• 100 Queen St W, Brampton, ON L6X 1A4, Canada
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START DATE END DATE CLASS TIMINGS MODE LOCATION ACTION
01/28/2019 02/01/2019
  • VLT
Live Online
04/29/2019 05/03/2019
  • ODL
Live Online
07/29/2019 08/02/2019
  • ODL
Live Online
10/21/2019 10/25/2019
  • VLT
Live Online

Implementing Cisco Quality of Service (QOS v2.5)

Course Overview

After finishing this course, the student will have the capacity to meet these general destinations:

  • You will have the capacity to distinguish, depict, and accurately actualize the suitable QoS systems required to make a viable managerial approach giving QoS

Prerequisites

The information and aptitudes that a student must have before going to this course are as per the following:

  • Interconnecting Cisco Networking Devices, Part 1 and 2 (ICND1 and ICND2)
  • Cisco Certified Networking Associate

Who Should Attend

The essential gathering of people for this course is as per the following:

  • Pre-and post-deals specialized architects in charge of outlining, actualizing, or investigating systems
  • System draftsmen in charge of planning multiservice systems to convey voice, video, and information movement in big business or specialist co-op conditions
  • Progressed Unified Communications Specialization
  • Ace UC Specialization
  • Ace Telepresence ATP
  • The optional crowd for this course is as per the following:
  • CCIE R&S Candidates

Implementing Cisco Quality of Service (QOS v2.5)

Cousre Outline

Module 1: Introduction to QoS

  • Lesson 1: Review Converged Networks
  • Focalized Networks
  • Quality Issues in Converged Networks
  • Accessible Bandwidth
  • Segments of Network Delay
  • Ascertaining End-to-End Delay
  • Jitter
  • Parcel Loss
  • Rundown
  • Lesson 2: Understand QoS
  • QoS Defined
  • QoS Policy Defined
  • Execute a QoS Policy
  • Distinguish Network Traffic
  • Voice Traffic Profile
  • Videoconferencing Traffic Profile
  • Cisco TelePresence Traffic Profile
  • Information Traffic Profile
  • Gap Network Traffic into Classes
  • Characterize Policies for Traffic Classes
  • QoS Mechanisms
  • QoS Implementation Methods
  • QoS Monitoring Methods
  • Cisco Medianet QoS Design
  • Outline
  • Contextual investigation 1-1: QoS Mechanisms
  • Assignment 1: Apply QoS Mechanisms
  • Lesson 3: Describe Best-Effort and Integrated Services Models
  • QoS Models
  • Best-Effort QoS Model
  • IntServ Model
  • Asset Reservation Protocol
  • RSVP Components
  • RSVP Interface Bandwidth Queuing
  • Outline
  • Lesson 4: Describe the Differentiated Services Model
  • DiffServ Model
  • DiffServ Terminology
  • DSCP Encoding
  • Per-Hop Behaviors
  • Sped up Forwarding
  • Guaranteed Forwarding
  • AF Drop Probability
  • Class Selector
  • Mix of IntServ and DiffServ
  • Outline
  • Lesson 5: Module Summary
  • References
  • Lesson 6: Module Self-Check

Module 2: Implement and Monitor QoS

  • Lesson 1: MQC Introduction
  • Secluded QoS CLI
  • MQC Components
  • Case: MQC Policy Configuration
  • Class Maps Overview
  • Match Operation in Class Maps
  • Approach Maps Overview
  • Administration Policy Overview
  • Various leveled Policy
  • Outline
  • Lesson 2: Monitor QoS
  • SNMP Management of QoS
  • Portray Class-Based QoS MIB
  • Cisco NBAR
  • Cisco NBAR Protocol Discovery
  • Cisco NBAR Protocol Discovery MIB
  • NetFlow
  • Cisco Flexible NetFlow
  • Cisco Flexible NetFlow Integration with NBAR
  • Class-Based Flexible NetFlow
  • Cisco Performance Monitor
  • Cisco Mediatrace
  • Cisco IP SLA
  • IP SLA: UDP Jitter
  • Outline
  • Lab 2-1: IP SLA Setup and QoS Baseline Measurement
  • Assignment 1: Verify Network Connectivity
  • Assignment 2: Create a Baseline Measurement of Network Traffic
  • Assignment 3: Measure the Network Performance Under Traffic Load
  • Assignment 4: QoS Measurement Lab Results
  • Lesson 3: Define Campus AutoQoS
  • AutoQoS
  • AutoQoS Macros
  • Put stock in Boundaries
  • Grounds AutoQoS Trust
  • Grounds AutoQoS Conditional Trust
  • Grounds AutoQoS Video
  • Grounds AutoQoS VoIP
  • Grounds AutoQoS Classify
  • Checking AutoQoS in the Campus
  • Outline
  • Lesson 4: Define WAN AutoQoS
  • Cisco AutoQoS for Routers
  • WAN AutoQoS VoIP
  • AutoQoS for the Enterprise Overview
  • Arranging AutoQoS for the Enterprise
  • Checking AutoQoS in the WAN
  • Outline
  • Lab 2-2: Configuring QoS with Cisco AutoQoS
  • Assignment 1: Configure Cisco AutoQoS Classify on the Catalyst 2960-S Switch
  • Assignment 2: Configure Cisco AutoQoS for the Enterprise on Cisco IOS Routers
  • Assignment 3: Measure Network Performance with Cisco AutoQoS for the Enterprise
  • Assignment 4: QoS Measurement Results
  • Lesson 5: Module Summary
  • References
  • Lesson 6: Module Self-Check

Module 3: Classification and Marking

  • Lesson 1: Classification and Marking Overview
  • Arrangement
  • Stamping
  • Arrangement and Marking at the Data Link Layer
  • Arrangement and Marking at the Network Layer
  • Mapping QoS Marking Between OSI Layers
  • QoS Service Class Defined
  • Administration Class Templates
  • RFC 4594 Marking Recommendations
  • Outline
  • Contextual investigation 3-1: Classification and Marking
  • Assignment 1: Classification and Marking
  • Assignment 2: Identify Network Locations Where Classification and Marking Should Be Applied
  • Lesson 2: MQC for Classification and Marking
  • MQC Classification Options
  • Arranging Class Maps
  • Checking Classification
  • MQC Marking Options
  • Designing Class-Based Marking
  • Observing Class-Based Marking
  • Designing IPV6 Classification and Marking
  • Synopsis
  • Lab 3-2: Classification and Marking Using MQC
  • Errand 1: Configure an IP Extended Access List
  • Errand 2: Configure MQC Classification
  • Errand 3: Configure Class-Based Marking
  • Lesson 3: NBAR for Classification
  • Cisco NBAR
  • NBAR Application Support
  • Designing NBAR With MQC
  • Grouping HTTP Traffic
  • NBAR2 Application Grouping
  • NBAR Port Map
  • NBAR Custom Protocols
  • Designing Custom Protocols
  • NBAR Worm Policing
  • NBAR versus Future Worms
  • Synopsis
  • Lab 3-3: Using NBAR for Classification
  • Errand 1: Upgrade the NBAR Protocol Pack
  • Errand 2: Discover Applications and Traffic by Using NBAR
  • Errand 3: Configure Classification with NBAR
  • Lesson 4: Use of QoS Preclassify
  • Issues with QoS on VPNs
  • ToS Byte Preservation
  • QoS Preclassify Operation
  • Designing QoS Preclassify
  • Observing QoS Preclassify
  • Synopsis
  • Lab 3-4: Configuring QoS Preclassify
  • Errand 1: Configure a GRE Tunnel
  • Errand 2: Configure QoS Preclassify
  • Lesson 5: Campus Classification and Marking
  • Grounds Classification and Marking
  • Review of QoS Trust Boundaries
  • Grounds Ingress QoS Models
  • QoS Map Tables: Marking
  • Inside DSCP
  • Applying Campus Switch Classification and Marking
  • Observing Campus Classification and Marking
  • Synopsis
  • Lab 3-5: Campus Classification and Marking Using MQC
  • Errand 1: Configure a Trust Boundary
  • Errand 2: Configure CoS-to-DSCP Mapping
  • Errand 3: Configure Class-Based Marking
  • Errand 4: Verify QoS Markings
  • Errand 5: Adjust Router Classification and Marking Policy
  • Lesson 6: Module Summary
  • References
  • Lesson 7: Module Self-Check

Module 4: Congestion Management

  • Lesson 1: Queuing Introduction
  • Blockage and Queuing
  • Lining Components
  • Equipment Queue Size
  • Blockage on Logical Interfaces
  • Lining Algorithms
  • FIFO Queuing
  • Need Queuing
  • Round-Robin Queuing
  • WRR Queuing
  • DRR Queuing
  • Synopsis
  • Lesson 2: Configure WFQ
  • Weighted Fair Queuing
  • WFQ Classification
  • WFQ Scheduling
  • WFQ Drop Operation
  • Advantages and Drawbacks of WFQ
  • Designing WFQ
  • Observing WFQ
  • Rundown
  • Lab 4-1: Configuring Fair Queuing
  • Undertaking 1: Configure Fair Queuing
  • Undertaking 2: Measure Network Performance with Fair Queuing
  • Undertaking 3: Adjust the Fair Queuing Configuration
  • Undertaking 4: Measure Network Performance with Fair Queuing Configured with 256 Dynamic Queues
  • Undertaking 5: QoS Measurement Lab Results
  • Lesson 3: Configure CBWFQ and LLQ
  • Class-Based Weighted Fair Queuing
  • CBWFQ Architecture
  • Advantages and Drawbacks of CBWFQ
  • Designing CBWFQ
  • Low Latency Queuing
  • LLQ Architecture
  • Designing LLQ
  • Observing LLQ-CBWFQ
  • Rundown
  • Lab 4-2: Configuring LLQ-CBWFQ
  • Undertaking 1: Configure a CBWFQ Policy with LLQ
  • Undertaking 2: Apply and Monitor CBWFQ with LLQ Operation
  • Undertaking 3: Measure Network Performance with CBWFQ
  • Undertaking 4: QoS Measurement Lab Results
  • Lesson 4: Configure Campus Congestion Management
  • Grounds Queuing
  • Impetus Switch Hardware Queue Nomenclature
  • Line Mapping
  • WRR on Campus Switches
  • WRR Bandwidth and Buffer Settings
  • SRR on Campus Switches
  • SRR Common and Reserved Buffers
  • Designing Ingress Queuing on Cisco Catalyst 3750 Series Switches
  • Designing Egress Queuing on Cisco Catalyst 3750 Series Switches
  • Observing Congestion Management On Cisco Catalyst 3750 Series Switches
  • Rundown
  • Lab 4-3: Configuring Campus-Based Queuing Mechanisms
  • Undertaking 1: Review Egress Queuing Defaults
  • Undertaking 2: Configure Global Egress Queuing Parameters
  • Undertaking 3: Configure and Monitor Egress Queuing
  • Lesson 5: Module Summary
  • References
  • Lesson 6: Module Self-Check

Module 5: Congestion Avoidance

  • Lesson 1: Congestion Avoidance Introduction
  • TCP Behavior
  • Blockage and TCP
  • Illustration: TCP Congestion Control Algorithms
  • Overseeing Congestion with Tail Drop
  • Effect of Tail Drop
  • Irregular Early Detection
  • RED Profiles and Modes
  • TCP Behavior Before and After RED
  • Rundown
  • Lesson 2: Configure Class-Based WRED
  • Weighted Random Early Detection
  • Class-Based WRED
  • WRED Building Blocks
  • WRED Profiles
  • IP Precedence-Based WRED
  • DSCP-Based WRED
  • Arrange CBWRED
  • Changing WRED Sensitivity to Bursts
  • Case: DSCP-Based WRED
  • Checking CBWRED
  • Outline
  • Contextual investigation 5-1: WRED Traffic Profiles
  • Assignment 1: Create WRED Traffic Profiles
  • Lesson 3: Configure ECN
  • Express Congestion Notification
  • ECN Field
  • ECN and WRED
  • ECN Operation
  • Arranging ECN
  • Checking ECN
  • Outline
  • Lab 5-2: Configuring DSCP-Based WRED
  • Assignment 1: Configure DSCP-Based WRED
  • Assignment 2: Monitor DSCP-Based WRED
  • Assignment 3: Configure DSCP-Based CBWRED with ECN
  • Assignment 4: Monitor DSCP-Based WRED with ECN
  • Lesson 4: Describe Campus-Based Congestion Avoidance
  • Clog Avoidance in the Campus
  • Weighted Tail Drop
  • Arranging WTD Thresholds on the Cisco Catalyst 3750 Series Switch
  • WRED on Campus Switches
  • Dynamic Buffer Limiting
  • Outline
  • Lab 5-3: Configuring WTD Thresholds
  • Assignment 1: Configure and Monitor Weighted Tail Drop
  • Lesson 5: Module Summary
  • References
  • Lesson 6: Module Self-Check

Module 6: Traffic Policing and Shaping

  • Lesson 1: Traffic Policing and Shaping Overview
  • Activity Policing and Traffic Shaping
  • Policing and Shaping Use Cases
  • Policing versus Molding
  • Single Token Bucket Model
  • Single Token Bucket Class-Based Policing
  • Double Token Bucket Class-Based Policing
  • Double Rate Token Bucket Class-Based Policing
  • Class-Based Traffic Shaping
  • Outline
  • Lesson 2: Configure Class-Based Policing
  • Class-Based Policing
  • Arranging Class-Based Policing
  • Case: Single-Rate Single Token Policer
  • Case: Single-Rate Dual Token Policer
  • Case: Dual-Rate Policer
  • Checking Class-Based Policing
  • Outline
  • Lesson 3: Campus Policing
  • Grounds Policing Overview
  • QoS Map Tables: Policing
  • Applying Campus Switch Policing
  • Grounds Aggregate Policing
  • Grounds Microflow Policing
  • Outline
  • Lab 6-1: Configuring Class-Based Policing
  • Assignment 1: Configure Single Token Bucket Class-Based Policing
  • Assignment 2: Monitor Single Token Bucket Class-Based Policing
  • Assignment 3: Configure Dual Token Bucket Class-Based Policing
  • Assignment 4: Monitor Dual Token Bucket Class-Based Policing
  • Lesson 4: Configure Class-Based Shaping
  • Class-Based Shaping
  • Molding Methods
  • Arranging Class-Based Shaping
  • Case: Shaping Configuration
  • Case: Hierarchical Shaping
  • Checking Class-Based Shaping
  • Synopsis
  • Lab 6-2: Configuring Class-Based Shaping
  • Errand 1: Migrate Traffic to the MPLS Service
  • Errand 2: Configure Class-Based Shaping
  • Errand 3: Configure Hierarchi
  • Lesson 6: Configure Frame Relay Voice-Adaptive Traffic Shaping and Fragmentation
  • Edge Relay Voice-Adaptive Traffic Shaping and Fragmentation
  • Advantages of Frame Relay Voice-Adaptive Traffic Shaping and Fragmentation
  • Edge Relay Voice-Adaptive Traffic Shaping and Fragmentation Operation
  • Arranging Frame Relay Voice-Adaptive Traffic Shaping and Fragmentation
  • Checking Frame Relay Voice-Adaptive Traffic Shaping and Fragmentation
  • Outline
  • Lesson 7: Module Summary
  • References
  • Lesson 8: Module Self-Check

Module 7: Link Efficiency Mechanisms

  • Lesson 1: Link Efficiency Mechanisms Overview
  • Connection Efficiency Mechanisms
  • Layer 2 Payload Compression
  • Header Compression
  • Huge Packet "Stop Out"
  • Serialization Delay
  • Connection Fragmentation and Interleaving
  • Part Size Recommendations for Voice
  • Rundown
  • Lesson 2: Configure Class-Based Header Compression
  • Header Compression
  • Class-Based TCP Header Compression
  • Illustration: Class-Based TCP Header Compression Configuration
  • Class-Based RTP Header Compression
  • Illustration: Class-Based RTP Header Compression
  • Designing Class-Based Header Compression
  • Observing Class-Based Header Compression
  • Rundown
  • Lab 7-1: Configuring Class-Based Header Compression
  • Undertaking 1: Configure Class-Based Header Compression
  • Undertaking 2: Monitor Class-Based Header Compression
  • Lesson 3: Configure LFI
  • LFI Options
  • Designing MLP with Interleaving
  • Observing MLP Interleaving
  • FRF.12 Frame Relay Fragmentation
  • Designing FRF.12 Frame Relay Fragmentation
  • Observing FRF.12 Frame Relay Fragmentation
  • Rundown
  • Lab 7-2: Configuring LFI
  • Undertaking 1: Configure LFI
  • Undertaking 2: Monitor LFI
  • Lesson 4: Module Summary
  • References
  • Lesson 5: Module Self-Check

Module 8: Deploying End-to-End QoS

  • Lesson 1: Apply Best Practices for QoS Policy Design
  • Ideally Deploying QoS Within the Enterprise
  • Deliberately Defining QoS Objectives
  • Cisco Modified RFC 4594 Marking Recommendations and Class Expansion
  • Understanding Application Service-Level Requirements
  • QoS Requirements for Control Plane Traffic
  • Control Plane Policing
  • Information Plane Policing
  • Arrangement and Marking Best Practices
  • Policing and Markdown Best Practices
  • Lining and Dropping Best Practices
  • Connection Efficiency Mechanisms Best Practices
  • Outline
  • Lesson 2: End-to-End QoS Deployments
  • Sending End-to-End QoS
  • Undertaking Campus QoS Guidelines
  • Grounds QoS Deployment Steps and Options
  • Branch Router QoS Guidelines
  • WAN Edge QoS Design Considerations
  • Undertaking Network with Layer 2 Service
  • Undertaking Network with Layer 3 Service
  • QoS Service Level Agreements
  • QoS Implications of Layer 3 Service Offerings
  • Undertaking to-Service Provider QoS Class Mapping
  • Re-Marking DSCP at SP MPLS Edge
  • Outline
  • Lab 8-1: Mapping Enterprise QoS Policy to the Service Provider Policy
  • Assignment 1: Adjust QoS Markings to Match the Service Provider QoS Policy
  • Assignment 2: Re-check Inbound Traffic from the Service Provider
  • Lesson 3: Module Summary
  • References
  • Lesson 4: Module Self-Check

Awards