP certification training will also include how to implement
the basic and advanced queuing mechanisms for relieving network traffic congestion, how to configure queuing on a Cisco router and TCP and QOS support traffic management and
optimization, and how their mechanisms are implemented.
Target Audience
Individuals preparing for the Cisco Certified Network Professional CCNP and the Cisco Certified Design Professional CCDP
certifications; senior-level network support professionals, network administrators, network engineers, network managers, systems managers, or network designers.
Prerequisites
Introduction to Cisco Networking Technologies ICND 1 & 2 CCNA Certification. The ability to create interswitch connections and
the initial configuration of a router, an understanding of routing, routing protocols, WAN technologies, security risks, IP addressing, ALCs, client utilities, and IOS familiarity
Our Training includes:
- Over 17 hours of full-multi-media interactive training
- Simulated Router and Switch Labs
- Cisco Book
- 24 x 7 learner support by expert mentors via chat for one year
- Available in CD-ROM format or Online
- Simulated Certification Practice Exams
- We also offer Live Class Nationally and Live Boot Camps
You will learn:
- The converged network requirements within the Cisco conceptual network models, the basic principles of VoIP networks
and conversion to them, call control mechanisms, and how voice is digitized for data transport.
- How voice is encapsulated, bandwidth requirements and overhead, and how voice is implemented in an enterprise.
- To recognize converged network issues and how QoS optimizes performance, its models and methods of implementation.
- To recognize how classification and marking are used to define a QoS service class, and configure and use NBAR for Cisco MQC class-based classification and marking operations
- How to implement the basic and advanced queuing mechanisms for relieving network traffic congestion, and how to configure queuing on a Cisco router
- TCP and QoS support traffic management and optimization, and how their mechanisms are implemented
- The functionality of Cisco AutoQos, and how to configure and optimize it for an enterprise
- How to configure wireless security and basic wireless management
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CD-ROM ONT Training Course
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skontcd
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$395.00
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Online ONT Training Course
One Year Access
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skonton
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$365.00
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CD-ROM CCNP Certification Course
BCMSN, BSCI, ISCW, ONT
with Books, Mentoring, Simulated labs and test preps
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skccnpcd
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$899.00
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Online CCNP Certification Course
BCMSN, BSCI, ISCW, ONT
One Year Access
with Books, Mentoring, Simulated labs and test preps
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skccnpon
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$799.00
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Course Content
1.) Network Requirements and Introduction to VoIP
- recognize the IIN and SONA framework, and the Cisco conceptual network models.
- recognize the traffic conditions in a converged network.
- recognize the basic principles of VoIP networks, their components, and the roles of each component.
- determine how to migrate to a VoIP network in given scenario.
- recognize the stages of a call and compare call control mechanisms.
- recognize the process by which voice is digitized and packetized for transport on a data network.
identify compression bandwidth requirements for various codecs and data links, and recognize the purpose of a DSP.
2.) Supporting VoIP
- recognize how voice is encapsulated into IP packets, the purpose of RTP, and how header overhead is reduced with cRTP.
- recognize the impact of voice samples and packet size on bandwidth, its requirements, and the sources of overhead.
- recognize how to calculate total bandwidth for a VoIP call and reduce bandwidth consumption.
- recognize how VoIP is implemented in an enterprise and the models used.
- recognize voice commands in Cisco IOS configurations and CAC functionality.
- determine how to implement voice support in an enterprise network, given a scenario.
3.) IP QoS and its Implementation
- recognize the quality issues of converged networks.
- recognize the function of QoS and how it is implemented on a network.
- recognize how the three QoS models operate in a network.
- identify bottlenecks and performance losses in the network, and recommend appropriate QoS actions to mitigate specific performance issues in a given scenario.
- recognize the methods for configuring and monitoring QoS on a network, and how the CLI and MQC methods are implemented.
- recognize how to implement QoS on a network using the Cisco AutoQoS and the Cisco SDM QoS wizard methods.
4.) Classification and Marking
- recognize the purpose of classification and marking, and how they operate in a network.
- use classification and marking to manage network traffic in a given scenario.
- recognize how to define and implement a QoS service class.
- recognize the functionality of NBAR and the applications it supports, PDLMs, and NBAR Protocol Discovery.
- recognize how to configure and monitor NBAR Protocol Discovery.
- configure NBAR classification with MQC marking in a given scenario.
5.) Queuing
- recognize Cisco queuing operations, and the basic algorithms and configurations.
- recognize the procedure for configuring WFQ mechanisms.
- recognize the advanced queuing mechanisms of CBWFQ and LLQ, and the architecture, benefits, and configuration of CBWFQ.
- recognize the architecture, benefits, and configuration of LLQ.
- configure CBWFQ and LLQ, and apply them to a serial interface in a given scenario.
- use queuing mechanisms to solve network congestion problems in a given scenario.
6.) TCP and QoS Traffic Management and Mechanisms
- recognize how TCP, in conjunction with RED, WRED, and CBWRED, manages the traffic flow between two hosts.
- recognize how CBWRED is configured and monitored.
- recognize Cisco class-based traffic-policing and class-based traffic-shaping operations and basic configuration.
- recognize Cisco class-based header compression operations and basic configurations.
- recognize the purpose and basic configuration of QoS preclassify for traffic going over IPsec and GRE tunnels.
- configure QoS preclassify in a given scenario.
- identify the elements of IP QoS SLA, the typical network requirements within each functional block in an end-to-end network, and the best-practice QoS implementations.
- recognize QoS implementations and requirements on WAN customer edge and provider edge routers, and how the control plane and CoPP are deployed.
7.) AutoQoS
- recognize how Cisco AutoQoS is used to implement QoS policy and its prerequisites.
- recognize how to configure and verify Cisco AutoQoS on a network using the CLI.
- configure a router and a switch for AutoQoS in a given scenario.
- identify the QoS technologies that are automatically implemented on the network using Cisco AutoQoS and the known issues with Cisco AutoQoS.
- determine the QoS mechanisms that Cisco AutoQoS automatically provisions using DiffServ technology in a given scenario.
- recognize how to use show commands to isolate areas in the Cisco AutoQoS and modify the QoS configuration.
8.) Wireless Implementations
- recognize how WLAN QoS operates and is implemented.
- recognize why WLAN security is needed, its issues, methods, and evolution.
- recognize how enhanced 802.11 security improves on basic 802.11 security.
- identify the basic concepts of 802.1x authentication, LEAP, or EAP Cisco Wireless, EAP-FAST, EAP-TLS, and PEAP.
- propose WLAN security as an enterprise network solution, given a scenario.
- recognize the WPA authentication process.
- recognize how to configure an advanced feature set WLAN for encryption and authentication on lightweight access points.
- recognize the Cisco Unified Wireless Network solutions, how Cisco implements WLANs, and the features and benefits of CiscoWorks WLSE.
- recognize the features and operations of WCS, and the architecture and functionality of the Cisco 2700 Series Wireless Location Appliance.
- recognize basic Cisco WCS configuration and database management, and the Cisco WCS rogue access point methodology.
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