Implementing Cisco Quality of Service en francais(QoS-F)

This course provides students with in-depth knowledge of IP QoS requirements, conceptual models using DiffServ, IntServ, and Best Effort (over provisioning), and the implementation of IP QoS on Cisco IOS switch and router platforms. The curriculum covers the theory of IP QoS, design issues, and configuration of various QoS mechanisms to facilitate the creation of effective administrative policies providing QoS. The course gives students design and usage rules for various advanced IP QoS features and the integration of IP QoS with underlying Layer 2 QoS mechanisms, allowing them to design and implement efficient, optimized, trouble-free multi-service networks. Mandatory prerequisite is CCNA. Understanding of BGP is also strongly suggested. This course is for network technicians responsible for VoIP networks.

This course is also offered as part of our LIVE and ONLINE program. Our LIVE and ONLINE learning modality delivers authorized Cisco training taught by a Cisco Certified instructor directly to customers.
 
Every student has access to the class through a standard conference bridge or VoIP with an optional USB Microphone-Headset.  Each student has access to their own unique pod of equipment throughout the week of study.  The online environment is created via WebEx, allowing a live instructor to deliver the training in real time.  By incorporating slides, notes, examples, and Q&A sessions, the instructor is able to recreate the classroom experience.  Our LIVE and ONLINE training is also completely interactive; students have the opportunity for discussion with the instructor as well as with their peers.

Course delivery / instruction will be in French.  Courseware will be in English.

CCNA suggested.

• Network technicians responsible for VoIP networks.
• Anyone seeking CCVP Certification.
• CCIE candidates.

After completing this course, the student should be able to:
• Given a converged network, explain the need to implement Quality of Service (QoS) and explain methods for implementing and managing QoS
• Given a converged network, identify and describe different models used for ensuring QoS in a network and explain key IP QoS mechanisms used to implement the models
• Given a converged network, explain the use of MQC and AutoQoS to implement QoS on the network
• Given a converged network and a policy defining QoS requirements, successfully classify and mark network traffic to implement the policy
• Given a congested network, use Cisco QoS queuing mechanisms to manage network congestion
• Given a converged network, use Cisco QoS congestion avoidance mechanisms to reduce the effects of congestion on the network
• Given a network, use Cisco QoS traffic policing and traffic shaping mechanisms to effectively limit the rate of network traffic

Module 1: Introduction to IP QoS

• Lesson 1:  Understanding the Need for QoS
• Lesson 2:  Understanding QoS
• Lesson 3:  Implementing QoS

Module 2:  The Building Blocks of QoS

• Lesson 1:  Identifying Models for Implementing QoS
• Lesson 2:  Understanding the Integrated Services Model
• Lesson 3:  Understanding the Differentiated Servies Model
• Lesson 4:  Identifying QoS Mechanisms

Module 3:  Introduction to MQC and Cisco AutoQoS

• Lesson 1:  Introducing Modular QoS CLI
• Lesson 2:  Introducing Cisco AutoQos VoIP
• Lesson 3:  Introducing Cisco AutoQoS for the Enterprise

Module 4:  Classification and Marking

• Lesson 1:  Understanding Classification and Marking
• Lesson 2:  Using MQC for Classification
• Lesson 3:  Using MQC for Class-Based Marking
• Lesson 4:  Using NBAR for Classification
• Lesson 5:  Configuring QoS Preclassify
• Lesson 6:  Configuring QoS Policy Propagation via BGP
• Lesson 7:  Configuring LAN Classification and Marking
• Lesson 8:  Understanding QoS in the Life of a Packet

Module 5:  Congestion Management

• Lesson 1:  Introducing Queuing
• Lesson 2:  Understanding Queuing Implementations
• Lesson 3:  Configuring FIFO and WFQ
• Lesson 4:  Configuring CBWFQ and LLQ
• Lesson 5:  Configuring LAN Congestion Management

Module 6:  Congestion Avoidance

• Lesson 1:  Introducing Congestion Avoidance
• Lesson 2:  Introducing RED
• Lesson 3:  Configuring Class-Based Weighted RED
• Lesson 4:  Configuring Explicit Congestion Notification

Module 7:  Traffic Policing and Shaping

• Lesson 1:  Understanding Traffic Policing and Shaping
• Lesson 2:  Configuring Class-Based Policing
• Lesson 3:  Configuring Class-Based Shaping
• Lesson 4:  Configuring Class-Based Shaping on Frame relay Interfaces
• Lesson 5:  Frame Relay Voice-Adaptive Shaping and Fragmentation

Module 8:  Link Efficiency Mechanisms

• Lesson 1:  Understanding Link Efficiency Mechanisms
• Lesson 2:  Configuring Class-Based Header Compression
• Lesson 3:  Configuring Link Fragmentation and Interleaving

Module 9:  QoS Best Practices

• Lesson 1:  Understanding Traffic Classifications Best Practices
• Lesson 2:  Deploying End-to-End Qos
• Lesson 3:  Providing QoS for Security

Labs: 

• QoS Lab Setup & Initialization
• Baseline QoS Measurement
• Configuring QoS with Cisco AutoQoS
• Classification and Marking Using MQC
• Classification Using NBAR
• Configuring QoS Preclassify
• LAN-Based Packet Classification and Marking
• Configuring Basic Queuing
• Configuring LLQ
• Configuring Queuing on a Catalyst Switch
• Configuring DSCP-Based WRED
• Configuring Class-Based Policing
• Configuring Class-Based Shaping
• Configuring Class-Based Header Compression
• Configuring LFI